WO2014141445A1 - Developing cartridge - Google Patents

Developing cartridge Download PDF

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Publication number
WO2014141445A1
WO2014141445A1 PCT/JP2013/057279 JP2013057279W WO2014141445A1 WO 2014141445 A1 WO2014141445 A1 WO 2014141445A1 JP 2013057279 W JP2013057279 W JP 2013057279W WO 2014141445 A1 WO2014141445 A1 WO 2014141445A1
Authority
WO
WIPO (PCT)
Prior art keywords
electrode
developing
developing cartridge
coupling
cartridge according
Prior art date
Application number
PCT/JP2013/057279
Other languages
French (fr)
Japanese (ja)
Inventor
泰生 深町
板橋 奈緒
直哉 神村
勲朗 岸
貴司 清水
靖 岡部
雅敏 白木
進 佐久間
啓城 森
佐藤 正吾
Original Assignee
ブラザー工業株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by ブラザー工業株式会社 filed Critical ブラザー工業株式会社
Priority to PCT/JP2013/057279 priority Critical patent/WO2014141445A1/en
Publication of WO2014141445A1 publication Critical patent/WO2014141445A1/en

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Classifications

    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03GELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
    • G03G15/00Apparatus for electrographic processes using a charge pattern
    • G03G15/06Apparatus for electrographic processes using a charge pattern for developing
    • G03G15/065Arrangements for controlling the potential of the developing electrode
    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03GELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
    • G03G21/00Arrangements not provided for by groups G03G13/00 - G03G19/00, e.g. cleaning, elimination of residual charge
    • G03G21/16Mechanical means for facilitating the maintenance of the apparatus, e.g. modular arrangements
    • G03G21/1642Mechanical means for facilitating the maintenance of the apparatus, e.g. modular arrangements for connecting the different parts of the apparatus
    • G03G21/1652Electrical connection means
    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03GELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
    • G03G21/00Arrangements not provided for by groups G03G13/00 - G03G19/00, e.g. cleaning, elimination of residual charge
    • G03G21/16Mechanical means for facilitating the maintenance of the apparatus, e.g. modular arrangements
    • G03G21/1661Mechanical means for facilitating the maintenance of the apparatus, e.g. modular arrangements means for handling parts of the apparatus in the apparatus
    • G03G21/1676Mechanical means for facilitating the maintenance of the apparatus, e.g. modular arrangements means for handling parts of the apparatus in the apparatus for the developer unit
    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03GELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
    • G03G21/00Arrangements not provided for by groups G03G13/00 - G03G19/00, e.g. cleaning, elimination of residual charge
    • G03G21/16Mechanical means for facilitating the maintenance of the apparatus, e.g. modular arrangements
    • G03G21/1642Mechanical means for facilitating the maintenance of the apparatus, e.g. modular arrangements for connecting the different parts of the apparatus
    • G03G21/1647Mechanical connection means

Definitions

  • the present invention relates to a developing cartridge for use in an image forming apparatus employing an electrophotographic system.
  • a conventional electrophotographic image forming apparatus includes an apparatus main body, a developing unit having a developing roller, and a cartridge including a drum unit having a photosensitive drum.
  • the cartridge is configured to be attached to or detached from the apparatus main body (see, for example, Patent Document 1 below).
  • the apparatus main body further includes an electrode of the apparatus main body for supplying power to the cartridge.
  • the electrode of the apparatus main body is configured to be able to advance and retract with respect to the cartridge.
  • the electrode of the apparatus main body is retracted so as not to obstruct the mounting of the cartridge before the cartridge is mounted on the apparatus main body.
  • the electrode protrudes into the inside of the apparatus main body and comes into contact with the electrode of the cartridge by operating the movable member after the operator mounts the cartridge on the apparatus main body.
  • An object of the present invention is to provide a developing cartridge that can reduce the size of an image forming apparatus.
  • the developing cartridge of the present invention is configured to transmit a developing roller having a first axis extending in the first direction and electric power supplied from the outside to the developing roller. And an electrode having a long shape along the first axis of the developing roller.
  • the electrode is configured to move between a first position and a second position where the electrode is located outside the first position.
  • the developing cartridge includes the electrode that can move outward from the first position to the second position.
  • the developing cartridge can receive power from the image forming apparatus with the electrode positioned at the second position.
  • the developing cartridge can receive power from the image forming apparatus even when the image forming apparatus does not have a configuration of moving toward the developing cartridge.
  • the electrode may be configured to move between the first position and the second position along the first axis.
  • the developing cartridge of the present invention may include a moving mechanism configured to move the electrode to the first position or the second position.
  • the electrode can be moved by the moving mechanism.
  • the moving mechanism may include a moving member configured to move the electrode to the first position or the second position.
  • the electrode can be moved to the first position or the second position with a simple configuration.
  • the moving mechanism may further include a biasing member that biases the electrode.
  • the electrode can be reliably moved to the first position or the second position.
  • the biasing member may always bias the electrode toward the second position.
  • the moving member has a pressing position in which the moving member presses the electrode toward the first position against the urging force of the urging member, and a pressure release in which the moving member presses the electrode toward the first position. It may be configured to move to a position.
  • the developing cartridge of the present invention may include a first regulating member configured to regulate the movement of the electrode.
  • unintended movement of the electrode can be regulated by the first regulating member.
  • the electrode can be reliably positioned at the first position or the second position.
  • the first restricting member may be configured to restrict movement of the moving mechanism.
  • the developing cartridge of the present invention may include a force receiving portion configured to move the electrode by moving by receiving an external force.
  • the electrode can be moved using an external force.
  • the force receiving portion may be configured to move the moving mechanism by receiving a force from the outside and moving.
  • the developing cartridge of the present invention may include a second restricting member configured to restrict the movement of the force receiving portion.
  • the unintended movement of the force receiving portion can be restricted by the second restricting member.
  • the developing cartridge of the present invention may include a blocking member configured to block transmission of an external force received by the force receiving portion from the force receiving portion to the moving mechanism.
  • the interlocking between the force receiving portion and the moving mechanism is released by the blocking member, and the movement mechanism can be prevented from moving when the force receiving portion is moved by an unintended force from the outside.
  • the developing cartridge of the present invention may have a wall positioned at a distance from the developing roller in a direction orthogonal to the first axis.
  • the force receiving portion may be disposed on the wall.
  • the force receiving portion can reliably receive force from a direction orthogonal to the first axis of the developing roller.
  • the force receiving portion may include a grip portion.
  • the force receiving portion can reliably receive the force by the operator holding and operating the grip portion.
  • the grip portion may be arranged at the center of the force receiving portion in the first direction.
  • the developing cartridge of the present invention is configured to transmit the driving force from the outside to the developing roller, the first wall, the second wall positioned at a distance from the first wall in the first direction. And a coupling.
  • the electrode and the coupling may be disposed on the first wall.
  • the configuration for outputting electric power to the electrode and the configuration for outputting a driving force to the coupling can be concentrated on the side facing the first wall in the image forming apparatus.
  • the developing cartridge of the present invention may include a passive member configured to receive a driving force from the coupling.
  • the electrode is in contact with the coupling part and the passive member, a common tangent line between the coupling and the passive member, a circumferential surface of the coupling configured to contact the passive member, and the coupling. It may be arranged in a region surrounded by the peripheral surface of the passive member configured as described above.
  • the electrode can be disposed in the vicinity of the coupling, and the development cartridge can be reduced in size.
  • the electrode may be elastically deformable along the first axis.
  • the electrode can elastically contact the electrode of the image forming apparatus.
  • the electrodes can be contacted more reliably.
  • the electrode may be elastically deformable within a range of 2 to 5 mm.
  • the electrode can be elastically brought into contact with the contact of the image forming apparatus while ensuring the contact pressure of the electrode with respect to the contact of the image forming apparatus.
  • the electrode can be made to contact the contact point of the image forming apparatus more reliably.
  • the electrode may be a metal.
  • the electrode may be elastically deformable in an orthogonal direction orthogonal to the first axis.
  • the electrode is elastically deformed when an external configuration interferes with the electrode in a direction orthogonal to the first axis of the developing roller.
  • the electrode can be prevented from being damaged when an unintended external force is applied to the electrode from a direction orthogonal to the first axis of the developing roller.
  • the dimension of the electrode may be 0.01 to 3 mm.
  • an electrode can be comprised thinly and an electrode can be easily elastically deformed.
  • the developing cartridge of the present invention may further include a collar extending along the first axis and disposed in the vicinity of the developing roller.
  • the electrode may be configured to be located inward in the first direction relative to the collar at the first position, and to be located outward in the first direction relative to the collar at the second position.
  • the electrode when the electrode is positioned at the first position, the electrode can be positioned inward of the first collar.
  • the electrode can be prevented from interfering with the external configuration.
  • the electrode may include a conducting part and an insulating part covering at least a part of the surface of the conducting part.
  • the conducting portion and the insulating portion may be configured to move integrally.
  • the conductive portion and the insulating portion are configured to move separately. According to such a configuration, only the conductive portion can be moved with respect to the insulating portion, and the conduction of the electrode can be achieved with a simple configuration. Securing uninterrupted conduction between the external configuration and the electrode can be realized.
  • the configuration of the image forming apparatus can be simplified, and the size of the image forming apparatus can be reduced.
  • FIG. 1 is a central sectional view of a developing cartridge to which the first embodiment of the present invention is applied.
  • FIG. 2 is a central cross-sectional view showing a form of a printer in which the developing cartridge according to the first embodiment of the present invention is mounted.
  • FIG. 3 is a plan view of the developing cartridge shown in FIG.
  • FIG. 4 is a perspective view of the first frame of the developing cartridge shown in FIG. 2 as viewed from the lower left.
  • FIG. 5 is a perspective view of the developing cartridge driving unit shown in FIG. 2 as viewed from the upper left.
  • FIG. 6 shows the drive unit shown in FIG. 5 with the developing cartridge cover removed.
  • FIG. 7 is a left side view of the driving unit shown in FIG.
  • FIG. 8 is an exploded perspective view of the drive unit shown in FIG. FIG.
  • FIG. 9 is an explanatory view for explaining the meshing state between the developing coupling gear and the developing gear of the developing cartridge shown in FIG.
  • FIG. 10 is a perspective view of the developing cartridge shown in FIG. 2 as viewed from the right front.
  • FIG. 11 is an exploded perspective view of the power receiving unit of the developing cartridge shown in FIG.
  • FIG. 12 shows the power receiving unit shown in FIG. 9 with the developing cartridge cover removed.
  • FIG. 13 is a right side view of the power receiving unit shown in FIG. 11.
  • 14 is a cross-sectional view of the developing cartridge taken along the line AA in FIG. FIG.
  • FIG. 15A is an explanatory diagram for explaining the interlocking between the handle member and the left linear cam, and shows a state in which the protrusion is in contact with the left linear cam while the handle member moves from the extended position to the tilted position. It is explanatory drawing shown.
  • FIG. 15B is an explanatory diagram illustrating the interlocking between the handle member and the left linear cam, and is an explanatory diagram illustrating a state where the handle member is positioned at the tilted position and the left linear cam is positioned at the pressing position.
  • FIG. 16A is an explanatory diagram for explaining the interlocking between the handle member and the right translation cam, and shows a state in which the protrusion is in contact with the right translation cam while the handle member moves from the extended position to the tilt position.
  • FIG. 16B is an explanatory diagram illustrating the interlocking between the handle member and the right linear cam, and is an explanatory diagram illustrating a state in which the handle member is positioned at the tilt position and the right linear cam is positioned at the pressing release position.
  • FIG. 17 is a perspective view of the drive unit shown in FIG. 15B as viewed from the upper left.
  • FIG. 18 is a perspective view of the power reception unit illustrated in FIG. 16B as viewed from the upper right.
  • 19 is a cross-sectional view taken along the line AA of FIG. 3 showing a state where the development coupling is located at the outward position and the development electrode is located at the outward position.
  • FIG. 17 is a perspective view of the drive unit shown in FIG. 15B as viewed from the upper left.
  • FIG. 18 is a perspective view of the power reception unit illustrated in FIG. 16B as viewed from the upper right.
  • 19 is a cross-sectional view taken along the line AA of FIG. 3 showing a state where the
  • FIG. 20A is an explanatory diagram for explaining the interlocking between the handle member and the left translation cam, and the protrusion is a second engagement portion of the left translation cam while the handle member moves from the tilted position to the extended position. It is explanatory drawing which shows the state contact
  • FIG. 20B is an explanatory diagram for explaining the interlocking between the handle member and the left linear cam, and the protrusion is a second engaging portion of the left linear cam while the handle member moves from the tilted position to the extended position. It is explanatory drawing which shows the state contact
  • FIG. 20A is an explanatory diagram for explaining the interlocking between the handle member and the left translation cam, and the protrusion is a second engagement portion of the left translation cam while the handle member moves from the tilted position to the extended position. It is explanatory drawing which shows the state contact
  • FIG. 20C is an explanatory diagram illustrating the interlocking between the handle member and the left linear cam, and is an explanatory diagram illustrating a state in which the handle member is positioned at the extended position and the left linear cam is positioned at the pressing release position. is there.
  • FIG. 21A is an explanatory view for explaining the interlocking between the handle member and the right translation cam, and the projection is a second engagement portion of the right translation cam in the middle of the movement of the handle member from the tilted position to the extended position. It is explanatory drawing which shows the state contact
  • FIG. 21B is an explanatory diagram illustrating the interlocking between the handle member and the right linear cam, and is an explanatory diagram illustrating a state in which the handle member is located at the extended position and the right linear cam is located at the pressing position.
  • FIG. 22A is an explanatory view illustrating the right link mechanism of the developing cartridge according to the second embodiment of the present invention, and shows a state where the right link mechanism is located at the first position and the developing electrode is located at the inward position. It is explanatory drawing.
  • FIG. 22B is an explanatory view illustrating the right link mechanism of the developing cartridge according to the second embodiment of the present invention, and shows a state where the right link mechanism is located at the second position and the developing electrode is located at the outward position. It is explanatory drawing.
  • FIG. 23A is an explanatory view illustrating the left link mechanism of the developing cartridge according to the second embodiment of the present invention, in which the left link mechanism is located at the third position and the developing coupling is located at the inward position. It is explanatory drawing shown.
  • FIG. 23B is an explanatory diagram for explaining the left link mechanism of the developing cartridge according to the second embodiment of the present invention, in which the left link mechanism is located at the fourth position and the developing coupling is located at the outward position. It is explanatory drawing shown.
  • FIG. 24 is an exploded view of the left link mechanism.
  • FIG. 25 is a perspective view showing the driving unit of the developing cartridge according to the third embodiment of the present invention, viewed from the upper right. 26 is an exploded perspective view of the drive unit shown in FIG. FIG.
  • FIG. 27A is an explanatory view for explaining the interlocking between the handle member and the left interlocking mechanism of the developing cartridge according to the third embodiment of the present invention, in which the handle member is located at the extended position and the cam member is located at the pressing position. It is explanatory drawing which shows the state which carried out.
  • FIG. 27B is an explanatory diagram for explaining the interlocking between the handle member and the left interlocking mechanism of the developing cartridge according to the third embodiment of the present invention, in which the handle member is positioned at the tilt position and the cam member is positioned at the press release position. It is explanatory drawing which shows the state which carried out.
  • FIG. 28 is a perspective view of the drive unit shown in FIG. 27B as viewed from the upper right.
  • FIG. 29 is a cross-sectional view taken along the line BB of the drive unit shown in FIG.
  • FIG. 30 is an explanatory diagram for explaining transmission of driving force from the development coupling to the supply gear.
  • FIG. 31 is an explanatory diagram for describing a modification of the drive unit according to the third embodiment of the present invention.
  • FIG. 32 is an explanatory diagram for explaining a developing cartridge according to a fourth embodiment of the present invention.
  • FIG. 33 is an exploded perspective view of the gear train shown in FIG.
  • FIG. 34 is an explanatory diagram for explaining the coupling support member shown in FIG. 33.
  • FIG. 35A is a perspective view of a developing cartridge driving unit according to the fifth embodiment of the present invention as viewed from the left front side.
  • FIG. 35A is a perspective view of a developing cartridge driving unit according to the fifth embodiment of the present invention as viewed from the left front side.
  • 35B is a perspective view seen from the front lower side of the drive unit with the cover removed from the drive unit of FIG. 35A.
  • 36 is a left side view of the driving unit shown in FIG. 35B.
  • FIG. 37A is a cross-sectional view taken along the line C-C of the drive unit shown in FIG. 36, and shows a state where the development coupling and the development electrode are arranged at the inward position.
  • FIG. 37B is a cross-sectional view taken along the line CC of the drive unit shown in FIG. 36, and shows a state in which the development coupling and the development electrode are disposed at the outer position.
  • FIG. 38 is a perspective view of the cover shown in FIG. 35A as viewed from the lower right.
  • FIG. 39A is an explanatory diagram for explaining the development coupling and the movement of the development electrode in the development cartridge according to the fifth embodiment of the present invention, in the middle of the movement of the handle member from the tilted position to the extended position. It is explanatory drawing which shows the state which contact
  • FIG. 39B is an explanatory diagram for explaining the development coupling and the movement of the development electrode in the development cartridge according to the fifth embodiment of the present invention in the state shown in FIG. 39A. It is explanatory drawing which shows a mode that the coupling moved to the left slightly.
  • FIG. 39B is an explanatory diagram for explaining the development coupling and the movement of the development electrode in the development cartridge according to the fifth embodiment of the present invention in the state shown in FIG. 39A. It is explanatory drawing which shows a mode that the coupling moved to the left slightly.
  • FIG. 39B is an explanatory diagram for explaining the development coupling and the movement of the development electrode in the development cartridge according to
  • FIG. 40A is an explanatory diagram for explaining the development coupling and the movement of the development electrode in the development cartridge according to the fifth embodiment of the present invention, in which the protrusion hits the inclined portion of the second engagement portion of the linear cam. It is explanatory drawing which shows the state which contact
  • FIG. 40B is an explanatory diagram for explaining the development coupling and the movement of the development electrode in the development cartridge according to the fifth embodiment of the present invention in the state shown in FIG. 40A. It is explanatory drawing which shows a mode that it moved to.
  • FIG. 41A is an explanatory diagram for explaining the development coupling and the movement of the development electrode in the development cartridge according to the fifth embodiment of the present invention, in which the handle member is in the tilted position and the linear cam is in the pressing position.
  • FIG. 41B is an explanatory diagram for explaining the development coupling and the movement of the development electrode in the development cartridge according to the fifth embodiment of the present invention. In the state shown in FIG. 41A, the development coupling and the development electrode are outward. It is explanatory drawing which shows a mode that it located in the position.
  • FIG. 42A is a perspective view of the driving portion of the developing cartridge according to the sixth embodiment of the present invention as viewed from the left front side.
  • FIG. 42B is a perspective view showing a state where the cover of the developing cartridge according to the sixth embodiment of the present invention shown in FIG. 42A is removed.
  • FIG. 43A is an explanatory diagram for explaining the movement of the left linear cam shown in FIG.
  • FIG. 43B is an explanatory diagram for explaining the movement of the left linear cam shown in FIG. 42B and is a diagram illustrating a state in which the left linear cam is located at the pressing position and the regulating member is located at the regulation releasing position.
  • FIG. 43C is an explanatory diagram for explaining the movement of the left linear cam shown in FIG. 42B, and is a diagram illustrating a state in which the left linear cam is located at the pressing position and the regulating member is located at the regulating position.
  • FIG. 44 is a perspective view of the developing cartridge according to the seventh embodiment viewed from the left front.
  • FIG. 45 is an exploded perspective view of the drive unit shown in FIG. 46A is an explanatory diagram for explaining the movement of the engaging shaft of the developing cartridge shown in FIG. 45, and is an explanatory diagram showing a state in which the engaging shaft is located at the disengagement position.
  • FIG. 46B is an explanatory diagram for explaining the movement of the engagement shaft of the developing cartridge shown in FIG. 45 and is a diagram for illustrating a state in which the engagement shaft is located at the engagement position.
  • 47A is a DD cross-sectional view of the drive unit shown in FIG. 44, and is an explanatory view showing a state where the engagement shaft is located at the engagement release position.
  • FIG. 47B is a DD cross-sectional view of the drive unit shown in FIG.
  • FIG. 48A is an explanatory view for explaining the mounting of the developing cartridge to the main casing with the handle member disposed at the extended position in the developing cartridge according to the seventh embodiment of the present invention. It is explanatory drawing which shows the state arrange
  • FIG. 48B is an explanatory view for explaining the mounting of the developing cartridge to the main casing with the handle member disposed at the extended position in the developing cartridge of the seventh embodiment of the present invention. It is explanatory drawing which shows the state by which it inserted in and the engagement shaft has been arrange
  • FIG. 48A is an explanatory view for explaining the mounting of the developing cartridge to the main casing with the handle member disposed at the extended position in the developing cartridge according to the seventh embodiment of the present invention. It is explanatory drawing which shows the state arrange
  • FIG. 48B is an explanatory view for explaining the mounting of the developing cartridge to the main casing with the handle member disposed at the extended position in the developing cartridge of the seventh embodiment of the present invention
  • FIG. 48C is an explanatory view for explaining the mounting of the developing cartridge to the main casing of the developing cartridge with the handle member disposed at the extended position in the developing cartridge according to the seventh embodiment of the present invention. It is explanatory drawing which shows a mode that it moves from an engagement cancellation
  • FIG. 49A is an explanatory view illustrating the mounting of the developing cartridge to the main body casing with the handle member disposed at the tilt position in the developing cartridge according to the seventh embodiment of the present invention. It is explanatory drawing which shows the state arrange
  • FIG. 49B is an explanatory view for explaining the mounting of the developing cartridge in the main body casing in the state where the handle member is disposed at the tilt position in the developing cartridge according to the seventh embodiment of the present invention. It is explanatory drawing which shows the state which the engagement shaft contact
  • FIG. 50A is an explanatory diagram illustrating a modification of the developing electrode of the present invention, and is an explanatory diagram illustrating the developing electrode in which the contact portion of the conductive member is covered with a thick insulating member.
  • FIG. 50B is an exploded view of the developing electrode shown in FIG. 50A.
  • FIG. 51A is an explanatory diagram illustrating a modified example of the developing electrode of the present invention, and is an explanatory diagram illustrating the developing electrode in which the contact portion of the conductive member is covered with a thin insulating member.
  • FIG. 51B is an exploded view of the developing electrode shown in FIG. 51A.
  • FIG. 52A is an explanatory diagram illustrating a modified example of the developing electrode, and is an explanatory diagram illustrating the developing electrode in which the conductive member has a tapered shape.
  • FIG. 52B is an exploded view of the developing electrode shown in FIG. 52A.
  • FIG. 53A is an explanatory diagram illustrating a modification of the developing electrode, and is an explanatory diagram illustrating the developing electrode in which the conductive member is a wire.
  • FIG. 53A is an explanatory diagram illustrating a modification of the developing electrode, and is an explanatory diagram illustrating the developing electrode in which the conductive member is a wire.
  • FIG. 53B is an exploded view of the developing electrode shown in FIG. 53A.
  • FIG. 54A is an explanatory diagram illustrating a modified example of the developing electrode, and is an explanatory diagram illustrating a state where the conductive member is located at the inward position.
  • FIG. 54B is an explanatory diagram illustrating a modified example of the developing electrode, and is an explanatory diagram illustrating a state where the conductive member is located at the outer position.
  • FIG. 55A is an explanatory view illustrating the assembled state of the developing electrode shown in FIG. 54B, and is an explanatory view illustrating the state where the developing electrode is assembled to the drive unit cover.
  • FIG. 55B is an explanatory diagram for explaining the assembled state of the developing electrode shown in FIG.
  • FIG. 54B is an explanatory diagram showing a state in which the developing electrode is disassembled.
  • FIG. 56A is a cross-sectional view of the developing electrode shown in FIG. 54B, showing a state where the conductive member is located at the inward position.
  • FIG. 56B is a cross-sectional view of the developing electrode shown in FIG. 54B, showing a state where the conductive member is located at the outer position.
  • FIG. 57A is an explanatory diagram illustrating a modified example of the developing electrode, and is an explanatory diagram illustrating a state where the conductive member is located at the inward position.
  • FIG. 57B is an explanatory diagram illustrating a modified example of the developing electrode, and is an explanatory diagram illustrating a state where the conductive member is located at the outer position.
  • FIG. 58A is an explanatory diagram illustrating a modified example of the developing electrode, and is an explanatory diagram illustrating a state where the conductive member is located at the inward position.
  • FIG. 58B is an explanatory diagram illustrating a modified example of the developing electrode, and is an explanatory diagram illustrating a state where the conductive member is located at the outer position.
  • the state in which the developing cartridge 7A is placed horizontally is used as the upper and lower reference. That is, the upper side in FIG. 1 is the upper side, and the lower side is the lower side. Further, the right side of FIG. 1 is the front side, and the left side of FIG. 1 is the rear side. Further, when the developing cartridge 7A is viewed from the front, the left and right reference is used. That is, the front side in FIG. 1 is the left side, and the back side is the right side.
  • the developing cartridge 7 ⁇ / b> A includes a developing roller 11, a supply roller 12, a layer thickness regulating blade 13, a toner container 14, and an agitator 6.
  • the developing roller 11 is rotatably supported at the rear end portion of the developing cartridge 7A. A part of the developing roller 11 is exposed from the opening at the rear end of the developing cartridge 7A.
  • the supply roller 12 is rotatably supported by the developing cartridge 7A at the front lower side of the developing roller 11.
  • the supply roller 12 is in contact with the front lower part of the developing roller 11.
  • the layer thickness regulating blade 13 is disposed above the developing roller 11.
  • the layer thickness regulating blade 13 has a substantially flat plate shape that is long in the left-right direction.
  • the lower end portion of the layer thickness regulating blade 13 is in contact with the front portion of the developing roller 11.
  • the toner container 14 is disposed in front of the supply roller 12 and the layer thickness regulating blade 13.
  • the toner storage unit 14 is configured to store toner.
  • the agitator 6 is configured to rotate in the toner storage unit 14.
  • the agitator 6 is configured to agitate the toner in the toner container 14 and supply the agitated toner to the supply roller 12.
  • the supply roller 12 is configured to supply the supplied toner to the developing roller 11 and to frictionally charge the toner to a positive polarity between the supply roller 12 and the developing roller 11.
  • the layer thickness regulating blade 13 is configured to regulate the toner carried on the developing roller 11 to a certain thickness.
  • Printer 1 is an electrophotographic monochrome printer.
  • the printer 1 includes a substantially box-shaped main body casing 2 and a process cartridge 5.
  • the main casing 2 has a front wall, a rear wall, an upper wall, a lower wall, a left wall, a right wall, and a front cover 4.
  • the front wall has an opening 3 penetrating in the front-rear direction.
  • the opening 3 is configured so that the process cartridge 5 can move between the inside of the main casing 2 and the outside of the main casing 2.
  • the front cover 4 is swingably supported on the front wall with its lower end as a fulcrum.
  • the front cover 4 is configured to open or close the opening 3.
  • the process cartridge 5 includes a drum cartridge 20 and a developing cartridge 7A.
  • the drum cartridge 20 includes a photosensitive drum 8, a scorotron charger 9, a transfer roller 10, and an accommodating portion 20A.
  • the photosensitive drum 8 is rotatably supported at the rear end portion of the process cartridge 5.
  • the photosensitive drum 8 has a substantially cylindrical shape that is long in the left-right direction.
  • the scorotron charger 9 is disposed at a rear upper position of the photosensitive drum 8 at a distance from the photosensitive drum 8.
  • the transfer roller 10 is disposed below the photosensitive drum 8 and is in contact with the lower end portion of the photosensitive drum 8.
  • the accommodating portion 20A is configured to detachably accommodate the developing cartridge 7.
  • the process cartridge 5 mounted in the main body casing 2 is removed from the main body casing 2 through the opening 3 by the operator when the front cover 4 opens the opening 3.
  • the developer cartridge 7 is removed from the drum cartridge 20 of the process cartridge 5 removed from the main casing 2 by the operator. Thereby, the developing cartridge 7 can be replaced.
  • the developing cartridge 7 is attached to the drum cartridge 20.
  • the process cartridge 5 to which the developing cartridge 7 is mounted is mounted in the main body casing 2 through the opening 3. 3.
  • Developing Cartridge Next, the detailed configuration of the developing cartridge 7A will be described with reference to FIGS.
  • the developing cartridge 7 ⁇ / b> A includes a frame 21 that supports the developing roller 11 and the supply roller 12, a drive unit 22 that is disposed on the left side of the frame 21, and a power reception that is disposed on the right side of the frame 21.
  • the unit 23 and the operation unit 24 arranged in front of the frame 21 are further provided.
  • (1) Frame As shown in FIGS. 1 and 3, the frame 21 has a substantially box shape extending in the left-right direction.
  • the frame 21 includes a first frame 25 and a second frame 26.
  • (1-1) First Frame As shown in FIGS. 1 and 4, the first frame 25 has a bottomed frame shape that is open upward and rearward.
  • the first frame 25 is integrally provided with a pair of side walls 27, a front wall 28, and a lower wall 29.
  • the left side wall 27 is described as a left wall 27L
  • the right side wall 27 is described as a right wall 27R.
  • (1-1-1) Side Walls Each of the pair of side walls 27 is disposed at an interval in the left-right direction.
  • Each of the pair of side walls 27 has a flat plate shape that is substantially rectangular in side view and extends in the front-rear direction.
  • Each of the pair of side walls 27 has a hole 30 and a groove 31.
  • the left wall 27L includes a pair of protrusions 33.
  • the hole 30 is disposed at the lower rear end of the side wall 27.
  • the hole 30 penetrates each of the pair of side walls 27 in the left-right direction.
  • the hole 30 has a substantially rectangular shape in side view. The dimension of each side of the hole 30 is longer than the diameter of a supply roller shaft 121 described later.
  • the groove 31 is notched forward from the rear end of each of the pair of side walls 27.
  • the groove 31 has a substantially U shape in a side view in which a rear end portion is opened.
  • the height in the vertical direction of the groove 31 is longer than the diameter of the end portion in the left-right direction of the developing roller shaft 111 described later.
  • Each of the pair of protrusions 33 is disposed in front of the hole 30 with a space in the front-rear direction. Each of the pair of protrusions 33 protrudes leftward from the lower end portion of the left wall 27L. Each of the pair of protrusions 33 has a substantially cylindrical shape extending in the left-right direction.
  • Front Wall The front wall 28 is constructed between the front end portions of the pair of side walls 27. The front wall 28 has a substantially flat plate shape extending in the vertical direction.
  • the lower wall 29 is constructed between the lower ends of the pair of side walls 27. The lower wall 29 has a substantially flat plate shape that extends while being bent in the front-rear direction.
  • the lower wall 29 includes a first portion 29A, a second portion 29B, a third portion 29C, and a plurality of reinforcing ribs 32.
  • the first portion 29A extends from the lower end portion of the front wall 28 while curving backward.
  • the rear end portion of the first portion 29 ⁇ / b> A is disposed in front of the supply roller 12.
  • the first portion 29 ⁇ / b> A constitutes the lower wall of the toner storage unit 14.
  • the second portion 29B extends from the rear end portion of the first portion 29A while being curved rearward along the peripheral surface of the supply roller 12.
  • the rear end portion of the second portion 29 ⁇ / b> B is disposed below the contact portion between the developing roller 11 and the supply roller 12.
  • the second portion 29B covers the supply roller 12 from below.
  • the third portion 29C extends rearward from the rear end portion of the second portion 29B.
  • the rear end portion of the third portion 29 ⁇ / b> C is disposed behind the rear end portion of the developing roller 11.
  • the third portion 29C covers the developing roller 11 from below.
  • the plurality of reinforcing ribs 32 are arranged in parallel in the left-right direction at intervals.
  • the reinforcing rib 32 projects downward from the lower surface of the rear end portion of the lower wall 29 and extends in the front-rear direction from the rear end portion of the first portion 29A to the rear end portion of the third portion 29C.
  • the reinforcing rib 32 has a substantially flat plate shape.
  • (1-2) Second Frame As shown in FIGS. 1 and 3, the second frame 26 is disposed above the upper end portions of the pair of side walls 27 and the front wall 28 of the first frame 25.
  • the second frame 26 has a substantially flat plate shape extending in the front-rear and left-right directions.
  • the second frame 26 is fixed to the upper ends of the pair of side walls 27 and the front wall 28 of the first frame 25 by a method such as welding at the periphery thereof.
  • the developing roller 11 includes a developing roller shaft 111, a developing roller body 112, a left collar 49, and a right collar 77.
  • the developing roller shaft 111 has a substantially cylindrical shape extending in the left-right direction, as shown in FIGS. That is, the central axis A1 of the developing roller shaft 111 extends in the left-right direction.
  • the developing roller shaft 111 is made of metal.
  • the left and right end portions of the developing roller shaft 111 protrude outward in the left-right direction from the side walls 27 of the frame 21 through the grooves 31 of the frame 21.
  • the developing roller shaft 111 includes a support portion 111A and a support portion 111B.
  • the support portion 111A of support parts are arrange
  • the support portion 111A has a substantially D shape in cross section.
  • the support part 111B extends outward from the support part 111A at both ends of the developing roller shaft 111 in the left-right direction.
  • the support part 111B has a substantially cylindrical shape.
  • the outer diameter of the support part 111B is smaller than the outer diameter of the support part 111A.
  • the developing roller body 112 is a conductive rubber roller.
  • the developing roller body 112 has a substantially cylindrical shape extending in the left-right direction.
  • the developing roller body 112 covers the developing roller shaft 111 so as to expose the support portion 111A and the support portion 111B of the developing roller shaft 111.
  • the left collar 49 is arranged on the left side of the developing gear 45 described later.
  • the left collar 49 has a substantially cylindrical shape extending in the left-right direction.
  • the left collar 49 is fitted in a support portion 111B (not shown) at the left end portion of the developing roller shaft 111.
  • the right collar 77 is disposed at the right end portion of the developing roller shaft 111.
  • the right collar 77 has a substantially cylindrical shape extending in the left-right direction.
  • the right collar 77 is fitted in the support portion 111 ⁇ / b> B at the right end portion of the developing roller shaft 111.
  • the supply roller 12 includes a supply roller shaft 121 and a supply roller main body 122, as shown in FIG.
  • the supply roller shaft 121 has a substantially cylindrical shape extending in the left-right direction. That is, the center axis A2 of the supply roller shaft 121 extends in the left-right direction.
  • the supply roller shaft 121 is made of metal. An end portion in the left-right direction of the supply roller shaft 121 protrudes outward in the left-right direction from the side wall 27 of the frame 21 through the hole 30 of the frame 21.
  • the supply roller shaft 121 includes a support part 121A, a support part 121B, and a support part 121C.
  • the support portion 121A is exposed to the right of the right wall 27R at the right end portion of the supply roller shaft 121.
  • the support portion 121A has a substantially D shape in cross section.
  • the support part 121B extends rightward from the support part 121A.
  • the support part 121B has a substantially cylindrical shape.
  • the outer diameter of the support part 121B is smaller than the outer diameter of the support part 121A.
  • the support portion 121C is exposed to the left of the left wall 27L at the left end portion of the supply roller shaft 121.
  • the support portion 121C has a substantially D shape in cross section.
  • the supply roller main body 122 is a sponge roller having conductivity.
  • the supply roller main body 122 has a substantially cylindrical shape extending in the left-right direction.
  • the supply roller main body 122 covers the supply roller shaft 121 so that the support portion 121A, the support portion 121B, and the support portion 121C of the supply roller shaft 121 are exposed.
  • (2) Drive Unit The drive unit 22 includes a bearing member 36, a first gear train 37, a compression spring 39, a left linear cam 38, and a cover 40, as shown in FIGS. Yes.
  • (2-1) Bearing Member As shown in FIGS. 7 and 8, the bearing member 36 is supported by the rear end portion of the left wall 27L.
  • the bearing member 36 has a substantially rectangular flat plate shape that extends in the vertical direction when viewed from the side.
  • the bearing member 36 has a hole 41, a hole 42, and a guide rib 43.
  • the hole 41 is disposed at the rear end portion of the bearing member 36.
  • the hole 41 is configured to penetrate the bearing member 36 in the left-right direction.
  • the hole 41 has a substantially circular shape in a side view.
  • the inner diameter of the hole 41 is slightly larger than the outer diameter of the developing roller shaft 111.
  • the hole 42 is disposed in front of and below the hole 41.
  • the hole 42 is configured to penetrate the bearing member 36 in the left-right direction.
  • the hole 42 has a substantially circular shape in a side view.
  • the inner diameter of the hole 42 is slightly larger than the outer diameter of the supply roller shaft 121.
  • the guide rib 43 has an upper guide rib 43A and a lower guide rib 43B.
  • the upper guide rib 43A is disposed on the opposite side of the lower guide rib 43B across the hole 42 in the vertical direction.
  • the upper guide rib 43A and the lower guide rib 43B protrude leftward from the left surface of the bearing member 36 and extend in the front-rear direction.
  • the front end portions of the upper guide rib 43 ⁇ / b> A and the lower guide rib 43 ⁇ / b> B are disposed at the front end portion of the bearing member 36.
  • the rear end portion of the upper guide rib 43 ⁇ / b> A is disposed above the hole 42.
  • the rear end portion of the lower guide rib 43 ⁇ / b> B is disposed at the rear end portion of the bearing member 36.
  • the first gear train 37 includes a development coupling 44 and a development gear 45.
  • Development Coupling The development coupling 44 has a substantially cylindrical shape extending in the left-right direction. As shown in FIG. 14, the development coupling 44 is supported by a support portion 121 ⁇ / b> C of the supply roller shaft 121 so as to be rotatable relative to the supply roller shaft 121. The rotation center C of the developing coupling 44 coincides with the central axis A2 of the supply roller shaft 121.
  • the development coupling 44 is disposed so as to overlap the second portion 29B of the lower wall 29 of the frame 21 when projected in the left-right direction, as indicated by phantom lines in FIG.
  • the development coupling 44 is movable between an inner position (see FIG. 14) and an outer position (see FIG. 19) along the left-right direction.
  • the moving distance D1 from the inner position to the outer position of the development coupling 44 is, for example, 5 mm or more and 30 mm or less.
  • the moving distance D1 of the developing coupling 44 is, for example, 1.5 times or more and 2 times or less with respect to the outer diameter of the gear portion 46 of the developing coupling 44 described later.
  • the left surface 44A of the development coupling 44 is the left side of the cover 40 and the left side of the left collar 49 of the development roller 11 as shown in FIGS. Is located at the same left-right position.
  • the left surface 44A of the developing coupling 44 is the left surface of the cover 40 and the left surface of the left collar 49 of the developing roller 11 as shown in FIGS. It is located on the left side.
  • the outer position of the developing coupling 44 is located outward in the left-right direction with respect to the inner position of the developing coupling 44.
  • the development coupling 44 has a gear portion 46, a coupling portion 47, and a hole 50 as shown in FIGS. 8, 9 and 14.
  • the gear portion 46 is disposed at the right end portion of the development coupling 44.
  • the gear portion 46 has a substantially disk shape having a thickness in the left-right direction.
  • the gear part 46 is equipped with the gear tooth over all the surrounding surfaces.
  • the gear teeth are left-handed helical teeth.
  • the gear portion 46 meshes with the right end portion of the developing gear 45 as shown in FIGS. 6 and 14 when the developing coupling 44 is positioned in the inward position.
  • the gear portion 46 meshes with the left end portion of the developing gear 45 as shown in FIGS. 17 and 19 when the developing coupling 44 is located at the outward position.
  • the coupling portion 47 protrudes leftward from the left surface of the gear portion 46.
  • the coupling part 47 has a substantially cylindrical shape.
  • the outer diameter of the coupling portion 47 is smaller than the outer diameter of the gear portion 46.
  • the central axis of the coupling part 47 coincides with the central axis of the gear part 46.
  • the coupling portion 47 includes a recess 48.
  • the concave portion 48 is recessed rightward from the left surface 44A of the coupling portion 47.
  • the concave portion 48 has a substantially long hole shape in side view extending in the radial direction of the coupling portion 47.
  • the hole 50 is recessed from the right surface of the developing coupling 44 toward the left.
  • the hole 50 has a substantially circular shape in a side view.
  • the diameter of the hole 50 is slightly larger than the outer diameter of the supply roller shaft 121.
  • the hole 50 receives the support portion 121 ⁇ / b> C of the supply roller shaft 121.
  • (2-2-2) Developing Gear As shown in FIGS. 7 and 8, the developing gear 45 has a substantially cylindrical shape extending in the left-right direction.
  • the developing gear 45 has a through hole (not shown) having a substantially D shape in side view at the center in the radial direction. As shown in FIGS.
  • the developing gear 45 is supported by a support portion 111 ⁇ / b> A at the left end portion of the developing roller shaft 111.
  • the support portion 111 ⁇ / b> A at the left end portion of the developing roller shaft 111 is fitted in a through hole (not shown) of the developing gear 45.
  • the developing gear 45 cannot rotate relative to the developing roller shaft 111 and can rotate with the developing roller shaft 111.
  • the dimension in the left-right direction of the developing gear 45 is longer than the dimension in the left-right direction of the gear part 46 of the coupling part 47.
  • the developing gear 45 has gear teeth over the entire peripheral surface thereof.
  • the gear teeth are right-twisted helical teeth as shown in FIG.
  • the compression spring 39 is a coil spring as shown in FIG.
  • the diameter of the compression spring 39 is larger than the outer diameter of the coupling portion 47 of the developing coupling 44 and smaller than the outer diameter of the gear portion 46.
  • the compression spring 39 is supported by the coupling portion 47 of the developing coupling 44.
  • the right end portion of the compression spring 39 is in contact with the left surface of the gear portion 46 of the developing coupling 44.
  • the left end portion of the compression spring 39 is in contact with the peripheral edge portion of the opening 62 of the cover 40.
  • the left linear motion cam 38 has a substantially flat plate shape extending in the front-rear direction.
  • the left linear cam 38 is supported by the left wall 27L above the pair of protrusions 33.
  • the left linear cam 38 has a pressing position (see FIG. 17) for pressing the developing coupling 44 leftward along the front-rear direction, and a pressing releasing position (see FIG. 17) for releasing the pressing against the developing coupling 44 leftward. 6).
  • the left linear cam 38 includes a contact portion 51, a connecting portion 53, and a contact portion 52.
  • the contact part 51 is disposed at the rear end part of the left linear cam 38.
  • the contact portion 51 has a substantially U shape in side view with the rear opened.
  • the contact portion 51 is disposed between the upper guide rib 43A and the lower guide rib 43B.
  • the contact part 51 includes a displacement part 54 and a holding part 55.
  • the displacement portion 54 is disposed at the rear end portion of the contact portion 51.
  • the left surface of the displacement portion 54 is inclined leftward from the rear to the front. In other words, the projecting length of the displacement portion 54 gradually increases from the rear toward the front.
  • the holding part 55 is continuous behind the displacement part 54.
  • the left surface of the holding portion 55 is continuous with the front end portion of the left surface of the displacement portion 54 and extends in the front-rear direction. (2-4-2) Connecting Part
  • the connecting part 53 continuously extends forward from the front end of the contact part 51.
  • the connecting portion 53 has a substantially rectangular shape in side view that is long in the front-rear direction.
  • the connecting portion 53 includes a protrusion 60.
  • the protrusion 60 protrudes downward from the substantially center of the connecting portion 53 in the front-rear direction.
  • the protrusion 60 has a substantially rectangular shape in a side view.
  • the protrusion 60 is disposed between the pair of protrusions 33. (2-4-3) Contact Part
  • the contact part 52 is disposed at the front end of the left linear cam 38.
  • the contact portion 52 has a substantially U shape in side view with the lower part opened.
  • the contact part 52 includes a first engagement part 56, a spacer part 59, and a second engagement part 57.
  • the first engaging portion 56 includes an inclined portion 56A and a vertical portion 56B.
  • the inclined portion 56 ⁇ / b> A extends forward and upward from the front end portion of the connecting portion 53.
  • the vertical portion 56B extends upward from the front upper end of the inclined portion 56A.
  • the vertical portion 56 ⁇ / b> B includes a protrusion 58.
  • the protrusion 58 is disposed substantially at the center in the vertical direction of the vertical portion 56B.
  • the protrusion 58 protrudes forward from the front edge of the vertical portion 56B.
  • the protrusion 58 has a substantially semicircular shape when viewed from the side.
  • the spacer portion 59 extends forward from the upper end portion of the first engagement portion 56.
  • the length of the spacer portion 59 in the front-rear direction is longer than the diameter of a projection 105 described later of the operation portion 24.
  • the second engaging portion 57 includes a vertical portion 57A and an inclined portion 57B.
  • the vertical portion 57 ⁇ / b> A extends downward from the front end portion of the spacer portion 59.
  • the inclined portion 57B extends forward and downward from the lower end portion of the vertical portion 57A, bends downward at the front lower end portion, and extends downward.
  • (2-5) Cover As shown in FIG. 5, the cover 40 has a substantially box shape with the right end portion and the front end portion opened. The cover 40 is fixed to the left wall 27L of the frame 21 with screws (not shown).
  • the cover 40 has an opening 61 and an opening 62.
  • the opening 61 is notched forward from the rear end of the cover 40.
  • the opening 61 has a substantially C-shape in side view that is opened rearward.
  • the inner diameter of the opening 61 is larger than the outer diameter of the developing gear 45.
  • the opening 61 is configured to expose a part of the developing gear 45.
  • the opening 62 is disposed in front of and below the opening 61.
  • the opening 62 penetrates the left wall of the cover 40 so that the development coupling 44 can move between an inward position and an outward position.
  • the opening 62 has a substantially circular shape in side view.
  • the power receiving unit 23 includes a second gear train 66, a support member 67, a developing electrode 65, a compression spring 64, a right translation cam 68, and a cover. 69.
  • the second gear train 66 includes a first idle gear 70, a second idle gear 71, and a supply gear 72, as shown in FIG.
  • the first idle gear 70 has a substantially disc shape having a thickness in the left-right direction.
  • the first idle gear 70 has a through hole (not shown) having a substantially D shape in side view at the center in the radial direction.
  • the first idle gear 70 has gear teeth over the entire peripheral surface thereof.
  • the first idle gear 70 is supported by the support portion 111 ⁇ / b> A of the developing roller shaft 111.
  • a through hole (not shown) of the first idle gear 70 engages with the support portion 111 ⁇ / b> A so that the first idle gear 70 cannot rotate relative to the developing roller shaft 111.
  • the second idle gear 71 has a substantially disc shape having a thickness in the left-right direction.
  • the second idle gear 71 meshes with the front end portion of the first idle gear 70.
  • the second idle gear 71 has a through hole 71 ⁇ / b> A having a substantially circular shape in a side view at the radial center.
  • the second idle gear 71 has gear teeth over the entire peripheral surface.
  • the second idle gear 71 is supported by a later-described protrusion 73 of the support member 67.
  • the through hole 71 ⁇ / b> A of the second idle gear 71 is fitted with the support portion 121 ⁇ / b> A so as to be rotatable relative to the protrusion 73.
  • the supply gear 72 has a substantially disk shape having a thickness in the left-right direction.
  • the supply gear 72 meshes with the front lower end portion of the second idle gear 71.
  • the supply gear 72 has a substantially D-shaped through hole 72A in a side view in the radial center.
  • the supply gear 72 includes gear teeth over the entire peripheral surface thereof.
  • the supply gear 72 is supported by the support portion 121 ⁇ / b> A of the supply roller shaft 121.
  • the through hole 72 ⁇ / b> A of the supply gear 72 fits in the support portion 121 ⁇ / b> A so that the supply gear 72 cannot rotate relative to the supply roller shaft 121.
  • (3-2) Support Member The support member 67 is disposed on the right side of the second gear train 66 as shown in FIGS.
  • the support member 67 has a flat plate shape that is substantially rectangular in a side view.
  • the support member 67 is made of a conductive material such as a conductive resin, for example.
  • the support member 67 has a hole 75, a protrusion 73, a hole 78, and a protrusion 74.
  • the hole 75 is disposed at the rear upper end of the support member 67.
  • the hole 75 penetrates the support member 67 in the left-right direction.
  • the hole 75 has a substantially circular shape in a side view.
  • the size of the hole 75 is slightly larger than the size of the developing roller shaft 111.
  • the protrusion 73 is disposed at the front upper end of the support member 67.
  • the protrusion 73 protrudes leftward from the left surface of the support member 67.
  • the protrusion 73 has a substantially cylindrical shape.
  • the hole 78 is disposed at the front lower end of the support member 67.
  • the hole 78 penetrates the support member 67 in the left-right direction.
  • the hole 78 has a substantially circular shape in side view.
  • the size of the hole 78 is slightly larger than the size of the support portion 121 ⁇ / b> B of the supply roller shaft 121.
  • the protrusion 74 protrudes rightward from the peripheral edge of the hole 78.
  • the protrusion 74 has a substantially cylindrical shape.
  • the height in the vertical direction of the protrusion 74 is substantially the same as the height in the vertical direction of a support portion 92 described later of the developing electrode 65.
  • the protrusion 74 has a pair of grooves 76.
  • Each of the pair of grooves 76 is disposed at the upper end portion and the lower end portion of the protrusion 74, respectively. Each of the pair of grooves 76 is cut away from the right end portion of the protrusion 74 toward the left so as to penetrate the peripheral wall of the protrusion 74 in the radial direction of the protrusion 74. Each of the pair of grooves 76 has a substantially straight line shape in plan view with the right end portion opened. The dimension in the front-rear direction of the groove 76 is slightly longer than the dimension in the front-rear direction of a support portion 92 described later of the developing electrode 65. (3-3) Development Electrode The development electrode 65 has a substantially T shape when viewed from the front.
  • the developing electrode 65 is made of a conductive material such as metal or conductive resin, for example.
  • the development electrode 65 overlaps the development coupling 44 when the development coupling 44 is projected along the left-right direction.
  • the developing electrode 65 is movable between an inner position (see FIG. 12) and an outer position (see FIG. 18) along the left-right direction.
  • the moving distance D2 from the inner position to the outer position of the developing electrode 65 is, for example, 5 mm or more and 30 mm or less.
  • the development electrode 65 includes a support portion 92, a contact portion 91, and a contact portion 93. (3-3-1) Support Unit
  • the support unit 92 is disposed at the left end of the developing electrode 65.
  • the support part 92 has a substantially rectangular flat plate shape extending in the vertical direction when viewed from the front.
  • the support portion 92 is located in the groove 76.
  • (3-3-2) Contact Part The contact part 91 extends rightward from the center of the support part 92 in the vertical direction.
  • the contact portion 91 has a substantially cylindrical shape that is long in the left-right direction. As shown in FIGS. 11 and 14, the contact portion 91 is disposed so as to coincide with the central axis A ⁇ b> 2 of the supply roller shaft 121. In other words, the contact portion 91 is disposed on the rotation center C of the development coupling 44.
  • the diameter of the contact part 91 is 0.01 mm or more and 3 mm or less, for example.
  • the contact portion 91 has a contact 91 ⁇ / b> A that contacts the main body electrode 117 at the right end portion.
  • the contact 91 ⁇ / b> A is positioned to the left of the right surface of the right collar 77 of the developing roller 11 when the developing electrode 65 is positioned in the inward position. As shown in FIGS. 18 and 19, the contact 91 ⁇ / b> A is located on the right side of the right surface of the right collar 77 of the developing roller 11 when the developing electrode 65 is located at the outward position. That is, the outer position of the developing electrode 65 is located outward in the left-right direction with respect to the inner position of the developing electrode 65. (3-3-3) Contact Part
  • the contact part 93 includes an upper contact part 93A and a lower contact part 93B.
  • the upper contact portion 93 ⁇ / b> A extends upward from the upper end portion of the support portion 92.
  • the upper contact portion 93 ⁇ / b> A protrudes upward from the upper end portion of the protrusion 74.
  • the lower contact portion 93 ⁇ / b> B extends downward from the lower end portion of the support portion 92.
  • the lower contact portion 93 ⁇ / b> B protrudes downward from the lower end portion of the protrusion 74.
  • the upper contact portion 93A and the lower contact portion 93B have a substantially prismatic shape.
  • the development electrode 65 is supported in the protrusion 74 as shown in FIGS. (3-4) Compression Spring
  • the compression spring 64 is a coil spring.
  • the diameter of the compression spring 64 is larger than the outer diameter of the protrusion 74 and smaller than the vertical length of the developing electrode 65.
  • the compression spring 64 is loosely fitted to the protrusion 74 from the radially outer side of the protrusion 74.
  • the compression spring 64 is in contact with the support member 67 from the right at its left end, and is in contact with the contact portion 93 of the developing electrode 65 from the left at its right end.
  • the compression spring 64 always urges the developing electrode 65 toward the outward position.
  • the right linear cam 68 has a substantially flat plate shape extending in the front-rear direction, as shown in FIGS. As shown in FIGS. 12 and 14, the right translation cam 68 is supported on the left surface of the right wall of the cover 69. The right translation cam 68 has a pressing position for pressing the developing electrode 65 leftward along the front-rear direction (see FIG. 12) and a pressing releasing position for releasing the pressing against the developing electrode 65 leftward (see FIG. 18). ).
  • the right translation cam 68 includes a contact portion 81, a connecting portion 83, and a contact portion 82.
  • the contact part 81 is disposed at the rear end part of the right linear cam 68.
  • the contact part 81 has a substantially rectangular shape in side view.
  • the contact part 81 has a hole 84 and a cam part 85.
  • the hole 84 penetrates the contact portion 81 in the left-right direction.
  • the hole 84 has a substantially rectangular shape in side view extending in the front-rear direction.
  • the size of the hole 84 is slightly larger than the size of the contact portion 91 of the developing electrode 65.
  • the cam portion 85 is disposed at the rear end portion of the contact portion 81.
  • the cam portion 85 protrudes leftward from the peripheral portion of the rear half of the hole 84.
  • the cam portion 85 has a substantially U shape in side view with the front open.
  • the cam portion 85 includes a displacement portion 86 and a holding portion 87.
  • the displacement portion 86 is disposed at the front end portion of the cam portion 85.
  • the left surface of the displacement part 86 is inclined leftward from the front toward the rear. In other words, the protruding length of the displacement portion 86 becomes gradually longer from the front to the rear.
  • the holding part 87 is continued behind the displacement part 86.
  • the left surface of the holding portion 87 is continuous with the rear end portion of the left surface of the displacement portion 86 and extends in the front-rear direction.
  • (3-5-2) Connection Portion The connection portion 83 extends continuously forward from the front end portion of the contact portion 81.
  • the connecting portion 53 has a substantially rectangular shape in side view that is long in the front-rear direction.
  • the contact part 82 is disposed at the front end of the right linear cam 68.
  • the contact portion 82 has a substantially C shape in side view with the rear opened.
  • the contact portion 82 includes a first engagement portion 88 and a second engagement portion 89.
  • the first engaging portion 88 includes a vertical portion 88A and a bowl-shaped portion 88B.
  • the vertical portion 88 ⁇ / b> A extends upward from the front end portion of the connecting portion 83.
  • the vertical portion 88 ⁇ / b> A includes a protrusion 90.
  • the protrusion 90 is disposed substantially at the center in the vertical direction of the vertical portion 88 ⁇ / b> A of the first engagement portion 88.
  • the protrusion 90 protrudes forward from the front edge of the vertical portion 88A.
  • the protrusion 90 has a substantially semicircular shape in a side view.
  • the hook-shaped portion 88B extends forward from the upper end portion of the vertical portion 88A, and is bent downward at the front end portion thereof.
  • the second engaging portion 89 extends forward from the front end portion of the connecting portion 83 and is bent upward at the front end portion.
  • (3-4) Cover As shown in FIGS. 10 and 14, the cover 69 has a substantially box shape in which the left end portion and the front end portion are opened. The cover 69 is fixed to the right wall 27R of the frame 21 by screws (not shown). The cover 69 is configured to cover the second gear train 66, the support member 67, the compression spring 64, the developing electrode 65, and the right translation cam 68. The cover 69 has an opening 94 and a protrusion 95.
  • the opening 94 is disposed at the front end of the cover 69.
  • the opening 94 penetrates the right wall of the cover 69 in the left-right direction.
  • the opening 94 has a substantially circular shape in side view.
  • the opening 94 is configured to expose the right collar 77.
  • the projection 95 is disposed in front of and below the opening 94.
  • the protrusion 95 extends rightward from the right wall of the cover 69.
  • the protrusion 95 has a substantially cylindrical shape.
  • the protrusion 95 has a hole 96.
  • the hole 96 is disposed at the radial center of the protrusion 95.
  • the hole 96 penetrates the protrusion 95 and the right wall of the cover 69 in the left-right direction.
  • the hole 96 has a substantially circular shape in side view.
  • the size of the hole 96 is slightly larger than the size of the contact portion 91 of the developing electrode 65.
  • the handle member 101 has a substantially prismatic shape that is long in the left-right direction.
  • the handle member 101 is supported on the front wall 28 of the frame 21.
  • the handle member 101 has an extended position (see FIG. 13) extending rearward from the front wall 28 of the frame 21 and a tilt position (see FIG. 16B) that hangs down in the vertical direction along the front wall 28 of the frame 21. It is configured to swing around the front end of the handle member 101 as a fulcrum.
  • the handle member 101 includes a grip portion 102 and a pair of link portions 103. (4-1-1) Gripping Unit
  • the gripping unit 102 is a central portion in the left-right direction of the handle member 101, and includes a hole 109 and a grip 110.
  • the hole 109 is disposed substantially at the center of the handle member 101 in the left-right direction.
  • the hole 109 penetrates the handle member 101 in the vertical direction.
  • the hole 109 has a substantially rectangular shape in plan view that is long in the left-right direction.
  • the grip 110 is disposed in front of the hole 109.
  • the grip 110 constitutes the front wall of the hole 109.
  • the grip 110 has a substantially flat plate shape that is long in the left-right direction.
  • the link part 103 has a substantially fan shape centered on the rear end part of the handle member 101.
  • the link unit 103 includes a left link unit 103A and a right link unit 103B.
  • the left link portion 103A protrudes downward from the left end portion of the handle member 101. As shown in FIGS. 6 and 7, the left link portion 103 ⁇ / b> A is disposed on the left side of the contact portion 52 of the left linear cam 38 and on the right side of the cover 40.
  • the left link portion 103A includes a protrusion 105A.
  • the protrusion 105A is disposed at the lower end portion of the left link portion 103A.
  • the protrusion 105A protrudes inward in the left-right direction from the inner surface in the left-right direction of the left link portion 103A.
  • the protrusion 105A has a substantially cylindrical shape.
  • the protrusion 105 ⁇ / b> A is disposed between the first engagement portion 56 and the second engagement portion 57.
  • the right link portion 103B protrudes downward from the right end portion of the handle member 101. As shown in FIGS. 10 and 13, the right link portion 103 ⁇ / b> B is disposed on the right side of the contact portion 82 of the right linear cam 68 and on the left side of the right wall of the cover 69.
  • the right link portion 103B includes a protrusion 105B and a support portion 106.
  • the protrusion 105B is disposed at the lower end portion of the right link portion 103B.
  • the protrusion 105B protrudes inward in the left-right direction from the inner surface in the left-right direction of the right link portion 103B.
  • the protrusion 105B has a substantially cylindrical shape.
  • the protrusion 105 ⁇ / b> B is disposed between the first engagement portion 88 and the second engagement portion 89.
  • the support part 106 is disposed at the substantially vertical center of the right link part 103B.
  • the support part 106 is a recessed part recessed toward the left from the right surface of the right link part 103B.
  • the support part 106 has a substantially circular shape in a side view.
  • (4-2) Restricting Member The restricting member 104 is disposed in the support portion 106.
  • the regulating member 104 has a substantially cylindrical shape extending in the left-right direction.
  • the restricting member 104 includes an engaging claw 107.
  • the engaging claw 107 extends leftward from the left end portion of the regulating member 104.
  • the left end portion of the engaging claw 107 has a substantially bowl shape that is bent outward in the radial direction of the regulating member 104.
  • (4-3) Compression Spring The compression spring 108 is disposed in the support portion 106 as shown in FIG.
  • the compression spring 108 is a coil spring extending in the left-right direction.
  • the left end portion of the compression spring 108 is in contact with the left wall of the support portion 106.
  • the right end portion of the compression spring 108 is in contact with the right wall of the regulating member 104. Thereby, the compression spring 108 always urges the regulating member 104 to the right.
  • Development Coupling and Development Electrode Advancement or Retraction (1) Development Coupling and Development Electrode Movement from Inward Position to Outward Next Next, Development Coupling 44 and Development Electrode 65 from Inward Position to Outward Position The movement will be described.
  • the developing coupling 44 and the developing electrode 65 are disposed in the inward position before the developing cartridge 7A is accommodated in the main casing 2.
  • the distance W1 between the left surface 44A of the development coupling 44 and the contact 91A of the development electrode 65 is set to the development cartridge 7A. Is smaller than the horizontal length W3.
  • the restricting member 104 When the developing cartridge 7A is disposed outside the main body casing 2 and the handle member 101 is disposed at the extended position, the restricting member 104 is arranged in front of the cover 69 as shown in FIG. It protrudes from the support part 106 to the right side by the urging force. In this state, when the operator moves the handle member 101 from the extended position toward the tilted position, the restricting member 104 comes into contact with the front end portion of the cover 69. As a result, the handle member 101 is restricted from moving to the tilted position before the handle member 101 and the left translation cam 38 and the right translation cam 68 are interlocked.
  • the regulating member 104 When the developing cartridge 7A is mounted in the main casing 2, the regulating member 104 is placed in the main casing so that the regulating member 104 is accommodated in the support portion 106 against the urging force of the compression spring 108.
  • the release member (not shown) is urged. Thereby, the handle member 101 can be moved from the extended position to the tilted position.
  • the protrusion 105A of the handle member 101 contacts the rear end portion of the connecting portion 53 of the left linear cam 38 from the front.
  • the protrusion 105B of the handle member 101 comes into contact with the rear end portion of the connecting portion 83 of the right translation cam 68 from the front.
  • the protrusion 105A moves to the left while moving clockwise with the rear end of the handle member 101 as a fulcrum, as shown in FIGS. 15A and 15B.
  • the first engaging portion 56 of the linear motion cam 38 is pressed so as to slide from below to above in the order of the inclined portion 56A and the vertical portion 56B.
  • the protrusion 105 ⁇ / b> A climbs over the protrusion 58 and is positioned above the protrusion 58.
  • the protrusion 105B moves in the counterclockwise direction in the left side view with the rear end portion of the handle member 101 as a fulcrum, while the first engaging portion of the right linear cam 68. 88 is pressed to slide upward from below.
  • the protrusion 105B gets over the protrusion 90 and is positioned above the protrusion 90.
  • the left linear cam 38 is positioned at the pressing position as shown in FIGS. 17 and 19, and the gear portion 46 of the developing coupling 44 is positioned at the left linear cam 38.
  • the contact part 51 contacts the holding part 55. Thereby, the movement of the developing coupling 44 from the inner position to the outer position is completed.
  • the right linear cam 68 is positioned at the pressing release position, and the developing electrode 65 is positioned forward of the cam portion 85 of the right linear cam 68, and the outward position. Located in. Thereby, the movement of the developing electrode 65 from the inner position to the outer position is completed.
  • the distance W2 between the left surface 44A of the development coupling 44 and the contact point 91A of the development electrode 65 at the outer position is equal to the contact point between the left surface 44A of the development coupling 44 and the development electrode 65 at the inner position as shown in FIG. It is longer than the distance W1 with 91A.
  • the protrusion 105A of the handle member 101 moves counterclockwise when viewed from the left side with the rear end portion of the handle member 101 as a fulcrum. Then, it comes into contact with the lower end portion of the vertical portion 57A of the second engaging portion 57 of the left linear cam 38 from the rear.
  • the protrusion 105A slightly pushes the vertical portion 57A forward.
  • the protrusion 105B comes into contact with the upper end portion of the second engaging portion 89 of the right translation cam 68 from the rear.
  • the right translation cam 68 is pressed by the protrusion 105B and moves forward. Then, the developing electrode 65 moves to the left against the urging force of the compression spring 64 along the inclination of the displacement portion 86 of the right translation cam 68.
  • the left translation cam 38 is located at the pressing release position, and the development coupling 44 is moved from the contact portion 51 of the left translation cam 38. Is also located at the rear and inward. Thereby, the movement of the developing coupling 44 from the outer position to the inner position is completed.
  • the right translation cam 68 is located at the pressing position, and the development electrode 65 has the contact portion 93 of the development electrode 65 at the holding portion 87 of the cam portion 85 of the right translation cam 68. It abuts and is located in the inward position. Thereby, the movement of the developing electrode 65 from the outer position to the inner position is completed. 4).
  • the developing coupling 44 and the developing electrode 65 are located at the outer position, the developing coupling 44 receives a driving force from the driving source in the main casing 2 and the power source in the main casing 2. A state in which the developing electrode 65 receives power will be described.
  • the concave portion 48 of the developing coupling 44 is not rotatable relative to the main body coupling 116 of the main body casing 2 when the developing coupling 44 is positioned in the outer position in the main body casing 2. Contact.
  • the contact point 91A of the developing electrode 65 contacts the main body electrode 117 of the main body casing 2 when the developing electrode 65 is located at the outer position.
  • the developing electrode 65 receives power via the main body electrode 117 during the above-described image forming operation, and the developing coupling 44 receives driving force via the main body coupling 116.
  • the electric power received by the developing electrode 65 is transmitted to the developing roller shaft 111 and the supply roller shaft 121 through the support member 67.
  • the developing coupling 44 rotates clockwise as viewed from the left side as shown in FIG. 15B.
  • the developing gear 45 rotates counterclockwise as viewed from the left side.
  • the developing roller 11 rotates counterclockwise as viewed from the left side.
  • the first idle gear 70 rotates clockwise as viewed from the right side.
  • the second idle gear 71 rotates counterclockwise when viewed from the right side
  • the supply gear 72 rotates clockwise when viewed from the right side.
  • the supply roller 12 rotates clockwise in the right side view, in other words, counterclockwise in the left side view. That is, the supply roller 12 rotates in the direction opposite to the development coupling 44. 5.
  • the left-right direction is an example of the first direction
  • the front-rear direction is an example of the second direction
  • the up-down direction is an example of the third direction.
  • the left side is an example of one side in the first direction
  • the right side is an example of the other side in the first direction
  • the front is an example of one side in the second direction
  • the rear is an example of the other side in the second direction
  • the upper part is an example of one side in the third direction
  • the lower part is an example of the other side in the third direction.
  • the front wall 28 of the frame 21 is an example of a wall.
  • the right wall 27R of the frame 21 is an example of a first wall.
  • the left wall 27L of the frame 21 is an example of a second wall.
  • the central axis A1 of the developing roller 11 is an example of a first axis.
  • the right collar 77 is an example of a color.
  • the development coupling 44 is an example of a coupling.
  • the developing electrode 65 is an example of an electrode.
  • the inward position of the developing electrode 65 is an example of a first position.
  • the outward position of the developing electrode 65 is an example of a second position.
  • the right translation cam 68 is an example of a moving member.
  • the compression spring 64 is an example of an urging member.
  • the right translation cam 68 and the compression spring 64 constitute a moving mechanism.
  • the pressing position of the right translation cam 68 is an example of a pressing position.
  • the press release position of the right linear cam 68 is an example of a press release position.
  • the handle member 101 is an example of a force receiving portion.
  • the restriction member 104 is an example of a first restriction member and a second restriction member. 6). Operation and Effect (1) As shown in FIGS. 14 and 19, the developing cartridge 7A includes a developing electrode 65 that can move between an inner position and an outer position that is laterally outward from the inner position. ing.
  • the developing cartridge 7A can receive electric power from the main casing 2 in a state where the developing electrode 65 is located at the outer position.
  • the developing cartridge 7A can receive power from the main casing 2 even when the main body electrode 117 of the main casing 2 does not move toward the developing cartridge 7A.
  • the developing cartridge 7A can contribute to the simplification of the configuration of the main casing 2 and the main casing 2 can be downsized.
  • the developing electrode 65 extends in the left-right direction as shown in FIG.
  • the degree of freedom in designing the main body electrode 117 of the main body casing 2 can be improved, for example, by disposing the main body electrode 117 so as to be in contact with the developing electrode 65 in the left-right direction.
  • the developing electrode 65 can be reliably brought into contact with the main body electrode 117 of the main body casing 2.
  • the developing electrode 65 moves between the inner position and the outer position along the left-right direction as shown in FIGS.
  • the size of the printer 1 can be reduced in the developing cartridge on the side where the developing electrode 65 is disposed, that is, on the right side.
  • the developing cartridge 7 ⁇ / b> A moves the developing electrode 65 from the inward position to the outward position by the urging force of the compression spring 64 and presses it with the right translation cam 68.
  • the developing electrode 65 is moved from the outer position to the inner position.
  • the developing cartridge 7A can move the developing electrode 65 with a simple configuration.
  • the compression spring 64 biases the developing electrode 65.
  • the developing cartridge 7 ⁇ / b> A can move the developing electrode 65 by the compression spring 64.
  • the compression spring 64 always urges the developing electrode 65 toward the outward position, as shown in FIGS.
  • the right translation cam 68 presses the developing electrode 65 toward the inward position against the urging force of the compression spring 64 at the pressing position, and releases the pressing at the pressing release position.
  • the developing cartridge 7A can reliably position the developing electrode 65 in the outward position by the biasing force of the compression spring 64. (6) In the developing cartridge 7A, the developing electrode 65 is moved by the operator operating the handle member 101 as shown in FIG.
  • the developing cartridge 7 ⁇ / b> A can move the developing electrode 65 using the force with which the operator operates the handle member 101. (7)
  • the handle member 101 is moved by the operation of the operator to move the right translation cam 68.
  • the developing cartridge 7A includes a regulating member 104 that regulates the movement of the handle member 101 as shown in FIG.
  • the handle member 101 is supported by the front wall 28 of the frame 21 as shown in FIG.
  • the handle member 101 can reliably receive a force from the front. (10)
  • the handle member 101 includes a grip 102 as shown in FIG.
  • the handle member 101 can receive a force reliably when the operator grips and operates the grip portion 102.
  • the grip portion 102 is disposed at the center in the left-right direction of the handle member 101 as shown in FIG.
  • the developing electrode 65 is a metal.
  • the rigidity of the developing electrode 65 can be easily ensured.
  • the radial length of the developing electrode 65 is, for example, 0.01 to 3 mm.
  • the developing electrode 65 can be configured to be thin, and the size of the developing cartridge 7A can be reduced. (14) In this developing cartridge 7A, as shown in FIG. 3, when the developing electrode 65 is positioned in the inward position, the developing electrode 65 can be positioned inward of the power supply side collar 77.
  • the compression spring 64 is an example of an urging member, but the present invention is not limited to this.
  • the compression spring 64 as an example of the urging member always urges the developing electrode 65 toward the outward position, but the present invention is not limited to this.
  • a configuration in which the developing electrode 65 is always urged toward the inward position may be employed.
  • the regulating member 104 is disposed only on the right link portion 103B, but may be disposed on the left link portion 103A.
  • the handle member 101 is used as an example of the force receiving portion, but the present invention is not limited to this.
  • the developing coupling 44 may be moved from the inner position to the outer position or from the outer position to the inner position when the operator presses a switch such as a button switch. 7).
  • Second Embodiment With reference to FIGS. 22 to 24, a second embodiment of the developing cartridge of the present invention will be described. Note that in the second embodiment, the same members as those in the first embodiment described above are denoted by the same reference numerals, and description thereof is omitted.
  • (1) Outline of Second Embodiment In the first embodiment described above, the development coupling 44 is moved by the left linear cam 38 and the developing electrode 65 is moved to the right linear cam 68 by the movement of the handle member 101. Move by.
  • the developing electrode 65 is moved by the right link mechanism 131 as the slide member 133 moves. Further, as shown in FIGS. 23A and 23B, the development coupling 44 is moved by the left link mechanism 132 when the slide member 135 is separately moved.
  • the developing cartridge 7B includes a right link mechanism 131 and a left link mechanism 132.
  • the right link mechanism 131 has a first position (see FIG. 22A) where the developing electrode 65 is positioned in the inward position and a second position (see FIG. 22B) where the developing electrode 65 is positioned in the outward position. Reference) is configured to move between.
  • the right link mechanism 131 includes a slide member 133 and a link member 134.
  • the slide member 133 is disposed in front of the left end portion of the protrusion 74.
  • the slide member 133 has a substantially flat plate shape that is long in the front-rear direction.
  • the slide member 133 is supported on the right wall 27R of the frame 21 so as to be slidable in the front-rear direction.
  • the slide member 133 includes an operation unit 133A.
  • the operation portion 133A extends rightward from the front end portion of the slide member 133.
  • the operation unit 133A has a substantially flat plate shape.
  • the link member 134 includes an upper link member 134A and a lower link member 134B.
  • the upper link member 134A has a substantially flat plate shape that is long in the front-rear direction.
  • the front end portion of the upper link member 134A is rotatably connected to the upper end portion of the rear end portion of the slide member 133.
  • the rear end portion of the upper link member 134A is rotatably connected to the contact portion 93 above the developing electrode 65.
  • the lower link member 134B has a substantially flat plate shape that is long in the front-rear direction.
  • the front end portion of the lower link member 134B is rotatably connected to the lower end portion of the rear end portion of the slide member 133.
  • a rear end portion of the lower link member 134B is rotatably connected to a contact portion 93 below the developing electrode 65.
  • the contact portion 93 of the developing electrode 65 has a substantially cylindrical shape.
  • the left link mechanism 132 has a third position (see FIG. 23A) where the developing coupling 44 is positioned in the inward position and a fourth position (see FIG. 23A) where the developing coupling 44 is positioned in the outward position (see FIG. It can move between (refer FIG. 23B).
  • the left link mechanism 132 includes a bearing member 36, a support member 137, a slide member 135, a link member 136, and a connecting member 138.
  • the bearing member 36 includes a pair of guide portions 140.
  • Each of the pair of guide portions 140 is disposed at the lower end portion of the bearing member 36.
  • Each of the pair of guide portions 140 is arranged at a distance from each other in the front-rear direction. The interval is slightly longer than the length in the front-rear direction of the connecting member 138 described later.
  • the guide part 140 extends from the left surface of the bearing member 36 toward the left.
  • Each of the pair of guide portions 140 has a substantially prismatic shape.
  • the support member 137 is disposed on the right side of the development coupling 44.
  • the support member 137 has a substantially cylindrical shape extending in the left-right direction.
  • the inner diameter of the support member 137 is slightly larger than the outer diameter of the supply roller shaft 121.
  • the support member 137 is supported by the left end portion of the supply roller shaft 121.
  • the support member 137 can rotate relative to the supply roller shaft 121.
  • the support member 137 includes a protrusion 139.
  • the protrusion 139 includes an upper protrusion 139A and a lower protrusion 139B.
  • the upper protrusion 139 ⁇ / b> A extends upward from the upper end of the support member 137.
  • the upper protrusion 139A has a substantially cylindrical shape.
  • the lower protrusion 139 ⁇ / b> B extends downward from the lower end of the support member 137.
  • the lower protrusion 139B has a substantially cylindrical shape having a longer vertical length than the upper protrusion 139A.
  • the slide member 135 is disposed in front of the supply roller shaft 121.
  • the slide member 135 has a substantially flat plate shape that is long in the front-rear direction.
  • the slide member 135 is supported on the left wall 27L of the frame 21 so as to be slidable in the front-rear direction.
  • the slide member 135 includes an operation unit 135A.
  • the operation unit 135A extends from the front end of the slide member 135 to the left.
  • the operation unit 135A has a substantially flat plate shape.
  • the link member 136 includes an upper link member 136A and a lower link member 136B.
  • the upper link member 136A has a substantially flat plate shape that is long in the front-rear direction.
  • the front end portion of the upper link member 136A is rotatably connected to the upper end portion of the rear end portion of the slide member 135.
  • the rear end portion of the upper link member 136A is rotatably connected to a protrusion 139A above the support member 137.
  • the lower link member 136B has a substantially flat plate shape that is long in the front-rear direction.
  • the front end portion of the lower link member 136B is rotatably connected to the lower end portion of the rear end portion of the slide member 135.
  • a rear end portion of the lower link member 136B is rotatably connected to a protrusion 139B below the support member 137.
  • the connecting member 138 is disposed below the development coupling 44 and the support member 137.
  • the connecting member 138 includes a main body portion 138A and an engaging portion 138B.
  • the main body 138A has a substantially flat plate shape extending in the left-right direction.
  • the right end of the main body 138A is rotatably connected to a protrusion 139B below the support member 137 below the lower link member 136B.
  • the main body 138A is disposed between the pair of guides 140 so as to be slidable in the vertical direction.
  • the engaging portion 138B protrudes upward from the left end portion of the main body portion 138A.
  • the engaging portion 138B extends in the front-rear direction.
  • the engaging portion 138 ⁇ / b> B is disposed on the left side of the gear portion 46 of the developing coupling 44.
  • the operation unit 133A of the slide member 133 receives a force from the outside of the developing cartridge 7B.
  • the link member 134 rotates so that the rear end portion moves rightward with the front end portion as a fulcrum. Thereafter, the link member 134 is positioned so as to incline to the right as it goes rearward.
  • the developing electrode 65 moves to the right while being guided by each of the pair of grooves 76 and is positioned at the outer position. Thereby, the movement of the developing electrode from the inner position to the outer position is completed.
  • the operation unit 135A of the slide member 135 receives a force from the outside of the developing cartridge 7B.
  • the link member 136 rotates so that its rear end moves leftward with its front end as a fulcrum. Thereafter, the link member 136 is positioned so as to incline to the left as it goes rearward.
  • the support member 137 and the developing coupling 44 are integrally moved to the left while being guided by the supply roller shaft 121. Then, the development coupling 44 is located at the outward position. Thereby, the movement of the developing coupling 44 from the inner position to the outer position is completed.
  • the operation unit 133A of the slide member 133 receives a force from the outside of the developing cartridge 7B.
  • the link member 134 rotates so that its rear end moves leftward with its front end as a fulcrum. Thereafter, the link member 134 tilts along the front-rear direction.
  • the developing electrode 65 moves to the left while being guided by each of the pair of grooves 76, and is located at the inward position. Thereby, the movement of the developing electrode 65 from the outer position to the inner position is completed.
  • the operation unit 135A of the slide member 135 receives a force from the outside of the developing cartridge 7B.
  • the link member 136 rotates so that its rear end portion moves rightward with its front end portion as a fulcrum.
  • the link member 136 tilts along the front-rear direction.
  • the support member 137 and the developing coupling 44 move integrally to the right while being guided by the supply roller shaft 121. Then, the development coupling 44 is located at the inward position. Thereby, the movement of the developing coupling 44 from the outer position to the inner position is completed.
  • the development coupling 44 is moved from the inner position to the outer position after the development electrode 65 moves from the inner position to the outer position or from the outer position to the inner position. Although it moved from the outward position to the inward position, the present invention is not limited to this.
  • the development coupling 44 may move before the development electrode 65 moves.
  • the right link mechanism 131 is an example of a moving mechanism.
  • the link member 134 is an example of a moving member.
  • the operation unit 133A of the slide member 133 is an example of a force receiving unit.
  • the developing electrode 65 is moved to the inward position or the outer position by a simple right link mechanism 131. It can be moved to one position. (5-2) Also in the second embodiment, it is possible to obtain the same effects as those in the first embodiment. 8).
  • Third Embodiment A third embodiment of the developing cartridge of the present invention will be described with reference to FIGS. Note that in the third embodiment, members similar to those in the first embodiment described above are denoted by the same reference numerals, and descriptions thereof are omitted.
  • the supply gear 72 is disposed on the right side of the right wall 27 ⁇ / b> R of the frame 21. The driving force received by the development coupling 44 is transmitted to the supply gear 72 via the development gear 45, the development roller shaft 111, the first idle gear 70, and the second idle gear 71 in this order.
  • the supply gear 159 is arranged on the left side of the left wall 27L of the frame 21 as shown in FIGS.
  • the driving force received by the development coupling 156 is transmitted to the supply gear 159 via the development gear 157 and the idle gear 158 in order.
  • the developing cartridge 7 ⁇ / b> C includes a drive unit 151.
  • the drive unit 151 includes a bearing member 152, a gear train 153, and a left interlocking mechanism 154.
  • the bearing member 152 does not have the guide rib 43 and includes a protrusion 155.
  • the protrusion 155 is disposed at approximately the center in the front-rear direction and approximately at the center in the up-down direction of the bearing member 152.
  • the protrusion 155 extends from the left surface of the bearing member 152 toward the left.
  • the protrusion 155 is configured to support an idle gear 158 described later.
  • the protrusion 155 has a substantially cylindrical shape.
  • (2-3) Gear Train The gear train 153 includes a developing gear 157, an idle gear 158, a supply gear 159, a support member 169, and a developing coupling 156.
  • the development gear 157 has a substantially cylindrical shape that is longer in the left-right direction than the development gear 45 of the first embodiment.
  • the idle gear 158 has a substantially disc shape having a thickness in the left-right direction, and has gear teeth over the entire peripheral surface thereof.
  • the idle gear 158 has a through hole 158A having a substantially circular shape in a side view at the radial center.
  • the idle gear 158 is supported by the protrusion 155 by the protrusion 155 of the bearing member 152 being fitted in the through hole 158A.
  • the idle gear 158 can rotate relative to the protrusion 155.
  • the idle gear 158 meshes with the right end portion of the developing gear 157.
  • the supply gear 159 has a substantially disc shape having a thickness in the left-right direction, and has gear teeth over the entire peripheral surface thereof.
  • the supply gear 159 has a substantially D-shaped through hole 159A in a side view in the radial direction.
  • the supply gear 159 is supported by the support portion 121 ⁇ / b> A by the left support portion 121 ⁇ / b> A of the supply roller shaft 121 being fitted in the through hole 159 ⁇ / b> A of the supply gear 159.
  • the supply gear 159 cannot rotate relative to the supply roller shaft 121 and can rotate with the supply roller shaft 121.
  • Supply gear 159 meshes with idle gear 158.
  • the support member 169 is arranged on the left side of the supply gear 159 as shown in FIGS.
  • the support member 169 has a flat plate shape that is substantially rectangular in a side view.
  • the support member 169 is fixed to the left wall 27 ⁇ / b> L of the frame 21 with a screw 187.
  • the support member 169 is disposed on the right side of the supply gear 159.
  • the support member 169 has a protrusion 171 and a hole 170.
  • the protrusion 171 is disposed below the support member 169.
  • the protrusion 171 protrudes leftward from the left surface of the support member 169.
  • the protrusion 171 has a substantially cylindrical shape.
  • the protrusion 171 is configured such that the development coupling 156 rotates relative to the protrusion 171.
  • the hole 170 is a recess that is recessed leftward from the right surface of the support member 169.
  • the shape of the hole 170 is substantially circular when viewed from the side.
  • the center of the hole 170 coincides with the central axis of the protrusion 171. In other words, the center of the hole 170 coincides with the central axis A ⁇ b> 2 of the supply roller shaft 121.
  • the rotation center C of the development coupling 156 coincides with the central axis A2 of the supply roller shaft 121.
  • the development coupling 156 includes a gear member 160, a coupling member 161, and a compression spring 162.
  • the gear member 160 is supported by the protrusion 171 so as not to move in the left-right direction, as shown in FIG.
  • the gear member 160 is disposed at the right end portion of the development coupling 156.
  • the gear member 160 meshes with the left end portion of the developing gear 157.
  • the gear member 160 includes a gear part 163 and an engaging part 164. (2-3-5-1) Gear portion
  • the gear portion 163 has a substantially cylindrical shape with the right end portion closed, and has gear teeth over the entire peripheral surface thereof.
  • the gear portion 163 has a hole 165.
  • the hole 165 is disposed at the center in the radial direction of the right wall of the gear portion 163.
  • the hole 165 penetrates the right wall of the gear part 163 in the left-right direction.
  • the hole 165 has a substantially circular shape in side view.
  • the diameter of the hole 165 is slightly larger than the outer diameter of the protrusion 171.
  • Engaging portion The engaging portion 164 extends leftward from the peripheral edge of the hole 165.
  • the engaging portion 164 has a substantially cylindrical shape with the left end portion closed.
  • the inner diameter of the engaging portion 164 is the same as that of the hole 165.
  • the outer diameter of the engaging portion 164 is smaller than the inner diameter of the gear portion 163.
  • the peripheral wall of the engaging part 164 is arranged at a distance from the peripheral wall of the gear part 163 in the radial direction of the gear part 163.
  • the engaging portion 164 includes a pair of protrusions 166.
  • the pair of protrusions 166 is disposed at the left end portion of the engaging portion 164. Each of the pair of protrusions 166 is arranged at an interval of 180 ° from each other in the circumferential direction of the engaging portion 164. Each of the pair of protrusions 166 extends radially outward from the peripheral surface of the engaging portion 164. Each of the pair of protrusions 166 has a substantially cylindrical shape. (2-3-6) Coupling member The coupling member 161 is configured to move in the left-right direction between an inward position (see FIG. 25) and an outward position (see FIG. 28). ing. More specifically, as shown in FIGS. 26 and 29, the coupling member 161 is supported so as not to rotate relative to the gear member 160 and to be slidable in the left-right direction.
  • the coupling member 161 is disposed at the left end portion of the development coupling 156.
  • the coupling member 161 has a substantially cylindrical shape extending in the left-right direction and closed at the left end.
  • the coupling member 161 includes a pair of engaging portions 167 and a flange portion 168.
  • Each of the pair of engaging portions 167 extends from the right end portion of the coupling member 161 toward the right. Each of the pair of engaging portions 167 is arranged at an interval of 180 ° from each other in the circumferential direction of the coupling member 161. Each of the pair of engaging portions 167 has a substantially prismatic shape. Each of the pair of engaging portions 167 has a concave groove (not shown) so as to be recessed leftward from the right end edge 167A of the engaging portion 167. Each of the pair of engaging portions 167 is configured to receive the protrusion 166.
  • the flange portion 168 is disposed on the outer peripheral surface of the right end portion of the coupling member 161.
  • the flange portion 168 protrudes in the radial direction of the coupling member 161 and extends in the circumferential direction of the coupling member 161.
  • the compression spring 162 is a coil spring extending in the left-right direction.
  • the left end portion of the compression spring 162 is in contact with the right surface of the flange portion 168.
  • the right end portion of the compression spring 162 is in contact with the left surface of the right wall of the gear member 160. Thereby, the compression spring 162 always urges the coupling member 161 toward the left.
  • the left interlocking mechanism 154 includes a slide member 172 and a cam member 173 as shown in FIGS. (2-4-1) Slide Member
  • the slide member 172 is disposed on the left side of the front end portion of the frame 21. As shown in FIGS. 26 and 27, the slide member 172 has a flat plate shape that is substantially rectangular in a side view.
  • the slide member 172 includes a contact part 175 and a connecting part 174.
  • the contact portion 175 is disposed at the front end portion of the slide member 172.
  • the contact part 175 has a substantially rectangular shape in side view.
  • the contact portion 175 has a hole 176 and a protrusion 177.
  • the hole 176 is disposed at the approximate center of the contact portion 175 in the front-rear direction.
  • the hole 176 has a substantially rectangular shape in side view extending in the vertical direction.
  • the hole 176 is configured to penetrate the protrusion 105 of the handle member 101. Thereby, the slide member 172 can be interlocked with the handle member 101.
  • the protrusion 177 is arranged at the upper end of the rear inner peripheral surface of the hole 176.
  • the protrusion 177 protrudes forward from the rear inner peripheral surface of the hole 176.
  • the protrusion 177 has a substantially semicircular shape when viewed from the side.
  • the connecting portion 174 continuously extends rearward from the upper end portion of the rear end portion of the contact portion 175.
  • the connecting portion 174 has a substantially rectangular shape in side view that is long in the front-rear direction.
  • the connecting portion 174 has an inclined hole 178.
  • the inclined hole 178 is disposed at the rear end portion of the connecting portion 174.
  • the inclined hole 178 penetrates the connecting portion 174 in the left-right direction.
  • the inclined hole 178 is a long hole extending in a direction connecting the rear lower part and the front upper part.
  • (2-4-2) Cam Member The cam member 173 is disposed behind the slide member 172.
  • the cam member 173 is configured to interlock with the slide member 172.
  • the cam member 173 is supported by the protrusion 186 of the frame 21 so as to be swingable with respect to the frame 21.
  • the cam member 173 moves between a pressing position for pressing the coupling member 161 to the right (see FIG. 25) and a pressing release position for releasing the rightward pressing on the coupling member 161 (see FIG. 28).
  • the cam member 173 has a flat plate shape that extends in the up-down direction and has a substantially fan-shaped side view in the left-right direction.
  • the cam member 173 includes a hole 181, a contact portion 179, and a connecting portion 180.
  • the hole 181 is disposed at the upper end of the cam member 173.
  • the hole 181 passes through the cam member 173 in the left-right direction.
  • the hole 181 has a substantially circular shape in side view.
  • the hole 181 is configured so that the protrusion 186 of the frame 21 can be relatively rotated.
  • the contact portion 179 is disposed at the lower end portion of the cam member 173.
  • the contact part 179 includes a groove 182, a displacement part 183, and a holding part 184.
  • the groove 182 is cut away from the rear end portion of the cam member 173 toward the front lower side.
  • the groove 182 has a substantially arc shape with the center of the hole 181 as the center.
  • the groove width of the groove 182 is slightly wider than the outer diameter of the coupling member 161 and slightly smaller than the outer diameter of the flange portion 168.
  • the displacement part 183 extends to the right from the peripheral part in the middle of the groove 182 in the front-rear direction.
  • the right surface of the displacement portion 183 is inclined rightward from the rear toward the front. In other words, the projecting length of the displacement portion 183 gradually increases from the rear toward the front.
  • the holding part 184 is continuous in front of the displacement part 183.
  • the right surface of the holding portion 184 is continuous with the front end portion of the right surface of the displacement portion 183 and extends forward.
  • the connecting portion 180 extends forward from the upper end portion of the cam member 173.
  • the connecting part 180 has a substantially prismatic shape.
  • the connecting portion 180 includes a protrusion 185.
  • the protrusion 185 is disposed in front of the connecting portion 180.
  • the protrusion 185 extends leftward from the left surface of the connecting portion 180.
  • the protrusion 185 has a substantially cylindrical shape.
  • the protrusion 185 is slidably engaged in the inclined hole 178 of the slide member 172.
  • the handle member 101 When the coupling member 161 is moved from the inward position to the outward position, the handle member 101 is tilted from the extended position (see FIG. 27A) as shown in FIG. 27, as in the first embodiment described above. (See FIG. 27B).
  • the protrusion 105A of the handle member 101 presses the rear inner peripheral surface of the hole 176 rearward while moving in the clockwise direction in the left side view with the rear end portion of the handle member 101 as a fulcrum.
  • the slide member 172 moves backward.
  • the protrusion 185 of the cam member 173 moves upward along the inclination of the inclined hole 178.
  • the protrusion 185 of the cam member 173 is positioned at the front end of the inclined hole 178 of the slide member 172.
  • the cam member 173 swings counterclockwise as viewed from the left side with the upper end portion as a fulcrum. Then, the coupling member 161 moves to the left by the urging force of the compression spring 162 along the inclination of the displacement portion 183 of the cam member 173. Thereafter, the displacement portion 183 of the cam member 173 is released from contact with the flange portion 168 of the coupling member 161.
  • the handle member 101 is positioned in the tilted position when the projection 105A gets over the projection 177 and is disposed above the projection 177.
  • the handle member 101 moves from the tilted position (see FIG. 27B) to the extended position (see FIG. 27A).
  • the protrusion 105A of the handle member 101 presses the front inner peripheral surface of the hole 176 forward while moving counterclockwise as viewed from the left side with the rear end portion of the handle member 101 as a fulcrum.
  • the slide member 172 is pressed by the protrusion 105A and moves forward. Then, the protrusion 185 of the cam member 173 moves downward along the inclination of the inclined hole 178.
  • the cam member 173 swings clockwise in the left side view with the upper end portion as a fulcrum. Then, the coupling member 161 comes into contact with the displacement portion 183 of the cam member 173, and moves to the right along the inclination of the displacement portion 183 while resisting the biasing force of the compression spring 162.
  • the gear member 160 rotates together with the coupling member 161 in the clockwise direction as shown in FIGS. 28 and 30. Then, the developing gear 157 rotates counterclockwise as viewed from the left side. As a result, the developing roller 11 rotates counterclockwise as viewed from the left side.
  • the coupling member 161 is an example of a coupling.
  • the development coupling 156 is supported by the left wall 27L via the support member 169 disposed on the left side of the supply gear 159.
  • the form for supporting the development coupling 156 is not particularly limited.
  • the left end portion of the supply roller shaft 121 may be configured to support the developing coupling 156 so as to be rotatable relative to the supply roller shaft 121.
  • the supply roller 12 is configured to rotate in the direction opposite to the coupling member 151 by the developing gear 157 and one idle gear 158, but for example, three idle gears, An odd number such as five may be arranged, and an even number such as two or four idle gears may be arranged between the developing gear 157 and the gear member 160. Even in such a configuration, the same effect as in the third embodiment can be obtained. 9. Fourth Embodiment With reference to FIGS. 32 to 34, a fourth embodiment of the developing cartridge of the present invention will be described. Note that in the fourth embodiment, members similar to those of the third embodiment described above are denoted by the same reference numerals, and descriptions thereof are omitted. (1) Overview of Fourth Embodiment In the third embodiment described above, the driving force input to the development coupling 156 is transmitted to the supply gear 159 via the development gear 157 and the idle gear 158.
  • the developing cartridge 7 ⁇ / b> D includes a gear train 270.
  • the gear train 270 includes a supply gear 273, an idle gear 271, a support member 274, and a development coupling 275 as shown in FIGS. 32, 33, and 34.
  • the supply gear 273 has a substantially disk shape having a thickness in the left-right direction.
  • the supply gear 273 is supported by the support portion 121 ⁇ / b> A of the supply roller shaft 121 so as not to rotate relative to the supply roller shaft 121.
  • the supply gear 273 has a through hole 273A and a bevel tooth 273B.
  • the through hole 273A is disposed at the radial center of the supply gear 273.
  • the through hole 273A has a substantially D shape when viewed from the side, and penetrates the supply gear 273 in the left-right direction.
  • the through hole 273A is configured so that the support portion 121A of the supply roller shaft 121 is fitted.
  • the bevel tooth 273 ⁇ / b> B is inclined radially inward as it goes leftward over the entire peripheral edge of the left end portion of the supply gear 273.
  • the idle gear 271 has a substantially disk shape having a thickness in the front-rear direction.
  • the idle gear 271 includes bevel teeth 271A that incline radially inward toward the rear over the entire periphery of the rear end.
  • the idle gear 271 is rotatably supported by a projection (not shown) extending rearward from the rear surface of the substantially prismatic idle gear support portion 279 protruding leftward from the left surface of the frame 21.
  • the idle gear 271 meshes with the front of the supply gear 273.
  • (2-1-3) Support Member The support member 274 is disposed on the left side of the supply gear 273 as shown in FIGS.
  • the support member 274 has a substantially cylindrical shape extending in the left-right direction.
  • the support member 274 has a hole 278.
  • the hole 278 is disposed at the radial center of the support member 274.
  • the hole 278 is a recess that is recessed leftward from the right surface of the support member 274.
  • the hole 278 has a substantially D shape when viewed from the side.
  • the hole 278 is configured such that the support portion 121A of the supply roller shaft 121 is fitted.
  • (2-1-4) Development Coupling The development coupling 275 is configured in the same manner as the development coupling 156 of the third embodiment except that a bevel tooth 276A is formed on the gear portion 276. Also in the development coupling 275 of the fourth embodiment, the coupling member 161 is moved to the inward position and the outward position indicated by the phantom line in FIG. 32 by the same left interlocking mechanism 154 as in the third embodiment. It is possible to move between.
  • the gear portion 276 includes a bevel tooth 276A that is inclined radially inward as it goes rightward over the entire peripheral edge portion of the right end portion, and a flat tooth 276B over the entire peripheral surface thereof.
  • the gear portion 276 meshes with the upper end portion of the idle gear 271 from the front at the bevel teeth 276A, and meshes with the front of the developing gear 157 at the flat teeth 276B.
  • the gear member 160 rotates together with the coupling member 161 in the clockwise direction as shown in FIG. Then, the developing gear 157 rotates counterclockwise as viewed from the left side. As a result, the developing roller 11 rotates counterclockwise as viewed from the left side.
  • the developing electrode 65 is disposed on the right wall 27 ⁇ / b> R of the frame 21.
  • the developing electrode 194 is disposed on the left wall 27L of the frame 21.
  • the developing cartridge 7E includes a drive unit 191.
  • the drive unit 191 includes a bearing member 192, a developing electrode 194, a first gear train 193, a linear cam 195, a cover 196, a compression spring 188, and a compression spring 39.
  • the bearing member 192 includes an upper guide rib 43A, a lower guide rib 197, and a protrusion 198, unlike the bearing member 36 of the first embodiment.
  • the bearing member 192 is made of a conductive material such as a conductive resin.
  • the lower guide rib 197 is disposed at the lower end portion of the bearing member 192 with a space below the upper guide rib 43A.
  • the lower guide rib 197 protrudes leftward from the left surface of the bearing member 192 and extends in the front-rear direction.
  • the front end portion of the lower guide rib 197 is disposed at the front end portion of the bearing member 192.
  • the rear end portion of the lower guide rib 197 is disposed at the rear end portion of the bearing member 192.
  • the protrusion 198 is disposed between the upper guide rib 43A and the lower guide rib 197 above the developing coupling 44 and behind the first idle gear 202 described later.
  • the protrusion 198 extends leftward from the left surface of the bearing member 192.
  • the protrusion 198 has a substantially cylindrical shape whose left end is closed. Note that the right end portion of the protrusion 198 passes through the bearing member 192 in the left-right direction and is opened toward the right.
  • the protrusion 198 has a groove 199.
  • the groove 199 is cut away from the left end portion of the protrusion 198 toward the right so as to penetrate the protrusion 198 in the vertical direction.
  • the groove 199 has a substantially straight line shape in plan view with the left end opened.
  • (2-2) Development Electrode The development electrode 194 is disposed in the groove 199.
  • the developing electrode 194 has a substantially T shape when viewed from the front.
  • the developing electrode 194 is configured to move in an inward position (see FIG. 35) and an outward position (see FIG. 41) along the left-right direction while being guided by the groove 199.
  • the moving distance D3 from the inner position to the outer position of the developing electrode 194 is, for example, 5 mm or more and 30 mm or less.
  • the developing electrode 194 includes a contact portion 189 and a contact portion 190.
  • the contact portion 189 is disposed at the right end portion of the developing electrode 194.
  • the contact portion 189 has a substantially prismatic shape extending in the vertical direction.
  • the upper end portion of the contact portion 189 protrudes upward from the upper end portion of the protrusion 198.
  • the lower end portion of the contact portion 189 protrudes downward from the lower end portion of the protrusion 198.
  • the contact portion 190 extends leftward from the center of the contact portion 189 in the vertical direction.
  • the contact portion 190 has a substantially cylindrical shape that is long in the left-right direction.
  • the contact portion 190 protrudes leftward from the left end portion of the protrusion 198.
  • the contact portion 190 includes a contact portion between the development coupling 44 and a first idle gear 202 to be described later, a common tangent line L between the development coupling 44 and a first idle gear 202 to be described later, and development. Arranged in a region surrounded by the peripheral surface of the coupling 44 and the peripheral surface of the first idle gear 202 described later.
  • the contact part 190 has a contact 190A at the left end.
  • the contact 190 ⁇ / b> A is disposed in a hole 208 (described later) of the cover 196 when the developing electrode 194 is located at the inward position. As shown in FIG. 37A, the contact 190 ⁇ / b> A is located at a position in the left-right direction that is substantially the same as the left surface of the left collar 49 when the developing electrode 194 is located at the inner position. When the developing electrode 194 is located at the outward position, the contact 190A is located on the left side of the left surface of the cover 196 as shown in FIG. 37B. In other words, the outward position of the developing electrode 194 is positioned outward in the left-right direction relative to the inward position of the developing electrode 194.
  • the first gear train 193 includes an agitator gear 200 and an idle gear train 201 in addition to the development coupling 44 and the development gear 45, as shown in FIG. (2-3-1) Agitator Gear
  • the agitator gear 200 has a substantially disc shape extending in the left-right direction, and has gear teeth over the entire circumferential surface thereof.
  • the agitator gear 200 has a substantially D-shaped through hole 200A in a side view in the radial center.
  • the agitator gear 200 is supported on the left end portion of the rotation shaft S of the agitator 6. In this state, the left end portion of the rotation shaft S is incapable of relative rotation in the through hole 159A of the agitator gear 200. As a result, the agitator gear 200 cannot rotate relative to the rotation axis S, and can rotate together with the rotation axis S.
  • the idle gear train 201 includes a first idle gear 202, a second idle gear 203, and a third idle gear 204.
  • the first idle gear 202 has a substantially disc shape having a thickness in the left-right direction.
  • the first idle gear 202 includes a through hole 202A having a substantially circular shape in a side view at the center in the radial direction, and gear teeth over the entire peripheral surface.
  • the first idle gear 202 is supported by a projection 209, which will be described later, of the cover 196.
  • the first idle gear 202 can rotate relative to the protrusion 209.
  • the first idle gear 202 meshes with the upper front portion of the gear portion 46 of the development coupling 44.
  • the second idle gear 203 has a substantially disc shape having a thickness in the left-right direction and a smaller diameter than the first idle gear 202.
  • the second idle gear 203 includes a through hole 203A having a substantially circular shape in a side view at the radial center and gear teeth over the entire peripheral surface.
  • the second idle gear 203 is supported by a protrusion 210 described later of the cover 196.
  • the second idle gear 203 can rotate relative to the protrusion 210.
  • the second idle gear 203 meshes with the upper front portion of the first idle gear 202.
  • the third idle gear 204 has a thickness in the left-right direction, and has a substantially disk shape with the same diameter as the second idle gear 203.
  • the third idle gear 204 includes a through hole 204A having a substantially circular shape in a side view at the radial center and gear teeth over the entire circumferential surface.
  • the third idle gear 204 is supported by a projection 211 described later of the cover 196.
  • the third idle gear 204 can rotate relative to the protrusion 211.
  • the third idle gear 204 meshes with the front portion of the second idle gear 203 and meshes with the rear upper portion of the agitator gear 200.
  • the linear motion cam 195 includes an electrode contact portion 205 as shown in FIGS.
  • the linear motion cam 195 has the same shape as the left linear motion cam 38 of the first embodiment except that the electrode contact portion 205 is provided.
  • the electrode contact portion 205 is disposed above the contact portion 51.
  • the electrode contact portion 205 extends upward from the front end portion of the contact portion 51, bends backward at the upper end portion, and extends rearward.
  • the rear end portion of the electrode contact portion 205 is disposed slightly ahead of the rear end portion of the contact portion 51.
  • the electrode contact part 205 includes a displacement part 206 and a holding part 207.
  • the displacement portion 206 is disposed at the rear end portion of the electrode contact portion 205.
  • the left surface of the displacement portion 206 is inclined leftward from the rear to the front. In other words, the protruding length of the displacement portion 206 becomes gradually longer from the rear to the front.
  • the holding unit 207 is continuous behind the displacement unit 206.
  • the left surface of the holding portion 207 is continuous with the front end portion of the left surface of the displacement portion 206 and extends in the front-rear direction.
  • Cover The cover 196 is fixed to the left wall 27L of the frame 21 with screws (not shown).
  • the cover 196 includes a hole 208, a protrusion 209, a protrusion 210, and a protrusion 211 as shown in FIGS.
  • the cover 196 has the same shape as the cover 40 of the first embodiment except that the cover 196 includes a hole 208, a protrusion 209, a protrusion 210, and a protrusion 211.
  • the hole 208 is disposed above the opening 62.
  • the hole 208 has a substantially circular shape in side view.
  • the diameter of the hole 208 is slightly larger than the outer diameter of the contact portion 190 of the developing electrode 194.
  • the protrusion 209 is disposed on the front upper side of the opening 62.
  • the protrusion 209 extends from the right surface of the left wall of the cover 196 toward the right.
  • the protrusion 209 has a substantially cylindrical shape.
  • the protrusion 209 is fitted in the through hole 202 ⁇ / b> A of the first idle gear 202.
  • the protrusion 210 is disposed on the front upper side of the protrusion 209.
  • the protrusion 210 extends from the right surface of the left wall of the cover 196 toward the right.
  • the protrusion 210 has a substantially cylindrical shape.
  • the protrusion 210 is fitted in the through hole 203 ⁇ / b> A of the second idle gear 203.
  • the protrusion 211 is disposed in front of the protrusion 210.
  • the protrusion 211 extends rightward from the right surface of the left wall of the cover 196.
  • the protrusion 211 has a substantially cylindrical shape.
  • the protrusion 211 is fitted in the through hole 204 ⁇ / b> A of the third idle gear 204.
  • (2-6) Compression Spring As shown in FIG. 37, the compression spring 188 is disposed in the protrusion 198 so that the contact portion 190 is disposed radially inward.
  • the compression spring 188 is a coil spring that is smaller than the inner diameter of the protrusion 198 and larger than the diameter of the contact portion 190 of the developing electrode 194.
  • the compression spring 188 is in contact with the right surface of the left wall of the protrusion 198 at the left end from the right, and is in contact with the contact portion 189 of the developing electrode 194 from the left at the right end.
  • the compression spring 188 always urges the developing electrode 194 toward the inward position.
  • the handle member 101 moves from the extended position toward the tilted position.
  • the protrusion 105A of the handle member 101 presses the rear end portion of the connecting portion 53 of the linear motion cam 195 from the front. Thereby, the linear cam 195 is pressed by the protrusion 105A and moves rearward.
  • the displacement portion 54 of the contact portion 51 comes into contact with the right end portion of the development coupling 44 from the front before the displacement portion 206 of the electrode contact portion 205 comes into contact with the development electrode 194.
  • the development coupling 44 moves slightly to the left against the biasing force of the compression spring 39 (see FIG. 6) along the inclination of the displacement portion 54 of the contact portion 51, as shown in FIG. 39B. To do. At this time, the developing electrode 194 is located at the inward position.
  • the projection 105A moves in the clockwise direction of the linear cam 195 while moving clockwise with the rear end of the handle member 101 as a fulcrum, as shown in FIG. 40A.
  • the inclined portion 56A is pressed so as to slide upward from below.
  • the displacement portion 206 of the electrode contact portion 205 contacts the contact portion 189 of the developing electrode 194 from the front. Then, the developing electrode 194 moves to the left against the urging force of the compression spring 188 along the inclination of the displacement portion 206 of the electrode contact portion 205.
  • the linear cam 195 is located above the projection 58 so that the projection 105A gets over the projection 58, and is positioned at the pressing position.
  • the development coupling 44 and the development electrode 194 are located at the outward positions. Thereby, the movement of the developing coupling 44 and the developing electrode 194 from the inner position to the outer position is completed.
  • the handle member 101 moves from the tilted position toward the extended position.
  • the linear cam 195 moves forward as the handle member 101 moves from the tilted position to the extended position.
  • the developing electrode 194 is moved from the outer position to the inner position by the urging force of the compression spring 188.
  • the development coupling 44 is moved from the outer position to the inner position by the biasing force of the compression spring 39.
  • the concave portion 48 of the development coupling 44 rotates relative to the main body coupling 116 of the main body casing 2 when the development coupling 44 is located in the outer position in the main body casing 2, as indicated by phantom lines in FIG. 37B. It becomes impossible.
  • the contact portion 190A of the developing electrode 194 comes into contact with the main body electrode 212 of the main body casing 2 when the developing electrode 194 is located at the outer position.
  • the developing electrode 194 receives power from the main body electrode 212 during the above-described image forming operation.
  • the electric power received by the developing electrode 194 is transmitted to the developing roller shaft 111 and the supply roller shaft 121 via the bearing member 192.
  • the developing coupling 44 receives a driving force from the main body coupling 116 during an image forming operation or the like.
  • the development coupling 44 rotates clockwise as viewed from the left side.
  • the developing gear 45 rotates counterclockwise as viewed from the left side.
  • the first idle gear 202 rotates counterclockwise when viewed from the left side.
  • the second idle gear 203 rotates clockwise when viewed from the left side.
  • the third idle gear 204 rotates counterclockwise as viewed from the left side.
  • the developing roller 11 rotates counterclockwise as viewed from the left side.
  • the agitator gear 200 rotates clockwise as viewed from the left side.
  • the agitator 6 rotates clockwise when viewed from the left side.
  • the left wall 27L of the frame 21 is an example of a first wall.
  • the first idle gear 202 is an example of a passive member.
  • the development electrode 194 is an example of an electrode.
  • the inward position of the developing electrode 194 is an example of a first position.
  • the outward position of the developing electrode 194 is an example of a second position.
  • the contact part 190 is an example of a contact.
  • the configuration for outputting electric power to the developing electrode 194 and the configuration for outputting a driving force to the developing coupling 44 can be concentrated on the side facing the left wall 27L.
  • the contact portion 190 of the development electrode 194 is a contact portion between the development coupling 44 and the first idle gear 202, and the development coupling 44 and the first idle gear.
  • the common tangent L with the gear 202, the peripheral surface of the development coupling 44, and the region surrounded by the peripheral surface of the first idle gear 202 are disposed.
  • the developing electrode 194 can be disposed in the vicinity of the developing coupling 44, and the developing cartridge 7E can be downsized. (6-3) Also in the fifth embodiment, it is possible to obtain the same effects as those in the first embodiment. (7) Modification of Fifth Embodiment
  • the first idle gear 202 is an example of a passive member, but the present invention is not limited to this. For example, the structure which arrange
  • Sixth Embodiment With reference to FIGS. 42 and 43, a sixth embodiment of the developing cartridge of the present invention will be described.
  • the developing cartridge 7A includes the handle member 101 that moves the left linear cam 38 and the right linear cam 68.
  • the handle member 101 includes a regulating member 104 that regulates unintended movement of the handle member 101.
  • the developing cartridge 7F does not include the handle member 101.
  • the cover 222 includes a regulating member 226 that regulates the movement of the left linear cam 223.
  • the developing cartridge 7F includes a drive unit 240.
  • the drive unit 240 includes a left linear cam 221 and a cover 222.
  • the operation unit 224 extends leftward from the rear end portion of the connecting portion 53.
  • the operation unit 224 has a substantially flat plate shape.
  • the opening 225 is disposed at the rear end of the cover 222.
  • the opening 225 penetrates the left wall of the cover 222 in the left-right direction.
  • the opening 225 has a substantially rectangular shape in side view.
  • the regulating member 226 is disposed in the opening 225.
  • the regulating member 226 has a substantially rectangular flat plate shape that is long in the front-rear direction and viewed from the side. Each of both ends in the front-rear direction of the regulating member 226 is supported by each peripheral edge of both ends in the front-rear direction of the opening 225.
  • the restricting member 226 is vertically moved between a restricting position (see FIGS. 42A and 43C) arranged in the lower end portion of the opening 225 and a restriction releasing position (see FIGS. 43A and 43B) arranged in the upper end portion of the opening 225. Configured to move in the direction.
  • the restricting member 226 restricts the movement of the left linear cam 223 in a state where it is located at the restricting position. Further, the restricting member 226 releases the restriction on the movement with respect to the left linear cam 223 in the state where the restricting member 226 is located at the restriction releasing position.
  • the restricting member 226 has a pair of grooves 227.
  • Each of the pair of grooves 227 is disposed at each of both ends of the regulating member 226 in the front-rear direction.
  • Each of the pair of grooves 227 is a concave groove cut out upward from the lower end portion of the regulating member 226.
  • the left linear cam 223 is restricted from moving from the pressure release position to the pressure position by the restriction member 226.
  • the operation portion 224 of the left translation cam 223 is disposed in the lower front end portion of the opening 225 of the cover 222 and is engaged in the groove 227 in front of the restriction member 226.
  • FIG. 43A when the regulating member 226 moves from the regulated position to the regulated release position, the regulating member 226 moves upward from the operation portion 224 of the left translation cam 223. Thereby, the movement of the left linear cam 223 from the pressing release position to the pressing position is allowed. Then, as the operation unit 224 moves, the left linear cam 223 moves from the pressing release position to the pressing position as shown in FIGS. 43A and 43B.
  • the left translation cam 223 is moved rearward from the pressing release position and the operation portion 224 of the left translation cam 223 is disposed in the lower rear end portion of the opening 225 of the cover 222, the left translation cam 223 is Located in the pressing position.
  • the development coupling 44 is positioned in the outward position as shown in FIG. 43B.
  • the left linear cam 223 is shown in FIG. 43A after the restriction member 226 is located in the restriction release position. As described above, it moves from the pressing release position to the pressing position.
  • the power reception unit of the sixth embodiment is configured in the same manner as the drive unit, although not shown. Specifically, unlike the right translation cam 68 of the first embodiment, the right translation cam does not include the contact portion 82 but includes an operation unit similar to the drive unit described above. Note that the operation unit of the power reception unit extends rightward from the rear end portion of the connecting portion 83.
  • the cover has an opening and a regulating member.
  • the opening and the regulating member are configured in the same manner as the opening 225 and the regulating member 226 of the driving unit described above.
  • the right translation cam moves from the press releasing position to the pressing position after the restricting member is located in the restriction releasing position.
  • the developing electrode 65 is located at the outward position.
  • the right translation cam moves from the pressing release position to the pressing position after the restricting member is positioned at the restriction releasing position.
  • the developing electrode 65 is located at the inward position.
  • a regulating member (not shown) of the power reception unit is an example of a first regulating member.
  • the developing cartridge 7F includes a regulating member that regulates the movement of the developing electrode 65.
  • the developing electrode 65 can be reliably positioned at the inward position or the outward position.
  • the restricting member restricts the movement of the right translation cam.
  • the movement of the developing electrode 65 can be regulated with a simple configuration.
  • 5-3 In the sixth embodiment, the same function and effect as those of the first embodiment can be obtained. 12 Seventh Embodiment With reference to FIGS. 44 to 49, a seventh embodiment of the developing cartridge of the present invention will be described. Note that in the seventh embodiment, members similar to those of the first embodiment described above are denoted by the same reference numerals, and descriptions thereof are omitted.
  • the handle member 101 includes a protrusion 105 that engages with the left linear cam 38 or the right linear cam 68.
  • the handle member 241 does not include the protrusion 105 as shown in FIGS.
  • the drive unit 240 of the seventh embodiment includes an engagement shaft 243.
  • the developing cartridge 7G includes an operation unit 239 and a drive unit 240.
  • the operation unit 239 includes a handle member 241, an engagement shaft 243, and a compression spring 248.
  • the handle member 241 is different from the handle member 101 of the first embodiment in that it does not include the protrusion 105 but includes a hole 244 and a spring support portion 245.
  • the hole 244 is arranged at the lower end portion of the link portion 103.
  • the hole 244 penetrates the link portion 103 in the left-right direction.
  • the hole 244 has a substantially circular shape in a side view.
  • the spring support 245 protrudes from the periphery of the hole 244 outward in the left-right direction.
  • the spring support portion 245 has a substantially cylindrical shape.
  • the spring support portion 245 is disposed so that the center axis thereof overlaps the center of the hole 244.
  • the inner diameter of the spring support 245 is larger than the diameter of the hole 244.
  • the engagement shaft 243 is disposed in the spring support portion 245 of the handle member 241 at a portion on the inner side in the left-right direction with respect to the flange portion 247.
  • the engagement shaft 243 has a substantially cylindrical shape extending in the left-right direction.
  • the engagement shaft 243 includes a flange portion 247.
  • the collar portion 247 is disposed at the approximate center of the engagement shaft 243 in the left-right direction.
  • the flange portion 247 protrudes outward in the radial direction of the engagement shaft 243 from the outer peripheral surface of the engagement shaft 243 and extends in the circumferential direction of the engagement shaft 243.
  • the engagement shaft 243 has an interlocking position (see FIG. 47B) that interlocks the handle member 141 and the left linear cam 38 and an interlock release position that releases the interlock between the handle member 141 and the left linear cam 38 (see FIG. 47A). ) To move between.
  • the right end portion of the engagement shaft 243 protrudes rightward from the hole 244, and the second engagement of the left linear cam 38. It is arranged in front of the joint portion 57. Further, the left end portion of the engagement shaft 243 is disposed in the guide groove 246.
  • the compression spring 248 is disposed in the spring support portion 245 so that the left and right inner ends of the engagement shaft 243 are disposed radially inward.
  • the compression spring 248 is a coil spring extending in the left-right direction.
  • the compression spring 248 is in contact with the right surface of the flange portion 247 of the engagement shaft 243 at the left end portion from the right side, and is in contact with the left surface of the link portion 103 at the right end portion from the left side.
  • the compression spring 248 always urges the engagement shaft 243 toward the left.
  • the cover 242 has a guide groove 246.
  • the guide groove 246 is disposed at the front end portion of the cover 242.
  • the guide groove 246 penetrates the left wall of the cover 242 in the left-right direction.
  • the guide groove 246 has a substantially arc shape extending from the front lower end portion of the cover 242 toward the rear upper side.
  • the guide groove 246 extends along the movement locus of the hole 244 accompanying the movement of the handle member 241.
  • the left end portion of the engaging shaft 243 comes into contact with the inclined surface 250 of the mounting guide 249 of the main body casing 2 from the front. Due to the inclination of the inclined surface 250, the developing cartridge 7G is pressed rightward along the rearward movement.
  • the developing coupling 44 is disposed at the outward position.
  • the power receiving unit of the seventh embodiment is configured in the same manner as the drive unit. Further, unlike the cover 69 of the first embodiment, the cover has a guide groove extending along the movement locus of the hole 244 accompanying the movement of the handle member 241.
  • the engagement shaft 243 is disposed in front of the second engagement portion 89 of the right translation cam 68 at the interlock position, and interlocks the handle member 241 and the right translation cam 68.
  • the engagement shaft 243 is disposed in the guide groove at the interlock release position, and releases the interlock between the handle member 241 and the right translation cam 68.
  • the engagement shaft 243 inserted through a guide groove (not shown) of the power feeding unit cover is an example of a blocking member.
  • Operation and Effect of Seventh Embodiment (7-1) According to the seventh embodiment, the engagement between the right link portion 103 and the right linear cam 68 is released by the engagement shaft 243, so that the external shaft When the handle member 241 is moved by an unintended force, the right translation cam 68 can be prevented from moving.
  • the developing electrode 251 may include, for example, a conductive member 252 and an insulating member 253 as shown in FIG.
  • the conducting member 252 has the same shape as the developing electrode 65 of the first embodiment described above.
  • the insulating member 253 has a substantially cylindrical shape extending in the left-right direction.
  • the inner diameter of the insulating member 253 is slightly larger than the outer diameter of the contact portion 91 of the conducting member 252.
  • the horizontal dimension of the insulating member 253 is slightly shorter than the horizontal length of the contact portion 91 of the conducting member 252.
  • the insulating member 253 is fitted to the contact portion 91 of the conducting member 252 from the outside in the radial direction of the contact portion 91.
  • the thickness of the peripheral wall of the insulating member 253 is not particularly limited, and for example, as shown in FIG.
  • the insulating member 253 is not particularly limited, and may be a substantially frame shape, for example, as shown in FIG.
  • a contact portion 257 having a tapered contact end portion and a support portion 258 that detachably supports the contact portion 257. May be provided so as to be separable.
  • the conducting member 252 may include a ring-shaped contact portion 255 and a wire 256 connected to the contact portion 255.
  • the developing electrode 251 is an example of an electrode.
  • the conducting member 252 is an example of a conducting part.
  • the insulating member 253 is an example of an insulating part.
  • the developing electrode 261 may include an insulating member 262 that is supported by the cover 69 so as not to move, and a conductive member 263 that can move with respect to the insulating member 262.
  • the cover 69 has a hole 264 as shown in FIG.
  • the hole 264 is disposed at the front lower side of the opening 94 of the cover 69.
  • the hole 264 penetrates the right wall of the cover 69 in the left-right direction.
  • the hole 264 has a substantially rectangular shape in side view.
  • the insulating member 262 extends in the front-rear direction, is bent rightward at the rear end thereof, and extends rightward.
  • the insulating member 262 has a substantially L-shaped prism shape in plan view.
  • the insulating member 262 can be separated in the vertical direction at the center in the vertical direction.
  • the right end portion of the insulating member 262 is fitted in the hole 264.
  • the conducting member 263 has an inward position (see FIGS. 54A and 56A) located inward of the insulating member 262, and an outward position that protrudes greatly to the right from the right end of the insulating member 262. (Refer to FIG. 54A and FIG. 56A).
  • the conducting member 263 is a wire that extends in the front-rear direction when the conducting member 263 is located at the inward position, unlike the developing electrode 65 of the first embodiment described above.
  • the conducting member 263 is located in the insulating member 262 at the rear end portion.
  • the conducting member 263 is configured to elastically deform rightward along the shape of the insulating member 262 when the conducting member 263 moves from the inner position to the outer position.
  • the conducting member 263 projects greatly to the right from the hole 264 when the conducting member 263 is located at the outer position. Further, when the conducting member 263 is disposed at the outward position, it can be elastically deformed in its radial direction as indicated by a virtual line in FIG. 56B.
  • the conducting member 263 may be a plate-like member as shown in FIG.
  • the conductive member 263 can be prevented from being damaged when an unintended external force is applied to the conductive member 263 from the front-rear direction or the vertical direction.
  • the insulating member 281 may be an elastically deformable film or the like.
  • the insulating member 281 has a hole 282 having a diameter slightly smaller than the outer diameter of the conducting member 263. Then, the conduction member 263 penetrates the hole 282 of the insulating member 281 when moving from the inner position to the outer position. As a result, the tip of the conducting member 263, that is, the right end portion protrudes from the hole 282 to the right.
  • the developing electrode 65 may be a coil spring extending in the left-right direction. In this case, the developing electrode 65 can be elastically deformed within a range of 2 to 5 mm, for example.
  • the developing electrode 65 When the developing electrode 65 is a coil spring, the developing electrode can be brought into elastic contact with the main body electrode 117 of the main body casing 2.
  • the developing electrode 65 can be more reliably brought into contact with the main body electrode 117.
  • the developing electrode 65 is elastically deformable within a range of 2 to 5 mm, for example, the developing electrode 65 is elastically applied to the main body electrode 117 while ensuring the contact pressure of the developing electrode 65 to the main body electrode 117. Can be contacted.
  • the developing electrode 65 can be more reliably brought into contact with the main body electrode 117.
  • the same operational effects as those of the first embodiment described above can be obtained. 14 Other Modifications
  • the gear is used as an example of the transmission mechanism unit, but the present invention is not limited to this.
  • the rubber layer may be disposed on the outer peripheral surface of the rotating body, and the rubber layer may be in contact with another gear or the rubber layer of the rotating body.
  • the handle member in each of the above-described embodiments has moved the development coupling and the development electrode from the inward position to the outward position by the operator directly moving from the extended position to the tilted position.
  • the handle member may come into contact with the main body cover so that the handle member moves from the extended position to the tilted position.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Electrophotography Configuration And Component (AREA)

Abstract

The purpose of the present invention is to provide a developing cartridge whereby it is possible to miniaturize an image-forming device. A developing cartridge (7) provided with: a developing roller (11); and a developing electrode (65) for transmitting external electrical power to the developing roller (11). The developing electrode (65) is long in the left/right direction, and moves between an inner position and an outer position located further outside than the inner position in the left/right direction.

Description

現像カートリッジDeveloper cartridge
 本発明は、電子写真方式が採用される画像形成装置に使用するための現像カートリッジに関する。 The present invention relates to a developing cartridge for use in an image forming apparatus employing an electrophotographic system.
 従来の電子写真方式の画像形成装置は、装置本体と、現像ローラを有する現像ユニットと、感光ドラムを有するドラムユニットとを備えるカートリッジとを備えている。カートリッジは、装置本体に装着または離脱されるように構成されている(たとえば、下記特許文献1参照。)。 A conventional electrophotographic image forming apparatus includes an apparatus main body, a developing unit having a developing roller, and a cartridge including a drum unit having a photosensitive drum. The cartridge is configured to be attached to or detached from the apparatus main body (see, for example, Patent Document 1 below).
 この画像形成装置では、装置本体は、カートリッジに電力を供給する装置本体の電極をさらに備えている。 In this image forming apparatus, the apparatus main body further includes an electrode of the apparatus main body for supplying power to the cartridge.
 この画像形成装置は、装置本体の電極は、カートリッジに対して進退可能に構成されている。 In this image forming apparatus, the electrode of the apparatus main body is configured to be able to advance and retract with respect to the cartridge.
 具体的には、装置本体の電極は、カートリッジが装置本体に装着される前の状態では、カートリッジの装着の邪魔にならないように退避している。 Specifically, the electrode of the apparatus main body is retracted so as not to obstruct the mounting of the cartridge before the cartridge is mounted on the apparatus main body.
 そして、電極は、操作者がカートリッジを装置本体に装着した後に可動部材を操作することにより、装置本体内部に突出し、カートリッジの電極に接触される。 The electrode protrudes into the inside of the apparatus main body and comes into contact with the electrode of the cartridge by operating the movable member after the operator mounts the cartridge on the apparatus main body.
特許第4387932号公報Japanese Patent No. 4387932
 上記した画像形成装置では、装置本体の電極を進退させるための機構を装置本体に設ける必要があり、装置本体の小型化を図ることが困難である。 In the above-described image forming apparatus, it is necessary to provide a mechanism for moving the electrodes of the apparatus main body back and forth, and it is difficult to reduce the size of the apparatus main body.
 本発明の目的は、画像形成装置の小型化を図ることができる現像カートリッジを提供することにある。 An object of the present invention is to provide a developing cartridge that can reduce the size of an image forming apparatus.
(1)上記した目的を達成するために、本発明の現像カートリッジは、第1方向に延びる第1軸線を有する現像ローラと、外部から供給される電力を現像ローラに伝達するように構成され、現像ローラの第1軸線に沿って長い形状を有する電極とを備える。 (1) In order to achieve the above-described object, the developing cartridge of the present invention is configured to transmit a developing roller having a first axis extending in the first direction and electric power supplied from the outside to the developing roller. And an electrode having a long shape along the first axis of the developing roller.
 電極は、第1位置と、電極が第1位置よりも外側に位置する第2位置との間を移動するように構成される。 The electrode is configured to move between a first position and a second position where the electrode is located outside the first position.
 このような構成によれば、現像カートリッジは、第1位置から第2位置へ外側に向かって移動可能な電極を備えている。 According to such a configuration, the developing cartridge includes the electrode that can move outward from the first position to the second position.
 そのため、現像カートリッジは、電極が第2位置に位置している状態で画像形成装置から電力を受けることができる。 Therefore, the developing cartridge can receive power from the image forming apparatus with the electrode positioned at the second position.
 つまり、現像カートリッジは、画像形成装置が現像カートリッジに向かって移動する構成を有していない場合でも、画像形成装置から電力を受けることができる。 That is, the developing cartridge can receive power from the image forming apparatus even when the image forming apparatus does not have a configuration of moving toward the developing cartridge.
 その結果、画像形成装置の構成を簡略化することができ、画像形成装置の小型化を図ることができる。
(2)電極は、第1軸線に沿って、第1位置と第2位置との間を移動するように構成されてもよい。
As a result, the configuration of the image forming apparatus can be simplified, and the size of the image forming apparatus can be reduced.
(2) The electrode may be configured to move between the first position and the second position along the first axis.
 このような構成によれば、電極が配置されている側において、第1方向における画像形成装置の小型化を図ることができる。
(3)本発明の現像カートリッジは、第1位置または第2位置に電極を移動させるように構成される移動機構を備えてもよい。
According to such a configuration, it is possible to reduce the size of the image forming apparatus in the first direction on the side where the electrodes are disposed.
(3) The developing cartridge of the present invention may include a moving mechanism configured to move the electrode to the first position or the second position.
 このような構成によれば、移動機構により電極を移動させることができる。
(4)移動機構は、第1位置または第2位置に電極を移動させるように構成される移動部材を含んでもよい。
According to such a configuration, the electrode can be moved by the moving mechanism.
(4) The moving mechanism may include a moving member configured to move the electrode to the first position or the second position.
 このような構成によれば、簡易な構成で、電極を第1位置または第2位置に移動させることができる。
(5)移動機構は、電極を付勢する付勢部材をさらに備えてもよい。
According to such a configuration, the electrode can be moved to the first position or the second position with a simple configuration.
(5) The moving mechanism may further include a biasing member that biases the electrode.
 このような構成によれば、電極を確実に第1位置または第2位置に移動させることができる。
(6)付勢部材は、電極を常に第2位置へ向かって付勢してもよい。移動部材は、移動部材が付勢部材の付勢力に抗して電極を第1位置に向かって押圧する押圧位置と、移動部材が電極を第1位置に向かって押圧する押圧を解除する押圧解除位置とに移動するように構成されてもよい。
According to such a configuration, the electrode can be reliably moved to the first position or the second position.
(6) The biasing member may always bias the electrode toward the second position. The moving member has a pressing position in which the moving member presses the electrode toward the first position against the urging force of the urging member, and a pressure release in which the moving member presses the electrode toward the first position. It may be configured to move to a position.
 このような構成によれば、付勢部材の付勢力により、確実に、電極を第2位置に位置させることができる。
(7)本発明の現像カートリッジは、電極の移動を規制するように構成される第1規制部材を備えてもよい。
According to such a configuration, the electrode can be reliably positioned at the second position by the biasing force of the biasing member.
(7) The developing cartridge of the present invention may include a first regulating member configured to regulate the movement of the electrode.
 このような構成によれば、第1規制部材により、意図しない電極の移動を規制することができる。 According to such a configuration, unintended movement of the electrode can be regulated by the first regulating member.
 その結果、電極を、確実に、第1位置または第2位置に位置させることができる。
(8)第1規制部材は、移動機構の移動を規制するように構成されてもよい。
As a result, the electrode can be reliably positioned at the first position or the second position.
(8) The first restricting member may be configured to restrict movement of the moving mechanism.
 このような構成によれば、簡易な構成で、意図しない電極の移動を規制することができる。
(9)本発明の現像カートリッジは、外部からの力を受けて移動することにより、電極を移動させるように構成される力受け部を備えてもよい。
According to such a configuration, unintended movement of the electrode can be regulated with a simple configuration.
(9) The developing cartridge of the present invention may include a force receiving portion configured to move the electrode by moving by receiving an external force.
 このような構成によれば、外部からの力を利用して、電極を移動させることができる。 According to such a configuration, the electrode can be moved using an external force.
 そのため、現像カートリッジの構成を簡略化することができる。
(10)力受け部は、外部からの力を受けて移動することにより、移動機構を移動させるように構成されてもよい。
Therefore, the configuration of the developing cartridge can be simplified.
(10) The force receiving portion may be configured to move the moving mechanism by receiving a force from the outside and moving.
 このような構成によれば、簡易な構成により、外部からの力を移動機構に伝達することができる。
(11)本発明の現像カートリッジは、力受け部の移動を規制するように構成される第2規制部材を備えてもよい。
According to such a configuration, an external force can be transmitted to the moving mechanism with a simple configuration.
(11) The developing cartridge of the present invention may include a second restricting member configured to restrict the movement of the force receiving portion.
 このような構成によれば、第2規制部材により、意図しない力受け部の移動を規制することができる。 According to such a configuration, the unintended movement of the force receiving portion can be restricted by the second restricting member.
 その結果、電極の意図しない移動を規制することができる。
(12)本発明の現像カートリッジは、力受け部が受けた外部の力を力受け部から移動機構へ伝達することを遮断するように構成される遮断部材を備えてもよい。
As a result, unintended movement of the electrode can be restricted.
(12) The developing cartridge of the present invention may include a blocking member configured to block transmission of an external force received by the force receiving portion from the force receiving portion to the moving mechanism.
 このような構成によれば、遮断部材によって力受け部と移動機構との連動を解除し、外部からの意図しない力によって力受け部が移動された場合に、移動機構が移動することを防止できる。 According to such a configuration, the interlocking between the force receiving portion and the moving mechanism is released by the blocking member, and the movement mechanism can be prevented from moving when the force receiving portion is moved by an unintended force from the outside. .
 その結果、電極の意図しない移動を防止することができる。
(13)本発明の現像カートリッジは、第1軸線と直交する方向において、現像ローラと間隔を隔てて位置する壁を有してもよい。この場合、力受け部は、壁に配置されていてもよい。
As a result, unintended movement of the electrode can be prevented.
(13) The developing cartridge of the present invention may have a wall positioned at a distance from the developing roller in a direction orthogonal to the first axis. In this case, the force receiving portion may be disposed on the wall.
 このような構成によれば、力受け部は、現像ローラの第1軸線と直交する方向から、確実に力を受けることができる。
(14)力受け部は、把持部を備えてもよい。
According to such a configuration, the force receiving portion can reliably receive force from a direction orthogonal to the first axis of the developing roller.
(14) The force receiving portion may include a grip portion.
 このような構成によれば、力受け部は、操作者が把持部を把持して操作することで、確実に力を受けることができる。
(15)把持部は、第1方向において、力受け部の中央に配置されていてもよい。
According to such a configuration, the force receiving portion can reliably receive the force by the operator holding and operating the grip portion.
(15) The grip portion may be arranged at the center of the force receiving portion in the first direction.
 このような構成によれば、操作者は、容易に把持部を把持することができる。
(16)本発明の現像カートリッジは、第1壁と、第1方向において第1壁と間隔を隔てて位置する第2壁と、外部からの駆動力を現像ローラに伝達するように構成されるカップリングとを備えてもよい。この場合、電極およびカップリングは、第1壁に配置されてもよい。
According to such a configuration, the operator can easily grip the grip portion.
(16) The developing cartridge of the present invention is configured to transmit the driving force from the outside to the developing roller, the first wall, the second wall positioned at a distance from the first wall in the first direction. And a coupling. In this case, the electrode and the coupling may be disposed on the first wall.
 このような構成によれば、電極に電力を出力する構成、および、カップリングに駆動力を出力する構成を、画像形成装置において、第1壁と向かい合う側に集約することができる。 According to such a configuration, the configuration for outputting electric power to the electrode and the configuration for outputting a driving force to the coupling can be concentrated on the side facing the first wall in the image forming apparatus.
 その結果、画像形成装置の小型化をより図ることができる。
(17)本発明の現像カートリッジは、カップリングからの駆動力を受けるように構成される受動部材を備えてもよい。この場合、電極は、カップリングと受動部材との接触部分、カップリングと受動部材との共通接線、受動部材と接触するように構成されるカップリングの周面、および、カップリングと接触するように構成される受動部材の周面に囲まれる領域内に配置されていてもよい。
As a result, the image forming apparatus can be further downsized.
(17) The developing cartridge of the present invention may include a passive member configured to receive a driving force from the coupling. In this case, the electrode is in contact with the coupling part and the passive member, a common tangent line between the coupling and the passive member, a circumferential surface of the coupling configured to contact the passive member, and the coupling. It may be arranged in a region surrounded by the peripheral surface of the passive member configured as described above.
 このような構成によれば、電極をカップリングの近傍に配置することができ、現像カートリッジの小型化を図ることができる。
(18)電極は、第1軸線に沿って弾性変形可能であってもよい。
According to such a configuration, the electrode can be disposed in the vicinity of the coupling, and the development cartridge can be reduced in size.
(18) The electrode may be elastically deformable along the first axis.
 このような構成によれば、電極は、画像形成装置の電極に弾性的に接触することができる。 According to such a configuration, the electrode can elastically contact the electrode of the image forming apparatus.
 その結果、電極をより確実に接触させることができる。
(19)電極は、2~5mmの範囲で弾性変形可能であってもよい。
As a result, the electrodes can be contacted more reliably.
(19) The electrode may be elastically deformable within a range of 2 to 5 mm.
 このような構成によれば、画像形成装置の接点に対する電極の接触圧を確保しながら、画像形成装置の接点に対して、電極を弾性的に接触させることができる。 According to such a configuration, the electrode can be elastically brought into contact with the contact of the image forming apparatus while ensuring the contact pressure of the electrode with respect to the contact of the image forming apparatus.
 その結果、画像形成装置の接点に対して、電極をより一層確実に接触させることができる。
(20)電極は、金属であってもよい。
As a result, the electrode can be made to contact the contact point of the image forming apparatus more reliably.
(20) The electrode may be a metal.
 このような構成によれば、電極の剛性を容易に確保することができる。
(21)電極は、第1軸線と直交する直交方向において弾性変形可能であってもよい。
According to such a configuration, the rigidity of the electrode can be easily ensured.
(21) The electrode may be elastically deformable in an orthogonal direction orthogonal to the first axis.
 このような構成によれば、電極は、現像ローラの第1軸線と直交する方向において外部の構成が電極に干渉した場合に、弾性変形する。 According to such a configuration, the electrode is elastically deformed when an external configuration interferes with the electrode in a direction orthogonal to the first axis of the developing roller.
 その結果、現像ローラの第1軸線と直交する方向から電極に意図しない外力が加わった場合に、電極が破損することを防止できる。
(22)第1軸線と直交する方向において、電極の寸法は、0.01~3mmであってもよい。
As a result, the electrode can be prevented from being damaged when an unintended external force is applied to the electrode from a direction orthogonal to the first axis of the developing roller.
(22) In the direction orthogonal to the first axis, the dimension of the electrode may be 0.01 to 3 mm.
 このような構成によれば、電極を細く構成することができ、電極を容易に弾性変形させることができる。
(23)本発明の現像カートリッジは、第1軸線に沿って延び、かつ、現像ローラの近傍に配置されるカラーをさらに備えてもよい。この場合、電極は、第1位置において、カラーよりも第1方向の内方に位置し、第2位置において、カラーよりも第1方向の外方に位置するように構成されてもよい。
According to such a structure, an electrode can be comprised thinly and an electrode can be easily elastically deformed.
(23) The developing cartridge of the present invention may further include a collar extending along the first axis and disposed in the vicinity of the developing roller. In this case, the electrode may be configured to be located inward in the first direction relative to the collar at the first position, and to be located outward in the first direction relative to the collar at the second position.
 このような構成によれば、電極を第1位置に位置させたときに、電極を第1カラーよりも内方に位置させることができる。 According to such a configuration, when the electrode is positioned at the first position, the electrode can be positioned inward of the first collar.
 その結果、電極が外部の構成に干渉することを抑制できる。
(24)電極は、導通部と、導通部の少なくとも一部の表面を被覆する絶縁部とを含んでもよい。
As a result, the electrode can be prevented from interfering with the external configuration.
(24) The electrode may include a conducting part and an insulating part covering at least a part of the surface of the conducting part.
 このような構成によれば、導通部において電極の導通を確保しながら、絶縁部において、外部の構成と電極との意図しない導通を遮断することができる。
(25)導通部および絶縁部は、一体的に移動するように構成されてもよい。
According to such a configuration, it is possible to block unintended conduction between the external configuration and the electrode in the insulating portion while ensuring the conduction of the electrode in the conduction portion.
(25) The conducting portion and the insulating portion may be configured to move integrally.
 このような構成によれば、電極の移動中においても、外部の構成と電極との意図しない導通を遮断することができる。
(26)導通部および絶縁部は、別々に移動するように構成される
 このような構成によれば、絶縁部に対して導通部のみを移動させることができ、簡易な構成で、電極の導通の確保と、外部の構成と電極との意図しない導通の遮断とを実現できる。
According to such a configuration, unintended conduction between the external configuration and the electrode can be interrupted even during movement of the electrode.
(26) The conductive portion and the insulating portion are configured to move separately. According to such a configuration, only the conductive portion can be moved with respect to the insulating portion, and the conduction of the electrode can be achieved with a simple configuration. Securing uninterrupted conduction between the external configuration and the electrode can be realized.
 本発明の現像カートリッジによれば、画像形成装置の構成を簡略化することができ、画像形成装置の小型化を図ることができる。 According to the developing cartridge of the present invention, the configuration of the image forming apparatus can be simplified, and the size of the image forming apparatus can be reduced.
図1は、本発明の第1実施形態を適用した現像カートリッジの中央断面図である。FIG. 1 is a central sectional view of a developing cartridge to which the first embodiment of the present invention is applied. 図2は、本発明の第1実施形態の現像カートリッジが装着されたプリンタの形態を示す中央断面図である。FIG. 2 is a central cross-sectional view showing a form of a printer in which the developing cartridge according to the first embodiment of the present invention is mounted. 図3は、図1に示す現像カートリッジの平面図である。FIG. 3 is a plan view of the developing cartridge shown in FIG. 図4は、図2に示す現像カートリッジの第1フレームの左下方から見た斜視図である。FIG. 4 is a perspective view of the first frame of the developing cartridge shown in FIG. 2 as viewed from the lower left. 図5は、図2に示す現像カートリッジの駆動部の左上方から見た斜視図である。FIG. 5 is a perspective view of the developing cartridge driving unit shown in FIG. 2 as viewed from the upper left. 図6は、図5に示す駆動部であって、現像カートリッジのカバーを外した状態を示す。FIG. 6 shows the drive unit shown in FIG. 5 with the developing cartridge cover removed. 図7は、図6に示す駆動部の左側面図である。FIG. 7 is a left side view of the driving unit shown in FIG. 図8は、図6に示す駆動部の分解斜視図である。FIG. 8 is an exploded perspective view of the drive unit shown in FIG. 図9は、図6に示す現像カートリッジの現像カップリングのギア部と現像ギアとの噛合状態を説明する説明図である。FIG. 9 is an explanatory view for explaining the meshing state between the developing coupling gear and the developing gear of the developing cartridge shown in FIG. 図10は、図2に示す現像カートリッジの右前方から見た斜視図である。FIG. 10 is a perspective view of the developing cartridge shown in FIG. 2 as viewed from the right front. 図11は、図9に示す現像カートリッジの受電部の分解斜視図である。FIG. 11 is an exploded perspective view of the power receiving unit of the developing cartridge shown in FIG. 図12は、図9に示す受電部であって、現像カートリッジのカバーを外した状態を示す。FIG. 12 shows the power receiving unit shown in FIG. 9 with the developing cartridge cover removed. 図13は、図11に示す受電部の右側面図である。FIG. 13 is a right side view of the power receiving unit shown in FIG. 11. 図14は、図3に示す現像カートリッジのA-A断面図である。14 is a cross-sectional view of the developing cartridge taken along the line AA in FIG. 図15Aは、ハンドル部材と左直動カムとの連動を説明する説明図であって、ハンドル部材が延出位置から傾倒位置へ移動する途中において、突起が左直動カムに当接した状態を示す説明図である。図15Bは、ハンドル部材と左直動カムとの連動を説明する説明図であって、ハンドル部材が傾倒位置に位置し、左直動カムが押圧位置に位置した状態を示す説明図である。FIG. 15A is an explanatory diagram for explaining the interlocking between the handle member and the left linear cam, and shows a state in which the protrusion is in contact with the left linear cam while the handle member moves from the extended position to the tilted position. It is explanatory drawing shown. FIG. 15B is an explanatory diagram illustrating the interlocking between the handle member and the left linear cam, and is an explanatory diagram illustrating a state where the handle member is positioned at the tilted position and the left linear cam is positioned at the pressing position. 図16Aは、ハンドル部材と右直動カムとの連動を説明する説明図であって、ハンドル部材が延出位置から傾倒位置へ移動する途中において、突起が右直動カムに当接した状態を示す説明図である。図16Bは、ハンドル部材と右直動カムとの連動を説明する説明図であって、ハンドル部材が傾倒位置に位置し、右直動カムが押圧解除位置に位置した状態を示す説明図である。FIG. 16A is an explanatory diagram for explaining the interlocking between the handle member and the right translation cam, and shows a state in which the protrusion is in contact with the right translation cam while the handle member moves from the extended position to the tilt position. It is explanatory drawing shown. FIG. 16B is an explanatory diagram illustrating the interlocking between the handle member and the right linear cam, and is an explanatory diagram illustrating a state in which the handle member is positioned at the tilt position and the right linear cam is positioned at the pressing release position. . 図17は、図15Bに示す駆動部を左上方から見た斜視図である。FIG. 17 is a perspective view of the drive unit shown in FIG. 15B as viewed from the upper left. 図18は、図16Bに示す受電部を右上方から見た斜視図である。FIG. 18 is a perspective view of the power reception unit illustrated in FIG. 16B as viewed from the upper right. 図19は、現像カップリングが外方位置に位置し、現像電極が外方位置に位置した状態を示す図3のA-A断面図である。19 is a cross-sectional view taken along the line AA of FIG. 3 showing a state where the development coupling is located at the outward position and the development electrode is located at the outward position. 図20Aは、ハンドル部材と左直動カムとの連動を説明する説明図であって、ハンドル部材が傾倒位置から延出位置へ移動する途中において、突起が左直動カムの第2係合部の垂直部分に当接した状態を示す説明図である。図20Bは、ハンドル部材と左直動カムとの連動を説明する説明図であって、ハンドル部材が傾倒位置から延出位置へ移動する途中において、突起が左直動カムの第2係合部の傾斜部分に当接した状態を示す説明図である。図20Cは、ハンドル部材と左直動カムとの連動を説明する説明図であって、ハンドル部材が延出位置に位置し、左直動カムが押圧解除位置に位置した状態を示す説明図である。FIG. 20A is an explanatory diagram for explaining the interlocking between the handle member and the left translation cam, and the protrusion is a second engagement portion of the left translation cam while the handle member moves from the tilted position to the extended position. It is explanatory drawing which shows the state contact | abutted to the vertical part. FIG. 20B is an explanatory diagram for explaining the interlocking between the handle member and the left linear cam, and the protrusion is a second engaging portion of the left linear cam while the handle member moves from the tilted position to the extended position. It is explanatory drawing which shows the state contact | abutted to the inclination part. FIG. 20C is an explanatory diagram illustrating the interlocking between the handle member and the left linear cam, and is an explanatory diagram illustrating a state in which the handle member is positioned at the extended position and the left linear cam is positioned at the pressing release position. is there. 図21Aは、ハンドル部材と右直動カムとの連動を説明する説明図であって、ハンドル部材が傾倒位置から延出位置へ移動する途中において、突起が右直動カムの第2係合部に当接した状態を示す説明図である。図21Bは、ハンドル部材と右直動カムとの連動を説明する説明図であって、ハンドル部材が延出位置に位置し、右直動カムが押圧位置に位置した状態を示す説明図である。FIG. 21A is an explanatory view for explaining the interlocking between the handle member and the right translation cam, and the projection is a second engagement portion of the right translation cam in the middle of the movement of the handle member from the tilted position to the extended position. It is explanatory drawing which shows the state contact | abutted to. FIG. 21B is an explanatory diagram illustrating the interlocking between the handle member and the right linear cam, and is an explanatory diagram illustrating a state in which the handle member is located at the extended position and the right linear cam is located at the pressing position. . 図22Aは、本発明の第2実施形態の現像カートリッジの右リンク機構を説明する説明図であって、右リンク機構が第1位置に位置し、現像電極が内方位置に位置した状態を示す説明図である。図22Bは、本発明の第2実施形態の現像カートリッジの右リンク機構を説明する説明図であって、右リンク機構が第2位置に位置し、現像電極が外方位置に位置した状態を示す説明図である。FIG. 22A is an explanatory view illustrating the right link mechanism of the developing cartridge according to the second embodiment of the present invention, and shows a state where the right link mechanism is located at the first position and the developing electrode is located at the inward position. It is explanatory drawing. FIG. 22B is an explanatory view illustrating the right link mechanism of the developing cartridge according to the second embodiment of the present invention, and shows a state where the right link mechanism is located at the second position and the developing electrode is located at the outward position. It is explanatory drawing. 図23Aは、本発明の第2実施形態の現像カートリッジの左リンク機構を説明する説明図であって、左リンク機構が第3位置に位置し、現像カップリングが内方位置に位置した状態を示す説明図である。図23Bは、本発明の第2実施形態の現像カートリッジの左リンク機構を説明する説明図であって、左リンク機構が第4位置に位置し、現像カップリングが外方位置に位置した状態を示す説明図である。FIG. 23A is an explanatory view illustrating the left link mechanism of the developing cartridge according to the second embodiment of the present invention, in which the left link mechanism is located at the third position and the developing coupling is located at the inward position. It is explanatory drawing shown. FIG. 23B is an explanatory diagram for explaining the left link mechanism of the developing cartridge according to the second embodiment of the present invention, in which the left link mechanism is located at the fourth position and the developing coupling is located at the outward position. It is explanatory drawing shown. 図24は、左リンク機構の分解図である。FIG. 24 is an exploded view of the left link mechanism. 図25は、本発明の第3実施形態の現像カートリッジの駆動部を示し、右上方から見た斜視図である。FIG. 25 is a perspective view showing the driving unit of the developing cartridge according to the third embodiment of the present invention, viewed from the upper right. 図26は、図25に示す駆動部の分解斜視図である。26 is an exploded perspective view of the drive unit shown in FIG. 図27Aは、ハンドル部材と本発明の第3実施形態の現像カートリッジの左連動機構との連動を説明する説明図であって、ハンドル部材が延出位置に位置し、カム部材が押圧位置に位置した状態を示す説明図である。図27Bは、ハンドル部材と本発明の第3実施形態の現像カートリッジの左連動機構との連動を説明する説明図であって、ハンドル部材が傾倒位置に位置し、カム部材が押圧解除位置に位置した状態を示す説明図である。FIG. 27A is an explanatory view for explaining the interlocking between the handle member and the left interlocking mechanism of the developing cartridge according to the third embodiment of the present invention, in which the handle member is located at the extended position and the cam member is located at the pressing position. It is explanatory drawing which shows the state which carried out. FIG. 27B is an explanatory diagram for explaining the interlocking between the handle member and the left interlocking mechanism of the developing cartridge according to the third embodiment of the present invention, in which the handle member is positioned at the tilt position and the cam member is positioned at the press release position. It is explanatory drawing which shows the state which carried out. 図28は、図27Bに示す駆動部を右上方から見た斜視図である。FIG. 28 is a perspective view of the drive unit shown in FIG. 27B as viewed from the upper right. 図29は、図27Bに示す駆動部のB-B断面図である。FIG. 29 is a cross-sectional view taken along the line BB of the drive unit shown in FIG. 図30は、現像カップリングから供給ギアへの駆動力の伝達を説明するための説明図である。FIG. 30 is an explanatory diagram for explaining transmission of driving force from the development coupling to the supply gear. 図31は、本発明の第3実施形態の駆動部の変形例を説明するための説明図である。FIG. 31 is an explanatory diagram for describing a modification of the drive unit according to the third embodiment of the present invention. 図32は、本発明の第4実施形態の現像カートリッジを説明するための説明図である。FIG. 32 is an explanatory diagram for explaining a developing cartridge according to a fourth embodiment of the present invention. 図33は、図32に示すギア列の分解斜視図である。FIG. 33 is an exploded perspective view of the gear train shown in FIG. 図34は、図33に示すカップリング支持部材を説明するための説明図である。FIG. 34 is an explanatory diagram for explaining the coupling support member shown in FIG. 33. 図35Aは、本発明の第5実施形態の現像カートリッジの駆動部を左前方から見た斜視図である。図35Bは、図35Aの駆動部からカバーを外した状態で駆動部の前下方から見た斜視図である。FIG. 35A is a perspective view of a developing cartridge driving unit according to the fifth embodiment of the present invention as viewed from the left front side. FIG. 35B is a perspective view seen from the front lower side of the drive unit with the cover removed from the drive unit of FIG. 35A. 図36は、図35Bに示す駆動部の左側面図である。36 is a left side view of the driving unit shown in FIG. 35B. 図37Aは、図36に示す駆動部のC-C断面図であって、現像カップリングおよび現像電極が内方位置に配置されている状態を示す断面図である。図37Bは、図36に示す駆動部のC-C断面図であって、現像カップリングおよび現像電極が外方位置に配置されている状態を示す断面図である。FIG. 37A is a cross-sectional view taken along the line C-C of the drive unit shown in FIG. 36, and shows a state where the development coupling and the development electrode are arranged at the inward position. FIG. 37B is a cross-sectional view taken along the line CC of the drive unit shown in FIG. 36, and shows a state in which the development coupling and the development electrode are disposed at the outer position. 図38は、図35Aに示すカバーの右下方から見た斜視図である。FIG. 38 is a perspective view of the cover shown in FIG. 35A as viewed from the lower right. 図39Aは、本発明の第5実施形態の現像カートリッジにおける現像カップリングおよび現像電極の移動を説明するための説明図であって、ハンドル部材が傾倒位置から延出位置へ移動する途中において、突起が直動カムの連結部に当接した状態を示す説明図である。図39Bは、図39Aに示す状態において、本発明の第5実施形態の現像カートリッジにおける現像カップリングおよび現像電極の移動を説明するための説明図であって、現像電極が移動する前に、現像カップリングがわずかに左方へ移動した様子を示す説明図である。FIG. 39A is an explanatory diagram for explaining the development coupling and the movement of the development electrode in the development cartridge according to the fifth embodiment of the present invention, in the middle of the movement of the handle member from the tilted position to the extended position. It is explanatory drawing which shows the state which contact | abutted to the connection part of the linear motion cam. FIG. 39B is an explanatory diagram for explaining the development coupling and the movement of the development electrode in the development cartridge according to the fifth embodiment of the present invention in the state shown in FIG. 39A. It is explanatory drawing which shows a mode that the coupling moved to the left slightly. 図40Aは、本発明の第5実施形態の現像カートリッジにおける現像カップリングおよび現像電極の移動を説明するための説明図であって、突起が直動カムの第2係合部の傾斜部分に当接した状態を示す説明図である。図40Bは、図40Aに示す状態において、本発明の第5実施形態の現像カートリッジにおける現像カップリングおよび現像電極の移動を説明するための説明図であって、現像カップリングおよび現像電極が左方へ移動した様子を示す説明図である。FIG. 40A is an explanatory diagram for explaining the development coupling and the movement of the development electrode in the development cartridge according to the fifth embodiment of the present invention, in which the protrusion hits the inclined portion of the second engagement portion of the linear cam. It is explanatory drawing which shows the state which contact | connected. FIG. 40B is an explanatory diagram for explaining the development coupling and the movement of the development electrode in the development cartridge according to the fifth embodiment of the present invention in the state shown in FIG. 40A. It is explanatory drawing which shows a mode that it moved to. 図41Aは、本発明の第5実施形態の現像カートリッジにおける現像カップリングおよび現像電極の移動を説明するための説明図であって、ハンドル部材が傾倒位置に位置し、直動カムが押圧位置に位置した状態を示す説明図である。図41Bは、本発明の第5実施形態の現像カートリッジにおける現像カップリングおよび現像電極の移動を説明するための説明図であって、図41Aに示す状態において、現像カップリングおよび現像電極が外方位置に位置した様子を示す説明図である。FIG. 41A is an explanatory diagram for explaining the development coupling and the movement of the development electrode in the development cartridge according to the fifth embodiment of the present invention, in which the handle member is in the tilted position and the linear cam is in the pressing position. It is explanatory drawing which shows the state located. FIG. 41B is an explanatory diagram for explaining the development coupling and the movement of the development electrode in the development cartridge according to the fifth embodiment of the present invention. In the state shown in FIG. 41A, the development coupling and the development electrode are outward. It is explanatory drawing which shows a mode that it located in the position. 図42Aは、本発明の第6実施形態の現像カートリッジの駆動部を左前方から見た斜視図である。図42Bは、図42Aに示す本発明の第6実施形態の現像カートリッジのカバーを外した状態を示す斜視図である。FIG. 42A is a perspective view of the driving portion of the developing cartridge according to the sixth embodiment of the present invention as viewed from the left front side. FIG. 42B is a perspective view showing a state where the cover of the developing cartridge according to the sixth embodiment of the present invention shown in FIG. 42A is removed. 図43Aは、図42Bに示す左直動カムの移動を説明する説明図であって、左直動カムが押圧解除位置に位置し、規制部材が規制解除位置に位置した状態を示す説明図である。図43Bは、図42Bに示す左直動カムの移動を説明する説明図であって、左直動カムが押圧位置に位置し、規制部材が規制解除位置に位置した状態を示す説明図である。図43Cは、図42Bに示す左直動カムの移動を説明する説明図であって、左直動カムが押圧位置に位置し、規制部材が規制位置に位置した状態を示す説明図である。FIG. 43A is an explanatory diagram for explaining the movement of the left linear cam shown in FIG. 42B, and shows a state in which the left linear cam is located at the pressing release position and the regulating member is located at the regulation releasing position. is there. FIG. 43B is an explanatory diagram for explaining the movement of the left linear cam shown in FIG. 42B and is a diagram illustrating a state in which the left linear cam is located at the pressing position and the regulating member is located at the regulation releasing position. . FIG. 43C is an explanatory diagram for explaining the movement of the left linear cam shown in FIG. 42B, and is a diagram illustrating a state in which the left linear cam is located at the pressing position and the regulating member is located at the regulating position. 図44は、第7実施形態の現像カートリッジを示す左前方から見た斜視図である。FIG. 44 is a perspective view of the developing cartridge according to the seventh embodiment viewed from the left front. 図45は、図44に示す駆動部の分解斜視図である。FIG. 45 is an exploded perspective view of the drive unit shown in FIG. 図46Aは、図45に示す現像カートリッジの係合シャフトの移動を説明する説明図であって、係合シャフトが係合解除位置に位置した状態を示す説明図である。図46Bは、図45に示す現像カートリッジの係合シャフトの移動を説明する説明図であって、係合シャフトが係合位置に位置した状態を示す説明図である。46A is an explanatory diagram for explaining the movement of the engaging shaft of the developing cartridge shown in FIG. 45, and is an explanatory diagram showing a state in which the engaging shaft is located at the disengagement position. FIG. 46B is an explanatory diagram for explaining the movement of the engagement shaft of the developing cartridge shown in FIG. 45 and is a diagram for illustrating a state in which the engagement shaft is located at the engagement position. 図47Aは、図44に示す駆動部のD-D断面図であって、係合シャフトが係合解除位置に位置した状態を示す説明図である。図47Bは、図44に示す駆動部のD-D断面図であって、係合シャフトが係合位置に位置した状態を示す説明図である。47A is a DD cross-sectional view of the drive unit shown in FIG. 44, and is an explanatory view showing a state where the engagement shaft is located at the engagement release position. FIG. 47B is a DD cross-sectional view of the drive unit shown in FIG. 44, and is an explanatory view showing a state where the engagement shaft is located at the engagement position. 図48Aは、本発明の第7実施形態の現像カートリッジにおけるハンドル部材が延出位置に配置された状態の現像カートリッジの本体ケーシングへの装着を説明する説明図であって、現像カートリッジが本体ケーシングの前方に配置した状態を示す説明図である。図48Bは、本発明の第7実施形態の現像カートリッジにおけるハンドル部材が延出位置に配置された状態の現像カートリッジの本体ケーシングへの装着を説明する説明図であって、現像カートリッジが本体ケーシング内に挿入され、係合シャフトがガイド溝内に配置された状態を示す説明図である。図48Cは、本発明の第7実施形態の現像カートリッジにおけるハンドル部材が延出位置に配置された状態の現像カートリッジの本体ケーシングへの装着を説明する説明図であって、係合シャフトがガイド溝の傾斜面によって係合解除位置から係合位置へ移動される様子を示す説明図である。FIG. 48A is an explanatory view for explaining the mounting of the developing cartridge to the main casing with the handle member disposed at the extended position in the developing cartridge according to the seventh embodiment of the present invention. It is explanatory drawing which shows the state arrange | positioned ahead. FIG. 48B is an explanatory view for explaining the mounting of the developing cartridge to the main casing with the handle member disposed at the extended position in the developing cartridge of the seventh embodiment of the present invention. It is explanatory drawing which shows the state by which it inserted in and the engagement shaft has been arrange | positioned in the guide groove. FIG. 48C is an explanatory view for explaining the mounting of the developing cartridge to the main casing of the developing cartridge with the handle member disposed at the extended position in the developing cartridge according to the seventh embodiment of the present invention. It is explanatory drawing which shows a mode that it moves from an engagement cancellation | release position to an engagement position by an inclined surface. 図49Aは、本発明の第7実施形態の現像カートリッジにおけるハンドル部材が傾倒位置に配置された状態の現像カートリッジの本体ケーシングへの装着を説明する説明図であって、現像カートリッジが本体ケーシングの前方に配置した状態を示す説明図である。図49Bは、本発明の第7実施形態の現像カートリッジにおけるハンドル部材が傾倒位置に配置された状態の現像カートリッジの本体ケーシングへの装着を説明する説明図であって、現像カートリッジが本体ケーシング内に挿入される途中において、係合シャフトが本体ケーシングの側壁に当接した状態を示す説明図である。FIG. 49A is an explanatory view illustrating the mounting of the developing cartridge to the main body casing with the handle member disposed at the tilt position in the developing cartridge according to the seventh embodiment of the present invention. It is explanatory drawing which shows the state arrange | positioned. FIG. 49B is an explanatory view for explaining the mounting of the developing cartridge in the main body casing in the state where the handle member is disposed at the tilt position in the developing cartridge according to the seventh embodiment of the present invention. It is explanatory drawing which shows the state which the engagement shaft contact | abutted to the side wall of the main body casing in the middle of insertion. 図50Aは、本発明の現像電極の変形例を説明する説明図であり、導電部材の接触部が厚い絶縁部材に覆われた現像電極を示す説明図である。図50Bは、図50Aに示す現像電極の分解図である。FIG. 50A is an explanatory diagram illustrating a modification of the developing electrode of the present invention, and is an explanatory diagram illustrating the developing electrode in which the contact portion of the conductive member is covered with a thick insulating member. FIG. 50B is an exploded view of the developing electrode shown in FIG. 50A. 図51Aは、本発明の現像電極の変形例を説明する説明図であり、導電部材の接触部が薄い絶縁部材に覆われた現像電極を示す説明図である。図51Bは、図51Aに示す現像電極の分解図である。FIG. 51A is an explanatory diagram illustrating a modified example of the developing electrode of the present invention, and is an explanatory diagram illustrating the developing electrode in which the contact portion of the conductive member is covered with a thin insulating member. FIG. 51B is an exploded view of the developing electrode shown in FIG. 51A. 図52Aは、現像電極の変形例を説明する説明図であり、導電部材が先細り形状を有する現像電極を示す説明図である。図52Bは、図52Aに示す現像電極の分解図である。FIG. 52A is an explanatory diagram illustrating a modified example of the developing electrode, and is an explanatory diagram illustrating the developing electrode in which the conductive member has a tapered shape. FIG. 52B is an exploded view of the developing electrode shown in FIG. 52A. 図53Aは、現像電極の変形例を説明する説明図であり、導電部材がワイヤである現像電極を示す説明図である。図53Bは、図53Aに示す現像電極の分解図である。FIG. 53A is an explanatory diagram illustrating a modification of the developing electrode, and is an explanatory diagram illustrating the developing electrode in which the conductive member is a wire. FIG. 53B is an exploded view of the developing electrode shown in FIG. 53A. 図54Aは、現像電極の変形例を説明する説明図であり、導電部材が内方位置に位置した状態を示す説明図である。図54Bは、現像電極の変形例を説明する説明図であり、導電部材が外方位置に位置した状態を示す説明図である。FIG. 54A is an explanatory diagram illustrating a modified example of the developing electrode, and is an explanatory diagram illustrating a state where the conductive member is located at the inward position. FIG. 54B is an explanatory diagram illustrating a modified example of the developing electrode, and is an explanatory diagram illustrating a state where the conductive member is located at the outer position. 図55Aは、図54Bに示す現像電極の組み付け状態を説明する説明図であり、現像電極が駆動部カバーに組み付けられた状態を示す説明図である。図55Bは、図54Bに示す現像電極の組み付け状態を説明する説明図であり、現像電極が分解された状態を示す説明図である。FIG. 55A is an explanatory view illustrating the assembled state of the developing electrode shown in FIG. 54B, and is an explanatory view illustrating the state where the developing electrode is assembled to the drive unit cover. FIG. 55B is an explanatory diagram for explaining the assembled state of the developing electrode shown in FIG. 54B, and is an explanatory diagram showing a state in which the developing electrode is disassembled. 図56Aは、図54Bに示す現像電極の断面図を示し、導電部材が内方位置に位置した状態を示す断面図である。図56Bは、図54Bに示す現像電極の断面図を示し、導電部材が外方位置に位置した状態を示す断面図である。FIG. 56A is a cross-sectional view of the developing electrode shown in FIG. 54B, showing a state where the conductive member is located at the inward position. FIG. 56B is a cross-sectional view of the developing electrode shown in FIG. 54B, showing a state where the conductive member is located at the outer position. 図57Aは、現像電極の変形例を説明する説明図であり、導電部材が内方位置に位置した状態を示す説明図である。図57Bは、現像電極の変形例を説明する説明図であり、導電部材が外方位置に位置した状態を示す説明図である。FIG. 57A is an explanatory diagram illustrating a modified example of the developing electrode, and is an explanatory diagram illustrating a state where the conductive member is located at the inward position. FIG. 57B is an explanatory diagram illustrating a modified example of the developing electrode, and is an explanatory diagram illustrating a state where the conductive member is located at the outer position. 図58Aは、現像電極の変形例を説明する説明図であり、導電部材が内方位置に位置した状態を示す説明図である。図58Bは、現像電極の変形例を説明する説明図であり、導電部材が外方位置に位置した状態を示す説明図である。FIG. 58A is an explanatory diagram illustrating a modified example of the developing electrode, and is an explanatory diagram illustrating a state where the conductive member is located at the inward position. FIG. 58B is an explanatory diagram illustrating a modified example of the developing electrode, and is an explanatory diagram illustrating a state where the conductive member is located at the outer position.
1.現像カートリッジの概略
 図1を用いて、本発明の第1実施形態を適用した現像カートリッジ7Aについての概略を説明する。
1. Outline of Developer Cartridge An outline of the developer cartridge 7A to which the first embodiment of the present invention is applied will be described with reference to FIG.
 なお、以下の説明において、現像カートリッジ7Aの方向に言及するときには、現像カートリッジ7Aを水平に載置した状態を上下の基準とする。すなわち、図1の紙面上側が上方であり、紙面下側が下方である。また、図1の紙面右側が前方であり、図1の紙面左側が後方である。また、現像カートリッジ7Aを前方から見たときを左右の基準とする。すなわち、図1の紙面手前側が左方であり、紙面奥側が右方である。 In the following description, when referring to the direction of the developing cartridge 7A, the state in which the developing cartridge 7A is placed horizontally is used as the upper and lower reference. That is, the upper side in FIG. 1 is the upper side, and the lower side is the lower side. Further, the right side of FIG. 1 is the front side, and the left side of FIG. 1 is the rear side. Further, when the developing cartridge 7A is viewed from the front, the left and right reference is used. That is, the front side in FIG. 1 is the left side, and the back side is the right side.
 現像カートリッジ7Aは、現像ローラ11と、供給ローラ12と、層厚規制ブレード13と、トナー収容部14と、アジテータ6とを備えている。 The developing cartridge 7 </ b> A includes a developing roller 11, a supply roller 12, a layer thickness regulating blade 13, a toner container 14, and an agitator 6.
 現像ローラ11は、現像カートリッジ7Aの後端部において回転可能に支持されている。現像ローラ11の一部は、現像カートリッジ7Aの後端部の開口から露出している。 The developing roller 11 is rotatably supported at the rear end portion of the developing cartridge 7A. A part of the developing roller 11 is exposed from the opening at the rear end of the developing cartridge 7A.
 供給ローラ12は、現像ローラ11の前下方において、現像カートリッジ7Aに回転可能に支持されている。供給ローラ12は、現像ローラ11の前下方部分と接触している。 The supply roller 12 is rotatably supported by the developing cartridge 7A at the front lower side of the developing roller 11. The supply roller 12 is in contact with the front lower part of the developing roller 11.
 層厚規制ブレード13は、現像ローラ11の上方に配置されている。層厚規制ブレード13は、左右方向に長手の略平板形状を有している。層厚規制ブレード13の下端部は、現像ローラ11の前方部分と接触されている。 The layer thickness regulating blade 13 is disposed above the developing roller 11. The layer thickness regulating blade 13 has a substantially flat plate shape that is long in the left-right direction. The lower end portion of the layer thickness regulating blade 13 is in contact with the front portion of the developing roller 11.
 トナー収容部14は、供給ローラ12および層厚規制ブレード13の前方に配置されている。トナー収容部14は、トナーを収容するように構成されている。 The toner container 14 is disposed in front of the supply roller 12 and the layer thickness regulating blade 13. The toner storage unit 14 is configured to store toner.
 アジテータ6は、トナー収容部14内において回転するように構成されている。 The agitator 6 is configured to rotate in the toner storage unit 14.
 アジテータ6は、トナー収容部14内のトナーを撹拌するとともに、撹拌されたトナーを供給ローラ12に供給するように構成されている。供給ローラ12は、供給されたトナーを現像ローラ11に供給するとともに、供給ローラ12と現像ローラ11との間でトナーを正極性に摩擦帯電するように構成されている。層厚規制ブレード13は、現像ローラ11上に担持されたトナーを一定厚さに規制するように構成されている。
2.プリンタの全体構成
 図2を用いて、現像カートリッジ7を使用する電子写真方式の画像形成装置の一例としてのプリンタ1について説明する。
The agitator 6 is configured to agitate the toner in the toner container 14 and supply the agitated toner to the supply roller 12. The supply roller 12 is configured to supply the supplied toner to the developing roller 11 and to frictionally charge the toner to a positive polarity between the supply roller 12 and the developing roller 11. The layer thickness regulating blade 13 is configured to regulate the toner carried on the developing roller 11 to a certain thickness.
2. Overall Configuration of Printer A printer 1 as an example of an electrophotographic image forming apparatus using a developing cartridge 7 will be described with reference to FIG.
 プリンタ1は、電子写真方式のモノクロプリンタである。プリンタ1は、略ボックス形状の本体ケーシング2と、プロセスカートリッジ5とを備えている。 Printer 1 is an electrophotographic monochrome printer. The printer 1 includes a substantially box-shaped main body casing 2 and a process cartridge 5.
 本体ケーシング2は、前壁と、後壁と、上壁と、下壁と、左壁と、右壁と、フロントカバー4とを有している。前壁は、前後方向に貫通する開口部3を有している。開口部3は、プロセスカートリッジ5が本体ケーシング2内と本体ケーシング2外との間を移動できるように構成されている。 The main casing 2 has a front wall, a rear wall, an upper wall, a lower wall, a left wall, a right wall, and a front cover 4. The front wall has an opening 3 penetrating in the front-rear direction. The opening 3 is configured so that the process cartridge 5 can move between the inside of the main casing 2 and the outside of the main casing 2.
 フロントカバー4は、その下端部を支点として前壁に揺動可能に支持されている。フロントカバー4は、開口部3を開放または閉鎖するように構成されている。 The front cover 4 is swingably supported on the front wall with its lower end as a fulcrum. The front cover 4 is configured to open or close the opening 3.
 プロセスカートリッジ5は、ドラムカートリッジ20と、現像カートリッジ7Aとを備えている。 The process cartridge 5 includes a drum cartridge 20 and a developing cartridge 7A.
 ドラムカートリッジ20は、感光ドラム8と、スコロトロン型帯電器9と、転写ローラ10と、収容部20Aとを備えている。 The drum cartridge 20 includes a photosensitive drum 8, a scorotron charger 9, a transfer roller 10, and an accommodating portion 20A.
 感光ドラム8は、プロセスカートリッジ5の後端部に回転可能に支持されている。感光ドラム8は、左右方向に長手の略円筒形状を有している。 The photosensitive drum 8 is rotatably supported at the rear end portion of the process cartridge 5. The photosensitive drum 8 has a substantially cylindrical shape that is long in the left-right direction.
 スコロトロン型帯電器9は、感光ドラム8の後上方において、感光ドラム8と間隔を隔てて配置されている。 The scorotron charger 9 is disposed at a rear upper position of the photosensitive drum 8 at a distance from the photosensitive drum 8.
 転写ローラ10は、感光ドラム8の下方に配置され、感光ドラム8の下端部と接触している。 The transfer roller 10 is disposed below the photosensitive drum 8 and is in contact with the lower end portion of the photosensitive drum 8.
 収容部20Aは、現像カートリッジ7を着脱可能に収容するように構成されている。 The accommodating portion 20A is configured to detachably accommodate the developing cartridge 7.
 次に、プロセスカートリッジ5の本体ケーシング2に対する離脱について説明する。 Next, separation of the process cartridge 5 from the main casing 2 will be described.
 本体ケーシング2内に装着されたプロセスカートリッジ5は、フロントカバー4が開口部3を開放した際に、操作者によって、開口部3を介して本体ケーシング2の外に取り外される。現像カートリッジ7は、操作者によって、本体ケーシング2の外に取り外されたプロセスカートリッジ5のドラムカートリッジ20から取り外される。これにより、現像カートリッジ7の交換が可能となる。 The process cartridge 5 mounted in the main body casing 2 is removed from the main body casing 2 through the opening 3 by the operator when the front cover 4 opens the opening 3. The developer cartridge 7 is removed from the drum cartridge 20 of the process cartridge 5 removed from the main casing 2 by the operator. Thereby, the developing cartridge 7 can be replaced.
 次に、プロセスカートリッジ5の本体ケーシング2に対する装着について説明する。 Next, mounting of the process cartridge 5 on the main casing 2 will be described.
 現像カートリッジ7は、ドラムカートリッジ20に装着される。現像カートリッジ7が装着されたプロセスカートリッジ5は、開口部3を介して本体ケーシング2内に装着される。
3.現像カートリッジ
 次に、図1~図21を用いて、現像カートリッジ7Aの詳細構成を説明する。
The developing cartridge 7 is attached to the drum cartridge 20. The process cartridge 5 to which the developing cartridge 7 is mounted is mounted in the main body casing 2 through the opening 3.
3. Developing Cartridge Next, the detailed configuration of the developing cartridge 7A will be described with reference to FIGS.
 現像カートリッジ7Aは、図3に示すように、現像ローラ11および供給ローラ12を支持するフレーム21と、フレーム21の左方に配置される駆動部22と、フレーム21の右方に配置される受電部23と、フレーム21の前方に配置される操作部24とをさらに備えている。
(1)フレーム
 フレーム21は、図1および図3に示すように、左右方向に延びる略ボックス形状を有している。フレーム21は、第1フレーム25と、第2フレーム26とを備えている。
(1-1)第1フレーム
 第1フレーム25は、図1および図4に示すように、上方および後方に向かって開放された有底枠形状を有している。第1フレーム25は、1対の側壁27と、前壁28と、下壁29とを一体的に備えている。なお、以下の説明において、1対の側壁27のうち、左方の側壁27を左壁27Lと記載し、右方の側壁27を右壁27Rと記載する。
(1-1-1)側壁
 1対の側壁27のそれぞれは、互いに左右方向に間隔を隔てて配置されている。1対の側壁27のそれぞれは、上下前後に延びる側面視略矩形の平板形状を有している。1対の側壁27のそれぞれは、穴30と、溝31とを有している。また、左壁27Lは、1対の突起33を備えている。
As illustrated in FIG. 3, the developing cartridge 7 </ b> A includes a frame 21 that supports the developing roller 11 and the supply roller 12, a drive unit 22 that is disposed on the left side of the frame 21, and a power reception that is disposed on the right side of the frame 21. The unit 23 and the operation unit 24 arranged in front of the frame 21 are further provided.
(1) Frame As shown in FIGS. 1 and 3, the frame 21 has a substantially box shape extending in the left-right direction. The frame 21 includes a first frame 25 and a second frame 26.
(1-1) First Frame As shown in FIGS. 1 and 4, the first frame 25 has a bottomed frame shape that is open upward and rearward. The first frame 25 is integrally provided with a pair of side walls 27, a front wall 28, and a lower wall 29. In the following description, of the pair of side walls 27, the left side wall 27 is described as a left wall 27L, and the right side wall 27 is described as a right wall 27R.
(1-1-1) Side Walls Each of the pair of side walls 27 is disposed at an interval in the left-right direction. Each of the pair of side walls 27 has a flat plate shape that is substantially rectangular in side view and extends in the front-rear direction. Each of the pair of side walls 27 has a hole 30 and a groove 31. Further, the left wall 27L includes a pair of protrusions 33.
 穴30は、側壁27の下方後端部に配置されている。穴30は、1対の側壁27のそれぞれを左右方向に貫通している。穴30は、側面視略矩形状を有している。穴30の各辺の寸法は、後述する供給ローラ軸121の直径よりも長い。 The hole 30 is disposed at the lower rear end of the side wall 27. The hole 30 penetrates each of the pair of side walls 27 in the left-right direction. The hole 30 has a substantially rectangular shape in side view. The dimension of each side of the hole 30 is longer than the diameter of a supply roller shaft 121 described later.
 溝31は、1対の側壁27のそれぞれの後端部から前方に向かって切り欠かれている。溝31は、後端部が開放される側面視略U字形状を有している。溝31の上下方向の高さは、後述する現像ローラ軸111の左右方向端部の直径よりも長い。 The groove 31 is notched forward from the rear end of each of the pair of side walls 27. The groove 31 has a substantially U shape in a side view in which a rear end portion is opened. The height in the vertical direction of the groove 31 is longer than the diameter of the end portion in the left-right direction of the developing roller shaft 111 described later.
 1対の突起33のそれぞれは、互いに前後方向に間隔を隔てて穴30の前方に配置されている。1対の突起33のそれぞれは、左壁27Lの下端部から左方へ突出している。1対の突起33のそれぞれは、左右方向に延びる略円筒形状を有している。
(1-1-2)前壁
 前壁28は、1対の側壁27のそれぞれの前端部間に架設されている。前壁28は、上下方向に延びる略平板形状を有している。
(1-1-3)下壁
 下壁29は、1対の側壁27のそれぞれの下端部間に架設されている。下壁29は、前後方向に屈曲しながら延びる略平板形状を有している。下壁29は、第1部分29Aと、第2部分29Bと、第3部分29Cと、複数の補強リブ32とを備えている。
Each of the pair of protrusions 33 is disposed in front of the hole 30 with a space in the front-rear direction. Each of the pair of protrusions 33 protrudes leftward from the lower end portion of the left wall 27L. Each of the pair of protrusions 33 has a substantially cylindrical shape extending in the left-right direction.
(1-1-2) Front Wall The front wall 28 is constructed between the front end portions of the pair of side walls 27. The front wall 28 has a substantially flat plate shape extending in the vertical direction.
(1-1-3) Lower Wall The lower wall 29 is constructed between the lower ends of the pair of side walls 27. The lower wall 29 has a substantially flat plate shape that extends while being bent in the front-rear direction. The lower wall 29 includes a first portion 29A, a second portion 29B, a third portion 29C, and a plurality of reinforcing ribs 32.
 第1部分29Aは、前壁28の下端部から後方へ向かって湾曲しながら延びている。第1部分29Aの後端部は、供給ローラ12の前方に配置されている。第1部分29Aは、トナー収容部14の下壁を構成する。 The first portion 29A extends from the lower end portion of the front wall 28 while curving backward. The rear end portion of the first portion 29 </ b> A is disposed in front of the supply roller 12. The first portion 29 </ b> A constitutes the lower wall of the toner storage unit 14.
 第2部分29Bは、第1部分29Aの後端部から、供給ローラ12の周面に沿うように後方へ向かって湾曲しながら延びている。第2部分29Bの後端部は、現像ローラ11と供給ローラ12との接触部分の下方に配置されている。第2部分29Bは、供給ローラ12を下方から被覆する。 The second portion 29B extends from the rear end portion of the first portion 29A while being curved rearward along the peripheral surface of the supply roller 12. The rear end portion of the second portion 29 </ b> B is disposed below the contact portion between the developing roller 11 and the supply roller 12. The second portion 29B covers the supply roller 12 from below.
 第3部分29Cは、第2部分29Bの後端部から後方へ向かって延びている。第3部分29Cの後端部は、現像ローラ11の後端部よりも後方に配置されている。第3部分29Cは、現像ローラ11を下方から被覆する。 The third portion 29C extends rearward from the rear end portion of the second portion 29B. The rear end portion of the third portion 29 </ b> C is disposed behind the rear end portion of the developing roller 11. The third portion 29C covers the developing roller 11 from below.
 複数の補強リブ32は、互いに間隔を隔てて左右方向に並列に配置されている。補強リブ32は、下壁29の後端部の下面から下方へ突出し、第1部分29Aの後端部から第3部分29Cの後端部にわたって前後方向に延びている。補強リブ32は、略平板形状を有している。
(1-2)第2フレーム
 第2フレーム26は、図1および図3に示すように、第1フレーム25の1対の側壁27および前壁28の上端部の上方に配置されている。第2フレーム26は、前後左右に延びる略平板形状を有している。第2フレーム26は、その周縁部において、溶着などの方法により第1フレーム25の1対の側壁27および前壁28の上端部に固定されている。
(1-3)現像ローラおよび供給ローラ
 現像ローラ11は、現像ローラ軸111と、現像ローラ本体112と、左カラー49と、右カラー77とを備えている。
The plurality of reinforcing ribs 32 are arranged in parallel in the left-right direction at intervals. The reinforcing rib 32 projects downward from the lower surface of the rear end portion of the lower wall 29 and extends in the front-rear direction from the rear end portion of the first portion 29A to the rear end portion of the third portion 29C. The reinforcing rib 32 has a substantially flat plate shape.
(1-2) Second Frame As shown in FIGS. 1 and 3, the second frame 26 is disposed above the upper end portions of the pair of side walls 27 and the front wall 28 of the first frame 25. The second frame 26 has a substantially flat plate shape extending in the front-rear and left-right directions. The second frame 26 is fixed to the upper ends of the pair of side walls 27 and the front wall 28 of the first frame 25 by a method such as welding at the periphery thereof.
(1-3) Developing Roller and Supply Roller The developing roller 11 includes a developing roller shaft 111, a developing roller body 112, a left collar 49, and a right collar 77.
 現像ローラ軸111は、図8、図11および図12に示すように、左右方向に延びる略円柱形状を有している。すなわち、現像ローラ軸111の中心軸線A1は、左右方向に延びている。現像ローラ軸111は、金属からなる。現像ローラ軸111の左右方向端部は、フレーム21の溝31を介して、フレーム21の側壁27よりも左右方向外方へ突出している。現像ローラ軸111は、支持部111Aと、支持部111Bとを備えている。 The developing roller shaft 111 has a substantially cylindrical shape extending in the left-right direction, as shown in FIGS. That is, the central axis A1 of the developing roller shaft 111 extends in the left-right direction. The developing roller shaft 111 is made of metal. The left and right end portions of the developing roller shaft 111 protrude outward in the left-right direction from the side walls 27 of the frame 21 through the grooves 31 of the frame 21. The developing roller shaft 111 includes a support portion 111A and a support portion 111B.
 支持部111Aは、側壁27よりも左右方向外方に露出された現像ローラ軸111の左右方向両端部の部分に配置されている。支持部111Aは、断面視略D字形状を有している。 111 A of support parts are arrange | positioned in the part of the both ends of the left-right direction of the developing roller shaft 111 exposed to the outer side of the left-right direction rather than the side wall 27. The support portion 111A has a substantially D shape in cross section.
 支持部111Bは、現像ローラ軸111の両端部の支持部111Aから左右方向外方へ延びている。支持部111Bは、略円柱形状を有している。支持部111Bの外径は、支持部111Aの外径よりも小さい。 The support part 111B extends outward from the support part 111A at both ends of the developing roller shaft 111 in the left-right direction. The support part 111B has a substantially cylindrical shape. The outer diameter of the support part 111B is smaller than the outer diameter of the support part 111A.
 現像ローラ本体112は、導電性を有するゴムローラである。現像ローラ本体112は、左右方向に延びる略円筒形状を有している。現像ローラ本体112は、現像ローラ軸111の支持部111Aおよび支持部111Bを露出するように、現像ローラ軸111を被覆している。 The developing roller body 112 is a conductive rubber roller. The developing roller body 112 has a substantially cylindrical shape extending in the left-right direction. The developing roller body 112 covers the developing roller shaft 111 so as to expose the support portion 111A and the support portion 111B of the developing roller shaft 111.
 左カラー49は、後述する現像ギア45の左方に配置されている。左カラー49は、左右方向に延びる略円筒形状を有している。左カラー49は、現像ローラ軸111の左端部の支持部111B(図示せず)にはまっている。 The left collar 49 is arranged on the left side of the developing gear 45 described later. The left collar 49 has a substantially cylindrical shape extending in the left-right direction. The left collar 49 is fitted in a support portion 111B (not shown) at the left end portion of the developing roller shaft 111.
 右カラー77は、現像ローラ軸111の右端部に配置されている。右カラー77は、左右方向に延びる略円筒形状を有している。右カラー77は、現像ローラ軸111の右端部の支持部111Bにはまっている。 The right collar 77 is disposed at the right end portion of the developing roller shaft 111. The right collar 77 has a substantially cylindrical shape extending in the left-right direction. The right collar 77 is fitted in the support portion 111 </ b> B at the right end portion of the developing roller shaft 111.
 供給ローラ12は、図1に示すように、供給ローラ軸121と、供給ローラ本体122とを備えている。 The supply roller 12 includes a supply roller shaft 121 and a supply roller main body 122, as shown in FIG.
 供給ローラ軸121は、図8および図11に示すように、左右方向に延びる略円柱形状を有している。すなわち、供給ローラ軸121の中心軸線A2は、左右方向に延びている。供給ローラ軸121は、金属からなる。供給ローラ軸121の左右方向端部は、フレーム21の穴30を介して、フレーム21の側壁27よりも左右方向外方へ突出している。供給ローラ軸121は、支持部121Aと、支持部121Bと、支持部121Cとを備えている。 As shown in FIGS. 8 and 11, the supply roller shaft 121 has a substantially cylindrical shape extending in the left-right direction. That is, the center axis A2 of the supply roller shaft 121 extends in the left-right direction. The supply roller shaft 121 is made of metal. An end portion in the left-right direction of the supply roller shaft 121 protrudes outward in the left-right direction from the side wall 27 of the frame 21 through the hole 30 of the frame 21. The supply roller shaft 121 includes a support part 121A, a support part 121B, and a support part 121C.
 支持部121Aは、供給ローラ軸121の右端部において、右壁27Rよりも右方に露出されている。支持部121Aは、断面視略D字形状を有している。 The support portion 121A is exposed to the right of the right wall 27R at the right end portion of the supply roller shaft 121. The support portion 121A has a substantially D shape in cross section.
 支持部121Bは、支持部121Aから右方へ延びている。支持部121Bは、略円柱形状を有している。支持部121Bの外径は、支持部121Aの外径よりも小さい。 The support part 121B extends rightward from the support part 121A. The support part 121B has a substantially cylindrical shape. The outer diameter of the support part 121B is smaller than the outer diameter of the support part 121A.
 支持部121Cは、供給ローラ軸121の左端部において、左壁27Lよりも左方に露出されている。支持部121Cは、断面視略D字形状を有している。 The support portion 121C is exposed to the left of the left wall 27L at the left end portion of the supply roller shaft 121. The support portion 121C has a substantially D shape in cross section.
 供給ローラ本体122は、導電性を有するスポンジローラである。供給ローラ本体122は、左右方向に延びる略円筒形状を有している。供給ローラ本体122は、供給ローラ軸121の支持部121A、支持部121Bおよび支持部121Cを露出するように、供給ローラ軸121を被覆している。
(2)駆動部
 駆動部22は、図5および図6に示すように、軸受部材36と、第1ギア列37と、圧縮ばね39と、左直動カム38と、カバー40とを備えている。
(2-1)軸受部材
 軸受部材36は、図7および図8に示すように、左壁27Lの後端部に支持されている。軸受部材36は、上下方向に延びる側面視略矩形の平板形状を有している。軸受部材36は、穴41と、穴42と、ガイドリブ43とを有している。
The supply roller main body 122 is a sponge roller having conductivity. The supply roller main body 122 has a substantially cylindrical shape extending in the left-right direction. The supply roller main body 122 covers the supply roller shaft 121 so that the support portion 121A, the support portion 121B, and the support portion 121C of the supply roller shaft 121 are exposed.
(2) Drive Unit The drive unit 22 includes a bearing member 36, a first gear train 37, a compression spring 39, a left linear cam 38, and a cover 40, as shown in FIGS. Yes.
(2-1) Bearing Member As shown in FIGS. 7 and 8, the bearing member 36 is supported by the rear end portion of the left wall 27L. The bearing member 36 has a substantially rectangular flat plate shape that extends in the vertical direction when viewed from the side. The bearing member 36 has a hole 41, a hole 42, and a guide rib 43.
 穴41は、軸受部材36の後端部に配置されている。穴41は、軸受部材36を左右方向に貫通するように構成されている。穴41は、側面視略円形状を有している。穴41の内径は、現像ローラ軸111の外径よりもわずかに大きい。 The hole 41 is disposed at the rear end portion of the bearing member 36. The hole 41 is configured to penetrate the bearing member 36 in the left-right direction. The hole 41 has a substantially circular shape in a side view. The inner diameter of the hole 41 is slightly larger than the outer diameter of the developing roller shaft 111.
 穴42は、穴41の前下方に配置されている。穴42は、軸受部材36を左右方向に貫通するように構成されている。穴42は、側面視略円形状を有している。穴42の内径は、供給ローラ軸121の外径よりもわずかに大きい。 The hole 42 is disposed in front of and below the hole 41. The hole 42 is configured to penetrate the bearing member 36 in the left-right direction. The hole 42 has a substantially circular shape in a side view. The inner diameter of the hole 42 is slightly larger than the outer diameter of the supply roller shaft 121.
 ガイドリブ43は、上ガイドリブ43Aと下ガイドリブ43Bとを有する。上ガイドリブ43Aは、上下方向において、穴42を挟んで下ガイドリブ43Bと反対側に配置されている。上ガイドリブ43Aおよび下ガイドリブ43Bは、軸受部材36の左面から左方へ突出し、前後方向に延びている。上ガイドリブ43Aおよび下ガイドリブ43Bの前端部は、軸受部材36の前端部に配置されている。上ガイドリブ43Aの後端部は、穴42の上方に配置されている。下ガイドリブ43Bの後端部は、軸受部材36の後端部に配置されている。
(2-2)第1ギア列
 第1ギア列37は、現像カップリング44と、現像ギア45とを備えている。
(2-2-1)現像カップリング
 現像カップリング44は、左右方向に延びる略円柱形状を有している。現像カップリング44は、図14に示すように、供給ローラ軸121に対して相対回転可能となるように供給ローラ軸121の支持部121Cに支持されている。現像カップリング44の回転中心Cは、供給ローラ軸121の中心軸線A2と一致している。現像カップリング44は、図1に仮想線で示すように、左右方向に投影したときに、フレーム21の下壁29の第2部分29Bに重なるように配置されている。
The guide rib 43 has an upper guide rib 43A and a lower guide rib 43B. The upper guide rib 43A is disposed on the opposite side of the lower guide rib 43B across the hole 42 in the vertical direction. The upper guide rib 43A and the lower guide rib 43B protrude leftward from the left surface of the bearing member 36 and extend in the front-rear direction. The front end portions of the upper guide rib 43 </ b> A and the lower guide rib 43 </ b> B are disposed at the front end portion of the bearing member 36. The rear end portion of the upper guide rib 43 </ b> A is disposed above the hole 42. The rear end portion of the lower guide rib 43 </ b> B is disposed at the rear end portion of the bearing member 36.
(2-2) First Gear Train The first gear train 37 includes a development coupling 44 and a development gear 45.
(2-2-1) Development Coupling The development coupling 44 has a substantially cylindrical shape extending in the left-right direction. As shown in FIG. 14, the development coupling 44 is supported by a support portion 121 </ b> C of the supply roller shaft 121 so as to be rotatable relative to the supply roller shaft 121. The rotation center C of the developing coupling 44 coincides with the central axis A2 of the supply roller shaft 121. The development coupling 44 is disposed so as to overlap the second portion 29B of the lower wall 29 of the frame 21 when projected in the left-right direction, as indicated by phantom lines in FIG.
 現像カップリング44は、左右方向に沿って、内方位置(図14参照)と、外方位置(図19参照)との間を移動可能である。現像カップリング44の内方位置から外方位置への移動距離D1は、例えば、5mm以上、30mm以下である。現像カップリング44の移動距離D1は、後述する現像カップリング44のギア部46の外径に対して、例えば、1.5倍以上、2倍以下である。 The development coupling 44 is movable between an inner position (see FIG. 14) and an outer position (see FIG. 19) along the left-right direction. The moving distance D1 from the inner position to the outer position of the development coupling 44 is, for example, 5 mm or more and 30 mm or less. The moving distance D1 of the developing coupling 44 is, for example, 1.5 times or more and 2 times or less with respect to the outer diameter of the gear portion 46 of the developing coupling 44 described later.
 現像カップリング44の左面44Aは、現像カップリング44が内方位置に位置しているときには、図6および図14に示すように、カバー40の左面、および、現像ローラ11の左カラー49の左面とほぼ同じ左右方向位置に位置している。現像カップリング44の左面44Aは、現像カップリング44が外方位置に位置しているときには、図17および図19に示すように、カバー40の左面、および、現像ローラ11の左カラー49の左面よりも左方に位置している。すなわち、現像カップリング44の外方位置は、現像カップリング44の内方位置よりも左右方向外方に位置している。 When the development coupling 44 is positioned in the inward position, the left surface 44A of the development coupling 44 is the left side of the cover 40 and the left side of the left collar 49 of the development roller 11 as shown in FIGS. Is located at the same left-right position. When the developing coupling 44 is located at the outward position, the left surface 44A of the developing coupling 44 is the left surface of the cover 40 and the left surface of the left collar 49 of the developing roller 11 as shown in FIGS. It is located on the left side. In other words, the outer position of the developing coupling 44 is located outward in the left-right direction with respect to the inner position of the developing coupling 44.
 現像カップリング44は、図8、図9および図14に示すように、ギア部46と、カップリング部47と、穴50とを有している。 The development coupling 44 has a gear portion 46, a coupling portion 47, and a hole 50 as shown in FIGS. 8, 9 and 14.
 ギア部46は、現像カップリング44の右端部に配置されている。ギア部46は、左右方向に厚みを有する略円板形状を有している。また、ギア部46は、その周面すべてにわたってギア歯を備えている。ギア歯は、左ねじれのはす歯である。 The gear portion 46 is disposed at the right end portion of the development coupling 44. The gear portion 46 has a substantially disk shape having a thickness in the left-right direction. Moreover, the gear part 46 is equipped with the gear tooth over all the surrounding surfaces. The gear teeth are left-handed helical teeth.
 ギア部46は、現像カップリング44が内方位置に位置しているときには、図6および図14に示すように、現像ギア45の右端部と噛合している。ギア部46は、現像カップリング44が外方位置に位置しているときには、図17および図19に示すように、現像ギア45の左端部と噛合している。 The gear portion 46 meshes with the right end portion of the developing gear 45 as shown in FIGS. 6 and 14 when the developing coupling 44 is positioned in the inward position. The gear portion 46 meshes with the left end portion of the developing gear 45 as shown in FIGS. 17 and 19 when the developing coupling 44 is located at the outward position.
 カップリング部47は、ギア部46の左面から左方へ突出している。カップリング部47は、略円柱形状を有している。カップリング部47の外径は、ギア部46の外径よりも小さい。カップリング部47の中心軸線は、ギア部46の中心軸線と一致している。カップリング部47は、凹部48を備えている。 The coupling portion 47 protrudes leftward from the left surface of the gear portion 46. The coupling part 47 has a substantially cylindrical shape. The outer diameter of the coupling portion 47 is smaller than the outer diameter of the gear portion 46. The central axis of the coupling part 47 coincides with the central axis of the gear part 46. The coupling portion 47 includes a recess 48.
 凹部48は、カップリング部47の左面44Aから右方へ凹んでいる。凹部48は、カップリング部47の径方向に延びる側面視略長穴形状を有している。 The concave portion 48 is recessed rightward from the left surface 44A of the coupling portion 47. The concave portion 48 has a substantially long hole shape in side view extending in the radial direction of the coupling portion 47.
 穴50は、図14に示すように、現像カップリング44の右面から左方へ向かって凹んでいる。穴50は、側面視略円形状を有している。穴50の直径は、供給ローラ軸121の外径よりもわずかに大きい。穴50は、供給ローラ軸121の支持部121Cを受け入れる。
(2-2-2)現像ギア
 現像ギア45は、図7および図8に示すように、左右方向に延びる略円柱形状を有している。現像ギア45は、その径方向中央において、側面視略D字形状の図示しない貫通穴を有している。現像ギア45は、図6および図8に示すように、現像ローラ軸111の左端部の支持部111Aに支持されている。この状態において、現像ローラ軸111の左端部の支持部111Aは、現像ギア45の図示しない貫通穴内にはまっている。これにより、現像ギア45は、現像ローラ軸111に対して相対回転不能であり、現像ローラ軸111とともに回転可能である。現像ギア45の左右方向の寸法は、カップリング部47のギア部46の左右方向の寸法よりも長い。現像ギア45は、その周面すべてにわたってギア歯を備えている。ギア歯は、図9に示すように、右ねじれのはす歯である。
(2-3)圧縮ばね
 圧縮ばね39は、図6に示すように、コイルばねである。圧縮ばね39の径は、現像カップリング44のカップリング部47の外径よりも大きく、かつ、ギア部46の外径よりも小さい。圧縮ばね39は、現像カップリング44のカップリング部47に支持されている。圧縮ばね39の右端部は、図14に示すように、現像カップリング44のギア部46の左面と当接している。圧縮ばね39の左端部は、カバー40の開口62の周縁部と当接している。
As shown in FIG. 14, the hole 50 is recessed from the right surface of the developing coupling 44 toward the left. The hole 50 has a substantially circular shape in a side view. The diameter of the hole 50 is slightly larger than the outer diameter of the supply roller shaft 121. The hole 50 receives the support portion 121 </ b> C of the supply roller shaft 121.
(2-2-2) Developing Gear As shown in FIGS. 7 and 8, the developing gear 45 has a substantially cylindrical shape extending in the left-right direction. The developing gear 45 has a through hole (not shown) having a substantially D shape in side view at the center in the radial direction. As shown in FIGS. 6 and 8, the developing gear 45 is supported by a support portion 111 </ b> A at the left end portion of the developing roller shaft 111. In this state, the support portion 111 </ b> A at the left end portion of the developing roller shaft 111 is fitted in a through hole (not shown) of the developing gear 45. As a result, the developing gear 45 cannot rotate relative to the developing roller shaft 111 and can rotate with the developing roller shaft 111. The dimension in the left-right direction of the developing gear 45 is longer than the dimension in the left-right direction of the gear part 46 of the coupling part 47. The developing gear 45 has gear teeth over the entire peripheral surface thereof. The gear teeth are right-twisted helical teeth as shown in FIG.
(2-3) Compression Spring The compression spring 39 is a coil spring as shown in FIG. The diameter of the compression spring 39 is larger than the outer diameter of the coupling portion 47 of the developing coupling 44 and smaller than the outer diameter of the gear portion 46. The compression spring 39 is supported by the coupling portion 47 of the developing coupling 44. As shown in FIG. 14, the right end portion of the compression spring 39 is in contact with the left surface of the gear portion 46 of the developing coupling 44. The left end portion of the compression spring 39 is in contact with the peripheral edge portion of the opening 62 of the cover 40.
 これにより、圧縮ばね39は、現像カップリング44を常に内方位置へ向かって付勢している。
(2-4)左直動カム
 左直動カム38は、図7および図8に示すように、前後方向に延びる略平板形状を有している。左直動カム38は、1対の突起33の上方において、左壁27Lに支持されている。左直動カム38は、前後方向に沿って、現像カップリング44を左方へ押圧する押圧位置(図17参照)と、現像カップリング44に対する左方への押圧を解除する押圧解除位置(図6参照)との間を移動可能である。左直動カム38は、接触部51と、連結部53と、接触部52とを備えている。
(2-4-1)接触部
 接触部51は、左直動カム38の後端部に配置されている。接触部51は、後方が開放された側面視略U字形状を有している。接触部51は、上ガイドリブ43Aと下ガイドリブ43Bとの間に配置されている。接触部51は、変位部54と、保持部55とを備えている。
Thereby, the compression spring 39 always urges the developing coupling 44 toward the inward position.
(2-4) Left linear motion cam As shown in FIGS. 7 and 8, the left linear motion cam 38 has a substantially flat plate shape extending in the front-rear direction. The left linear cam 38 is supported by the left wall 27L above the pair of protrusions 33. The left linear cam 38 has a pressing position (see FIG. 17) for pressing the developing coupling 44 leftward along the front-rear direction, and a pressing releasing position (see FIG. 17) for releasing the pressing against the developing coupling 44 leftward. 6). The left linear cam 38 includes a contact portion 51, a connecting portion 53, and a contact portion 52.
(2-4-1) Contact Part The contact part 51 is disposed at the rear end part of the left linear cam 38. The contact portion 51 has a substantially U shape in side view with the rear opened. The contact portion 51 is disposed between the upper guide rib 43A and the lower guide rib 43B. The contact part 51 includes a displacement part 54 and a holding part 55.
 変位部54は、接触部51の後端部に配置されている。変位部54の左面は、後方から前方へ向かうにつれて左方へ傾斜している。言い換えると、変位部54の突出長さは、後方から前方へ向かうにつれて次第に長くなっている。 The displacement portion 54 is disposed at the rear end portion of the contact portion 51. The left surface of the displacement portion 54 is inclined leftward from the rear to the front. In other words, the projecting length of the displacement portion 54 gradually increases from the rear toward the front.
 保持部55は、変位部54の後方に連続している。保持部55の左面は、変位部54の左面の前端部に連続して、前後方向に延びている。
(2-4-2)連結部
 連結部53は、接触部51の前端部から連続して前方へ延びている。連結部53は、前後方向に長い側面視略矩形状を有している。連結部53は、突部60を備えている。
The holding part 55 is continuous behind the displacement part 54. The left surface of the holding portion 55 is continuous with the front end portion of the left surface of the displacement portion 54 and extends in the front-rear direction.
(2-4-2) Connecting Part The connecting part 53 continuously extends forward from the front end of the contact part 51. The connecting portion 53 has a substantially rectangular shape in side view that is long in the front-rear direction. The connecting portion 53 includes a protrusion 60.
 突部60は、連結部53の前後方向略中央から下方へ突出している。突部60は、側面視略矩形状を有している。突部60は、1対の突起33の間に配置されている。
(2-4-3)接触部
 接触部52は、左直動カム38の前端部に配置されている。接触部52は、下方が開放された側面視略U字形状を有している。接触部52は、第1係合部56と、スペーサ部59と、第2係合部57とを備えている。
The protrusion 60 protrudes downward from the substantially center of the connecting portion 53 in the front-rear direction. The protrusion 60 has a substantially rectangular shape in a side view. The protrusion 60 is disposed between the pair of protrusions 33.
(2-4-3) Contact Part The contact part 52 is disposed at the front end of the left linear cam 38. The contact portion 52 has a substantially U shape in side view with the lower part opened. The contact part 52 includes a first engagement part 56, a spacer part 59, and a second engagement part 57.
 第1係合部56は、傾斜部分56Aと、垂直部分56Bとを備えている。傾斜部分56Aは、連結部53の前端部から前上方へ延びている。垂直部分56Bは、傾斜部分56Aの前上方端部から上方へ延びている。垂直部分56Bは、突起58を備えている。突起58は、垂直部分56Bの上下方向略中央に配置されている。突起58は、垂直部分56Bの前端縁から前方へ突出している。突起58は、側面視略半円形状を有している。 The first engaging portion 56 includes an inclined portion 56A and a vertical portion 56B. The inclined portion 56 </ b> A extends forward and upward from the front end portion of the connecting portion 53. The vertical portion 56B extends upward from the front upper end of the inclined portion 56A. The vertical portion 56 </ b> B includes a protrusion 58. The protrusion 58 is disposed substantially at the center in the vertical direction of the vertical portion 56B. The protrusion 58 protrudes forward from the front edge of the vertical portion 56B. The protrusion 58 has a substantially semicircular shape when viewed from the side.
 スペーサ部59は、第1係合部56の上端部から前方へ延びている。スペーサ部59の前後方向長さは、操作部24の後述する突起105の直径よりも長い。 The spacer portion 59 extends forward from the upper end portion of the first engagement portion 56. The length of the spacer portion 59 in the front-rear direction is longer than the diameter of a projection 105 described later of the operation portion 24.
 第2係合部57は、垂直部分57Aと、傾斜部分57Bとを備えている。垂直部分57Aは、スペーサ部59の前端部から下方へ延びている。傾斜部分57Bは、垂直部分57Aの下端部から前下方へ延び、その前下方端部において下方へ屈曲して下方へ延びている。
(2-5)カバー
 カバー40は、図5に示すように、右端部および前端部が開放された略ボックス形状を有している。カバー40は、図示しないねじによりフレーム21の左壁27Lに固定されている。カバー40は、開口61と、開口62とを有している。
The second engaging portion 57 includes a vertical portion 57A and an inclined portion 57B. The vertical portion 57 </ b> A extends downward from the front end portion of the spacer portion 59. The inclined portion 57B extends forward and downward from the lower end portion of the vertical portion 57A, bends downward at the front lower end portion, and extends downward.
(2-5) Cover As shown in FIG. 5, the cover 40 has a substantially box shape with the right end portion and the front end portion opened. The cover 40 is fixed to the left wall 27L of the frame 21 with screws (not shown). The cover 40 has an opening 61 and an opening 62.
 開口61は、カバー40の後端部から前方へ向かって切り欠かれている。開口61は、後方へ向かって開放される側面視略C字形状を有している。開口61の内径は、現像ギア45の外径よりも大きい。開口61は、現像ギア45の一部を露出するように構成されている。 The opening 61 is notched forward from the rear end of the cover 40. The opening 61 has a substantially C-shape in side view that is opened rearward. The inner diameter of the opening 61 is larger than the outer diameter of the developing gear 45. The opening 61 is configured to expose a part of the developing gear 45.
 開口62は、開口61の前下方に配置されている。開口62は、現像カップリング44が内方位置と外方位置との間を移動できるように、カバー40の左壁を貫通している。開口62は、側面視略円形状を有している。
(3)受電部
 受電部23は、図10および図11に示すように、第2ギア列66と、支持部材67と、現像電極65と、圧縮ばね64と、右直動カム68と、カバー69とを備えている。
(3-1)第2ギア列
 第2ギア列66は、図11に示すように、第1アイドルギア70と、第2アイドルギア71と、供給ギア72とを備えている。
The opening 62 is disposed in front of and below the opening 61. The opening 62 penetrates the left wall of the cover 40 so that the development coupling 44 can move between an inward position and an outward position. The opening 62 has a substantially circular shape in side view.
(3) Power receiving unit As shown in FIGS. 10 and 11, the power receiving unit 23 includes a second gear train 66, a support member 67, a developing electrode 65, a compression spring 64, a right translation cam 68, and a cover. 69.
(3-1) Second Gear Train The second gear train 66 includes a first idle gear 70, a second idle gear 71, and a supply gear 72, as shown in FIG.
 第1アイドルギア70は、左右方向に厚みを有する略円板形状を有している。なお、第1アイドルギア70は、その径方向中央において、側面視略D字形状の図示しない貫通穴を有している。第1アイドルギア70は、その周面すべてにわたってギア歯を備えている。第1アイドルギア70は、現像ローラ軸111の支持部111Aに支持されている。第1アイドルギア70の図示しない貫通穴は、第1アイドルギア70が現像ローラ軸111に対して相対回転不能となるように支持部111Aとはまる。 The first idle gear 70 has a substantially disc shape having a thickness in the left-right direction. The first idle gear 70 has a through hole (not shown) having a substantially D shape in side view at the center in the radial direction. The first idle gear 70 has gear teeth over the entire peripheral surface thereof. The first idle gear 70 is supported by the support portion 111 </ b> A of the developing roller shaft 111. A through hole (not shown) of the first idle gear 70 engages with the support portion 111 </ b> A so that the first idle gear 70 cannot rotate relative to the developing roller shaft 111.
 第2アイドルギア71は、左右方向に厚みを有する略円板形状を有している。第2アイドルギア71は、第1アイドルギア70の前端部と噛合している。第2アイドルギア71は、その径方向中央において、側面視略円形状の貫通穴71Aを有している。第2アイドルギア71は、その周面すべてにわたってギア歯を備えている。第2アイドルギア71は、支持部材67の後述する突起73に支持されている。第2アイドルギア71の貫通穴71Aは、突起73に対して相対回転可能となるように支持部121Aとはまる。 The second idle gear 71 has a substantially disc shape having a thickness in the left-right direction. The second idle gear 71 meshes with the front end portion of the first idle gear 70. The second idle gear 71 has a through hole 71 </ b> A having a substantially circular shape in a side view at the radial center. The second idle gear 71 has gear teeth over the entire peripheral surface. The second idle gear 71 is supported by a later-described protrusion 73 of the support member 67. The through hole 71 </ b> A of the second idle gear 71 is fitted with the support portion 121 </ b> A so as to be rotatable relative to the protrusion 73.
 供給ギア72は、左右方向に厚みを有する略円板形状を有している。供給ギア72は、第2アイドルギア71の前下方端部と噛合している。供給ギア72は、その径方向中央において、側面視略D字形状の貫通穴72Aを有している。供給ギア72は、その周面すべてにわたってギア歯を備えている。供給ギア72は、供給ローラ軸121の支持部121Aに支持されている。供給ギア72の貫通穴72Aは、供給ギア72が供給ローラ軸121に対して相対回転不能となるように、支持部121Aにはまる。
(3-2)支持部材
 支持部材67は、図11および図14に示すように、第2ギア列66の右方に配置されている。支持部材67は、側面視略矩形の平板形状を有している。支持部材67は、例えば、導電性樹脂などの導電性材料からなる。支持部材67は、穴75と、突起73と、穴78と、突起74とを有している。
The supply gear 72 has a substantially disk shape having a thickness in the left-right direction. The supply gear 72 meshes with the front lower end portion of the second idle gear 71. The supply gear 72 has a substantially D-shaped through hole 72A in a side view in the radial center. The supply gear 72 includes gear teeth over the entire peripheral surface thereof. The supply gear 72 is supported by the support portion 121 </ b> A of the supply roller shaft 121. The through hole 72 </ b> A of the supply gear 72 fits in the support portion 121 </ b> A so that the supply gear 72 cannot rotate relative to the supply roller shaft 121.
(3-2) Support Member The support member 67 is disposed on the right side of the second gear train 66 as shown in FIGS. The support member 67 has a flat plate shape that is substantially rectangular in a side view. The support member 67 is made of a conductive material such as a conductive resin, for example. The support member 67 has a hole 75, a protrusion 73, a hole 78, and a protrusion 74.
 穴75は、支持部材67の後上方端部に配置されている。穴75は、支持部材67を左右方向に貫通している。穴75は、側面視略円形状を有している。穴75の大きさは、現像ローラ軸111の大きさよりもわずかに大きい。 The hole 75 is disposed at the rear upper end of the support member 67. The hole 75 penetrates the support member 67 in the left-right direction. The hole 75 has a substantially circular shape in a side view. The size of the hole 75 is slightly larger than the size of the developing roller shaft 111.
 突起73は、支持部材67の前上方端部に配置されている。突起73は、支持部材67の左面から左方へ突出している。突起73は、略円筒形状を有している。 The protrusion 73 is disposed at the front upper end of the support member 67. The protrusion 73 protrudes leftward from the left surface of the support member 67. The protrusion 73 has a substantially cylindrical shape.
 穴78は、支持部材67の前下方端部に配置されている。穴78は、支持部材67を左右方向に貫通している。穴78は、側面視略円形状を有している。穴78の大きさは、供給ローラ軸121の支持部121Bの大きさよりもわずかに大きい。 The hole 78 is disposed at the front lower end of the support member 67. The hole 78 penetrates the support member 67 in the left-right direction. The hole 78 has a substantially circular shape in side view. The size of the hole 78 is slightly larger than the size of the support portion 121 </ b> B of the supply roller shaft 121.
 突起74は、穴78の周縁部から右方へ突出している。突起74は、略円筒形状を有している。突起74の上下方向高さは、現像電極65の後述する支持部92の上下方向高さとほぼ同じである。突起74は、1対の溝76を有している。 The protrusion 74 protrudes rightward from the peripheral edge of the hole 78. The protrusion 74 has a substantially cylindrical shape. The height in the vertical direction of the protrusion 74 is substantially the same as the height in the vertical direction of a support portion 92 described later of the developing electrode 65. The protrusion 74 has a pair of grooves 76.
 1対の溝76のそれぞれは、突起74の上端部と下端部とにそれぞれ配置されている。1対の溝76のそれぞれは、突起74の径方向において突起74の周壁を貫通するように、突起74の右端部から左方へ向かって切り欠かれている。1対の溝76のそれぞれは、右端部が開放された平面視略直線形状を有している。溝76の前後方向の寸法は、現像電極65の後述する支持部92の前後方向の寸法よりもわずかに長い。
(3-3)現像電極
 現像電極65は、正面視略T字形状を有している。現像電極65は、例えば、金属や導電性樹脂などの導電性材料からなる。現像電極65は、左右方向に沿って現像カップリング44を投影したときに、現像カップリング44と重なっている。現像電極65は、左右方向に沿って、内方位置(図12参照)と、外方位置(図18参照)との間を移動可能である。現像電極65の内方位置から外方位置への移動距離D2は、例えば、5mm以上、30mm以下である。現像電極65は、支持部92と、接触部91と、接触部93とを備えている。
(3-3-1)支持部
 支持部92は、現像電極65の左端部に配置されている。支持部92は、上下方向に延びる正面視略矩形の平板形状を有している。支持部92は、溝76内に位置している。
(3-3-2)接触部
 接触部91は、支持部92の上下方向中央から右方へ延びている。接触部91は、左右方向に長手の略円柱形状を有している。接触部91は、図11および図14に示すように、供給ローラ軸121の中心軸線A2と一致するように配置されている。言い換えると、接触部91は、現像カップリング44の回転中心C上に配置されている。接触部91の直径は、例えば、0.01mm以上、3mm以下である。接触部91は、右端部において、本体電極117と接触する接点91Aを有している。
Each of the pair of grooves 76 is disposed at the upper end portion and the lower end portion of the protrusion 74, respectively. Each of the pair of grooves 76 is cut away from the right end portion of the protrusion 74 toward the left so as to penetrate the peripheral wall of the protrusion 74 in the radial direction of the protrusion 74. Each of the pair of grooves 76 has a substantially straight line shape in plan view with the right end portion opened. The dimension in the front-rear direction of the groove 76 is slightly longer than the dimension in the front-rear direction of a support portion 92 described later of the developing electrode 65.
(3-3) Development Electrode The development electrode 65 has a substantially T shape when viewed from the front. The developing electrode 65 is made of a conductive material such as metal or conductive resin, for example. The development electrode 65 overlaps the development coupling 44 when the development coupling 44 is projected along the left-right direction. The developing electrode 65 is movable between an inner position (see FIG. 12) and an outer position (see FIG. 18) along the left-right direction. The moving distance D2 from the inner position to the outer position of the developing electrode 65 is, for example, 5 mm or more and 30 mm or less. The development electrode 65 includes a support portion 92, a contact portion 91, and a contact portion 93.
(3-3-1) Support Unit The support unit 92 is disposed at the left end of the developing electrode 65. The support part 92 has a substantially rectangular flat plate shape extending in the vertical direction when viewed from the front. The support portion 92 is located in the groove 76.
(3-3-2) Contact Part The contact part 91 extends rightward from the center of the support part 92 in the vertical direction. The contact portion 91 has a substantially cylindrical shape that is long in the left-right direction. As shown in FIGS. 11 and 14, the contact portion 91 is disposed so as to coincide with the central axis A <b> 2 of the supply roller shaft 121. In other words, the contact portion 91 is disposed on the rotation center C of the development coupling 44. The diameter of the contact part 91 is 0.01 mm or more and 3 mm or less, for example. The contact portion 91 has a contact 91 </ b> A that contacts the main body electrode 117 at the right end portion.
 接点91Aは、現像電極65が内方位置に位置しているときには、現像ローラ11の右カラー77の右面よりも左方に位置している。接点91Aは、図18および図19に示すように、現像電極65が外方位置に位置しているときには、現像ローラ11の右カラー77の右面よりも右方に位置している。すなわち、現像電極65の外方位置は、現像電極65の内方位置よりも左右方向外方に位置している。
(3-3-3)接触部
 接触部93は、上方接触部93Aと下方接触部93Bとを有する。上方接触部93Aは、支持部92の上端部から上方へ向かって延びている。上方接触部93Aは、突起74の上端部よりも上方へ突出している。下方接触部93Bは、支持部92の下端部から下方へ向かって延びている。下方接触部93Bは、突起74の下端部よりも下方へ突出している。上方接触部93Aおよび下方接触部93Bは、略角柱形状を有している。
The contact 91 </ b> A is positioned to the left of the right surface of the right collar 77 of the developing roller 11 when the developing electrode 65 is positioned in the inward position. As shown in FIGS. 18 and 19, the contact 91 </ b> A is located on the right side of the right surface of the right collar 77 of the developing roller 11 when the developing electrode 65 is located at the outward position. That is, the outer position of the developing electrode 65 is located outward in the left-right direction with respect to the inner position of the developing electrode 65.
(3-3-3) Contact Part The contact part 93 includes an upper contact part 93A and a lower contact part 93B. The upper contact portion 93 </ b> A extends upward from the upper end portion of the support portion 92. The upper contact portion 93 </ b> A protrudes upward from the upper end portion of the protrusion 74. The lower contact portion 93 </ b> B extends downward from the lower end portion of the support portion 92. The lower contact portion 93 </ b> B protrudes downward from the lower end portion of the protrusion 74. The upper contact portion 93A and the lower contact portion 93B have a substantially prismatic shape.
 現像電極65は、図11および図18に示すように、突起74内に支持されている。
(3-4)圧縮ばね
 圧縮ばね64は、コイルばねである。圧縮ばね64の径は、突起74の外径よりも大きく、かつ、現像電極65の上下方向長さよりも小さい。圧縮ばね64は、突起74に対して突起74の径方向外方から遊嵌されている。圧縮ばね64は、その左端部において支持部材67に右方から当接し、その右端部において現像電極65の接触部93に左方から当接している。圧縮ばね64は、現像電極65を常に外方位置へ向かって付勢している。
(3-5)右直動カム
 右直動カム68は、図11および図13に示すように、前後方向に延びる略平板形状を有している。右直動カム68は、図12および図14に示すように、カバー69の右壁の左面に支持されている。右直動カム68は、前後方向に沿って、現像電極65を左方へ押圧する押圧位置(図12参照)と、現像電極65に対する左方への押圧を解除する押圧解除位置(図18参照)との間を移動可能である。右直動カム68は、接触部81と、連結部83と、接触部82とを備えている。
(3-5-1)接触部
 接触部81は、右直動カム68の後端部に配置されている。接触部81は、側面視略矩形状を有している。接触部81は、穴84と、カム部85とを有している。
The development electrode 65 is supported in the protrusion 74 as shown in FIGS.
(3-4) Compression Spring The compression spring 64 is a coil spring. The diameter of the compression spring 64 is larger than the outer diameter of the protrusion 74 and smaller than the vertical length of the developing electrode 65. The compression spring 64 is loosely fitted to the protrusion 74 from the radially outer side of the protrusion 74. The compression spring 64 is in contact with the support member 67 from the right at its left end, and is in contact with the contact portion 93 of the developing electrode 65 from the left at its right end. The compression spring 64 always urges the developing electrode 65 toward the outward position.
(3-5) Right Linear Cam 68 The right linear cam 68 has a substantially flat plate shape extending in the front-rear direction, as shown in FIGS. As shown in FIGS. 12 and 14, the right translation cam 68 is supported on the left surface of the right wall of the cover 69. The right translation cam 68 has a pressing position for pressing the developing electrode 65 leftward along the front-rear direction (see FIG. 12) and a pressing releasing position for releasing the pressing against the developing electrode 65 leftward (see FIG. 18). ). The right translation cam 68 includes a contact portion 81, a connecting portion 83, and a contact portion 82.
(3-5-1) Contact Part The contact part 81 is disposed at the rear end part of the right linear cam 68. The contact part 81 has a substantially rectangular shape in side view. The contact part 81 has a hole 84 and a cam part 85.
 穴84は、接触部81を左右方向に貫通している。穴84は、前後方向に延びる側面視略矩形状を有している。穴84の大きさは、現像電極65の接触部91の大きさよりもわずかに大きい。 The hole 84 penetrates the contact portion 81 in the left-right direction. The hole 84 has a substantially rectangular shape in side view extending in the front-rear direction. The size of the hole 84 is slightly larger than the size of the contact portion 91 of the developing electrode 65.
 カム部85は、接触部81の後端部に配置されている。カム部85は、穴84の後方半分の周縁部から左方へ突出している。カム部85は、前方が開放された側面視略U字形状を有している。カム部85は、変位部86と、保持部87とを備えている。 The cam portion 85 is disposed at the rear end portion of the contact portion 81. The cam portion 85 protrudes leftward from the peripheral portion of the rear half of the hole 84. The cam portion 85 has a substantially U shape in side view with the front open. The cam portion 85 includes a displacement portion 86 and a holding portion 87.
 変位部86は、カム部85の前端部に配置されている。変位部86の左面は、前方から後方へ向かうにつれて左方へ傾斜している。言い換えると、変位部86の突出長さは、前方から後方へ向かうにつれて次第に長くなっている。 The displacement portion 86 is disposed at the front end portion of the cam portion 85. The left surface of the displacement part 86 is inclined leftward from the front toward the rear. In other words, the protruding length of the displacement portion 86 becomes gradually longer from the front to the rear.
 保持部87は、変位部86の後方に連続されている。保持部87の左面は、変位部86の左面の後端部に連続して、前後方向に延びている。
(3-5-2)連結部
 連結部83は、接触部81の前端部から連続して前方へ延びている。連結部53は、前後方向に長い側面視略矩形状を有している。
(3-5-3)接触部
 接触部82は、右直動カム68の前端部に配置されている。接触部82は、後方が開放された側面視略C字形状を有している。接触部82は、第1係合部88と、第2係合部89とを備えている。
The holding part 87 is continued behind the displacement part 86. The left surface of the holding portion 87 is continuous with the rear end portion of the left surface of the displacement portion 86 and extends in the front-rear direction.
(3-5-2) Connection Portion The connection portion 83 extends continuously forward from the front end portion of the contact portion 81. The connecting portion 53 has a substantially rectangular shape in side view that is long in the front-rear direction.
(3-5-3) Contact Part The contact part 82 is disposed at the front end of the right linear cam 68. The contact portion 82 has a substantially C shape in side view with the rear opened. The contact portion 82 includes a first engagement portion 88 and a second engagement portion 89.
 第1係合部88は、垂直部分88Aと、鉤状部分88Bとを備えている。垂直部分88Aは、連結部83の前端部から上方へ延びている。垂直部分88Aは、突起90を備えている。突起90は、第1係合部88の垂直部分88Aの上下方向略中央に配置されている。突起90は、垂直部分88Aの前端縁から前方へ突出している。突起90は、側面視略半円形状を有している。鉤状部分88Bは、垂直部分88Aの上端部から前方へ延び、その前端部において下方へ屈曲している。 The first engaging portion 88 includes a vertical portion 88A and a bowl-shaped portion 88B. The vertical portion 88 </ b> A extends upward from the front end portion of the connecting portion 83. The vertical portion 88 </ b> A includes a protrusion 90. The protrusion 90 is disposed substantially at the center in the vertical direction of the vertical portion 88 </ b> A of the first engagement portion 88. The protrusion 90 protrudes forward from the front edge of the vertical portion 88A. The protrusion 90 has a substantially semicircular shape in a side view. The hook-shaped portion 88B extends forward from the upper end portion of the vertical portion 88A, and is bent downward at the front end portion thereof.
 第2係合部89は、連結部83の前端部から前方へ延び、その前端部において上方へ屈曲している。
(3-4)カバー
 カバー69は、図10および図14に示すように、左端部と前端部とが開放された略ボックス形状を有している。カバー69は、図示しないねじによりフレーム21の右壁27Rに固定されている。カバー69は、第2ギア列66、支持部材67、圧縮ばね64、現像電極65、および、右直動カム68を被覆するように構成されている。カバー69は、開口94と、突起95とを有している。
The second engaging portion 89 extends forward from the front end portion of the connecting portion 83 and is bent upward at the front end portion.
(3-4) Cover As shown in FIGS. 10 and 14, the cover 69 has a substantially box shape in which the left end portion and the front end portion are opened. The cover 69 is fixed to the right wall 27R of the frame 21 by screws (not shown). The cover 69 is configured to cover the second gear train 66, the support member 67, the compression spring 64, the developing electrode 65, and the right translation cam 68. The cover 69 has an opening 94 and a protrusion 95.
 開口94は、カバー69の前端部に配置されている。開口94は、カバー69の右壁を左右方向に貫通している。開口94は、側面視略円形状を有している。開口94は、右カラー77を露出するように構成されている。 The opening 94 is disposed at the front end of the cover 69. The opening 94 penetrates the right wall of the cover 69 in the left-right direction. The opening 94 has a substantially circular shape in side view. The opening 94 is configured to expose the right collar 77.
 突起95は、開口94の前下方に配置されている。突起95は、カバー69の右壁から右方へ延びている。突起95は、略円柱形状を有している。突起95は、穴96を有している。 The projection 95 is disposed in front of and below the opening 94. The protrusion 95 extends rightward from the right wall of the cover 69. The protrusion 95 has a substantially cylindrical shape. The protrusion 95 has a hole 96.
 穴96は、突起95の径方向中央に配置されている。穴96は、突起95、および、カバー69の右壁を左右方向に貫通している。穴96は、側面視略円形状を有している。穴96の大きさは、現像電極65の接触部91の大きさよりもわずかに大きい。
(4)操作部
 操作部24は、図10および図11に示すように、ハンドル部材101と、規制部材104と、圧縮ばね108とを備えている。なお、以下の操作部24の説明において、操作部24の方向に言及するときには、図10に示す状態を基準とする。
(4-1)ハンドル部材
 ハンドル部材101は、操作部24の本体を構成する。ハンドル部材101は、左右方向に長い略角柱形状を有している。ハンドル部材101は、フレーム21の前壁28に支持されている。ハンドル部材101は、フレーム21の前壁28から後方へ向かって延びる延出位置(図13参照)と、フレーム21の前壁28に沿って上下方向に垂下する傾倒位置(図16B参照)との間をハンドル部材101の前端部を支点として揺動するように構成されている。ハンドル部材101は、把持部102と、1対のリンク部103とを備えている。
(4-1-1)把持部
 把持部102は、ハンドル部材101の左右方向中央部分であり、穴109と、グリップ110とを有している。
The hole 96 is disposed at the radial center of the protrusion 95. The hole 96 penetrates the protrusion 95 and the right wall of the cover 69 in the left-right direction. The hole 96 has a substantially circular shape in side view. The size of the hole 96 is slightly larger than the size of the contact portion 91 of the developing electrode 65.
(4) Operation part The operation part 24 is provided with the handle member 101, the control member 104, and the compression spring 108, as shown in FIG.10 and FIG.11. In the following description of the operation unit 24, when referring to the direction of the operation unit 24, the state shown in FIG.
(4-1) Handle Member The handle member 101 constitutes the main body of the operation unit 24. The handle member 101 has a substantially prismatic shape that is long in the left-right direction. The handle member 101 is supported on the front wall 28 of the frame 21. The handle member 101 has an extended position (see FIG. 13) extending rearward from the front wall 28 of the frame 21 and a tilt position (see FIG. 16B) that hangs down in the vertical direction along the front wall 28 of the frame 21. It is configured to swing around the front end of the handle member 101 as a fulcrum. The handle member 101 includes a grip portion 102 and a pair of link portions 103.
(4-1-1) Gripping Unit The gripping unit 102 is a central portion in the left-right direction of the handle member 101, and includes a hole 109 and a grip 110.
 穴109は、ハンドル部材101の左右方向略中央に配置されている。穴109は、ハンドル部材101を上下方向に貫通している。穴109は、左右方向に長い平面視略矩形状を有している。 The hole 109 is disposed substantially at the center of the handle member 101 in the left-right direction. The hole 109 penetrates the handle member 101 in the vertical direction. The hole 109 has a substantially rectangular shape in plan view that is long in the left-right direction.
 グリップ110は、穴109の前方に配置されている。グリップ110は、穴109の前壁を構成する。グリップ110は、左右方向に長い略平板形状を有している。
(4-1-2)リンク部
 リンク部103は、ハンドル部材101の後端部を中心とする略扇形状を有している。リンク部103は、左リンク部103Aと、右リンク部103Bとを備えている。
The grip 110 is disposed in front of the hole 109. The grip 110 constitutes the front wall of the hole 109. The grip 110 has a substantially flat plate shape that is long in the left-right direction.
(4-1-2) Link Part The link part 103 has a substantially fan shape centered on the rear end part of the handle member 101. The link unit 103 includes a left link unit 103A and a right link unit 103B.
 左リンク部103Aは、ハンドル部材101の左端部から下方へ突出されている。左リンク部103Aは、図6および図7に示すように、左直動カム38の接触部52の左方、かつ、カバー40の右方に配置されている。左リンク部103Aは、突起105Aを備えている。 The left link portion 103A protrudes downward from the left end portion of the handle member 101. As shown in FIGS. 6 and 7, the left link portion 103 </ b> A is disposed on the left side of the contact portion 52 of the left linear cam 38 and on the right side of the cover 40. The left link portion 103A includes a protrusion 105A.
 突起105Aは、左リンク部103Aの下端部に配置されている。突起105Aは、左リンク部103Aの左右方向内面から左右方向内方へ突出している。突起105Aは、略円柱形状を有している。突起105Aは、第1係合部56と第2係合部57との間に配置されている。 The protrusion 105A is disposed at the lower end portion of the left link portion 103A. The protrusion 105A protrudes inward in the left-right direction from the inner surface in the left-right direction of the left link portion 103A. The protrusion 105A has a substantially cylindrical shape. The protrusion 105 </ b> A is disposed between the first engagement portion 56 and the second engagement portion 57.
 右リンク部103Bは、ハンドル部材101の右端部から下方へ突出されている。右リンク部103Bは、図10および図13に示すように、右直動カム68の接触部82の右方、かつ、カバー69の右壁の左方に配置されている。右リンク部103Bは、突起105Bおよび支持部106を備えている。 The right link portion 103B protrudes downward from the right end portion of the handle member 101. As shown in FIGS. 10 and 13, the right link portion 103 </ b> B is disposed on the right side of the contact portion 82 of the right linear cam 68 and on the left side of the right wall of the cover 69. The right link portion 103B includes a protrusion 105B and a support portion 106.
 突起105Bは、右リンク部103Bの下端部に配置されている。突起105Bは、右リンク部103Bの左右方向内面から左右方向内方へ突出している。突起105Bは、略円柱形状を有している。突起105Bは、第1係合部88と第2係合部89との間に配置されている。 The protrusion 105B is disposed at the lower end portion of the right link portion 103B. The protrusion 105B protrudes inward in the left-right direction from the inner surface in the left-right direction of the right link portion 103B. The protrusion 105B has a substantially cylindrical shape. The protrusion 105 </ b> B is disposed between the first engagement portion 88 and the second engagement portion 89.
 支持部106は、右リンク部103Bの上下方向略中央に配置されている。支持部106は、右リンク部103Bの右面から左方に向かって凹む凹部である。支持部106は、側面視略円形状を有している。
(4-2)規制部材
 規制部材104は、支持部106内に配置されている。規制部材104は、左右方向に延びる略円筒形状を有している。規制部材104は、係合爪107を備えている。
The support part 106 is disposed at the substantially vertical center of the right link part 103B. The support part 106 is a recessed part recessed toward the left from the right surface of the right link part 103B. The support part 106 has a substantially circular shape in a side view.
(4-2) Restricting Member The restricting member 104 is disposed in the support portion 106. The regulating member 104 has a substantially cylindrical shape extending in the left-right direction. The restricting member 104 includes an engaging claw 107.
 係合爪107は、規制部材104の左端部から左方へ延びている。係合爪107の左端部は、規制部材104の径方向外方へ向かって屈曲する略鉤形状を有している。
(4-3)圧縮ばね
 圧縮ばね108は、図11に示すように、支持部106内に配置されている。圧縮ばね108は、左右方向に延びるコイルばねである。圧縮ばね108の左端部は、支持部106の左壁に当接している。また、圧縮ばね108の右端部は、規制部材104の右壁に当接している。これにより、圧縮ばね108は、規制部材104を常に右方へ付勢している。
3.現像カップリングおよび現像電極の進出または退避
(1)現像カップリングおよび現像電極の内方位置から外方位置への移動
 次に、現像カップリング44および現像電極65の内方位置から外方位置への移動について説明する。
The engaging claw 107 extends leftward from the left end portion of the regulating member 104. The left end portion of the engaging claw 107 has a substantially bowl shape that is bent outward in the radial direction of the regulating member 104.
(4-3) Compression Spring The compression spring 108 is disposed in the support portion 106 as shown in FIG. The compression spring 108 is a coil spring extending in the left-right direction. The left end portion of the compression spring 108 is in contact with the left wall of the support portion 106. Further, the right end portion of the compression spring 108 is in contact with the right wall of the regulating member 104. Thereby, the compression spring 108 always urges the regulating member 104 to the right.
3. Development Coupling and Development Electrode Advancement or Retraction (1) Development Coupling and Development Electrode Movement from Inward Position to Outward Next Next, Development Coupling 44 and Development Electrode 65 from Inward Position to Outward Position The movement will be described.
 現像カップリング44および現像電極65は、現像カートリッジ7Aが本体ケーシング2内に収容される前の状態では、内方位置に配置されている。現像カップリング44および現像電極65が内方位置に配置されているときには、図14に示すように、現像カップリング44の左面44Aと、現像電極65の接点91Aとの距離W1は、現像カートリッジ7Aの左右方向長さW3よりも小さい。 The developing coupling 44 and the developing electrode 65 are disposed in the inward position before the developing cartridge 7A is accommodated in the main casing 2. When the development coupling 44 and the development electrode 65 are disposed in the inward position, as shown in FIG. 14, the distance W1 between the left surface 44A of the development coupling 44 and the contact 91A of the development electrode 65 is set to the development cartridge 7A. Is smaller than the horizontal length W3.
 現像カートリッジ7Aが本体ケーシング2の外に配置され、かつ、ハンドル部材101が延出位置に配置されているときには、規制部材104は、図10に示すように、カバー69の前方において、圧縮ばね108の付勢力により、支持部106から右方へ突出している。この状態で操作者がハンドル部材101を延出位置から傾倒位置へ向かって移動すると、規制部材104は、カバー69の前端部に当接する。これにより、ハンドル部材101は、ハンドル部材101と左直動カム38および右直動カム68とが連動する前に、傾倒位置への移動を規制される。 When the developing cartridge 7A is disposed outside the main body casing 2 and the handle member 101 is disposed at the extended position, the restricting member 104 is arranged in front of the cover 69 as shown in FIG. It protrudes from the support part 106 to the right side by the urging force. In this state, when the operator moves the handle member 101 from the extended position toward the tilted position, the restricting member 104 comes into contact with the front end portion of the cover 69. As a result, the handle member 101 is restricted from moving to the tilted position before the handle member 101 and the left translation cam 38 and the right translation cam 68 are interlocked.
 現像カートリッジ7Aが本体ケーシング2内に装着されると、規制部材104は、規制部材104が圧縮ばね108の付勢力に抗して支持部106内に収容された状態となるように、本体ケーシング内の解除部材(図示せず)に付勢される。これにより、ハンドル部材101が延出位置から傾倒位置へ移動可能となる。 When the developing cartridge 7A is mounted in the main casing 2, the regulating member 104 is placed in the main casing so that the regulating member 104 is accommodated in the support portion 106 against the urging force of the compression spring 108. The release member (not shown) is urged. Thereby, the handle member 101 can be moved from the extended position to the tilted position.
 その後、ハンドル部材101が延出位置から傾倒位置へ移動すると、図15Aおよび図16Aに示すように、ハンドル部材101の突起105Aが左直動カム38の連結部53の後端部に前方から当接するとともに、ハンドル部材101の突起105Bが右直動カム68の連結部83の後端部に前方から当接する。 Thereafter, when the handle member 101 moves from the extended position to the tilted position, as shown in FIGS. 15A and 16A, the protrusion 105A of the handle member 101 contacts the rear end portion of the connecting portion 53 of the left linear cam 38 from the front. In addition, the protrusion 105B of the handle member 101 comes into contact with the rear end portion of the connecting portion 83 of the right translation cam 68 from the front.
 さらに、ハンドル部材101が傾倒位置へ移動されると、突起105Aは、図15Aおよび図15Bに示すように、ハンドル部材101の後端部を支点として右側面視時計回り方向に移動しながら、左直動カム38の第1係合部56を、傾斜部分56A、垂直部分56Bの順に、下方から上方へ摺動するように押圧する。 Further, when the handle member 101 is moved to the tilted position, the protrusion 105A moves to the left while moving clockwise with the rear end of the handle member 101 as a fulcrum, as shown in FIGS. 15A and 15B. The first engaging portion 56 of the linear motion cam 38 is pressed so as to slide from below to above in the order of the inclined portion 56A and the vertical portion 56B.
 これにより、左直動カム38は、後方へ移動する。すると、現像カップリング44は、左直動カム38の変位部54の傾斜に沿って、圧縮ばね39の付勢力に抗して、左方へ移動する。 This causes the left linear cam 38 to move backward. Then, the development coupling 44 moves to the left against the urging force of the compression spring 39 along the inclination of the displacement portion 54 of the left linear cam 38.
 そして、図15Bに示すように、突起105Aは、突起58を乗り越えて突起58よりも上方に位置する。 Then, as shown in FIG. 15B, the protrusion 105 </ b> A climbs over the protrusion 58 and is positioned above the protrusion 58.
 また同時に、突起105Bは、図16Aおよび図16Bに示すように、ハンドル部材101の後端部を支点として左側面視反時計回り方向に移動しながら、右直動カム68の第1係合部88を、下方から上方へ摺動するように押圧する。 At the same time, as shown in FIGS. 16A and 16B, the protrusion 105B moves in the counterclockwise direction in the left side view with the rear end portion of the handle member 101 as a fulcrum, while the first engaging portion of the right linear cam 68. 88 is pressed to slide upward from below.
 これにより、右直動カム68は、後方へ移動する。すると、現像電極65は、右直動カム68の変位部86の傾斜に沿って、圧縮ばね64の付勢力により、右方へ移動する。 This causes the right linear cam 68 to move backward. Then, the developing electrode 65 moves to the right by the urging force of the compression spring 64 along the inclination of the displacement portion 86 of the right translation cam 68.
 そして、図16Bに示すように、突起105Bは、突起90を乗り越えて突起90よりも上方に位置する。 Then, as shown in FIG. 16B, the protrusion 105B gets over the protrusion 90 and is positioned above the protrusion 90.
 そして、ハンドル部材101が傾倒位置に位置すると、左直動カム38は、図17および図19に示すように、押圧位置に位置し、現像カップリング44のギア部46は、左直動カム38の接触部51の保持部55に当接する。これにより、現像カップリング44の内方位置から外方位置への移動が完了する。 When the handle member 101 is positioned at the tilted position, the left linear cam 38 is positioned at the pressing position as shown in FIGS. 17 and 19, and the gear portion 46 of the developing coupling 44 is positioned at the left linear cam 38. The contact part 51 contacts the holding part 55. Thereby, the movement of the developing coupling 44 from the inner position to the outer position is completed.
 また、右直動カム68は、図18および図19に示すように、押圧解除位置に位置し、現像電極65は、右直動カム68のカム部85よりも前方に位置し、外方位置に位置する。これにより、現像電極65の内方位置から外方位置への移動が完了する。 Further, as shown in FIGS. 18 and 19, the right linear cam 68 is positioned at the pressing release position, and the developing electrode 65 is positioned forward of the cam portion 85 of the right linear cam 68, and the outward position. Located in. Thereby, the movement of the developing electrode 65 from the inner position to the outer position is completed.
 なお、外方位置における現像カップリング44の左面44Aと現像電極65の接点91Aとの距離W2は、図19に示すように、内方位置における現像カップリング44の左面44Aと現像電極65の接点91Aとの距離W1よりも長い。
(2)現像カップリングおよび現像電極の外方位置から内方位置への移動
 次に、現像カップリング44および現像電極65の外方位置から内方位置への移動について説明する。
The distance W2 between the left surface 44A of the development coupling 44 and the contact point 91A of the development electrode 65 at the outer position is equal to the contact point between the left surface 44A of the development coupling 44 and the development electrode 65 at the inner position as shown in FIG. It is longer than the distance W1 with 91A.
(2) Movement of Development Coupling and Development Electrode from Outer Position to Inward Position Next, movement of the development coupling 44 and development electrode 65 from the outer position to the inner position will be described.
 ハンドル部材101が傾倒位置から延出位置へ移動すると、図20Aに示すように、ハンドル部材101の突起105Aは、ハンドル部材101の後端部を支点として左側面視反時計回り方向に移動しながら、左直動カム38の第2係合部57の垂直部分57Aの下端部に後方から当接する。 When the handle member 101 moves from the tilted position to the extended position, as shown in FIG. 20A, the protrusion 105A of the handle member 101 moves counterclockwise when viewed from the left side with the rear end portion of the handle member 101 as a fulcrum. Then, it comes into contact with the lower end portion of the vertical portion 57A of the second engaging portion 57 of the left linear cam 38 from the rear.
 さらに、ハンドル部材101が延出位置へ移動すると、突起105Aは、垂直部分57Aをわずかに前方へ押圧する。 Furthermore, when the handle member 101 moves to the extended position, the protrusion 105A slightly pushes the vertical portion 57A forward.
 これにより、左直動カム38は、わずかに前方へ移動する。 This causes the left linear cam 38 to move slightly forward.
 さらに、ハンドル部材101が延出位置へ移動すると、図20Bに示すように、突起105Aは、左直動カム38の第2係合部57の傾斜部分57Bの下端部に後方から当接する。 Further, when the handle member 101 moves to the extended position, the protrusion 105A comes into contact with the lower end portion of the inclined portion 57B of the second engaging portion 57 of the left linear cam 38 from the rear as shown in FIG. 20B.
 さらに、ハンドル部材101が延出位置へ移動すると、図20Cに示すように、左直動カム38は、突起105Aに押圧されて、前方へ移動する。すると、現像カップリング44は、左直動カム38の変位部54の傾斜に沿って、圧縮ばね39の付勢力により、右方へ移動する。 Further, when the handle member 101 moves to the extended position, as shown in FIG. 20C, the left linear cam 38 is pushed by the protrusion 105A and moves forward. Then, the development coupling 44 moves to the right by the biasing force of the compression spring 39 along the inclination of the displacement portion 54 of the left linear cam 38.
 また同時に、図21Aに示すように、突起105Bは、右直動カム68の第2係合部89の上端部に後方から当接する。 At the same time, as shown in FIG. 21A, the protrusion 105B comes into contact with the upper end portion of the second engaging portion 89 of the right translation cam 68 from the rear.
 右直動カム68は、図21Bに示すように、突起105Bに押圧されて、前方へ移動する。すると、現像電極65は、右直動カム68の変位部86の傾斜に沿って、圧縮ばね64の付勢力に抗して、左方へ移動する。 As shown in FIG. 21B, the right translation cam 68 is pressed by the protrusion 105B and moves forward. Then, the developing electrode 65 moves to the left against the urging force of the compression spring 64 along the inclination of the displacement portion 86 of the right translation cam 68.
 そして、ハンドル部材101が延出位置に位置すると、図6に示すように、左直動カム38は、押圧解除位置に位置し、現像カップリング44は、左直動カム38の接触部51よりも後方に位置し、内方位置に位置する。これにより、現像カップリング44の外方位置から内方位置への移動が完了する。 When the handle member 101 is located at the extended position, as shown in FIG. 6, the left translation cam 38 is located at the pressing release position, and the development coupling 44 is moved from the contact portion 51 of the left translation cam 38. Is also located at the rear and inward. Thereby, the movement of the developing coupling 44 from the outer position to the inner position is completed.
 また同時に、右直動カム68は、図12に示すように、押圧位置に位置し、現像電極65は、現像電極65の接触部93が右直動カム68のカム部85の保持部87に当接し、内方位置に位置する。これにより、現像電極65の外方位置から内方位置への移動が完了する。
4.現像カートリッジの作動
 次に、現像カップリング44および現像電極65が外方位置に位置するときに、本体ケーシング2内の駆動源から現像カップリング44が駆動力を受ける状態および本体ケーシング2内の電源から現像電極65が電力を受ける状態について説明をする。
At the same time, as shown in FIG. 12, the right translation cam 68 is located at the pressing position, and the development electrode 65 has the contact portion 93 of the development electrode 65 at the holding portion 87 of the cam portion 85 of the right translation cam 68. It abuts and is located in the inward position. Thereby, the movement of the developing electrode 65 from the outer position to the inner position is completed.
4). Next, when the developing coupling 44 and the developing electrode 65 are located at the outer position, the developing coupling 44 receives a driving force from the driving source in the main casing 2 and the power source in the main casing 2. A state in which the developing electrode 65 receives power will be described.
 現像カップリング44の凹部48は、図19に仮想線で示すように、本体ケーシング2内において、現像カップリング44が外方位置に位置すると、本体ケーシング2の本体カップリング116に相対回転不能に接触する。 As indicated by phantom lines in FIG. 19, the concave portion 48 of the developing coupling 44 is not rotatable relative to the main body coupling 116 of the main body casing 2 when the developing coupling 44 is positioned in the outer position in the main body casing 2. Contact.
 また、現像電極65の接点91Aは、現像電極65が外方位置に位置すると、本体ケーシング2の本体電極117に接触する。 Further, the contact point 91A of the developing electrode 65 contacts the main body electrode 117 of the main body casing 2 when the developing electrode 65 is located at the outer position.
 現像電極65は、上記した画像形成動作時など、本体電極117を介して電力を受け、現像カップリング44は、本体カップリング116を介して駆動力を受ける。 The developing electrode 65 receives power via the main body electrode 117 during the above-described image forming operation, and the developing coupling 44 receives driving force via the main body coupling 116.
 現像電極65が受けた電力は、支持部材67を介して現像ローラ軸111と供給ローラ軸121とに伝達される。 The electric power received by the developing electrode 65 is transmitted to the developing roller shaft 111 and the supply roller shaft 121 through the support member 67.
 また、現像カップリング44は、駆動力を受けると、図15Bに示すように、左側面視時計回りに回転する。すると、現像ギア45は、左側面視反時計回りに回転する。これにより、現像ローラ11は、左側面視反時計回りに回転する。 Further, when receiving the driving force, the developing coupling 44 rotates clockwise as viewed from the left side as shown in FIG. 15B. Then, the developing gear 45 rotates counterclockwise as viewed from the left side. As a result, the developing roller 11 rotates counterclockwise as viewed from the left side.
 さらに、第1アイドルギア70は、図16Bに示すように、右側面視時計回りに回転する。すると、第2アイドルギア71は、右側面視反時計回りに回転し、供給ギア72は、右側面視時計回りに回転する。これにより、供給ローラ12は、右側面視時計回り、言い換えると、左側面視反時計回りに回転する。すなわち、供給ローラ12は、現像カップリング44と逆方向に回転する。
5.請求の範囲との対応
 この実施形態において、左右方向は、第1方向の一例であり、前後方向は、第2方向の一例であり、上下方向は、第3方向の一例である。また、左方は、第1方向の一方側の一例であり、右方は、第1方向の他方側の一例である。また、前方は、第2方向の一方側の一例であり、後方は、第2方向の他方側の一例である。また、上方は、第3方向の一方側の一例であり、下方は、第3方向の他方側の一例である。
Further, as shown in FIG. 16B, the first idle gear 70 rotates clockwise as viewed from the right side. Then, the second idle gear 71 rotates counterclockwise when viewed from the right side, and the supply gear 72 rotates clockwise when viewed from the right side. Thereby, the supply roller 12 rotates clockwise in the right side view, in other words, counterclockwise in the left side view. That is, the supply roller 12 rotates in the direction opposite to the development coupling 44.
5. Correspondence with Claims In this embodiment, the left-right direction is an example of the first direction, the front-rear direction is an example of the second direction, and the up-down direction is an example of the third direction. The left side is an example of one side in the first direction, and the right side is an example of the other side in the first direction. Further, the front is an example of one side in the second direction, and the rear is an example of the other side in the second direction. The upper part is an example of one side in the third direction, and the lower part is an example of the other side in the third direction.
 フレーム21の前壁28は、壁の一例である。フレーム21の右壁27Rは、第1壁の一例である。フレーム21の左壁27Lは、第2壁の一例である。 The front wall 28 of the frame 21 is an example of a wall. The right wall 27R of the frame 21 is an example of a first wall. The left wall 27L of the frame 21 is an example of a second wall.
 現像ローラ11の中心軸線A1は、第1軸線の一例である。右カラー77は、カラーの一例である。 The central axis A1 of the developing roller 11 is an example of a first axis. The right collar 77 is an example of a color.
 現像カップリング44は、カップリングの一例である。 The development coupling 44 is an example of a coupling.
 現像電極65は、電極の一例である。現像電極65の内方位置は、第1位置の一例である。現像電極65の外方位置は、第2位置の一例である。 The developing electrode 65 is an example of an electrode. The inward position of the developing electrode 65 is an example of a first position. The outward position of the developing electrode 65 is an example of a second position.
 右直動カム68は、移動部材の一例である。圧縮ばね64は、付勢部材の一例である。右直動カム68および圧縮ばね64は、移動機構を構成する。右直動カム68の押圧位置は、押圧位置の一例である。右直動カム68の押圧解除位置は、押圧解除位置の一例である。 The right translation cam 68 is an example of a moving member. The compression spring 64 is an example of an urging member. The right translation cam 68 and the compression spring 64 constitute a moving mechanism. The pressing position of the right translation cam 68 is an example of a pressing position. The press release position of the right linear cam 68 is an example of a press release position.
 ハンドル部材101は、力受け部の一例である。規制部材104は、第1規制部材および第2規制部材の一例である。
6.作用効果
(1)この現像カートリッジ7Aは、図14および図19に示すように、内方位置と、内方位置から左右方向外方の外方位置との間を移動可能な現像電極65を備えている。
The handle member 101 is an example of a force receiving portion. The restriction member 104 is an example of a first restriction member and a second restriction member.
6). Operation and Effect (1) As shown in FIGS. 14 and 19, the developing cartridge 7A includes a developing electrode 65 that can move between an inner position and an outer position that is laterally outward from the inner position. ing.
 そのため、現像カートリッジ7Aは、現像電極65が外方位置に位置している状態で本体ケーシング2から電力を受けることができる。 Therefore, the developing cartridge 7A can receive electric power from the main casing 2 in a state where the developing electrode 65 is located at the outer position.
 つまり、現像カートリッジ7Aは、本体ケーシング2の本体電極117が現像カートリッジ7Aに向かって移動しない場合でも、本体ケーシング2から電力を受けることができる。 That is, the developing cartridge 7A can receive power from the main casing 2 even when the main body electrode 117 of the main casing 2 does not move toward the developing cartridge 7A.
 その結果、この現像カートリッジ7Aは、本体ケーシング2の構成の簡略化に寄与することができ、本体ケーシング2の小型化を図ることができる。 As a result, the developing cartridge 7A can contribute to the simplification of the configuration of the main casing 2 and the main casing 2 can be downsized.
 また、この現像カートリッジ7Aでは、現像電極65は、図11に示すように、左右方向に延びている。 In the developing cartridge 7A, the developing electrode 65 extends in the left-right direction as shown in FIG.
 そのため、現像電極65に対する本体電極117との接点を確保することができる。 Therefore, a contact point with the main body electrode 117 with respect to the developing electrode 65 can be secured.
 また、現像電極65の左右方向途中に接触するように本体電極117を配置するなど、本体ケーシング2の本体電極117の設計の自由度を向上させることができる。 Further, the degree of freedom in designing the main body electrode 117 of the main body casing 2 can be improved, for example, by disposing the main body electrode 117 so as to be in contact with the developing electrode 65 in the left-right direction.
 その結果、本体ケーシング2の本体電極117に対して、現像電極65を確実に接触させることができる。
(2)この現像カートリッジ7Aでは、現像電極65は、図14および図19に示すように、左右方向に沿って内方位置と外方位置との間を移動する。
As a result, the developing electrode 65 can be reliably brought into contact with the main body electrode 117 of the main body casing 2.
(2) In the developing cartridge 7A, the developing electrode 65 moves between the inner position and the outer position along the left-right direction as shown in FIGS.
 そのため、この現像カートリッジは、現像電極65が配置されている側、すなわち右方において、プリンタ1の小型化を図ることができる。
(3)現像カートリッジ7Aは、図12および図18に示すように、圧縮ばね64の付勢力により、現像電極65を内方位置から外方位置へ移動させ、右直動カム68によって押圧することにより、現像電極65を外方位置から内方位置へ移動させている。
Therefore, the size of the printer 1 can be reduced in the developing cartridge on the side where the developing electrode 65 is disposed, that is, on the right side.
(3) As shown in FIGS. 12 and 18, the developing cartridge 7 </ b> A moves the developing electrode 65 from the inward position to the outward position by the urging force of the compression spring 64 and presses it with the right translation cam 68. Thus, the developing electrode 65 is moved from the outer position to the inner position.
 このように、現像カートリッジ7Aは、簡易な構成で、現像電極65を移動させることができる。
(4)この現像カートリッジ7Aでは、圧縮ばね64は、現像電極65を付勢している。
Thus, the developing cartridge 7A can move the developing electrode 65 with a simple configuration.
(4) In the developing cartridge 7A, the compression spring 64 biases the developing electrode 65.
 そのため、現像カートリッジ7Aは、圧縮ばね64により、現像電極65を移動させることができる。
(5)この現像カートリッジ7Aでは、圧縮ばね64は、図12および図18に示すように、現像電極65を常に外方位置へ向かって付勢している。そして、右直動カム68は、押圧位置において、圧縮ばね64の付勢力に抗して現像電極65を内方位置に向かって押圧し、押圧解除位置において、その押圧を解除する。
Therefore, the developing cartridge 7 </ b> A can move the developing electrode 65 by the compression spring 64.
(5) In the developing cartridge 7A, the compression spring 64 always urges the developing electrode 65 toward the outward position, as shown in FIGS. The right translation cam 68 presses the developing electrode 65 toward the inward position against the urging force of the compression spring 64 at the pressing position, and releases the pressing at the pressing release position.
 そのため、この現像カートリッジ7Aは、圧縮ばね64の付勢力により、確実に、現像電極65を外方位置に位置させることができる。
(6)この現像カートリッジ7Aでは、現像電極65は、図16に示すように、操作者がハンドル部材101を操作することにより移動される。
Therefore, the developing cartridge 7A can reliably position the developing electrode 65 in the outward position by the biasing force of the compression spring 64.
(6) In the developing cartridge 7A, the developing electrode 65 is moved by the operator operating the handle member 101 as shown in FIG.
 そのため、現像カートリッジ7Aは、操作者がハンドル部材101を操作する力を利用して、現像電極65を移動させることができる。
(7)この現像カートリッジ7Aでは、ハンドル部材101は、図16に示すように、操作者の操作によって移動することにより、右直動カム68を移動させる。
Therefore, the developing cartridge 7 </ b> A can move the developing electrode 65 using the force with which the operator operates the handle member 101.
(7) In the developing cartridge 7A, as shown in FIG. 16, the handle member 101 is moved by the operation of the operator to move the right translation cam 68.
 そのため、簡易な構成により、操作者からの力を右直動カム68に伝達することができる。
(8)この現像カートリッジ7Aは、図10に示すように、ハンドル部材101の移動を規制する規制部材104を備えている。
Therefore, the force from the operator can be transmitted to the right translation cam 68 with a simple configuration.
(8) The developing cartridge 7A includes a regulating member 104 that regulates the movement of the handle member 101 as shown in FIG.
 そのため、規制部材104により、操作者の意図しないハンドル部材101の移動を規制することができる。 Therefore, the movement of the handle member 101 not intended by the operator can be restricted by the restriction member 104.
 その結果、現像電極65および現像カップリング44の不用な移動を規制することができる。
(9)この現像カートリッジ7Aでは、ハンドル部材101は、図10に示すように、フレーム21の前壁28に支持されている。
As a result, unnecessary movement of the developing electrode 65 and the developing coupling 44 can be restricted.
(9) In the developing cartridge 7A, the handle member 101 is supported by the front wall 28 of the frame 21 as shown in FIG.
 そのため、ハンドル部材101は、前方から確実に力を受けることができる。
(10)この現像カートリッジ7Aでは、ハンドル部材101は、図10に示すように、把持部102を備えている。
Therefore, the handle member 101 can reliably receive a force from the front.
(10) In the developing cartridge 7A, the handle member 101 includes a grip 102 as shown in FIG.
 そのため、ハンドル部材101は、操作者が把持部102を把持して操作することで、確実に力を受けることができる。
(11)この現像カートリッジ7Aでは、把持部102は、図10に示すように、ハンドル部材101の左右方向中央に配置されている。
Therefore, the handle member 101 can receive a force reliably when the operator grips and operates the grip portion 102.
(11) In the developing cartridge 7A, the grip portion 102 is disposed at the center in the left-right direction of the handle member 101 as shown in FIG.
 そのため、操作者は、容易に把持部102を把持することができる。
(12)この現像カートリッジ7Aでは、現像電極65は、金属である。
Therefore, the operator can easily grip the grip portion 102.
(12) In the developing cartridge 7A, the developing electrode 65 is a metal.
 そのため、現像電極65の剛性を容易に確保することができる。
(13)この現像カートリッジ7Aでは、現像電極65の径方向長さは、例えば、0.01~3mmである。
Therefore, the rigidity of the developing electrode 65 can be easily ensured.
(13) In the developing cartridge 7A, the radial length of the developing electrode 65 is, for example, 0.01 to 3 mm.
 そのため、現像電極65を細く構成することができ、ひいては、現像カートリッジ7Aの小型化を図ることができる。
(14)この現像カートリッジ7Aでは、図3に示すように、現像電極65を内方位置に位置させたときに、現像電極65を給電側カラー77よりも内方に位置させることができる。
Therefore, the developing electrode 65 can be configured to be thin, and the size of the developing cartridge 7A can be reduced.
(14) In this developing cartridge 7A, as shown in FIG. 3, when the developing electrode 65 is positioned in the inward position, the developing electrode 65 can be positioned inward of the power supply side collar 77.
 その結果、現像電極65が外部の構成に干渉することを抑制できる。
(15)第1実施形態の変形例
 上記した第1実施形態では、付勢部材の一例としての圧縮ばね64としていたが、本発明はこれ限定されるものではない。たとえば、板ばね、引きばね、ゴムなどの弾性を有するものであってもよい。
As a result, it is possible to suppress the development electrode 65 from interfering with an external configuration.
(15) Modification of First Embodiment In the first embodiment described above, the compression spring 64 is an example of an urging member, but the present invention is not limited to this. For example, you may have elasticity, such as a leaf | plate spring, a tension spring, and rubber | gum.
 上記した第1実施形態では、付勢部材の一例としての圧縮ばね64は、現像電極65を外方位置に向けて常に付勢していたが、本発明はこれに限定されるものではない。たとえば、圧縮ばね39のように、常に現像電極65を内方位置に向けて付勢する構成であってもよい。 In the first embodiment described above, the compression spring 64 as an example of the urging member always urges the developing electrode 65 toward the outward position, but the present invention is not limited to this. For example, as in the case of the compression spring 39, a configuration in which the developing electrode 65 is always urged toward the inward position may be employed.
 上記した第1実施形態では、規制部材104は、右リンク部103Bにのみ配置されていたが、左リンク部103Aにも配置してもよい。 In the first embodiment described above, the regulating member 104 is disposed only on the right link portion 103B, but may be disposed on the left link portion 103A.
 上記した第1実施形態では、力受け部の一例としてハンドル部材101としていたが、本発明はこれに限定されるものではない。たとえば、操作者がボタンスイッチのようなスイッチを押すことで、現像カップリング44が内方位置から外方位置または外方位置から内方位置に移動するような構成であってもよい。
7.第2実施形態
 図22~図24を参照して、本発明の現像カートリッジの第2実施形態を説明する。なお、第2実施形態において、上記した第1実施形態と同様の部材には、同じ符号を付し、その説明を省略する。
(1)第2実施形態の概要
 上記した第1実施形態では、ハンドル部材101が移動することにより、現像カップリング44が左直動カム38により移動するとともに、現像電極65が右直動カム68により移動する。
In the first embodiment described above, the handle member 101 is used as an example of the force receiving portion, but the present invention is not limited to this. For example, the developing coupling 44 may be moved from the inner position to the outer position or from the outer position to the inner position when the operator presses a switch such as a button switch.
7). Second Embodiment With reference to FIGS. 22 to 24, a second embodiment of the developing cartridge of the present invention will be described. Note that in the second embodiment, the same members as those in the first embodiment described above are denoted by the same reference numerals, and description thereof is omitted.
(1) Outline of Second Embodiment In the first embodiment described above, the development coupling 44 is moved by the left linear cam 38 and the developing electrode 65 is moved to the right linear cam 68 by the movement of the handle member 101. Move by.
 対して、第2実施形態では、図22Aおよび図22Bに示すように、現像電極65は、スライド部材133が移動することにより、右リンク機構131によって移動される。また、現像カップリング44は、図23Aおよび図23Bに示すように、別途、スライド部材135が移動することにより、左リンク機構132によって移動する。 On the other hand, in the second embodiment, as shown in FIGS. 22A and 22B, the developing electrode 65 is moved by the right link mechanism 131 as the slide member 133 moves. Further, as shown in FIGS. 23A and 23B, the development coupling 44 is moved by the left link mechanism 132 when the slide member 135 is separately moved.
 また、第2実施形態では、現像カップリング44は、現像電極65が右リンク機構131により移動した後に、左リンク機構132により移動される。
(2)第2実施形態の構成
 現像カートリッジ7Bは、右リンク機構131と、左リンク機構132とを備えている。
(2-1)右リンク機構
 右リンク機構131は、現像電極65を内方位置に位置させる第1位置(図22A参照)と、現像電極65を外方位置に位置させる第2位置(図22B参照)との間を移動するように構成されている。右リンク機構131は、図22Aに示すように、スライド部材133と、リンク部材134とを備えている。
In the second embodiment, the development coupling 44 is moved by the left link mechanism 132 after the development electrode 65 is moved by the right link mechanism 131.
(2) Configuration of Second Embodiment The developing cartridge 7B includes a right link mechanism 131 and a left link mechanism 132.
(2-1) Right Link Mechanism The right link mechanism 131 has a first position (see FIG. 22A) where the developing electrode 65 is positioned in the inward position and a second position (see FIG. 22B) where the developing electrode 65 is positioned in the outward position. Reference) is configured to move between. As shown in FIG. 22A, the right link mechanism 131 includes a slide member 133 and a link member 134.
 スライド部材133は、突起74の左端部の前方に配置されている。スライド部材133は、前後方向に長手の略平板形状を有している。スライド部材133は、フレーム21の右壁27Rに、前後方向にスライド可能に支持されている。スライド部材133は、操作部133Aを備えている。 The slide member 133 is disposed in front of the left end portion of the protrusion 74. The slide member 133 has a substantially flat plate shape that is long in the front-rear direction. The slide member 133 is supported on the right wall 27R of the frame 21 so as to be slidable in the front-rear direction. The slide member 133 includes an operation unit 133A.
 操作部133Aは、スライド部材133の前端部から右方へ延びている。操作部133Aは、略平板形状を有している。 The operation portion 133A extends rightward from the front end portion of the slide member 133. The operation unit 133A has a substantially flat plate shape.
 リンク部材134は、上リンク部材134Aと、下リンク部材134Bとを備えている。 The link member 134 includes an upper link member 134A and a lower link member 134B.
 上リンク部材134Aは、前後方向に長い略平板形状を有している。上リンク部材134Aの前端部は、スライド部材133の後端部の上端部に回動可能に連結している。上リンク部材134Aの後端部は、現像電極65の上方の接触部93に回動可能に連結している。 The upper link member 134A has a substantially flat plate shape that is long in the front-rear direction. The front end portion of the upper link member 134A is rotatably connected to the upper end portion of the rear end portion of the slide member 133. The rear end portion of the upper link member 134A is rotatably connected to the contact portion 93 above the developing electrode 65.
 下リンク部材134Bは、前後方向に長い略平板形状を有している。下リンク部材134Bの前端部は、スライド部材133の後端部の下端部に回動可能に連結している。下リンク部材134Bの後端部は、現像電極65の下方の接触部93に回動可能に連結している。なお、第2実施形態では、現像電極65の接触部93は、略円筒形状を有している。
(2-2)左リンク機構
 左リンク機構132は、現像カップリング44を内方位置に位置させる第3位置(図23A参照)と、現像カップリング44を外方位置に位置させる第4位置(図23B参照)との間を移動可能である。左リンク機構132は、図23Aおよび図24に示すように、軸受部材36と、支持部材137と、スライド部材と135と、リンク部材136と、連結部材138とを備えている。
The lower link member 134B has a substantially flat plate shape that is long in the front-rear direction. The front end portion of the lower link member 134B is rotatably connected to the lower end portion of the rear end portion of the slide member 133. A rear end portion of the lower link member 134B is rotatably connected to a contact portion 93 below the developing electrode 65. In the second embodiment, the contact portion 93 of the developing electrode 65 has a substantially cylindrical shape.
(2-2) Left Link Mechanism The left link mechanism 132 has a third position (see FIG. 23A) where the developing coupling 44 is positioned in the inward position and a fourth position (see FIG. 23A) where the developing coupling 44 is positioned in the outward position (see FIG. It can move between (refer FIG. 23B). As shown in FIGS. 23A and 24, the left link mechanism 132 includes a bearing member 36, a support member 137, a slide member 135, a link member 136, and a connecting member 138.
 軸受部材36は、1対のガイド部140を備えている。 The bearing member 36 includes a pair of guide portions 140.
 1対のガイド部140のそれぞれは、軸受部材36の下端部に配置されている。1対のガイド部140のそれぞれは、前後方向に互いに間隔を隔てて配置されている。その間隔は、後述する連結部材138の前後方向長さよりもわずかに長い。ガイド部140は、軸受部材36の左面から左方へ向かって延びている。1対のガイド部140のそれぞれは、略角柱形状を有している。 Each of the pair of guide portions 140 is disposed at the lower end portion of the bearing member 36. Each of the pair of guide portions 140 is arranged at a distance from each other in the front-rear direction. The interval is slightly longer than the length in the front-rear direction of the connecting member 138 described later. The guide part 140 extends from the left surface of the bearing member 36 toward the left. Each of the pair of guide portions 140 has a substantially prismatic shape.
 支持部材137は、現像カップリング44の右方に配置されている。支持部材137は、左右方向に延びる略円筒形状を有している。支持部材137の内径は、供給ローラ軸121の外径よりもわずかに大きい。支持部材137は、供給ローラ軸121の左端部に支持されている。支持部材137は、供給ローラ軸121に対して相対回転可能である。また、支持部材137は、突起139を備えている。 The support member 137 is disposed on the right side of the development coupling 44. The support member 137 has a substantially cylindrical shape extending in the left-right direction. The inner diameter of the support member 137 is slightly larger than the outer diameter of the supply roller shaft 121. The support member 137 is supported by the left end portion of the supply roller shaft 121. The support member 137 can rotate relative to the supply roller shaft 121. Further, the support member 137 includes a protrusion 139.
 突起139は、上方の突起139Aと、下方の突起139Bとを備えている。 The protrusion 139 includes an upper protrusion 139A and a lower protrusion 139B.
 上方の突起139Aは、支持部材137の上端部から上方へ向かって延びている。上方の突起139Aは、略円筒形状を有している。 The upper protrusion 139 </ b> A extends upward from the upper end of the support member 137. The upper protrusion 139A has a substantially cylindrical shape.
 下方の突起139Bは、支持部材137の下端部から下方へ向かって延びている。下方の突起139Bは、上方の突起139Aよりも長い上下方向長さを有する略円筒形状を有している。 The lower protrusion 139 </ b> B extends downward from the lower end of the support member 137. The lower protrusion 139B has a substantially cylindrical shape having a longer vertical length than the upper protrusion 139A.
 スライド部材135は、供給ローラ軸121の前方に配置されている。スライド部材135は、前後方向に長手の略平板形状を有している。スライド部材135は、フレーム21の左壁27Lに、前後方向にスライド可能に支持されている。スライド部材135は、操作部135Aを備えている。 The slide member 135 is disposed in front of the supply roller shaft 121. The slide member 135 has a substantially flat plate shape that is long in the front-rear direction. The slide member 135 is supported on the left wall 27L of the frame 21 so as to be slidable in the front-rear direction. The slide member 135 includes an operation unit 135A.
 操作部135Aは、スライド部材135の前端部から左方へ延びている。操作部135Aは、略平板形状を有している。 The operation unit 135A extends from the front end of the slide member 135 to the left. The operation unit 135A has a substantially flat plate shape.
 リンク部材136は、上方リンク部材136Aと、下方リンク部材136Bとを備えている。 The link member 136 includes an upper link member 136A and a lower link member 136B.
 上方リンク部材136Aは、前後方向に長手の略平板形状である。上方リンク部材136Aの前端部は、スライド部材135の後端部の上端部に回動可能に連結している。上方リンク部材136Aの後端部は、支持部材137の上方の突起139Aに回動可能に連結している。 The upper link member 136A has a substantially flat plate shape that is long in the front-rear direction. The front end portion of the upper link member 136A is rotatably connected to the upper end portion of the rear end portion of the slide member 135. The rear end portion of the upper link member 136A is rotatably connected to a protrusion 139A above the support member 137.
 下方リンク部材136Bは、前後方向に長手の略平板形状である。下方リンク部材136Bの前端部は、スライド部材135の後端部の下端部に回動可能に連結している。下方リンク部材136Bの後端部は、支持部材137の下方の突起139Bに回動可能に連結している。 The lower link member 136B has a substantially flat plate shape that is long in the front-rear direction. The front end portion of the lower link member 136B is rotatably connected to the lower end portion of the rear end portion of the slide member 135. A rear end portion of the lower link member 136B is rotatably connected to a protrusion 139B below the support member 137.
 連結部材138は、現像カップリング44および支持部材137の下方に配置されている。連結部材138は、本体部138Aと、係合部138Bとを備えている。 The connecting member 138 is disposed below the development coupling 44 and the support member 137. The connecting member 138 includes a main body portion 138A and an engaging portion 138B.
 本体部138Aは、左右方向に延びる略平板形状を有している。本体部138Aの右端部は、下方リンク部材136Bの下方において、支持部材137の下方の突起139Bに回動可能に連結している。また、本体部138Aは、1対のガイド部140の間に、上下方向にスライド可能に配置されている。 The main body 138A has a substantially flat plate shape extending in the left-right direction. The right end of the main body 138A is rotatably connected to a protrusion 139B below the support member 137 below the lower link member 136B. The main body 138A is disposed between the pair of guides 140 so as to be slidable in the vertical direction.
 係合部138Bは、本体部138Aの左端部から上方へ突出している。係合部138Bは、前後方向に延びている。係合部138Bは、現像カップリング44のギア部46の左方に配置されている。
(3)現像カップリングおよび現像電極の進出または退避 次に、現像カップリング44および現像電極65の内方位置から外方位置への移動について説明する。
The engaging portion 138B protrudes upward from the left end portion of the main body portion 138A. The engaging portion 138B extends in the front-rear direction. The engaging portion 138 </ b> B is disposed on the left side of the gear portion 46 of the developing coupling 44.
(3) Advance or Retreat of Development Coupling and Development Electrode Next, the movement of the development coupling 44 and the development electrode 65 from the inward position to the outward position will be described.
 まず、スライド部材133の操作部133Aは、現像カートリッジ7Bの外部から力を受ける。 First, the operation unit 133A of the slide member 133 receives a force from the outside of the developing cartridge 7B.
 すると、図22Aおよび図22Bに示すように、スライド部材133は、突起74に向かって後方へ移動する。 Then, as shown in FIGS. 22A and 22B, the slide member 133 moves rearward toward the protrusion 74.
 すると、リンク部材134は、図22Bに示すように、その前端部を支点として、その後端部が右方へ移動するように回動する。その後、リンク部材134は、後方へ向かうにつれて右方へ傾斜するように位置する。 Then, as shown in FIG. 22B, the link member 134 rotates so that the rear end portion moves rightward with the front end portion as a fulcrum. Thereafter, the link member 134 is positioned so as to incline to the right as it goes rearward.
 現像電極65は、1対の溝76のそれぞれにガイドされながら右方へ移動し、外方位置に位置する。これにより、現像電極の内方位置から外方位置への移動が完了する。 The developing electrode 65 moves to the right while being guided by each of the pair of grooves 76 and is positioned at the outer position. Thereby, the movement of the developing electrode from the inner position to the outer position is completed.
 その後、スライド部材135の操作部135Aは、現像カートリッジ7Bの外部から力を受ける。 Thereafter, the operation unit 135A of the slide member 135 receives a force from the outside of the developing cartridge 7B.
 すると、図23Aおよび図23Bに示すように、スライド部材135は、供給ローラ軸121に向かって後方へ移動する。 Then, as shown in FIGS. 23A and 23B, the slide member 135 moves rearward toward the supply roller shaft 121.
 リンク部材136は、図23Bに示すように、その前端部を支点として、その後端部が左方へ移動するように回動する。その後、リンク部材136は、後方へ向かうにつれて左方へ傾斜するように位置する。 As shown in FIG. 23B, the link member 136 rotates so that its rear end moves leftward with its front end as a fulcrum. Thereafter, the link member 136 is positioned so as to incline to the left as it goes rearward.
 これにより、支持部材137および現像カップリング44は、供給ローラ軸121にガイドされながら一体的に左方へ移動する。すると、現像カップリング44は、外方位置に位置する。これにより、現像カップリング44の内方位置から外方位置への移動が完了する。 Thereby, the support member 137 and the developing coupling 44 are integrally moved to the left while being guided by the supply roller shaft 121. Then, the development coupling 44 is located at the outward position. Thereby, the movement of the developing coupling 44 from the inner position to the outer position is completed.
 次に、現像カップリング44および現像電極65の外方位置から内方位置への移動について説明をする。 Next, the movement of the development coupling 44 and the development electrode 65 from the outer position to the inner position will be described.
 まず、スライド部材133の操作部133Aは、現像カートリッジ7Bの外部から力を受ける。 First, the operation unit 133A of the slide member 133 receives a force from the outside of the developing cartridge 7B.
 すると、スライド部材133は、図22Aおよび図22Bに示すように、突起74から離れるように前方へ移動する。 Then, the slide member 133 moves forward away from the protrusion 74 as shown in FIGS. 22A and 22B.
 リンク部材134は、図22Aに示すように、その前端部を支点として、その後端部が左方へ移動するように回動する。その後、リンク部材134は、前後方向に沿うように傾倒する。 As shown in FIG. 22A, the link member 134 rotates so that its rear end moves leftward with its front end as a fulcrum. Thereafter, the link member 134 tilts along the front-rear direction.
 これにより、現像電極65は、1対の溝76のそれぞれにガイドされながら左方へ移動し、内方位置に位置する。これにより、現像電極65の外方位置から内方位置への移動が完了する。 Thereby, the developing electrode 65 moves to the left while being guided by each of the pair of grooves 76, and is located at the inward position. Thereby, the movement of the developing electrode 65 from the outer position to the inner position is completed.
 スライド部材135の操作部135Aは、現像カートリッジ7Bの外部から力を受ける。 The operation unit 135A of the slide member 135 receives a force from the outside of the developing cartridge 7B.
 すると、スライド部材135は、図23Aおよび図23Bに示すように、供給ローラ軸121から離れるように前方へ移動する。 Then, the slide member 135 moves forward away from the supply roller shaft 121 as shown in FIGS. 23A and 23B.
 すると、リンク部材136は、図23Aに示すように、その前端部を支点として、その後端部が右方へ移動するように回動する。リンク部材136は、前後方向に沿うように傾倒する。 Then, as shown in FIG. 23A, the link member 136 rotates so that its rear end portion moves rightward with its front end portion as a fulcrum. The link member 136 tilts along the front-rear direction.
 支持部材137および現像カップリング44は、供給ローラ軸121にガイドされながら一体的に右方へ移動する。すると、現像カップリング44は、内方位置に位置する。これにより、現像カップリング44の外方位置から内方位置への移動が完了する。 The support member 137 and the developing coupling 44 move integrally to the right while being guided by the supply roller shaft 121. Then, the development coupling 44 is located at the inward position. Thereby, the movement of the developing coupling 44 from the outer position to the inner position is completed.
 なお、上記の第2実施形態の説明では、現像カップリング44は、現像電極65が内方位置から外方位置または外方位置から内方位置に移動した後に、内方位置から外方位置または外方位置から内方位置に移動していたが、本発明はこれに限定されるものではない。たとえば、現像カップリング44は、現像電極65が移動する前に移動してもよい。
(4)請求の範囲との対応
 第2実施形態において、右リンク機構131は、移動機構の一例である。リンク部材134は、移動部材の一例である。スライド部材133の操作部133Aは、力受け部の一例である。
(5)第2実施形態の作用効果
(5-1)第2実施形態によれば、図22Aおよび図22Bに示すように、簡易な右リンク機構131で、現像電極65を内方位置または外方位置に移動させることができる。
(5-2)第2実施形態においても、上記した第1実施形態と同様の作用効果を得ることができる。
8.第3実施形態
 図25~図30を参照して、本発明の現像カートリッジの第3実施形態を説明する。なお、第3実施形態において、上記した第1実施形態と同様の部材には、同じ符号を付し、その説明を省略する。
(1)第3実施形態の概要
 上記した第1実施形態では、供給ギア72は、フレーム21の右壁27Rの右方に配置されている。そして、現像カップリング44が受けた駆動力は、現像ギア45、現像ローラ軸111、第1アイドルギア70および第2アイドルギア71を順次介して、供給ギア72に伝達されている。
In the above description of the second embodiment, the development coupling 44 is moved from the inner position to the outer position after the development electrode 65 moves from the inner position to the outer position or from the outer position to the inner position. Although it moved from the outward position to the inward position, the present invention is not limited to this. For example, the development coupling 44 may move before the development electrode 65 moves.
(4) Correspondence with Claims In the second embodiment, the right link mechanism 131 is an example of a moving mechanism. The link member 134 is an example of a moving member. The operation unit 133A of the slide member 133 is an example of a force receiving unit.
(5) Effects of Second Embodiment (5-1) According to the second embodiment, as shown in FIGS. 22A and 22B, the developing electrode 65 is moved to the inward position or the outer position by a simple right link mechanism 131. It can be moved to one position.
(5-2) Also in the second embodiment, it is possible to obtain the same effects as those in the first embodiment.
8). Third Embodiment A third embodiment of the developing cartridge of the present invention will be described with reference to FIGS. Note that in the third embodiment, members similar to those in the first embodiment described above are denoted by the same reference numerals, and descriptions thereof are omitted.
(1) Overview of Third Embodiment In the first embodiment described above, the supply gear 72 is disposed on the right side of the right wall 27 </ b> R of the frame 21. The driving force received by the development coupling 44 is transmitted to the supply gear 72 via the development gear 45, the development roller shaft 111, the first idle gear 70, and the second idle gear 71 in this order.
 対して、第3実施形態では、図25および図26に示すように、供給ギア159は、フレーム21の左壁27Lの左方に配置される。そして、現像カップリング156が受けた駆動力は、現像ギア157およびアイドルギア158を順次介して、供給ギア159に伝達される。
(2)第3実施形態の構成
 現像カートリッジ7Cは、駆動部151を備えている。
(2-1)駆動部
 駆動部151は、図25および図26に示すように、軸受部材152と、ギア列153と、左連動機構154とを備えている。
(2-2)軸受部材
 軸受部材152は、第1実施形態の軸受部材36と異なり、ガイドリブ43を有さず、突起155を備えている。
On the other hand, in the third embodiment, the supply gear 159 is arranged on the left side of the left wall 27L of the frame 21 as shown in FIGS. The driving force received by the development coupling 156 is transmitted to the supply gear 159 via the development gear 157 and the idle gear 158 in order.
(2) Configuration of Third Embodiment The developing cartridge 7 </ b> C includes a drive unit 151.
(2-1) Drive Unit As shown in FIGS. 25 and 26, the drive unit 151 includes a bearing member 152, a gear train 153, and a left interlocking mechanism 154.
(2-2) Bearing Member Unlike the bearing member 36 of the first embodiment, the bearing member 152 does not have the guide rib 43 and includes a protrusion 155.
 突起155は、軸受部材152の前後方向略中央かつ上下方向略中央に配置されている。突起155は、軸受部材152の左面から左方へ向かって延びている。突起155は、後述するアイドルギア158を支持するように構成される。突起155は、略円柱形状を有している。
(2-3)ギア列
 ギア列153は、現像ギア157と、アイドルギア158と、供給ギア159と、支持部材169と、現像カップリング156とを備えている。
(2-3-1)現像ギア
 現像ギア157は、第1実施形態の現像ギア45よりも左右方向に長手の略円柱形状を有している。
(2-3-2)アイドルギア
 アイドルギア158は、左右方向に厚みを有する略円板形状を有し、その周面すべてにわたってギア歯を備えている。アイドルギア158は、その径方向中央において、側面視略円形状の貫通穴158Aを有している。
The protrusion 155 is disposed at approximately the center in the front-rear direction and approximately at the center in the up-down direction of the bearing member 152. The protrusion 155 extends from the left surface of the bearing member 152 toward the left. The protrusion 155 is configured to support an idle gear 158 described later. The protrusion 155 has a substantially cylindrical shape.
(2-3) Gear Train The gear train 153 includes a developing gear 157, an idle gear 158, a supply gear 159, a support member 169, and a developing coupling 156.
(2-3-1) Development Gear The development gear 157 has a substantially cylindrical shape that is longer in the left-right direction than the development gear 45 of the first embodiment.
(2-3-2) Idle Gear The idle gear 158 has a substantially disc shape having a thickness in the left-right direction, and has gear teeth over the entire peripheral surface thereof. The idle gear 158 has a through hole 158A having a substantially circular shape in a side view at the radial center.
 アイドルギア158は、軸受部材152の突起155が貫通穴158Aにはまることで突起155に支持されている。アイドルギア158は、突起155に対して相対回転可能である。アイドルギア158は、現像ギア157の右端部と噛合している。
(2-3-3)供給ギア
 供給ギア159は、左右方向に厚みを有する略円板形状を有し、その周面すべてにわたってギア歯を備えている。供給ギア159は、その径方向中央において、側面視略D字形状の貫通穴159Aを有している。
The idle gear 158 is supported by the protrusion 155 by the protrusion 155 of the bearing member 152 being fitted in the through hole 158A. The idle gear 158 can rotate relative to the protrusion 155. The idle gear 158 meshes with the right end portion of the developing gear 157.
(2-3-3) Supply Gear The supply gear 159 has a substantially disc shape having a thickness in the left-right direction, and has gear teeth over the entire peripheral surface thereof. The supply gear 159 has a substantially D-shaped through hole 159A in a side view in the radial direction.
 供給ギア159は、供給ローラ軸121の左方の支持部121Aが供給ギア159の貫通穴159Aにはまることで、支持部121Aに支持されている。供給ギア159は、供給ローラ軸121に対して相対回転不能であり、供給ローラ軸121とともに回転可能である。供給ギア159は、アイドルギア158と噛合している。
(2-3-4)支持部材
 支持部材169は、図26および図29に示すように、供給ギア159の左方に配置されている。支持部材169は、側面視略矩形の平板形状を有している。支持部材169は、ねじ187によりフレーム21の左壁27Lに固定されている。支持部材169は、供給ギア159の右方に配置されている。支持部材169は、突起171と、穴170とを有している。
The supply gear 159 is supported by the support portion 121 </ b> A by the left support portion 121 </ b> A of the supply roller shaft 121 being fitted in the through hole 159 </ b> A of the supply gear 159. The supply gear 159 cannot rotate relative to the supply roller shaft 121 and can rotate with the supply roller shaft 121. Supply gear 159 meshes with idle gear 158.
(2-3-4) Support Member The support member 169 is arranged on the left side of the supply gear 159 as shown in FIGS. The support member 169 has a flat plate shape that is substantially rectangular in a side view. The support member 169 is fixed to the left wall 27 </ b> L of the frame 21 with a screw 187. The support member 169 is disposed on the right side of the supply gear 159. The support member 169 has a protrusion 171 and a hole 170.
 突起171は、支持部材169の後下方に配置されている。突起171は、支持部材169の左面から左方へ突出している。突起171は、略円柱形状を有している。突起171は、突起171に対して現像カップリング156が相対回転するように、構成されている。 The protrusion 171 is disposed below the support member 169. The protrusion 171 protrudes leftward from the left surface of the support member 169. The protrusion 171 has a substantially cylindrical shape. The protrusion 171 is configured such that the development coupling 156 rotates relative to the protrusion 171.
 穴170は、支持部材169の右面から左方へ凹む凹部である。穴170の形状は、側面視略円形状である。穴170の中心は、突起171の中心軸線と一致している。言い換えると、穴170の中心は、供給ローラ軸121の中心軸線A2と一致している。
(2-3-5)現像カップリング
 現像カップリング156の回転中心Cは、供給ローラ軸121の中心軸線A2と一致している。現像カップリング156は、ギア部材160と、カップリング部材161と、圧縮ばね162とを備えている。
The hole 170 is a recess that is recessed leftward from the right surface of the support member 169. The shape of the hole 170 is substantially circular when viewed from the side. The center of the hole 170 coincides with the central axis of the protrusion 171. In other words, the center of the hole 170 coincides with the central axis A <b> 2 of the supply roller shaft 121.
(2-3-5) Development Coupling The rotation center C of the development coupling 156 coincides with the central axis A2 of the supply roller shaft 121. The development coupling 156 includes a gear member 160, a coupling member 161, and a compression spring 162.
 ギア部材160は、図29に示すように、左右方向に移動しないように突起171に支持されている。 The gear member 160 is supported by the protrusion 171 so as not to move in the left-right direction, as shown in FIG.
 ギア部材160は、現像カップリング156の右端部に配置されている。ギア部材160は、現像ギア157の左端部と噛合している。ギア部材160は、ギア部163と、係合部164とを備えている。
(2-3-5-1)ギア部
 ギア部163は、右端部が閉鎖された略円筒形状を有し、その周面すべてにわたってギア歯を備えている。ギア部163は、穴165を有している。
The gear member 160 is disposed at the right end portion of the development coupling 156. The gear member 160 meshes with the left end portion of the developing gear 157. The gear member 160 includes a gear part 163 and an engaging part 164.
(2-3-5-1) Gear portion The gear portion 163 has a substantially cylindrical shape with the right end portion closed, and has gear teeth over the entire peripheral surface thereof. The gear portion 163 has a hole 165.
 穴165は、ギア部163の右壁の径方向中央に配置されている。穴165は、ギア部163の右壁を左右方向に貫通している。穴165は、側面視略円形状を有している。穴165の直径は、突起171の外径よりもわずかに大きい。
(2-3-5-2)係合部
 係合部164は、穴165の周縁部から左方へ延びている。係合部164は、左端部が閉鎖された略円筒形状を有している。係合部164の内径は、穴165と同じである。係合部164の外径は、ギア部163の内径よりも小さい。係合部164の周壁は、ギア部163の径方向において、ギア部163の周壁と間隔を隔てて配置されている。係合部164は、1対の突起166を備えている。
The hole 165 is disposed at the center in the radial direction of the right wall of the gear portion 163. The hole 165 penetrates the right wall of the gear part 163 in the left-right direction. The hole 165 has a substantially circular shape in side view. The diameter of the hole 165 is slightly larger than the outer diameter of the protrusion 171.
(2-3-5-2) Engaging portion The engaging portion 164 extends leftward from the peripheral edge of the hole 165. The engaging portion 164 has a substantially cylindrical shape with the left end portion closed. The inner diameter of the engaging portion 164 is the same as that of the hole 165. The outer diameter of the engaging portion 164 is smaller than the inner diameter of the gear portion 163. The peripheral wall of the engaging part 164 is arranged at a distance from the peripheral wall of the gear part 163 in the radial direction of the gear part 163. The engaging portion 164 includes a pair of protrusions 166.
 1対の突起166は、係合部164の左端部に配置されている。1対の突起166のそれぞれは、係合部164の周方向において、互いに180°の間隔を隔てて配置されている。1対の突起166のそれぞれは、係合部164の周面から径方向外方へ向かって延びている。1対の突起166のそれぞれは、略円柱形状を有している。
(2-3-6)カップリング部材
 カップリング部材161は、内方位置(図25参照)と、外方位置(図28参照)との間を、左右方向に沿って移動するように構成されている。より具体的には、カップリング部材161は、図26および図29に示すように、ギア部材160に対して、相対回転不能、かつ、左右方向にスライド可能に支持されている。
The pair of protrusions 166 is disposed at the left end portion of the engaging portion 164. Each of the pair of protrusions 166 is arranged at an interval of 180 ° from each other in the circumferential direction of the engaging portion 164. Each of the pair of protrusions 166 extends radially outward from the peripheral surface of the engaging portion 164. Each of the pair of protrusions 166 has a substantially cylindrical shape.
(2-3-6) Coupling member The coupling member 161 is configured to move in the left-right direction between an inward position (see FIG. 25) and an outward position (see FIG. 28). ing. More specifically, as shown in FIGS. 26 and 29, the coupling member 161 is supported so as not to rotate relative to the gear member 160 and to be slidable in the left-right direction.
 カップリング部材161は、現像カップリング156の左端部に配置されている。カップリング部材161は、左右方向に延び、左端部が閉鎖された略円筒形状を有している。カップリング部材161は、1対の係合部167と、鍔部168とを備えている。 The coupling member 161 is disposed at the left end portion of the development coupling 156. The coupling member 161 has a substantially cylindrical shape extending in the left-right direction and closed at the left end. The coupling member 161 includes a pair of engaging portions 167 and a flange portion 168.
 1対の係合部167のそれぞれは、カップリング部材161の右端部から右方へ向かって延びている。1対の係合部167のそれぞれは、カップリング部材161の周方向において、互いに180°の間隔を隔てて配置されている。1対の係合部167のそれぞれは、略角柱形状を有している。1対の係合部167のそれぞれは、係合部167の右端縁167Aから左方へ凹むように、図示しない凹溝を有している。1対の係合部167のそれぞれは、突起166を受け入れるように構成されている。 Each of the pair of engaging portions 167 extends from the right end portion of the coupling member 161 toward the right. Each of the pair of engaging portions 167 is arranged at an interval of 180 ° from each other in the circumferential direction of the coupling member 161. Each of the pair of engaging portions 167 has a substantially prismatic shape. Each of the pair of engaging portions 167 has a concave groove (not shown) so as to be recessed leftward from the right end edge 167A of the engaging portion 167. Each of the pair of engaging portions 167 is configured to receive the protrusion 166.
 鍔部168は、カップリング部材161の右端部の外周面に配置されている。鍔部168は、カップリング部材161の径方向に突出し、カップリング部材161の周方向に延びている。
(2-3-7)圧縮ばね
 圧縮ばね162は、左右方向に延びるコイルばねである。圧縮ばね162の左端部は、鍔部168の右面に当接している。圧縮ばね162の右端部は、ギア部材160の右壁の左面に当接している。これにより、圧縮ばね162は、カップリング部材161を常に左方へ向かって付勢している。
(2-4)左連動機構
 左連動機構154は、図26および図28に示すように、スライド部材172と、カム部材173とを備えている。
(2-4-1)スライド部材
 スライド部材172は、フレーム21の前端部の左方に配置されている。スライド部材172は、図26および図27に示すように、側面視略矩形の平板形状を有している。スライド部材172は、接触部175と、連結部174とを備えている。
The flange portion 168 is disposed on the outer peripheral surface of the right end portion of the coupling member 161. The flange portion 168 protrudes in the radial direction of the coupling member 161 and extends in the circumferential direction of the coupling member 161.
(2-3-7) Compression Spring The compression spring 162 is a coil spring extending in the left-right direction. The left end portion of the compression spring 162 is in contact with the right surface of the flange portion 168. The right end portion of the compression spring 162 is in contact with the left surface of the right wall of the gear member 160. Thereby, the compression spring 162 always urges the coupling member 161 toward the left.
(2-4) Left interlocking mechanism The left interlocking mechanism 154 includes a slide member 172 and a cam member 173 as shown in FIGS.
(2-4-1) Slide Member The slide member 172 is disposed on the left side of the front end portion of the frame 21. As shown in FIGS. 26 and 27, the slide member 172 has a flat plate shape that is substantially rectangular in a side view. The slide member 172 includes a contact part 175 and a connecting part 174.
 接触部175は、スライド部材172の前端部に配置されている。接触部175は、側面視略矩形状を有している。接触部175は、穴176と、突起177とを有している。 The contact portion 175 is disposed at the front end portion of the slide member 172. The contact part 175 has a substantially rectangular shape in side view. The contact portion 175 has a hole 176 and a protrusion 177.
 穴176は、接触部175の前後方向略中央に配置されている。穴176は、上下方向に延びる側面視略矩形状を有している。穴176は、ハンドル部材101の突起105を貫通させるように構成されている。これにより、スライド部材172は、ハンドル部材101と連動可能である。 The hole 176 is disposed at the approximate center of the contact portion 175 in the front-rear direction. The hole 176 has a substantially rectangular shape in side view extending in the vertical direction. The hole 176 is configured to penetrate the protrusion 105 of the handle member 101. Thereby, the slide member 172 can be interlocked with the handle member 101.
 突起177は、穴176の後方内周面の上端部に配置されている。突起177は、穴176の後方内周面から前方へ突出している。突起177は、側面視略半円形状を有している。 The protrusion 177 is arranged at the upper end of the rear inner peripheral surface of the hole 176. The protrusion 177 protrudes forward from the rear inner peripheral surface of the hole 176. The protrusion 177 has a substantially semicircular shape when viewed from the side.
 連結部174は、接触部175の後端部の上端部から連続して後方へ延びている。連結部174は、前後方向に長い側面視略矩形状を有している。連結部174は、傾斜穴178を有している。 The connecting portion 174 continuously extends rearward from the upper end portion of the rear end portion of the contact portion 175. The connecting portion 174 has a substantially rectangular shape in side view that is long in the front-rear direction. The connecting portion 174 has an inclined hole 178.
 傾斜穴178は、連結部174の後端部に配置されている。傾斜穴178は、連結部174を左右方向に貫通している。傾斜穴178は、後下方と前上方とを結ぶ方向に延びる長穴である。
(2-4-2)カム部材
 カム部材173は、スライド部材172の後方に配置されている。カム部材173は、スライド部材172と連動するように構成されている。カム部材173は、フレーム21に対して揺動可能となるように、フレーム21の突起186に支持されている。カム部材173は、カップリング部材161を右方へ押圧する押圧位置(図25参照)と、カップリング部材161に対する右方への押圧を解除する押圧解除位置(図28参照)との間を移動するように構成されている。カム部材173は、上下方向に延び、左右方向に厚手の側面視略扇形の平板形状を有している。カム部材173は、穴181と、接触部179と、連結部180とを備えている。
The inclined hole 178 is disposed at the rear end portion of the connecting portion 174. The inclined hole 178 penetrates the connecting portion 174 in the left-right direction. The inclined hole 178 is a long hole extending in a direction connecting the rear lower part and the front upper part.
(2-4-2) Cam Member The cam member 173 is disposed behind the slide member 172. The cam member 173 is configured to interlock with the slide member 172. The cam member 173 is supported by the protrusion 186 of the frame 21 so as to be swingable with respect to the frame 21. The cam member 173 moves between a pressing position for pressing the coupling member 161 to the right (see FIG. 25) and a pressing release position for releasing the rightward pressing on the coupling member 161 (see FIG. 28). Is configured to do. The cam member 173 has a flat plate shape that extends in the up-down direction and has a substantially fan-shaped side view in the left-right direction. The cam member 173 includes a hole 181, a contact portion 179, and a connecting portion 180.
 穴181は、カム部材173の上端部に配置されている。穴181は、カム部材173を左右方向に貫通している。穴181は、側面視略円形状を有している。穴181は、フレーム21の突起186が相対回転可能にはまるように構成されている。 The hole 181 is disposed at the upper end of the cam member 173. The hole 181 passes through the cam member 173 in the left-right direction. The hole 181 has a substantially circular shape in side view. The hole 181 is configured so that the protrusion 186 of the frame 21 can be relatively rotated.
 接触部179は、カム部材173の下端部に配置されている。接触部179は、溝182と、変位部183と、保持部184とを備えている。 The contact portion 179 is disposed at the lower end portion of the cam member 173. The contact part 179 includes a groove 182, a displacement part 183, and a holding part 184.
 溝182は、カム部材173の後端部から前下方へ向かって切り欠かれている。溝182は、穴181の中心を中心とする略円弧形状を有している。溝182の溝幅は、カップリング部材161の外径よりもわずかに広く、かつ、鍔部168の外径よりもわずかに狭い。 The groove 182 is cut away from the rear end portion of the cam member 173 toward the front lower side. The groove 182 has a substantially arc shape with the center of the hole 181 as the center. The groove width of the groove 182 is slightly wider than the outer diameter of the coupling member 161 and slightly smaller than the outer diameter of the flange portion 168.
 変位部183は、溝182の前後方向途中の周縁部から右方へ延びている。変位部183の右面は、後方から前方へ向かうにつれて右方へ傾斜している。言い換えると、変位部183の突出長さは、後方から前方へ向かうにつれて次第に長くなっている。 The displacement part 183 extends to the right from the peripheral part in the middle of the groove 182 in the front-rear direction. The right surface of the displacement portion 183 is inclined rightward from the rear toward the front. In other words, the projecting length of the displacement portion 183 gradually increases from the rear toward the front.
 保持部184は、変位部183の前方に連続している。保持部184の右面は、変位部183の右面の前端部に連続して、前方に延びている。 The holding part 184 is continuous in front of the displacement part 183. The right surface of the holding portion 184 is continuous with the front end portion of the right surface of the displacement portion 183 and extends forward.
 連結部180は、カム部材173の上端部から前方へ向かって延びている。連結部180は、略角柱形状を有している。連結部180は、突起185を備えている。 The connecting portion 180 extends forward from the upper end portion of the cam member 173. The connecting part 180 has a substantially prismatic shape. The connecting portion 180 includes a protrusion 185.
 突起185は、連結部180の前方に配置されている。突起185は、連結部180の左面から左方へ延びている。突起185は、略円柱形状を有している。突起185は、スライド部材172の傾斜穴178内に摺動可能に係合している。
(3)カップリング部材の進出または退避
 次に、図27および図28を用いて、カップリング部材161の内方位置から外方位置への移動について説明する。
The protrusion 185 is disposed in front of the connecting portion 180. The protrusion 185 extends leftward from the left surface of the connecting portion 180. The protrusion 185 has a substantially cylindrical shape. The protrusion 185 is slidably engaged in the inclined hole 178 of the slide member 172.
(3) Advance or Retreat of Coupling Member Next, the movement of the coupling member 161 from the inward position to the outward position will be described with reference to FIGS. 27 and 28.
 カップリング部材161が内方位置から外方位置に移動されるときには、上記した第1実施形態と同様に、図27に示すように、ハンドル部材101が延出位置(図27A参照)から傾倒位置(図27B参照)へ移動する。 When the coupling member 161 is moved from the inward position to the outward position, the handle member 101 is tilted from the extended position (see FIG. 27A) as shown in FIG. 27, as in the first embodiment described above. (See FIG. 27B).
 すると、ハンドル部材101の突起105Aは、ハンドル部材101の後端部を支点として左側面視時計回り方向に移動しながら、穴176の後方内周面を後方へ押圧する。 Then, the protrusion 105A of the handle member 101 presses the rear inner peripheral surface of the hole 176 rearward while moving in the clockwise direction in the left side view with the rear end portion of the handle member 101 as a fulcrum.
 これにより、スライド部材172は、後方へ移動する。すると、カム部材173の突起185は、傾斜穴178の傾斜に沿って、上方へ移動する。その後、カム部材173の突起185は、スライド部材172の傾斜穴178の前端に位置する。 Thereby, the slide member 172 moves backward. Then, the protrusion 185 of the cam member 173 moves upward along the inclination of the inclined hole 178. Thereafter, the protrusion 185 of the cam member 173 is positioned at the front end of the inclined hole 178 of the slide member 172.
 これにより、カム部材173は、その上端部を支点として、左側面視反時計回りに揺動する。すると、カップリング部材161は、カム部材173の変位部183の傾斜に沿って、圧縮ばね162の付勢力により、左方へ移動する。その後、カム部材173の変位部183は、カップリング部材161の鍔部168との当接が解除される。 Thereby, the cam member 173 swings counterclockwise as viewed from the left side with the upper end portion as a fulcrum. Then, the coupling member 161 moves to the left by the urging force of the compression spring 162 along the inclination of the displacement portion 183 of the cam member 173. Thereafter, the displacement portion 183 of the cam member 173 is released from contact with the flange portion 168 of the coupling member 161.
 そして、ハンドル部材101は、図27Bに示すように、突起105Aが突起177を乗り越えて突起177よりも上方に配置されると、傾倒位置に位置する。 Then, as shown in FIG. 27B, the handle member 101 is positioned in the tilted position when the projection 105A gets over the projection 177 and is disposed above the projection 177.
 すると、カム部材173は、押圧解除位置に位置し、カップリング部材161は、圧縮ばね162の付勢力により外方位置に位置する。これにより、カップリング部材161の内方位置から外方位置への移動が完了する。 Then, the cam member 173 is located at the pressing release position, and the coupling member 161 is located at the outward position by the urging force of the compression spring 162. Thereby, the movement of the coupling member 161 from the inner position to the outer position is completed.
 次に、カップリング部材161の外方位置から内方位置への移動について説明する。 Next, the movement of the coupling member 161 from the outer position to the inner position will be described.
 まず、上記した第1実施形態と同様に、図27に示すように、ハンドル部材101は、傾倒位置(図27B参照)から延出位置(図27A参照)へ移動する。 First, as in the first embodiment described above, as shown in FIG. 27, the handle member 101 moves from the tilted position (see FIG. 27B) to the extended position (see FIG. 27A).
 すると、ハンドル部材101の突起105Aは、ハンドル部材101の後端部を支点として左側面視反時計回り方向に移動しながら、穴176の前方内周面を前方へ押圧する。 Then, the protrusion 105A of the handle member 101 presses the front inner peripheral surface of the hole 176 forward while moving counterclockwise as viewed from the left side with the rear end portion of the handle member 101 as a fulcrum.
 これにより、スライド部材172は、突起105Aに押圧されて、前方へ移動する。すると、カム部材173の突起185は、傾斜穴178の傾斜に沿って、下方へ移動する。 Thereby, the slide member 172 is pressed by the protrusion 105A and moves forward. Then, the protrusion 185 of the cam member 173 moves downward along the inclination of the inclined hole 178.
 これにより、カム部材173は、その上端部を支点として、左側面視時計回りに揺動する。すると、カップリング部材161は、カム部材173の変位部183と接触し、圧縮ばね162の付勢力に抗しながら変位部183の傾斜に沿って、右方へ移動する。 Thereby, the cam member 173 swings clockwise in the left side view with the upper end portion as a fulcrum. Then, the coupling member 161 comes into contact with the displacement portion 183 of the cam member 173, and moves to the right along the inclination of the displacement portion 183 while resisting the biasing force of the compression spring 162.
 そして、図27Aに示すように、ハンドル部材101が傾倒位置に位置すると、カム部材173は、押圧位置に位置し、カップリング部材161は、圧縮ばね162の付勢力に抗して内方位置に位置する。
(4)現像カートリッジの駆動
 次に、カップリング部材161が本体ケーシング2の駆動源から駆動力を受けたときの状態について説明する。
As shown in FIG. 27A, when the handle member 101 is in the tilted position, the cam member 173 is positioned in the pressing position, and the coupling member 161 is in the inward position against the urging force of the compression spring 162. To position.
(4) Driving of Developing Cartridge Next, a state when the coupling member 161 receives a driving force from the driving source of the main casing 2 will be described.
 カップリング部材161が駆動力を受けると、図28および図30に示すように、ギア部材160は、カップリング部材161とともに左側面視時計回りに回転する。すると、現像ギア157は、左側面視反時計回りに回転する。これにより、現像ローラ11は、左側面視反時計回りに回転する。 When the coupling member 161 receives the driving force, the gear member 160 rotates together with the coupling member 161 in the clockwise direction as shown in FIGS. 28 and 30. Then, the developing gear 157 rotates counterclockwise as viewed from the left side. As a result, the developing roller 11 rotates counterclockwise as viewed from the left side.
 また、現像ギア157が左側面視反時計回りに回転すると、アイドルギア158は、左側面視時計回りに回転し、供給ギア159は、左側面視反時計回りに回転する。これにより、供給ローラ12は、左側面視反時計回りに回転する。すなわち、供給ローラ12は、カップリング部材161と逆方向に回転する。
(5)請求の範囲との対応
 第3実施形態において、カップリング部材161は、カップリングの一例である。
(6)第3実施形態の作用効果
 第3実施形態においても、上記した第1実施形態と同様の作用効果を得ることができる。
(7)第3実施形態の変形例
 上記した第3実施形態では、現像カップリング156は、供給ギア159の左方に配置される支持部材169を介して、左壁27Lに支持されている。しかし、現像カップリング156を支持する形態は、特に限定されない。例えば、供給ローラ軸121の左端部は、図31に示すように、供給ローラ軸121に対して現像カップリング156を相対回転可能に支持する構成であってもよい。
When the developing gear 157 rotates counterclockwise when viewed from the left side, the idle gear 158 rotates clockwise when viewed from the left side, and the supply gear 159 rotates counterclockwise when viewed from the left side. Thereby, the supply roller 12 rotates counterclockwise as viewed from the left side. That is, the supply roller 12 rotates in the opposite direction to the coupling member 161.
(5) Correspondence with Claims In the third embodiment, the coupling member 161 is an example of a coupling.
(6) Effects of Third Embodiment Also in the third embodiment, the same functions and effects as those of the first embodiment described above can be obtained.
(7) Modification of Third Embodiment In the third embodiment described above, the development coupling 156 is supported by the left wall 27L via the support member 169 disposed on the left side of the supply gear 159. However, the form for supporting the development coupling 156 is not particularly limited. For example, as shown in FIG. 31, the left end portion of the supply roller shaft 121 may be configured to support the developing coupling 156 so as to be rotatable relative to the supply roller shaft 121.
 また、上記した第3実施形態では、供給ローラ12は、現像ギア157および1つのアイドルギア158によりカップリング部材151と逆方向に回転される構成であったが、たとえば、アイドルギアを3つ、5つなど奇数個配置してもよく、また、現像ギア157とギア部材160との間に、アイドルギアを2つ、4つなど偶数個配置してよい。このような構成においても、第3実施形態と同様の効果を得ることができる。
9.第4実施形態
 図32~図34を参照して、本発明の現像カートリッジの第4実施形態を説明する。なお、第4実施形態において、上記した第3実施形態と同様の部材には、同じ符号を付し、その説明を省略する。
(1)第4実施形態の概要
 上記した第3実施形態では、現像カップリング156に入力された駆動力は、現像ギア157およびアイドルギア158を介して供給ギア159に伝達される。
Further, in the third embodiment described above, the supply roller 12 is configured to rotate in the direction opposite to the coupling member 151 by the developing gear 157 and one idle gear 158, but for example, three idle gears, An odd number such as five may be arranged, and an even number such as two or four idle gears may be arranged between the developing gear 157 and the gear member 160. Even in such a configuration, the same effect as in the third embodiment can be obtained.
9. Fourth Embodiment With reference to FIGS. 32 to 34, a fourth embodiment of the developing cartridge of the present invention will be described. Note that in the fourth embodiment, members similar to those of the third embodiment described above are denoted by the same reference numerals, and descriptions thereof are omitted.
(1) Overview of Fourth Embodiment In the third embodiment described above, the driving force input to the development coupling 156 is transmitted to the supply gear 159 via the development gear 157 and the idle gear 158.
 対して、第4実施形態では、図32に示すように、現像カップリング156に入力された駆動力は、傘歯271Aを有するアイドルギア271を介して供給ギア159に伝達される。
(2)第4実施形態の構成
 現像カートリッジ7Dは、ギア列270を備えている。
(2-1)ギア列
 ギア列270は、図32、図33および図34に示すように、供給ギア273と、アイドルギア271と、支持部材274と、現像カップリング275とを備えている。
(2-1-1)供給ギア
 供給ギア273は、左右方向に厚みを有する略円板形状を有している。供給ギア273は、供給ローラ軸121に対して相対回転不能となるように、供給ローラ軸121の支持部121Aに支持されている。供給ギア273は、貫通穴273Aと、傘歯273Bとを有している。
On the other hand, in the fourth embodiment, as shown in FIG. 32, the driving force input to the development coupling 156 is transmitted to the supply gear 159 via the idle gear 271 having the bevel teeth 271A.
(2) Configuration of Fourth Embodiment The developing cartridge 7 </ b> D includes a gear train 270.
(2-1) Gear Train The gear train 270 includes a supply gear 273, an idle gear 271, a support member 274, and a development coupling 275 as shown in FIGS. 32, 33, and 34.
(2-1-1) Supply Gear The supply gear 273 has a substantially disk shape having a thickness in the left-right direction. The supply gear 273 is supported by the support portion 121 </ b> A of the supply roller shaft 121 so as not to rotate relative to the supply roller shaft 121. The supply gear 273 has a through hole 273A and a bevel tooth 273B.
 貫通穴273Aは、供給ギア273の径方向中央に配置されている。貫通穴273Aは、側面視略D字形状を有し、供給ギア273を左右方向に貫通している。貫通穴273Aは、供給ローラ軸121の支持部121Aがはまるように構成されている。 The through hole 273A is disposed at the radial center of the supply gear 273. The through hole 273A has a substantially D shape when viewed from the side, and penetrates the supply gear 273 in the left-right direction. The through hole 273A is configured so that the support portion 121A of the supply roller shaft 121 is fitted.
 傘歯273Bは、供給ギア273の左端部の周縁部すべてにわたって、左方へ向かうにつれて径方向内方に傾斜している。
(2-1-2)アイドルギア
 アイドルギア271は、前後方向に厚みを有する略円板形状を有している。アイドルギア271は、後端部の周縁部すべてにわたって、後方へ向かうにつれて径方向内方に傾斜する傘歯271Aを備えている。
The bevel tooth 273 </ b> B is inclined radially inward as it goes leftward over the entire peripheral edge of the left end portion of the supply gear 273.
(2-1-2) Idle Gear The idle gear 271 has a substantially disk shape having a thickness in the front-rear direction. The idle gear 271 includes bevel teeth 271A that incline radially inward toward the rear over the entire periphery of the rear end.
 アイドルギア271は、フレーム21の左面から左方へ突出する略角柱形状のアイドルギア支持部279の後面から後方へ延びる突起(図示せず)に回転可能に支持されている。アイドルギア271は、供給ギア273の前方と噛合している。
(2-1-3)支持部材
 支持部材274は、図33および図34に示すように、供給ギア273の左方に配置されている。支持部材274は、左右方向に延びる略円柱形状を有している。支持部材274は、穴278を有している。
The idle gear 271 is rotatably supported by a projection (not shown) extending rearward from the rear surface of the substantially prismatic idle gear support portion 279 protruding leftward from the left surface of the frame 21. The idle gear 271 meshes with the front of the supply gear 273.
(2-1-3) Support Member The support member 274 is disposed on the left side of the supply gear 273 as shown in FIGS. The support member 274 has a substantially cylindrical shape extending in the left-right direction. The support member 274 has a hole 278.
 穴278は、支持部材274の径方向中央に配置されている。穴278は、支持部材274の右面から左方へ凹む凹部である。穴278は、側面視略D字形状を有している。穴278は、供給ローラ軸121の支持部121Aがはまるように構成されている。
(2-1-4)現像カップリング
 現像カップリング275は、ギア部276に傘歯276Aが形成されている以外は、第3実施形態の現像カップリング156と同様に構成されている。なお、第4実施形態の現像カップリング275においても、上記した第3実施形態と同様の左連動機構154により、カップリング部材161は、内方位置と、図32に仮想線で示す外方位置との間を移動可能である。
The hole 278 is disposed at the radial center of the support member 274. The hole 278 is a recess that is recessed leftward from the right surface of the support member 274. The hole 278 has a substantially D shape when viewed from the side. The hole 278 is configured such that the support portion 121A of the supply roller shaft 121 is fitted.
(2-1-4) Development Coupling The development coupling 275 is configured in the same manner as the development coupling 156 of the third embodiment except that a bevel tooth 276A is formed on the gear portion 276. Also in the development coupling 275 of the fourth embodiment, the coupling member 161 is moved to the inward position and the outward position indicated by the phantom line in FIG. 32 by the same left interlocking mechanism 154 as in the third embodiment. It is possible to move between.
 ギア部276は、右端部の周縁部すべてにわたって、右方へ向かうにつれて径方向内方に傾斜する傘歯276Aと、その周面すべてにわたって平歯276Bとを備えている。ギア部276は、その傘歯276Aにおいて、アイドルギア271の上端部に前方から噛合するとともに、その平歯276Bにおいて、現像ギア157の前方と噛合している。
(3)現像カートリッジの駆動
 次に、カップリング部材161が本体ケーシング2の駆動源から駆動力を受けたときの状態について説明する。
The gear portion 276 includes a bevel tooth 276A that is inclined radially inward as it goes rightward over the entire peripheral edge portion of the right end portion, and a flat tooth 276B over the entire peripheral surface thereof. The gear portion 276 meshes with the upper end portion of the idle gear 271 from the front at the bevel teeth 276A, and meshes with the front of the developing gear 157 at the flat teeth 276B.
(3) Driving of Developing Cartridge Next, a state when the coupling member 161 receives a driving force from the driving source of the main casing 2 will be described.
 カップリング部材161が駆動力を受けると、図32に示すように、ギア部材160は、カップリング部材161とともに左側面視時計回りに回転する。すると、現像ギア157は、左側面視反時計回りに回転する。これにより、現像ローラ11は、左側面視反時計回りに回転する。 When the coupling member 161 receives the driving force, the gear member 160 rotates together with the coupling member 161 in the clockwise direction as shown in FIG. Then, the developing gear 157 rotates counterclockwise as viewed from the left side. As a result, the developing roller 11 rotates counterclockwise as viewed from the left side.
 また、ギア部材160が左側面視時計回りに回転すると、アイドルギア271は、後側面視時計回りに回転し、供給ギア159は、左側面視反時計回りに回転する。これにより、供給ローラ12は、左側面視反時計回りに回転する。すなわち、供給ローラ12は、カップリング部材161と逆方向に回転する。
(4)第4実施形態の作用効果
 第4実施形態においても、上記した第1実施形態と同様の作用効果を得ることができる。
10.第5実施形態
 図35~図41を参照して、本発明の現像カートリッジの第5実施形態を説明する。なお、第5実施形態において、上記した第1実施形態と同様の部材には、同じ符号を付し、その説明を省略する。
(1)第5実施形態の概要
 上記した第1実施形態では、現像電極65は、フレーム21の右壁27Rに配置されている。
Further, when the gear member 160 rotates clockwise in the left side view, the idle gear 271 rotates in the clockwise direction in the rear side view, and the supply gear 159 rotates in the counterclockwise direction in the left side view. Thereby, the supply roller 12 rotates counterclockwise as viewed from the left side. That is, the supply roller 12 rotates in the opposite direction to the coupling member 161.
(4) Effects of Fourth Embodiment Also in the fourth embodiment, the same effects as those of the first embodiment described above can be obtained.
10. Fifth Embodiment With reference to FIGS. 35 to 41, a fifth embodiment of the developing cartridge of the present invention will be described. Note that in the fifth embodiment, members similar to those in the first embodiment described above are denoted by the same reference numerals, and descriptions thereof are omitted.
(1) Overview of Fifth Embodiment In the first embodiment described above, the developing electrode 65 is disposed on the right wall 27 </ b> R of the frame 21.
 対して、第5実施形態では、現像電極194は、フレーム21の左壁27Lに配置される。
(2)第5実施形態の構成
 現像カートリッジ7Eは、駆動部191を備えている。
On the other hand, in the fifth embodiment, the developing electrode 194 is disposed on the left wall 27L of the frame 21.
(2) Configuration of Fifth Embodiment The developing cartridge 7E includes a drive unit 191.
 駆動部191は、図35および図36に示すように、軸受部材192と、現像電極194と、第1ギア列193と、直動カム195と、カバー196と、圧縮ばね188と、圧縮ばね39とを備えている。
(2-1)軸受部材
 軸受部材192は、図36および図37に示すように、第1実施形態の軸受部材36と異なり、上ガイドリブ43Aと、下ガイドリブ197と、突起198とを備えている。また、軸受部材192は、導電性樹脂などの導電性材料からなる。
As shown in FIGS. 35 and 36, the drive unit 191 includes a bearing member 192, a developing electrode 194, a first gear train 193, a linear cam 195, a cover 196, a compression spring 188, and a compression spring 39. And.
(2-1) Bearing Member As shown in FIGS. 36 and 37, the bearing member 192 includes an upper guide rib 43A, a lower guide rib 197, and a protrusion 198, unlike the bearing member 36 of the first embodiment. . The bearing member 192 is made of a conductive material such as a conductive resin.
 下ガイドリブ197は、上ガイドリブ43Aの下方に間隔を隔てて、軸受部材192の下端部に配置されている。下ガイドリブ197は、軸受部材192の左面から左方へ突出し、前後方向に延びている。下ガイドリブ197の前端部は、軸受部材192の前端部に配置されている。下ガイドリブ197の後端部は、軸受部材192の後端部に配置されている。 The lower guide rib 197 is disposed at the lower end portion of the bearing member 192 with a space below the upper guide rib 43A. The lower guide rib 197 protrudes leftward from the left surface of the bearing member 192 and extends in the front-rear direction. The front end portion of the lower guide rib 197 is disposed at the front end portion of the bearing member 192. The rear end portion of the lower guide rib 197 is disposed at the rear end portion of the bearing member 192.
 突起198は、上ガイドリブ43Aと下ガイドリブ197との間において、現像カップリング44の上方、かつ、後述する第1アイドルギア202の後方に配置されている。突起198は、軸受部材192の左面から左方へ延びている。突起198は、左端部が閉鎖された略円筒形状を有している。なお、突起198の右端部は、軸受部材192を左右方向に貫通し、右方に向かって開放されている。突起198は、溝199を有している。 The protrusion 198 is disposed between the upper guide rib 43A and the lower guide rib 197 above the developing coupling 44 and behind the first idle gear 202 described later. The protrusion 198 extends leftward from the left surface of the bearing member 192. The protrusion 198 has a substantially cylindrical shape whose left end is closed. Note that the right end portion of the protrusion 198 passes through the bearing member 192 in the left-right direction and is opened toward the right. The protrusion 198 has a groove 199.
 溝199は、突起198を上下方向にわたって貫通するように、突起198の左端部から右方へ向かって切り欠かれている。溝199は、左端部が開放された平面視略直線形状を有している。
(2-2)現像電極
 現像電極194は、溝199内に配置されている。現像電極194は、正面視略T字形状を有している。現像電極194は、溝199にガイドされながら、左右方向に沿って、内方位置(図35参照)と、外方位置(図41参照)とに移動するように構成されている。現像電極194の内方位置から外方位置への移動距離D3は、例えば、5mm以上、30mm以下である。現像電極194は、接触部189と、接触部190とを備えている。
The groove 199 is cut away from the left end portion of the protrusion 198 toward the right so as to penetrate the protrusion 198 in the vertical direction. The groove 199 has a substantially straight line shape in plan view with the left end opened.
(2-2) Development Electrode The development electrode 194 is disposed in the groove 199. The developing electrode 194 has a substantially T shape when viewed from the front. The developing electrode 194 is configured to move in an inward position (see FIG. 35) and an outward position (see FIG. 41) along the left-right direction while being guided by the groove 199. The moving distance D3 from the inner position to the outer position of the developing electrode 194 is, for example, 5 mm or more and 30 mm or less. The developing electrode 194 includes a contact portion 189 and a contact portion 190.
 接触部189は、現像電極194の右端部に配置されている。接触部189は、上下方向に延びる略角柱形状を有している。接触部189の上端部は、突起198の上端部よりも上方へ突出している。接触部189の下端部は、突起198の下端部よりも下方へ突出している。 The contact portion 189 is disposed at the right end portion of the developing electrode 194. The contact portion 189 has a substantially prismatic shape extending in the vertical direction. The upper end portion of the contact portion 189 protrudes upward from the upper end portion of the protrusion 198. The lower end portion of the contact portion 189 protrudes downward from the lower end portion of the protrusion 198.
 接触部190は、接触部189の上下方向中央から左方へ延びている。接触部190は、左右方向に長手の略円柱形状を有している。接触部190は、突起198の左端部よりも左方へ突出している。より詳しくは、接触部190は、左側面視において、現像カップリング44と後述する第1アイドルギア202との接触部分、現像カップリング44と後述する第1アイドルギア202との共通接線L、現像カップリング44の周面、および、後述する第1アイドルギア202の周面に囲まれる領域内に配置されている。接触部190は、左端部において接点190Aを有している。 The contact portion 190 extends leftward from the center of the contact portion 189 in the vertical direction. The contact portion 190 has a substantially cylindrical shape that is long in the left-right direction. The contact portion 190 protrudes leftward from the left end portion of the protrusion 198. More specifically, the contact portion 190 includes a contact portion between the development coupling 44 and a first idle gear 202 to be described later, a common tangent line L between the development coupling 44 and a first idle gear 202 to be described later, and development. Arranged in a region surrounded by the peripheral surface of the coupling 44 and the peripheral surface of the first idle gear 202 described later. The contact part 190 has a contact 190A at the left end.
 接点190Aは、現像電極194が内方位置に位置しているときに、カバー196の後述する穴208内に配置されている。接点190Aは、図37Aに示すように、現像電極194が内方位置に位置しているときには、左カラー49の左面とほぼ同じ左右方向位置に位置している。接点190Aは、現像電極194が外方位置に位置しているときには、図37Bに示すように、カバー196の左面よりも左方に位置している。すなわち、現像電極194の外方位置は、現像電極194の内方位置よりも左右方向外方に位置している。
(2-3)第1ギア列
 第1ギア列193は、図38に示すように、現像カップリング44および現像ギア45に加えて、アジテータギア200と、アイドルギア列201とを備えている。
(2-3-1)アジテータギア
 アジテータギア200は、左右方向に延びる略円板形状を有し、その周面すべてにわたってギア歯を備えている。アジテータギア200は、その径方向中央において、側面視略D字形状の貫通穴200Aを有している。
The contact 190 </ b> A is disposed in a hole 208 (described later) of the cover 196 when the developing electrode 194 is located at the inward position. As shown in FIG. 37A, the contact 190 </ b> A is located at a position in the left-right direction that is substantially the same as the left surface of the left collar 49 when the developing electrode 194 is located at the inner position. When the developing electrode 194 is located at the outward position, the contact 190A is located on the left side of the left surface of the cover 196 as shown in FIG. 37B. In other words, the outward position of the developing electrode 194 is positioned outward in the left-right direction relative to the inward position of the developing electrode 194.
(2-3) First Gear Train The first gear train 193 includes an agitator gear 200 and an idle gear train 201 in addition to the development coupling 44 and the development gear 45, as shown in FIG.
(2-3-1) Agitator Gear The agitator gear 200 has a substantially disc shape extending in the left-right direction, and has gear teeth over the entire circumferential surface thereof. The agitator gear 200 has a substantially D-shaped through hole 200A in a side view in the radial center.
 アジテータギア200は、アジテータ6の回転軸Sの左端部に支持されている。この状態において、回転軸Sの左端部は、アジテータギア200の貫通穴159A内に相対回転不能にはまっている。これにより、アジテータギア200は、回転軸Sに対して相対回転不能であり、回転軸Sとともに回転可能である。
(2-3-2)アイドルギア列
 アイドルギア列201は、第1アイドルギア202と、第2アイドルギア203と、第3アイドルギア204とを備えている。
The agitator gear 200 is supported on the left end portion of the rotation shaft S of the agitator 6. In this state, the left end portion of the rotation shaft S is incapable of relative rotation in the through hole 159A of the agitator gear 200. As a result, the agitator gear 200 cannot rotate relative to the rotation axis S, and can rotate together with the rotation axis S.
(2-3-2) Idle Gear Train The idle gear train 201 includes a first idle gear 202, a second idle gear 203, and a third idle gear 204.
 第1アイドルギア202は、左右方向に厚みを有する略円板形状を有している。第1アイドルギア202は、その径方向中央において側面視略円形状の貫通穴202Aと、その周面すべてにわたってギア歯とを備えている。第1アイドルギア202は、図35および図38に示すように、カバー196の後述する突起209に支持されている。第1アイドルギア202は、突起209に対して相対回転可能である。第1アイドルギア202は、現像カップリング44のギア部46の前上部分と噛合している。 The first idle gear 202 has a substantially disc shape having a thickness in the left-right direction. The first idle gear 202 includes a through hole 202A having a substantially circular shape in a side view at the center in the radial direction, and gear teeth over the entire peripheral surface. As shown in FIGS. 35 and 38, the first idle gear 202 is supported by a projection 209, which will be described later, of the cover 196. The first idle gear 202 can rotate relative to the protrusion 209. The first idle gear 202 meshes with the upper front portion of the gear portion 46 of the development coupling 44.
 第2アイドルギア203は、左右方向に厚みを有し、第1アイドルギア202よりも小径な略円板形状を有している。第2アイドルギア203は、その径方向中央において側面視略円形状の貫通穴203Aと、その周面すべてにわたってギア歯とを備えている。第2アイドルギア203は、カバー196の後述する突起210に支持されている。第2アイドルギア203は、突起210に対して相対回転可能である。第2アイドルギア203は、第1アイドルギア202の前上部分に噛合している。 The second idle gear 203 has a substantially disc shape having a thickness in the left-right direction and a smaller diameter than the first idle gear 202. The second idle gear 203 includes a through hole 203A having a substantially circular shape in a side view at the radial center and gear teeth over the entire peripheral surface. The second idle gear 203 is supported by a protrusion 210 described later of the cover 196. The second idle gear 203 can rotate relative to the protrusion 210. The second idle gear 203 meshes with the upper front portion of the first idle gear 202.
 第3アイドルギア204は、左右方向に厚みを有し、第2アイドルギア203と同径の略円板形状を有している。第3アイドルギア204は、その径方向中央において側面視略円形状の貫通穴204Aと、その周面すべてにわたってギア歯とを備えている。第3アイドルギア204は、カバー196の後述する突起211に支持されている。第3アイドルギア204は、突起211に対して相対回転可能である。第3アイドルギア204は、第2アイドルギア203の前方部分に噛合するとともに、アジテータギア200の後上方部分に噛合している。
(2-4)直動カム
 直動カム195は、図35および図36に示すように、電極接触部205を備えている。なお、直動カム195は、電極接触部205を備える以外は、第1実施形態の左直動カム38と同じ形状を有している。
The third idle gear 204 has a thickness in the left-right direction, and has a substantially disk shape with the same diameter as the second idle gear 203. The third idle gear 204 includes a through hole 204A having a substantially circular shape in a side view at the radial center and gear teeth over the entire circumferential surface. The third idle gear 204 is supported by a projection 211 described later of the cover 196. The third idle gear 204 can rotate relative to the protrusion 211. The third idle gear 204 meshes with the front portion of the second idle gear 203 and meshes with the rear upper portion of the agitator gear 200.
(2-4) Linear Motion Cam The linear motion cam 195 includes an electrode contact portion 205 as shown in FIGS. The linear motion cam 195 has the same shape as the left linear motion cam 38 of the first embodiment except that the electrode contact portion 205 is provided.
 電極接触部205は、接触部51の上方に配置されている。電極接触部205は、接触部51の前端部から上方へ延び、その上端部において後方へ屈曲して後方へ延びている。電極接触部205の後端部は、接触部51の後端部よりもわずかに前方に配置されている。電極接触部205は、変位部206と、保持部207とを備えている。 The electrode contact portion 205 is disposed above the contact portion 51. The electrode contact portion 205 extends upward from the front end portion of the contact portion 51, bends backward at the upper end portion, and extends rearward. The rear end portion of the electrode contact portion 205 is disposed slightly ahead of the rear end portion of the contact portion 51. The electrode contact part 205 includes a displacement part 206 and a holding part 207.
 変位部206は、電極接触部205の後端部に配置されている。変位部206の左面は、後方から前方へ向かうにつれて左方へ傾斜している。言い換えると、変位部206の突出長さは、後方から前方へ向かうにつれて次第に長くなっている。 The displacement portion 206 is disposed at the rear end portion of the electrode contact portion 205. The left surface of the displacement portion 206 is inclined leftward from the rear to the front. In other words, the protruding length of the displacement portion 206 becomes gradually longer from the rear to the front.
 保持部207は、変位部206の後方に連続されている。保持部207の左面は、変位部206の左面の前端部に連続して、前後方向に延びている。
(2-5)カバー
 カバー196は、図示しないねじによりフレーム21の左壁27Lに固定されている。カバー196は、図35および図38に示すように、穴208、突起209、突起210および突起211を有している。なお、カバー196は、穴208、突起209、突起210および突起211を備える以外は、第1実施形態のカバー40と同じ形状を有している。
The holding unit 207 is continuous behind the displacement unit 206. The left surface of the holding portion 207 is continuous with the front end portion of the left surface of the displacement portion 206 and extends in the front-rear direction.
(2-5) Cover The cover 196 is fixed to the left wall 27L of the frame 21 with screws (not shown). The cover 196 includes a hole 208, a protrusion 209, a protrusion 210, and a protrusion 211 as shown in FIGS. The cover 196 has the same shape as the cover 40 of the first embodiment except that the cover 196 includes a hole 208, a protrusion 209, a protrusion 210, and a protrusion 211.
 穴208は、開口62の上方に配置されている。穴208は、側面視略円形状を有している。穴208の直径は、現像電極194の接触部190の外径よりもわずかに大きい。 The hole 208 is disposed above the opening 62. The hole 208 has a substantially circular shape in side view. The diameter of the hole 208 is slightly larger than the outer diameter of the contact portion 190 of the developing electrode 194.
 突起209は、開口62の前上方に配置されている。突起209は、カバー196の左壁の右面から右方へ向かって延びている。突起209は、略円筒形状を有している。突起209は、第1アイドルギア202の貫通穴202A内にはまっている。 The protrusion 209 is disposed on the front upper side of the opening 62. The protrusion 209 extends from the right surface of the left wall of the cover 196 toward the right. The protrusion 209 has a substantially cylindrical shape. The protrusion 209 is fitted in the through hole 202 </ b> A of the first idle gear 202.
 突起210は、突起209の前上方に配置されている。突起210は、カバー196の左壁の右面から右方へ向かって延びている。突起210は、略円筒形状を有している。突起210は、第2アイドルギア203の貫通穴203A内にはまっている。 The protrusion 210 is disposed on the front upper side of the protrusion 209. The protrusion 210 extends from the right surface of the left wall of the cover 196 toward the right. The protrusion 210 has a substantially cylindrical shape. The protrusion 210 is fitted in the through hole 203 </ b> A of the second idle gear 203.
 突起211は、突起210の前方に配置されている。突起211は、カバー196の左壁の右面から右方へ向かって延びている。突起211は、略円筒形状を有している。突起211は、第3アイドルギア204の貫通穴204A内にはまっている。
(2-6)圧縮ばね
 圧縮ばね188は、図37に示すように、その径方向内方に接触部190が配置されるように、突起198内に配置されている。圧縮ばね188は、突起198の内径よりも小さく、かつ、現像電極194の接触部190の直径よりも大きいコイルばねである。圧縮ばね188は、その左端部において突起198の左壁の右面に右方から当接し、その右端部において現像電極194の接触部189に左方から当接している。圧縮ばね188は、常に、現像電極194を内方位置へ向かって付勢している。
(3)現像カップリングおよび現像電極の進出または退避
 次に現像カップリング44および現像電極194の内方位置から外方位置への移動について説明をする。
The protrusion 211 is disposed in front of the protrusion 210. The protrusion 211 extends rightward from the right surface of the left wall of the cover 196. The protrusion 211 has a substantially cylindrical shape. The protrusion 211 is fitted in the through hole 204 </ b> A of the third idle gear 204.
(2-6) Compression Spring As shown in FIG. 37, the compression spring 188 is disposed in the protrusion 198 so that the contact portion 190 is disposed radially inward. The compression spring 188 is a coil spring that is smaller than the inner diameter of the protrusion 198 and larger than the diameter of the contact portion 190 of the developing electrode 194. The compression spring 188 is in contact with the right surface of the left wall of the protrusion 198 at the left end from the right, and is in contact with the contact portion 189 of the developing electrode 194 from the left at the right end. The compression spring 188 always urges the developing electrode 194 toward the inward position.
(3) Advance or retract of development coupling and development electrode Next, the movement of the development coupling 44 and the development electrode 194 from the inward position to the outward position will be described.
 ハンドル部材101は、延出位置から傾倒位置へ向けて移動する。 The handle member 101 moves from the extended position toward the tilted position.
 すると、ハンドル部材101の突起105Aは、図39Aに示すように、直動カム195の連結部53の後端部を前方から押圧する。これにより、直動カム195は、突起105Aに押圧されて、後方へ移動する。 Then, as shown in FIG. 39A, the protrusion 105A of the handle member 101 presses the rear end portion of the connecting portion 53 of the linear motion cam 195 from the front. Thereby, the linear cam 195 is pressed by the protrusion 105A and moves rearward.
 そして、接触部51の変位部54は、電極接触部205の変位部206が現像電極194に当接する前に、現像カップリング44の右端部に前方から当接する。 The displacement portion 54 of the contact portion 51 comes into contact with the right end portion of the development coupling 44 from the front before the displacement portion 206 of the electrode contact portion 205 comes into contact with the development electrode 194.
 これにより、現像カップリング44は、図39Bに示すように、接触部51の変位部54の傾斜に沿って、圧縮ばね39(図6参照)の付勢力に抗してわずかに左方へ移動する。このとき、現像電極194は、内方位置に位置している。 As a result, the development coupling 44 moves slightly to the left against the biasing force of the compression spring 39 (see FIG. 6) along the inclination of the displacement portion 54 of the contact portion 51, as shown in FIG. 39B. To do. At this time, the developing electrode 194 is located at the inward position.
 そして、ハンドル部材101がさらに傾倒位置へ移動すると、突起105Aは、図40Aに示すように、ハンドル部材101の後端部を支点として右側面視時計回り方向に移動しながら、直動カム195の傾斜部分56Aを、下方から上方へ摺動するように押圧する。 When the handle member 101 further moves to the tilted position, the projection 105A moves in the clockwise direction of the linear cam 195 while moving clockwise with the rear end of the handle member 101 as a fulcrum, as shown in FIG. 40A. The inclined portion 56A is pressed so as to slide upward from below.
 これにより、図40Bに示すように、直動カム195は、さらに後方へ移動する。すると、現像カップリング44は、接触部51の変位部54の傾斜に沿って、圧縮ばね39(図6参照)の付勢力に抗してさらに左方へ移動する。 Thereby, as shown in FIG. 40B, the linear motion cam 195 further moves rearward. Then, the development coupling 44 moves further to the left against the urging force of the compression spring 39 (see FIG. 6) along the inclination of the displacement portion 54 of the contact portion 51.
 また、電極接触部205の変位部206は、現像電極194の接触部189に前方から当接する。すると、現像電極194は、電極接触部205の変位部206の傾斜に沿って、圧縮ばね188の付勢力に抗して左方へ移動する。 Also, the displacement portion 206 of the electrode contact portion 205 contacts the contact portion 189 of the developing electrode 194 from the front. Then, the developing electrode 194 moves to the left against the urging force of the compression spring 188 along the inclination of the displacement portion 206 of the electrode contact portion 205.
 そして、ハンドル部材101がさらに傾倒位置へ移動すると、突起105Aは、直動カム195の垂直部分56Bを、下方から上方へ摺動するように押圧する。これにより、直動カム195は、さらに後方へ移動する。 When the handle member 101 further moves to the tilted position, the protrusion 105A presses the vertical portion 56B of the linear cam 195 so as to slide upward from below. As a result, the linear cam 195 further moves rearward.
 そして、直動カム195は、図41Aに示すように、突起105Aが突起58を乗り越えて突起58よりも上方に配置され、押圧位置に位置する。 Then, as shown in FIG. 41A, the linear cam 195 is located above the projection 58 so that the projection 105A gets over the projection 58, and is positioned at the pressing position.
 すると、現像カップリング44および現像電極194は、図41Bに示すように、外方位置に位置する。これにより、現像カップリング44および現像電極194の内方位置から外方位置への移動が完了する。 Then, as shown in FIG. 41B, the development coupling 44 and the development electrode 194 are located at the outward positions. Thereby, the movement of the developing coupling 44 and the developing electrode 194 from the inner position to the outer position is completed.
 次に、現像カップリング44および現像電極194の外方位置から内方位置への移動について説明する。 Next, the movement of the development coupling 44 and the development electrode 194 from the outer position to the inner position will be described.
 ハンドル部材101は、傾倒位置から延出位置へ向けて移動する。直動カム195は、ハンドル部材101の傾倒位置から延出位置への移動に伴って、前方へ移動する。 The handle member 101 moves from the tilted position toward the extended position. The linear cam 195 moves forward as the handle member 101 moves from the tilted position to the extended position.
 すると、図40に示すように、まず、現像電極194は、圧縮ばね188の付勢力によって外方位置から内方位置に移動する。その後、図39に示すように、現像カップリング44は、圧縮ばね39の付勢力によって外方位置から内方位置に移動する。 Then, as shown in FIG. 40, first, the developing electrode 194 is moved from the outer position to the inner position by the urging force of the compression spring 188. Thereafter, as shown in FIG. 39, the development coupling 44 is moved from the outer position to the inner position by the biasing force of the compression spring 39.
 そして、図35に示すように、ハンドル部材101が延出位置に位置すると、現像カップリング44および現像電極194は、内方位置に位置する。これにより、現像カップリング44および現像電極194の外方位置から内方位置への移動が完了する。
(4)現像カートリッジの作動
 次に、現像カップリング44が本体ケーシング2内の駆動源から駆動力を受けるときの状態について説明をする。
As shown in FIG. 35, when the handle member 101 is located at the extended position, the development coupling 44 and the development electrode 194 are located at the inward position. Thereby, the movement of the developing coupling 44 and the developing electrode 194 from the outer position to the inner position is completed.
(4) Operation of Developing Cartridge Next, the state when the developing coupling 44 receives driving force from the driving source in the main body casing 2 will be described.
 現像カップリング44の凹部48は、図37Bに仮想線で示すように、本体ケーシング2内において、現像カップリング44が外方位置に位置するときに、本体ケーシング2の本体カップリング116に相対回転不能にはまる。 The concave portion 48 of the development coupling 44 rotates relative to the main body coupling 116 of the main body casing 2 when the development coupling 44 is located in the outer position in the main body casing 2, as indicated by phantom lines in FIG. 37B. It becomes impossible.
 また、現像電極194の接触部190Aは、現像電極194が外方位置に位置すると、本体ケーシング2の本体電極212に接触する。 Further, the contact portion 190A of the developing electrode 194 comes into contact with the main body electrode 212 of the main body casing 2 when the developing electrode 194 is located at the outer position.
 そして、現像電極194は、上記した画像形成動作時など、本体電極212から電力を受ける。現像電極194が受けた電力は、軸受部材192を介して現像ローラ軸111と供給ローラ軸121とに伝達される。 The developing electrode 194 receives power from the main body electrode 212 during the above-described image forming operation. The electric power received by the developing electrode 194 is transmitted to the developing roller shaft 111 and the supply roller shaft 121 via the bearing member 192.
 また、現像カップリング44は、画像形成動作時などに、本体カップリング116から駆動力を受ける。 Further, the developing coupling 44 receives a driving force from the main body coupling 116 during an image forming operation or the like.
 そして、現像カップリング44は、図36に示すように、左側面視時計回りに回転する。現像ギア45は、左側面視反時計回りに回転する。第1アイドルギア202は、左側面視反時計回りに回転する。第2アイドルギア203は、左側面視時計回りに回転する。また、第3アイドルギア204は、左側面視反時計回りに回転する。これにより、現像ローラ11は、左側面視反時計回りに回転する。 Then, as shown in FIG. 36, the development coupling 44 rotates clockwise as viewed from the left side. The developing gear 45 rotates counterclockwise as viewed from the left side. The first idle gear 202 rotates counterclockwise when viewed from the left side. The second idle gear 203 rotates clockwise when viewed from the left side. The third idle gear 204 rotates counterclockwise as viewed from the left side. As a result, the developing roller 11 rotates counterclockwise as viewed from the left side.
 また、アジテータギア200は、左側面視時計回りに回転する。アジテータ6は、左側面視時計回りに回転する。
(5)請求の範囲との対応
 第5実施形態において、フレーム21の左壁27Lは、第1壁の一例である。
Further, the agitator gear 200 rotates clockwise as viewed from the left side. The agitator 6 rotates clockwise when viewed from the left side.
(5) Correspondence with Claims In the fifth embodiment, the left wall 27L of the frame 21 is an example of a first wall.
 第1アイドルギア202は、受動部材の一例である。 The first idle gear 202 is an example of a passive member.
 現像電極194は、電極の一例である。現像電極194の内方位置は、第1位置の一例である。現像電極194の外方位置は、第2位置の一例である。接触部190は、接点の一例である。
(6)第5実施形態の作用効果
(6-1)第5実施形態では、図36に示すように、現像電極194および現像カップリング44は、左壁27Lに配置されている。
The development electrode 194 is an example of an electrode. The inward position of the developing electrode 194 is an example of a first position. The outward position of the developing electrode 194 is an example of a second position. The contact part 190 is an example of a contact.
(6) Effects of Fifth Embodiment (6-1) In the fifth embodiment, as shown in FIG. 36, the developing electrode 194 and the developing coupling 44 are disposed on the left wall 27L.
 そのため、現像電極194に電力を出力する構成、および、現像カップリング44に駆動力を出力する構成を、左壁27Lと向かい合う側に集約することができる。 Therefore, the configuration for outputting electric power to the developing electrode 194 and the configuration for outputting a driving force to the developing coupling 44 can be concentrated on the side facing the left wall 27L.
 その結果、本体ケーシング2の小型化をより図ることができる。
(6-2)第5実施形態では、図36に示すように、現像電極194の接触部190は、現像カップリング44と第1アイドルギア202との接触部分、現像カップリング44と第1アイドルギア202との共通接線L、現像カップリング44の周面、および、第1アイドルギア202の周面に囲まれる領域内に配置されている。
As a result, the main body casing 2 can be further reduced in size.
(6-2) In the fifth embodiment, as shown in FIG. 36, the contact portion 190 of the development electrode 194 is a contact portion between the development coupling 44 and the first idle gear 202, and the development coupling 44 and the first idle gear. The common tangent L with the gear 202, the peripheral surface of the development coupling 44, and the region surrounded by the peripheral surface of the first idle gear 202 are disposed.
 そのため、現像電極194を現像カップリング44の近傍に配置することができ、現像カートリッジ7Eの小型化を図ることができる。
(6-3)第5実施形態においても、上記した第1実施形態と同様の作用効果を得ることができる。
(7)第5実施形態の変形例
 上記した第5実施形態では、第1アイドルギア202が受動部材の一例であったが、本発明はこれに限定されるものではない。たとえば、回転体の外周面にゴム層を配置し、そのゴム層を他のギアに接触させる構成であってもよい。
11.第6実施形態
 図42および図43を参照して、本発明の現像カートリッジの第6実施形態を説明する。なお、第6実施形態において、上記した第1実施形態と同様の部材には、同じ符号を付し、その説明を省略する。
(1)第6実施形態の概要
 上記した第1実施形態では、現像カートリッジ7Aは、左直動カム38および右直動カム68を移動させるハンドル部材101を備えている。そして、ハンドル部材101は、ハンドル部材101の意図しない移動を規制する規制部材104を備えている。
Therefore, the developing electrode 194 can be disposed in the vicinity of the developing coupling 44, and the developing cartridge 7E can be downsized.
(6-3) Also in the fifth embodiment, it is possible to obtain the same effects as those in the first embodiment.
(7) Modification of Fifth Embodiment In the fifth embodiment described above, the first idle gear 202 is an example of a passive member, but the present invention is not limited to this. For example, the structure which arrange | positions a rubber layer in the outer peripheral surface of a rotary body, and makes the rubber layer contact another gear may be sufficient.
11. Sixth Embodiment With reference to FIGS. 42 and 43, a sixth embodiment of the developing cartridge of the present invention will be described. Note that in the sixth embodiment, members similar to those of the first embodiment described above are denoted by the same reference numerals, and descriptions thereof are omitted.
(1) Outline of Sixth Embodiment In the first embodiment described above, the developing cartridge 7A includes the handle member 101 that moves the left linear cam 38 and the right linear cam 68. The handle member 101 includes a regulating member 104 that regulates unintended movement of the handle member 101.
 対して、第6実施形態では、図42および図43に示すように、現像カートリッジ7Fは、ハンドル部材101を備えていない。そして、カバー222は、左直動カム223の移動を規制する規制部材226を備えている。
(2)第6実施形態の構成
 現像カートリッジ7Fは、駆動部240を備えている。駆動部240は、左直動カム221と、カバー222とを有している。
(2-1)左直動カム
 左直動カム223は、第1実施形態の左直動カム38と異なり、接触部52を備えず、操作部224を備えている。
On the other hand, in the sixth embodiment, as shown in FIGS. 42 and 43, the developing cartridge 7F does not include the handle member 101. The cover 222 includes a regulating member 226 that regulates the movement of the left linear cam 223.
(2) Configuration of Sixth Embodiment The developing cartridge 7F includes a drive unit 240. The drive unit 240 includes a left linear cam 221 and a cover 222.
(2-1) Left linear motion cam Unlike the left linear motion cam 38 of the first embodiment, the left linear motion cam 223 does not include the contact portion 52 but includes the operation portion 224.
 操作部224は、連結部53の後端部から左方へ延びている。操作部224は、略平板形状を有している。
(2-2)カバー
 カバー222は、第1実施形態のカバー40と異なり、開口225と、規制部材226とを有している。
The operation unit 224 extends leftward from the rear end portion of the connecting portion 53. The operation unit 224 has a substantially flat plate shape.
(2-2) Cover Unlike the cover 40 of the first embodiment, the cover 222 has an opening 225 and a regulating member 226.
 開口225は、カバー222の後端部に配置されている。開口225は、カバー222の左壁を左右方向に貫通している。開口225は、側面視略矩形状を有している。 The opening 225 is disposed at the rear end of the cover 222. The opening 225 penetrates the left wall of the cover 222 in the left-right direction. The opening 225 has a substantially rectangular shape in side view.
 規制部材226は、開口225内に配置されている。規制部材226は、前後方向に長手の側面視略矩形の平板形状を有している。規制部材226の前後方向両端部のそれぞれは、開口225の前後方向両端部のそれぞれの周縁部に支持されている。規制部材226は、開口225の下端部内に配置される規制位置(図42Aおよび図43C参照)と、開口225の上端部内に配置される規制解除位置(図43Aおよび図43B参照)とに、上下方向に移動するように構成されている。規制部材226は、規制位置に位置している状態で、左直動カム223の移動を規制する。また、規制部材226は、規制解除位置に位置している状態で、左直動カム223に対する移動の規制を解除する。なお、規制部材226は、1対の溝227を有している。 The regulating member 226 is disposed in the opening 225. The regulating member 226 has a substantially rectangular flat plate shape that is long in the front-rear direction and viewed from the side. Each of both ends in the front-rear direction of the regulating member 226 is supported by each peripheral edge of both ends in the front-rear direction of the opening 225. The restricting member 226 is vertically moved between a restricting position (see FIGS. 42A and 43C) arranged in the lower end portion of the opening 225 and a restriction releasing position (see FIGS. 43A and 43B) arranged in the upper end portion of the opening 225. Configured to move in the direction. The restricting member 226 restricts the movement of the left linear cam 223 in a state where it is located at the restricting position. Further, the restricting member 226 releases the restriction on the movement with respect to the left linear cam 223 in the state where the restricting member 226 is located at the restriction releasing position. The restricting member 226 has a pair of grooves 227.
 1対の溝227のそれぞれは、規制部材226の前後方向両端部のそれぞれに配置されている。1対の溝227のそれぞれは、規制部材226の下端部から上方へ向かって切り欠かれる凹溝である。
(2-3)現像カップリングの進出および退避
 次に、現像カップリング44の外方位置から内方位置への移動について説明する。
Each of the pair of grooves 227 is disposed at each of both ends of the regulating member 226 in the front-rear direction. Each of the pair of grooves 227 is a concave groove cut out upward from the lower end portion of the regulating member 226.
(2-3) Advancement and Retraction of Development Coupling Next, the movement of the development coupling 44 from the outer position to the inner position will be described.
 まず、左直動カム223は、図42に示すように、規制部材226により押圧解除位置から押圧位置への移動を規制されている。このとき、左直動カム223の操作部224は、カバー222の開口225の下方前端部内に配置され、規制部材226の前方の溝227内に係合している。規制部材226は、図43Aに示すように、規制部材226が規制位置から規制解除位置へ移動すると、左直動カム223の操作部224から上方へ外れる。これにより、押圧解除位置から押圧位置への左直動カム223の移動が許容される。そして、左直動カム223は、操作部224の移動に伴って、図43Aおよび図43Bに示すように、押圧解除位置から押圧位置へ移動する。 First, as shown in FIG. 42, the left linear cam 223 is restricted from moving from the pressure release position to the pressure position by the restriction member 226. At this time, the operation portion 224 of the left translation cam 223 is disposed in the lower front end portion of the opening 225 of the cover 222 and is engaged in the groove 227 in front of the restriction member 226. As shown in FIG. 43A, when the regulating member 226 moves from the regulated position to the regulated release position, the regulating member 226 moves upward from the operation portion 224 of the left translation cam 223. Thereby, the movement of the left linear cam 223 from the pressing release position to the pressing position is allowed. Then, as the operation unit 224 moves, the left linear cam 223 moves from the pressing release position to the pressing position as shown in FIGS. 43A and 43B.
 その後、左直動カム223が押圧解除位置から後方へ移動され、左直動カム223の操作部224がカバー222の開口225の下方後端部内に配置されると、左直動カム223は、押圧位置に位置する。これにより、現像カップリング44は、図43Bに示すように、外方位置に位置する。 Thereafter, when the left translation cam 223 is moved rearward from the pressing release position and the operation portion 224 of the left translation cam 223 is disposed in the lower rear end portion of the opening 225 of the cover 222, the left translation cam 223 is Located in the pressing position. As a result, the development coupling 44 is positioned in the outward position as shown in FIG. 43B.
 そして、この状態で、図43Cに示すように、規制部材226が規制位置から規制解除位置へ移動されると、左直動カム223の操作部224は、規制部材226の後方の溝227内に係合する。左直動カム223は、押圧位置から押圧解除位置への移動を規制される。 Then, in this state, as shown in FIG. 43C, when the regulating member 226 is moved from the regulated position to the regulated release position, the operation portion 224 of the left linear cam 223 is placed in the groove 227 behind the regulating member 226. Engage. The left translation cam 223 is restricted from moving from the pressed position to the pressed release position.
 なお、現像カップリング44が外方位置から内方位置に移動されるときには、左直動カム223は、図43Bに示すように、規制部材226が規制解除位置に位置した後に、図43Aに示すように、押圧解除位置から押圧位置へ移動する。 When the developing coupling 44 is moved from the outward position to the inward position, as shown in FIG. 43B, the left linear cam 223 is shown in FIG. 43A after the restriction member 226 is located in the restriction release position. As described above, it moves from the pressing release position to the pressing position.
 すると、現像カップリング44は、内方位置に位置する。
(3)受電部の構成
 第6実施形態の受電部は、図示しないが、駆動部と同様に構成されている。詳しくは、右直動カムは、第1実施形態の右直動カム68と異なり、接触部82を備えず、上記した駆動部と同様の操作部を備えている。なお、受電部の操作部は、連結部83の後端部から右方へ延びている。
Then, the development coupling 44 is located at the inward position.
(3) Configuration of power reception unit The power reception unit of the sixth embodiment is configured in the same manner as the drive unit, although not shown. Specifically, unlike the right translation cam 68 of the first embodiment, the right translation cam does not include the contact portion 82 but includes an operation unit similar to the drive unit described above. Note that the operation unit of the power reception unit extends rightward from the rear end portion of the connecting portion 83.
 また、カバーは、第1実施形態のカバー69と異なり、開口と、規制部材とを有している。開口および規制部材は、上記した駆動部の開口225および規制部材226と同様に構成されている。 Further, unlike the cover 69 of the first embodiment, the cover has an opening and a regulating member. The opening and the regulating member are configured in the same manner as the opening 225 and the regulating member 226 of the driving unit described above.
 そして、現像電極65が内方位置から外方位置に移動されるときには、右直動カムは、規制部材が規制解除位置に位置した後に、押圧解除位置から押圧位置へ移動する。 Then, when the developing electrode 65 is moved from the inward position to the outward position, the right translation cam moves from the press releasing position to the pressing position after the restricting member is located in the restriction releasing position.
 すると、現像電極65は、外方位置に位置する。 Then, the developing electrode 65 is located at the outward position.
 また、現像電極65が外方位置から内方位置に移動されるときには、右直動カムは、規制部材が規制解除位置に位置した後に、押圧解除位置から押圧位置へ移動する。 Also, when the developing electrode 65 is moved from the outer position to the inner position, the right translation cam moves from the pressing release position to the pressing position after the restricting member is positioned at the restriction releasing position.
 すると、現像電極65は、内方位置に位置する。
(4)請求の範囲との対応
 第6実施形態において、受電部の図示しない規制部材は、第1規制部材の一例である。
(5)第6実施形態の作用効果
(5-1)第6実施形態では、現像カートリッジ7Fは、現像電極65の移動を規制する規制部材を備えている。
Then, the developing electrode 65 is located at the inward position.
(4) Correspondence with Claims In the sixth embodiment, a regulating member (not shown) of the power reception unit is an example of a first regulating member.
(5) Effects of the Sixth Embodiment (5-1) In the sixth embodiment, the developing cartridge 7F includes a regulating member that regulates the movement of the developing electrode 65.
 そのため、規制部材により、現像電極65の意図しない移動を規制することができる。 Therefore, unintended movement of the developing electrode 65 can be restricted by the restricting member.
 その結果、現像電極65を、確実に、内方位置または外方位置に位置させることができる。
(5-2)第6実施形態では、規制部材は、右直動カムの移動を規制する。
As a result, the developing electrode 65 can be reliably positioned at the inward position or the outward position.
(5-2) In the sixth embodiment, the restricting member restricts the movement of the right translation cam.
 そのため、簡易な構成で、現像電極65の移動を規制することができる。
(5-3)第6実施形態においても、上記した第1実施形態と同様の作用効果を得ることができる。
12.第7実施形態
 図44~図49を参照して、本発明の現像カートリッジの第7実施形態を説明する。なお、第7実施形態において、上記した第1実施形態と同様の部材には、同じ符号を付し、その説明を省略する。
(1)第7実施形態の概要
 上記した第1実施形態では、ハンドル部材101は、左直動カム38または右直動カム68と係合する突起105を備えている。
Therefore, the movement of the developing electrode 65 can be regulated with a simple configuration.
(5-3) In the sixth embodiment, the same function and effect as those of the first embodiment can be obtained.
12 Seventh Embodiment With reference to FIGS. 44 to 49, a seventh embodiment of the developing cartridge of the present invention will be described. Note that in the seventh embodiment, members similar to those of the first embodiment described above are denoted by the same reference numerals, and descriptions thereof are omitted.
(1) Overview of Seventh Embodiment In the first embodiment described above, the handle member 101 includes a protrusion 105 that engages with the left linear cam 38 or the right linear cam 68.
 対して、第7実施形態では、図44および図45に示すように、ハンドル部材241は、突起105を備えていない。代わりに、第7実施形態の駆動部240は、係合シャフト243を備えている。
(2)第7実施形態の構成
 現像カートリッジ7Gは、操作部239と、駆動部240とを備えている。
(2-1)操作部
 操作部239は、ハンドル部材241と、係合シャフト243と、圧縮ばね248とを備えている。
On the other hand, in the seventh embodiment, the handle member 241 does not include the protrusion 105 as shown in FIGS. Instead, the drive unit 240 of the seventh embodiment includes an engagement shaft 243.
(2) Configuration of Seventh Embodiment The developing cartridge 7G includes an operation unit 239 and a drive unit 240.
(2-1) Operation Unit The operation unit 239 includes a handle member 241, an engagement shaft 243, and a compression spring 248.
 ハンドル部材241は、図45および図46に示すように、第1実施形態のハンドル部材101と異なり、突起105を備えず、穴244と、ばね支持部245とを備えている。 45 and 46, the handle member 241 is different from the handle member 101 of the first embodiment in that it does not include the protrusion 105 but includes a hole 244 and a spring support portion 245.
 穴244は、リンク部103の下端部に配置されている。穴244は、リンク部103を左右方向に貫通している。穴244は、側面視略円形状を有している。 The hole 244 is arranged at the lower end portion of the link portion 103. The hole 244 penetrates the link portion 103 in the left-right direction. The hole 244 has a substantially circular shape in a side view.
 ばね支持部245は、穴244の周囲から左右方向外方へ突出している。ばね支持部245は、略円筒形状を有している。ばね支持部245は、その中心軸線が穴244の中心と重なるように配置されている。ばね支持部245の内径は、穴244の直径よりも大きい。 The spring support 245 protrudes from the periphery of the hole 244 outward in the left-right direction. The spring support portion 245 has a substantially cylindrical shape. The spring support portion 245 is disposed so that the center axis thereof overlaps the center of the hole 244. The inner diameter of the spring support 245 is larger than the diameter of the hole 244.
 係合シャフト243は、鍔部247よりも左右方向内方の部分において、ハンドル部材241のばね支持部245内に配置されている。係合シャフト243は、左右方向に延びる略円柱形状を有している。係合シャフト243は、鍔部247を備えている。 The engagement shaft 243 is disposed in the spring support portion 245 of the handle member 241 at a portion on the inner side in the left-right direction with respect to the flange portion 247. The engagement shaft 243 has a substantially cylindrical shape extending in the left-right direction. The engagement shaft 243 includes a flange portion 247.
 鍔部247は、係合シャフト243の左右方向略中央に配置されている。鍔部247は、係合シャフト243の外周面から係合シャフト243の径方向外方へ突出し、係合シャフト243の周方向に延びている。 The collar portion 247 is disposed at the approximate center of the engagement shaft 243 in the left-right direction. The flange portion 247 protrudes outward in the radial direction of the engagement shaft 243 from the outer peripheral surface of the engagement shaft 243 and extends in the circumferential direction of the engagement shaft 243.
 係合シャフト243は、ハンドル部材141と左直動カム38とを連動させる連動位置(図47B参照)と、ハンドル部材141と左直動カム38との連動を解除する連動解除位置(図47A参照)との間を移動するように構成されている。 The engagement shaft 243 has an interlocking position (see FIG. 47B) that interlocks the handle member 141 and the left linear cam 38 and an interlock release position that releases the interlock between the handle member 141 and the left linear cam 38 (see FIG. 47A). ) To move between.
 係合シャフト243が連動位置に配置されているときには、図46Bおよび図47Bに示すように、係合シャフト243の右端部は、穴244から右方へ突出し、左直動カム38の第2係合部57の前方に配置される。また、係合シャフト243の左端部は、ガイド溝246内に配置される。 When the engagement shaft 243 is disposed at the interlocking position, as shown in FIGS. 46B and 47B, the right end portion of the engagement shaft 243 protrudes rightward from the hole 244, and the second engagement of the left linear cam 38. It is arranged in front of the joint portion 57. Further, the left end portion of the engagement shaft 243 is disposed in the guide groove 246.
 また、係合シャフト243が連動解除位置に配置されているときには、図46Aおよび図47Aに示すように、係合シャフト243の右端部は、穴244内に配置され、係合シャフト243の左端部は、ガイド溝246から左方へ突出する。 When the engagement shaft 243 is disposed at the interlock release position, as shown in FIGS. 46A and 47A, the right end portion of the engagement shaft 243 is disposed in the hole 244 and the left end portion of the engagement shaft 243 is disposed. Protrudes leftward from the guide groove 246.
 圧縮ばね248は、その径方向内方に係合シャフト243の左右方向内方端部が配置されるように、ばね支持部245内に配置されている。圧縮ばね248は、左右方向に延びるコイルばねである。圧縮ばね248は、その左端部において係合シャフト243の鍔部247の右面に右方から当接し、その右端部においてリンク部103の左面に左方から当接している。圧縮ばね248は、係合シャフト243を常に左方へ向かって付勢している。
(2-2)カバー
 駆動部240は、図44および図45に示すように、カバー242を備えている。
The compression spring 248 is disposed in the spring support portion 245 so that the left and right inner ends of the engagement shaft 243 are disposed radially inward. The compression spring 248 is a coil spring extending in the left-right direction. The compression spring 248 is in contact with the right surface of the flange portion 247 of the engagement shaft 243 at the left end portion from the right side, and is in contact with the left surface of the link portion 103 at the right end portion from the left side. The compression spring 248 always urges the engagement shaft 243 toward the left.
(2-2) Cover The drive unit 240 includes a cover 242 as shown in FIGS.
 カバー242は、第1実施形態のカバー40と異なり、ガイド溝246を有している。 Unlike the cover 40 of the first embodiment, the cover 242 has a guide groove 246.
 ガイド溝246は、カバー242の前端部に配置されている。ガイド溝246は、カバー242の左壁を左右方向に貫通している。ガイド溝246は、カバー242の前下方端部から後上方へ向かって延びる略円弧形状を有している。ガイド溝246は、ハンドル部材241の移動に伴う穴244の移動軌跡に沿って延びている。
(3)本体ケーシングに対する現像カートリッジの装着動作
 次に、本体ケーシング2に対する現像カートリッジ7Gの装着動作および現像カップリング44の内方位置から外方位置への移動について説明をする。
The guide groove 246 is disposed at the front end portion of the cover 242. The guide groove 246 penetrates the left wall of the cover 242 in the left-right direction. The guide groove 246 has a substantially arc shape extending from the front lower end portion of the cover 242 toward the rear upper side. The guide groove 246 extends along the movement locus of the hole 244 accompanying the movement of the handle member 241.
(3) Mounting operation of developing cartridge with respect to main body casing Next, the mounting operation of the developing cartridge 7G with respect to the main body casing 2 and the movement of the developing coupling 44 from the inward position to the outward position will be described.
 まず、現像カートリッジ7Gが本体ケーシング2から離脱しているときには、係合シャフト243は、圧縮ばね248の付勢力により連動解除位置に位置している。この状態では、左直動カム38は、ハンドル部材241の移動に伴って移動しない。 First, when the developing cartridge 7G is detached from the main body casing 2, the engagement shaft 243 is positioned at the interlock release position by the urging force of the compression spring 248. In this state, the left linear cam 38 does not move as the handle member 241 moves.
 そして、図48Aに示すように、ハンドル部材241が延出位置に配置された状態で現像カートリッジ7Gを本体ケーシング2内に挿入されると、図48Bに示すように、係合シャフト243の左端部は、本体ケーシング2の装着ガイド249内に配置される。 48A, when the developing cartridge 7G is inserted into the main casing 2 with the handle member 241 disposed at the extended position, as shown in FIG. 48B, the left end portion of the engagement shaft 243 Is disposed in the mounting guide 249 of the main casing 2.
 そして、現像カートリッジ7Gがさらに本体ケーシング2内に挿入されると、図48Cに示すように、係合シャフト243の左端部は、本体ケーシング2の装着ガイド249が有する傾斜面250に前方から当接し、傾斜面250の傾斜により、現像カートリッジ7Gの後方への移動に沿って右方へ押圧される。 When the developing cartridge 7G is further inserted into the main body casing 2, as shown in FIG. 48C, the left end portion of the engaging shaft 243 comes into contact with the inclined surface 250 of the mounting guide 249 of the main body casing 2 from the front. Due to the inclination of the inclined surface 250, the developing cartridge 7G is pressed rightward along the rearward movement.
 すると、係合シャフト243は、連動解除位置から右方へ移動し、連動位置に位置する。これにより、左直動カム38は、ハンドル部材241の移動に伴って移動することが可能になる。 Then, the engagement shaft 243 moves to the right from the interlock release position and is positioned at the interlock position. Thereby, the left linear cam 38 can be moved with the movement of the handle member 241.
 その後、上記した第1実施形態と同様に、ハンドル部材241が延出位置から傾倒位置へ移動されると、現像カップリング44は、外方位置に配置される。 Thereafter, similarly to the first embodiment described above, when the handle member 241 is moved from the extended position to the tilted position, the developing coupling 44 is disposed at the outward position.
 なお、図49Aに示すように、ハンドル部材241が傾倒位置に配置された状態で現像カートリッジ7Gが本体ケーシング2内に挿入されると、図49Bに示すように、係合シャフト243の左端部は、本体ケーシング2の側壁の前端部に当接する。 As shown in FIG. 49A, when the developing cartridge 7G is inserted into the main body casing 2 with the handle member 241 disposed at the tilted position, the left end portion of the engagement shaft 243 is The main casing 2 comes into contact with the front end of the side wall.
 これにより、ハンドル部材241が傾倒位置に配置された状態では、本体ケーシング2に対する現像カートリッジ7Gの装着が規制される。
(5)受電部の構成
 第7実施形態の受電部は、図示しないが、駆動部と同様に構成されている。
 また、カバーは、第1実施形態のカバー69と異なり、ハンドル部材241の移動に伴う穴244の移動軌跡に沿って延びるガイド溝を有している。
Thereby, when the handle member 241 is disposed at the tilted position, the mounting of the developing cartridge 7G to the main body casing 2 is restricted.
(5) Configuration of Power Receiving Unit Although not shown, the power receiving unit of the seventh embodiment is configured in the same manner as the drive unit.
Further, unlike the cover 69 of the first embodiment, the cover has a guide groove extending along the movement locus of the hole 244 accompanying the movement of the handle member 241.
 そして、係合シャフト243は、連動位置において、右直動カム68の第2係合部89の前方に配置され、ハンドル部材241と右直動カム68とを連動させる。 The engagement shaft 243 is disposed in front of the second engagement portion 89 of the right translation cam 68 at the interlock position, and interlocks the handle member 241 and the right translation cam 68.
 また、係合シャフト243は、連動解除位置において、ガイド溝内に配置され、ハンドル部材241と右直動カム68との連動を解除する。
(6)請求の範囲との対応
 第7実施形態において、給電部カバーの図示しないガイド溝に挿通される係合シャフト243は、遮断部材の一例である。
(7)第7実施形態の作用効果
(7-1)第7実施形態によれば、係合シャフト243によって右方のリンク部103と右直動カム68との連動を解除し、外部からの意図しない力によってハンドル部材241が移動された場合に、右直動カム68が移動することを防止できる。
Further, the engagement shaft 243 is disposed in the guide groove at the interlock release position, and releases the interlock between the handle member 241 and the right translation cam 68.
(6) Correspondence with Claims In the seventh embodiment, the engagement shaft 243 inserted through a guide groove (not shown) of the power feeding unit cover is an example of a blocking member.
(7) Operation and Effect of Seventh Embodiment (7-1) According to the seventh embodiment, the engagement between the right link portion 103 and the right linear cam 68 is released by the engagement shaft 243, so that the external shaft When the handle member 241 is moved by an unintended force, the right translation cam 68 can be prevented from moving.
 その結果、現像電極65の意図しない移動を規制することができる。
(7-2)第7実施形態においても、上記した第1実施形態と同様の作用効果を得ることができる。
13.現像電極の変形例
 図50~図57を参照して、本発明の現像カートリッジの現像電極65の変形例を説明する。なお、これらの変形例において、上記した第1実施形態と同様の部材には、同じ符号を付し、その説明を省略する。
As a result, unintended movement of the developing electrode 65 can be restricted.
(7-2) In the seventh embodiment, the same function and effect as those of the first embodiment can be obtained.
13. Modified Example of Developing Electrode A modified example of the developing electrode 65 of the developing cartridge of the present invention will be described with reference to FIGS. In these modified examples, the same members as those in the first embodiment described above are denoted by the same reference numerals, and the description thereof is omitted.
 上記した各実施形態において、現像電極の形状は、特に限定されない。
(1)現像電極251は、図50に示すように、例えば、導通部材252と絶縁部材253とを備えていてもよい。
In each embodiment described above, the shape of the developing electrode is not particularly limited.
(1) The developing electrode 251 may include, for example, a conductive member 252 and an insulating member 253 as shown in FIG.
 導通部材252は、上記した第1実施形態の現像電極65と同じ形状を有している。 The conducting member 252 has the same shape as the developing electrode 65 of the first embodiment described above.
 絶縁部材253は、左右方向に延びる略円筒形状を有している。絶縁部材253の内径は、導通部材252の接触部91の外径よりもわずかに大きい。また、絶縁部材253の左右方向の寸法は、導通部材252の接触部91の左右方向長さよりもわずかに短い。絶縁部材253は、導通部材252の接触部91に対して、接触部91の径方向外方からはまる。 The insulating member 253 has a substantially cylindrical shape extending in the left-right direction. The inner diameter of the insulating member 253 is slightly larger than the outer diameter of the contact portion 91 of the conducting member 252. The horizontal dimension of the insulating member 253 is slightly shorter than the horizontal length of the contact portion 91 of the conducting member 252. The insulating member 253 is fitted to the contact portion 91 of the conducting member 252 from the outside in the radial direction of the contact portion 91.
 なお、絶縁部材253の周壁の厚みは、特に限定されず、例えば、図51に示すように、フィルムなど薄く構成することもできる。 It should be noted that the thickness of the peripheral wall of the insulating member 253 is not particularly limited, and for example, as shown in FIG.
 また、絶縁部材253は、特に限定されず、例えば、図53に示すように、略枠形状であってもよい。 Further, the insulating member 253 is not particularly limited, and may be a substantially frame shape, for example, as shown in FIG.
 また、導通部材252の構成は、特に限定されず、例えば、図52A、Bに示すように、接触端部が先細り形状を有する接触部257と、接触部257を着脱可能に支持する支持部258とを分離可能に備えていてもよい。 Further, the configuration of the conductive member 252 is not particularly limited. For example, as illustrated in FIGS. 52A and 52B, a contact portion 257 having a tapered contact end portion and a support portion 258 that detachably supports the contact portion 257. May be provided so as to be separable.
 また、導通部材252は、図53に示すように、リング状の接点部255と、接点部255に接続されたワイヤ256とを備えてもよい。 Further, as shown in FIG. 53, the conducting member 252 may include a ring-shaped contact portion 255 and a wire 256 connected to the contact portion 255.
 この変形例では、現像電極251は、電極の一例である。導通部材252は、導通部の一例である。絶縁部材253は、絶縁部の一例である。 In this modification, the developing electrode 251 is an example of an electrode. The conducting member 252 is an example of a conducting part. The insulating member 253 is an example of an insulating part.
 この変形例によれば、導通部材252において現像電極251の導通を確保しながら、絶縁部材253において、外部の構成と現像電極251との意図しない導通を遮断することができる。 According to this modification, it is possible to block unintentional conduction between the external configuration and the developing electrode 251 in the insulating member 253 while ensuring the conduction of the developing electrode 251 in the conducting member 252.
 また、導通部材252と絶縁部材253とが一体的に移動するように構成されていると、現像電極251の移動中においても、外部の構成と現像電極251との意図しない導通を遮断することができる。
(2)また、現像電極261は、図54に示すように、カバー69に移動不能に支持される絶縁部材262と、絶縁部材262に対して移動可能な導通部材263とを備えてもよい。
In addition, when the conductive member 252 and the insulating member 253 are configured to move integrally, unintentional conduction between the external configuration and the developing electrode 251 can be interrupted even while the developing electrode 251 is moving. it can.
(2) Further, as shown in FIG. 54, the developing electrode 261 may include an insulating member 262 that is supported by the cover 69 so as not to move, and a conductive member 263 that can move with respect to the insulating member 262.
 カバー69は、図55に示すように、穴264を有している。 The cover 69 has a hole 264 as shown in FIG.
 穴264は、カバー69の開口94の前下方に配置されている。穴264は、カバー69の右壁を左右方向に貫通している。穴264は、側面視略矩形状を有している。 The hole 264 is disposed at the front lower side of the opening 94 of the cover 69. The hole 264 penetrates the right wall of the cover 69 in the left-right direction. The hole 264 has a substantially rectangular shape in side view.
 絶縁部材262は、前後方向に延び、その後端部で右方へ屈曲されて右方へ延びている。絶縁部材262は、平面視略L字の角柱形状を有している。絶縁部材262は、その上下方向中央において、上下に分離可能である。絶縁部材262の右端部は、穴264内にはまっている。 The insulating member 262 extends in the front-rear direction, is bent rightward at the rear end thereof, and extends rightward. The insulating member 262 has a substantially L-shaped prism shape in plan view. The insulating member 262 can be separated in the vertical direction at the center in the vertical direction. The right end portion of the insulating member 262 is fitted in the hole 264.
 導通部材263は、図56に示すように、絶縁部材262の内方に位置する内方位置(図54Aおよび図56A参照)と、絶縁部材262の右端部から右方へ大きく突出する外方位置(図54Aおよび図56A参照)との間で移動するように構成されている。 As shown in FIG. 56, the conducting member 263 has an inward position (see FIGS. 54A and 56A) located inward of the insulating member 262, and an outward position that protrudes greatly to the right from the right end of the insulating member 262. (Refer to FIG. 54A and FIG. 56A).
 導通部材263は、上記した第1実施形態の現像電極65と異なり、導通部材263が内方位置に位置するときに前後方向に延びているワイヤである。導通部材263は、その後端部において、絶縁部材262内に位置している。導通部材263は、導通部材263が内方位置から外方位置に移動するときに、絶縁部材262の形状に沿って右方向へ弾性変形するように構成されている。導通部材263は、導通部材263が外方位置に位置するときに、穴264から右方へ大きく突出している。また、導通部材263は、外方位置に配置されているときには、図56Bに仮想線で示すように、その径方向に弾性変形可能である。なお、導通部材263は、図57に示すように、板状部材であってもよい。 The conducting member 263 is a wire that extends in the front-rear direction when the conducting member 263 is located at the inward position, unlike the developing electrode 65 of the first embodiment described above. The conducting member 263 is located in the insulating member 262 at the rear end portion. The conducting member 263 is configured to elastically deform rightward along the shape of the insulating member 262 when the conducting member 263 moves from the inner position to the outer position. The conducting member 263 projects greatly to the right from the hole 264 when the conducting member 263 is located at the outer position. Further, when the conducting member 263 is disposed at the outward position, it can be elastically deformed in its radial direction as indicated by a virtual line in FIG. 56B. The conducting member 263 may be a plate-like member as shown in FIG.
 この変形例によれば、前後方向や上下方向から導通部材263に意図しない外力が加わった場合に、導通部材263が破損することを防止できる。 According to this modification, the conductive member 263 can be prevented from being damaged when an unintended external force is applied to the conductive member 263 from the front-rear direction or the vertical direction.
 また、この変形例によれば、絶縁部材262に対して導通部材263のみを移動させることができ、簡易な構成で、現像電極261の導通の確保と、外部の構成と現像電極261との意図しない導通の遮断とを実現できる。 Further, according to this modification, only the conducting member 263 can be moved with respect to the insulating member 262, and the conduction of the developing electrode 261 can be ensured, the external configuration and the intention of the developing electrode 261 can be achieved with a simple configuration. Can be achieved.
 また、図58Aに示すように、絶縁部材281は、弾性変形可能なフィルムなどであってもよい。絶縁部材281は、導通部材263の外径よりもわずかに小さな直径を有する穴282を有している。そして、導通部材263は、内方位置から外方位置へ移動するときに、絶縁部材281の穴282を突き抜ける。これにより、導通部材263の先端、すなわち、右端部は、穴282から右側へ突出する。
(3)また、現像電極65は、左右方向に延びるコイルばねであってもよい。この場合、現像電極65は、例えば、2~5mmの範囲で弾性変形可能である。
As shown in FIG. 58A, the insulating member 281 may be an elastically deformable film or the like. The insulating member 281 has a hole 282 having a diameter slightly smaller than the outer diameter of the conducting member 263. Then, the conduction member 263 penetrates the hole 282 of the insulating member 281 when moving from the inner position to the outer position. As a result, the tip of the conducting member 263, that is, the right end portion protrudes from the hole 282 to the right.
(3) The developing electrode 65 may be a coil spring extending in the left-right direction. In this case, the developing electrode 65 can be elastically deformed within a range of 2 to 5 mm, for example.
 現像電極65がコイルばねであると、本体ケーシング2の本体電極117に対して、現像電極を弾性的に接触させることができる。 When the developing electrode 65 is a coil spring, the developing electrode can be brought into elastic contact with the main body electrode 117 of the main body casing 2.
 その結果、本体電極117に対して、現像電極65をより確実に接触させることができる。 As a result, the developing electrode 65 can be more reliably brought into contact with the main body electrode 117.
 また、現像電極65が、例えば、2~5mmの範囲で弾性変形可能であると、本体電極117に対する現像電極65の接触圧を確保しながら、本体電極117に対して、現像電極65を弾性的に接触させることができる。 Further, if the developing electrode 65 is elastically deformable within a range of 2 to 5 mm, for example, the developing electrode 65 is elastically applied to the main body electrode 117 while ensuring the contact pressure of the developing electrode 65 to the main body electrode 117. Can be contacted.
 その結果、本体電極117に対して、現像電極65をより一層確実に接触させることができる。
(4)これらの変形例においても、上記した第1実施形態と同様の作用効果を得ることができる。
14.その他の変形例
 上記した各実施形態では、伝達機構部の一例としてギアを用いていたが、これに限定されるものではない。たとえば、回転体の外周面にゴム層を配置し、そのゴム層を他のギアまたは回転体のゴム層に接触させる構成であってもよい。
As a result, the developing electrode 65 can be more reliably brought into contact with the main body electrode 117.
(4) Also in these modified examples, the same operational effects as those of the first embodiment described above can be obtained.
14 Other Modifications In each of the above-described embodiments, the gear is used as an example of the transmission mechanism unit, but the present invention is not limited to this. For example, the rubber layer may be disposed on the outer peripheral surface of the rotating body, and the rubber layer may be in contact with another gear or the rubber layer of the rotating body.
 上記した各実施形態におけるハンドル部材は、操作者が直接的に延出位置から傾倒位置へ移動させることで、現像カップリングおよび現像電極を内方位置から外方位置に移動させていたが、たとえば、本体カバーが本体ケーシングの開口部を覆う閉鎖位置へ向けて移動するときに、ハンドル部材が本体カバーと当接することで、ハンドル部材が延出位置から傾倒位置へ移動する構成であってもよい。 The handle member in each of the above-described embodiments has moved the development coupling and the development electrode from the inward position to the outward position by the operator directly moving from the extended position to the tilted position. When the main body cover moves toward the closed position covering the opening of the main body casing, the handle member may come into contact with the main body cover so that the handle member moves from the extended position to the tilted position. .
 本発明は、上記した各実施形態および各変形例に限定されるものではなく、請求の範囲に記載された事項の範囲であれば各実施形態および各変形例の組み合わせ等の種々の設計変更を施すことが可能である。 The present invention is not limited to the above-described embodiments and modifications, and various design changes such as combinations of the embodiments and modifications may be made within the scope of the matters described in the claims. It is possible to apply.
 2    本体ケーシング2
 7    現像カートリッジ
 11   現像ローラ
 12   供給ローラ
 27L  左壁
 27R  右壁
 28   前壁
 44   現像カップリング
 64   圧縮ばね
 65   現像電極
 68   右直動カム
 77   右カラー
 91   接触部
 101  ハンドル部材
 104  規制部材
 121  供給ローラ軸
 131  右リンク機構
 134  リンク部材
 161  カップリング部材
 190  接触部
 194  現像電極
 226  規制部材
 243  係合シャフト
 251  現像電極
 252  導通部材
 253  絶縁部材
 A1   現像ローラの中心軸線
 A2   供給ローラの中心軸線
 L    共通接線 
2 Body casing 2
7 Developing Cartridge 11 Developing Roller 12 Supplying Roller 27L Left Wall 27R Right Wall 28 Front Wall 44 Developing Coupling 64 Compression Spring 65 Developing Electrode 68 Right-Directing Cam 77 Right Collar 91 Contact Portion 101 Handle Member 104 Restricting Member 121 Supply Roller Shaft 131 Right link mechanism 134 Link member 161 Coupling member 190 Contact portion 194 Developing electrode 226 Restricting member 243 Engagement shaft 251 Developing electrode 252 Conducting member 253 Insulating member A1 Central axis of the developing roller A2 Central axis of the supplying roller L Common tangent

Claims (26)

  1.  第1方向に延びる第1軸線を有する現像ローラと、
     外部から供給される電力を前記現像ローラに伝達するように構成され、前記現像ローラの前記第1軸線に沿って長い形状を有する電極と、
    を備え、
     前記電極は、第1位置と、前記電極が前記第1位置よりも外側に位置する第2位置との間を移動するように構成される
    ことを特徴とする、現像カートリッジ。
    A developing roller having a first axis extending in a first direction;
    An electrode configured to transmit electric power supplied from the outside to the developing roller, and having an elongated shape along the first axis of the developing roller;
    With
    The developing cartridge according to claim 1, wherein the electrode is configured to move between a first position and a second position where the electrode is located outside the first position.
  2.  前記電極は、前記第1軸線に沿って、前記第1位置と前記第2位置との間を移動するように構成される
    ことを特徴とする、請求項1に記載の現像カートリッジ。
    The developing cartridge according to claim 1, wherein the electrode is configured to move between the first position and the second position along the first axis.
  3.  前記第1位置または前記第2位置に前記電極を移動させるように構成される移動機構を備える
    ことを特徴とする、請求項1または2に記載の現像カートリッジ。
    The developing cartridge according to claim 1, further comprising a moving mechanism configured to move the electrode to the first position or the second position.
  4.  前記移動機構は、前記第1位置または前記第2位置に前記電極を移動させるように構成される移動部材を含む
    ことを特徴とする、請求項3に記載の現像カートリッジ。
    The developing cartridge according to claim 3, wherein the moving mechanism includes a moving member configured to move the electrode to the first position or the second position.
  5.  前記移動機構は、前記電極を付勢する付勢部材をさらに備える
    ことを特徴とする、請求項4記載の現像カートリッジ。
    The developing cartridge according to claim 4, wherein the moving mechanism further includes a biasing member that biases the electrode.
  6.  前記付勢部材は、前記電極を常に前記第2位置へ向かって付勢し、
     前記移動部材は、前記移動部材が前記付勢部材の付勢力に抗して前記電極を前記第1位置に向かって押圧する押圧位置と、前記移動部材が前記電極を前記第1位置に向かって押圧する押圧を解除する押圧解除位置とに移動するように構成される
    ことを特徴とする、請求項5に記載の現像カートリッジ。
    The biasing member always biases the electrode toward the second position,
    The moving member includes a pressing position where the moving member presses the electrode toward the first position against an urging force of the urging member, and the moving member moves the electrode toward the first position. The developing cartridge according to claim 5, wherein the developing cartridge is configured to move to a pressing release position that releases pressing.
  7.  前記電極の移動を規制するように構成される第1規制部材を備える
    ことを特徴とする、請求項3ないし6のいずれか一項に記載の現像カートリッジ。
    The developing cartridge according to claim 3, further comprising a first restricting member configured to restrict movement of the electrode.
  8.  前記第1規制部材は、前記移動機構の移動を規制するように構成される
    ことを特徴とする、請求項7に記載の現像カートリッジ。
    The developing cartridge according to claim 7, wherein the first restricting member is configured to restrict movement of the moving mechanism.
  9.  外部からの力を受けて移動することにより、前記電極を移動させるように構成される力受け部を備える
    ことを特徴とする、請求項3ないし8のいずれか一項に記載の現像カートリッジ。
    9. The developing cartridge according to claim 3, further comprising a force receiving portion configured to move the electrode by moving in response to an external force. 10.
  10.  前記力受け部は、前記外部からの力を受けて移動することにより、前記移動機構を移動させるように構成される
    ことを特徴とする、請求項9に記載の現像カートリッジ。
    The developing cartridge according to claim 9, wherein the force receiving portion is configured to move the moving mechanism by moving in response to the external force.
  11.  前記力受け部の移動を規制するように構成される第2規制部材を備える
    ことを特徴とする、請求項9または10に記載の現像カートリッジ。
    The developing cartridge according to claim 9, further comprising a second restricting member configured to restrict movement of the force receiving portion.
  12.  前記力受け部が受けた前記外部の力を前記力受け部から前記移動機構へ伝達することを遮断するように構成される遮断部材を備えることを特徴とする、請求項9または10に記載の現像カートリッジ。 11. The apparatus according to claim 9, further comprising a blocking member configured to block transmission of the external force received by the force receiving unit from the force receiving unit to the moving mechanism. Developer cartridge.
  13.  前記第1軸線と直交する方向において、前記現像ローラと間隔を隔てて位置する壁を有し、
     前記力受け部は、前記壁に配置されている
    ことを特徴とする、請求項9ないし12のいずれか一項に記載の現像カートリッジ。
    A wall that is spaced apart from the developing roller in a direction perpendicular to the first axis;
    The developing cartridge according to claim 9, wherein the force receiving portion is disposed on the wall.
  14.  前記力受け部は、把持部を備える
    ことを特徴とする、請求項9ないし13のいずれか一項に記載の現像カートリッジ。
    The developing cartridge according to claim 9, wherein the force receiving portion includes a grip portion.
  15.  前記把持部は、前記第1方向において、前記力受け部の中央に配置されている
    ことを特徴とする、請求項14に記載の現像カートリッジ。
    The developing cartridge according to claim 14, wherein the grip portion is disposed at a center of the force receiving portion in the first direction.
  16.  第1壁と、
     前記第1方向において前記第1壁と間隔を隔てて位置する第2壁と、
     外部からの駆動力を前記現像ローラに伝達するように構成されるカップリングと
    を備え、
     前記電極および前記カップリングは、前記第1壁に配置される
    ことを特徴とする、請求項1ないし15のいずれか一項に記載の現像カートリッジ。
    The first wall;
    A second wall positioned at a distance from the first wall in the first direction;
    A coupling configured to transmit an external driving force to the developing roller;
    The developer cartridge according to claim 1, wherein the electrode and the coupling are disposed on the first wall.
  17.  前記カップリングからの駆動力を受けるように構成される受動部材を備え、
     前記電極は、前記カップリングと前記受動部材との接触部分、前記カップリングと前記受動部材との共通接線、前記受動部材と接触するように構成される前記カップリングの周面、および、前記カップリングと接触するように構成される前記受動部材の周面に囲まれる領域内に配置されている
    ことを特徴とする、請求項16に記載の現像カートリッジ。
    Comprising a passive member configured to receive a driving force from the coupling;
    The electrode includes a contact portion between the coupling and the passive member, a common tangent line between the coupling and the passive member, a circumferential surface of the coupling configured to contact the passive member, and the cup The developing cartridge according to claim 16, wherein the developing cartridge is disposed in a region surrounded by a peripheral surface of the passive member configured to come into contact with a ring.
  18.  前記電極は、前記第1軸線に沿って弾性変形可能である
    ことを特徴する、請求項1ないし17のいずれか一項に記載の現像カートリッジ。
    The developing cartridge according to claim 1, wherein the electrode is elastically deformable along the first axis.
  19.  前記電極は、2~5mmの範囲で弾性変形可能である
    ことを特徴する、請求項1ないし18のいずれか一項に記載の現像カートリッジ。
    The developing cartridge according to any one of claims 1 to 18, wherein the electrode is elastically deformable in a range of 2 to 5 mm.
  20.  前記電極は、金属である
    ことを特徴する、請求項1ないし19のいずれか一項に記載の現像カートリッジ。
    The developer cartridge according to claim 1, wherein the electrode is a metal.
  21.  前記電極は、前記第1軸線と直交する直交方向において弾性変形可能である
    ことを特徴する、請求項1ないし20のいずれか一項に記載の現像カートリッジ。
    21. The developing cartridge according to claim 1, wherein the electrode is elastically deformable in an orthogonal direction orthogonal to the first axis.
  22.  前記第1軸線と直交する方向において、前記電極の寸法は、0.01~3mmである
    ことを特徴する、請求項1ないし21のいずれか一項に記載の現像カートリッジ。
    The developing cartridge according to any one of claims 1 to 21, wherein a dimension of the electrode is 0.01 to 3 mm in a direction orthogonal to the first axis.
  23.  前記第1軸線に沿って延び、かつ、前記現像ローラの近傍に配置されるカラーをさらに備え、
     前記電極は、前記第1位置において、前記カラーよりも前記第1方向の内側に位置し、前記第2位置において、前記カラーよりも前記第1方向の外側に位置するように構成される
    ことを特徴とする、請求項1ないし22のいずれか一項に記載の現像カートリッジ。
    Further comprising a collar extending along the first axis and disposed in the vicinity of the developing roller;
    The electrode is configured to be located inside the first direction with respect to the collar at the first position, and to be located outside of the color with respect to the collar at the second position. The developing cartridge according to any one of claims 1 to 22, wherein the developing cartridge is characterized in that:
  24.  前記電極は、導通部と、前記導通部の少なくとも一部の表面を被覆する絶縁部とを含むことを特徴する、請求項1ないし23のいずれか一項に記載の現像カートリッジ。 The developing cartridge according to any one of claims 1 to 23, wherein the electrode includes a conductive portion and an insulating portion that covers at least a part of the surface of the conductive portion.
  25.  前記導通部および前記絶縁部は、一体的に移動するように構成される
    ことを特徴とする、請求項24に記載の現像カートリッジ。
    The developing cartridge according to claim 24, wherein the conducting portion and the insulating portion are configured to move integrally.
  26.  前記導通部および前記絶縁部は、別々に移動するように構成される
    ことを特徴とする、請求項24に記載の現像カートリッジ。
    The developing cartridge according to claim 24, wherein the conducting portion and the insulating portion are configured to move separately.
PCT/JP2013/057279 2013-03-14 2013-03-14 Developing cartridge WO2014141445A1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PCT/JP2013/057279 WO2014141445A1 (en) 2013-03-14 2013-03-14 Developing cartridge

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/JP2013/057279 WO2014141445A1 (en) 2013-03-14 2013-03-14 Developing cartridge

Publications (1)

Publication Number Publication Date
WO2014141445A1 true WO2014141445A1 (en) 2014-09-18

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ID=51536140

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Application Number Title Priority Date Filing Date
PCT/JP2013/057279 WO2014141445A1 (en) 2013-03-14 2013-03-14 Developing cartridge

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Country Link
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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2005241949A (en) * 2004-02-26 2005-09-08 Canon Inc Contact point structure and image forming device
JP2007079284A (en) * 2005-09-15 2007-03-29 Brother Ind Ltd Developing cartridge, process cartridge and image forming apparatus
JP2008185825A (en) * 2007-01-30 2008-08-14 Brother Ind Ltd Process unit, image forming apparatus and developing cartridge
JP2011175034A (en) * 2010-02-23 2011-09-08 Brother Industries Ltd Developing cartridge and image forming apparatus

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2005241949A (en) * 2004-02-26 2005-09-08 Canon Inc Contact point structure and image forming device
JP2007079284A (en) * 2005-09-15 2007-03-29 Brother Ind Ltd Developing cartridge, process cartridge and image forming apparatus
JP2008185825A (en) * 2007-01-30 2008-08-14 Brother Ind Ltd Process unit, image forming apparatus and developing cartridge
JP2011175034A (en) * 2010-02-23 2011-09-08 Brother Industries Ltd Developing cartridge and image forming apparatus

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