JP2011017939A - Image forming apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an image forming apparatus capable of easily carrying out maintenance of a cleaning unit and separating a developer carrier from a photoreceptor, while keeping positional accuracy of the photoreceptor, in a simple configuration.SOLUTION: The image forming apparatus includes: the photoreceptor drum 16; a belt cleaner 81 removing waste toner from a conveying belt 24 facing the photoreceptor drum 16; a waste toner storage part 112 integrally provided to a black developing cartridge 15K supplying toner to the photoreceptor drum 16; and a lift 61 connected to the belt cleaner 81 and the waste toner storage part 112 and conveying the waste toner from the belt cleaner 81 to the waste toner storage part 112. By rocking the black developing cartridge 15K using the connection part of the lift 61 and the waste toner storage part 112 as a fulcrum, a developing roller 19 is separated from the photoreceptor drum 16.

Description

  The present invention relates to an image forming apparatus such as an electrophotographic color printer.

  As an electrophotographic color printer, a developing cartridge that contains toner of four colors of yellow, magenta, cyan, and black, four photosensitive drums corresponding to each developing cartridge, a belt unit having an endless belt, and an endless belt A cleaning unit that collects adhering toner and stores it in a cleaning box, and a belt unit is disposed so as to face each photosensitive drum, and the cleaning unit is sandwiched between each photosensitive drum. Arranged tandem color laser printers are known.

  Further, such a tandem type color laser printer is provided for each photosensitive drum, and includes drum cleaning for removing the waste developer remaining on each photosensitive drum. In this tandem type color laser printer, the waste developer removed by drum cleaning is once discharged to the transport belt and then collected in the cleaning box of the cleaning unit.

  As such a tandem color laser printer, for example, it includes four image forming units that contain toner corresponding to each color and have a photosensitive drum, and an individual up / down mechanism that individually raises and lowers each image forming unit, When performing full color printing, all image forming units are placed at the image forming position, and when performing single color printing or limited color printing, the individual image forming units that are not used are individually moved to the non-image forming position by the individual up / down mechanism. A color image forming apparatus to be moved is known (for example, see Patent Document 1).

JP 2006-78544 A

  However, in the color image forming apparatus described in Patent Document 1, in order to maintain the cleaning box (for example, processing of the waste developer), after removing each image forming unit and further removing the transport belt unit, There is a problem that the cleaning box must be maintained, and the cleaning box cannot be maintained with good workability.

Therefore, it is considered to provide the cleaning box integrally with the image forming unit. If the cleaning box is provided integrally with the image forming unit, the cleaning box can be maintained simultaneously with the attachment / detachment of the image forming unit.
However, if the cleaning box is provided integrally with the image forming unit, it is necessary to move the cleaning box together when the image forming unit is moved to the image forming position or the non-image forming position by the individual up / down mechanism. The structure around the forming part is complicated.

Furthermore, in this color image forming apparatus, the image forming unit has a photosensitive drum, and when the image forming unit is moved to the image forming position or the non-image forming position, the photosensitive drum is also moved together.
Therefore, it is necessary to reposition the photosensitive drum every time the image forming unit is moved to the image forming position or the non-image forming position, and it is difficult to maintain the positional accuracy of the photosensitive drum such as the interval between the photosensitive drums. .

  SUMMARY OF THE INVENTION An object of the present invention is to provide an image in which the cleaning unit can be easily maintained with a simple configuration, and the developer carrying member can be separated from the photosensitive member while maintaining the positional accuracy of the photosensitive member. It is to provide a forming apparatus.

  In order to achieve the above-described object, the first invention is an image forming apparatus, which is an apparatus main body, a photoconductor provided in the apparatus main body, a developer storage chamber for storing a developer, and the photosensitive device. A developer carrying body for supplying a developer to the body, and a development unit provided detachably with respect to the apparatus main body; opposed to the photoconductor; on one side in a direction orthogonal to the facing direction to the photoconductor An endless belt that moves toward the other side, a cleaning unit that contacts the endless belt and removes the developer from the endless belt, and is provided integrally with the developing unit and is accommodated in the cleaning unit A developer stored in the cleaning unit, connected to the waste toner storage unit for storing the developer, the cleaning unit, and the waste toner storage unit Wherein a transport unit that transports the waste toner container, the developing unit is characterized by being configured to swingably connecting portion between the transport unit and the waste toner storing portion as a fulcrum.

  According to a second aspect of the present invention, there is provided an image forming apparatus, the apparatus main body, a photoconductor provided in the apparatus main body, a developer storage chamber for storing the developer, and supplying the developer to the photoconductor. A developing unit that is detachably provided to the apparatus main body, a cleaning unit that contacts the photoconductor and removes the developer remaining on the photoconductor, and stores the developer unit. A waste toner storage unit that is provided integrally with the developing unit and stores the developer stored in the cleaning unit, and is connected to the cleaning unit and the waste toner storage unit, and is stored in the cleaning unit. A transport unit that transports the developer to the waste toner storage unit, and the development unit swings around a connecting portion between the transport unit and the waste toner storage unit. It is characterized by being configured to capacity.

According to the first invention, the developer attached to the endless belt is removed by the cleaning unit, and thereafter, the developer is transported from the cleaning unit to the waste toner container by the transport unit and stored in the waste toner container.
Therefore, the developer (waste developer) removed by the cleaning unit can be stored in a waste toner container integrally provided in the development unit, and the waste toner container in which the waste developer is stored can be developed. It can be exchanged with the work of exchanging the unit.

As a result, the cleaning unit can be easily maintained.
The developing unit is configured to be swingable about a connecting portion between the transport unit and the waste toner container. Thereby, the developer carrying member can be separated from the photosensitive member by swinging the developing unit.
Therefore, the developer carrying member can be separated from the photosensitive member by swinging the developing unit without moving the photosensitive member, the cleaning unit, and the transport unit.

As a result, even when the waste toner container is provided in the development unit and the cleaning unit and waste toner container are connected by the transport unit, the developer is supported while maintaining the positional accuracy of the photoreceptor without moving the photoreceptor. The body can be separated from the photoreceptor.
According to the second invention, the developer remaining on the photosensitive member is removed by the cleaning unit, and then conveyed from the cleaning unit to the waste toner container by the transport unit and stored in the waste toner container.

Therefore, the developer (waste developer) removed by the cleaning unit can be stored in a waste toner container integrally provided in the development unit, and the waste toner container in which the waste developer is stored can be developed. It can be exchanged with the work of exchanging the unit.
As a result, the cleaning unit can be easily maintained.
Further, the developing unit is configured to be swingable with a connecting portion between the transport unit and the waste toner container as a fulcrum. Thereby, the developer carrying member can be separated from the photosensitive member by swinging the developing unit.

Therefore, the developer carrying member can be separated from the photosensitive member by swinging only the developing unit without moving the photosensitive member, the cleaning unit, and the transport unit.
As a result, even when the waste toner container is provided in the development unit and the cleaning unit and waste toner container are connected by the transport unit, the developer is supported while maintaining the positional accuracy of the photoreceptor without moving the photoreceptor. The body can be separated from the photoreceptor.

1 is a side sectional view showing a first embodiment of a color laser printer as an example of an image forming apparatus of the present invention. The process frame shown in FIG. 1 is shown, (a) is a perspective view, and (b) is a perspective view of the shutter shown in (a). It is a perspective view of the supporting member shown in Drawing 2 (a), (a) shows the state where the pressing member stood up, and (b) shows the state where the pressing member inclined. It is AA sectional drawing of the process frame shown to Fig.2 (a). FIG. 2 is a perspective view of a black developing cartridge shown in FIG. 1. FIG. 5 is a cross-sectional view of the black developing cartridge shown in FIG. 4 taken along the line BB. FIG. 2 is a perspective view of the color developing cartridge shown in FIG. 1. FIG. 2 is an explanatory diagram for explaining a color laser printer in a color mode, in which (a) shows a state in which all developing cartridges are in contact with corresponding photosensitive drums and a belt cleaning roller is separated from a conveying belt. . (B) is explanatory drawing explaining operation of the cock shown by (a), Comprising: The tilting state in which a shutter part is located in an open position is shown. (C) is explanatory drawing explaining operation of the cock shown by (a), Comprising: The standing state in which a shutter part is located in a closed position is shown. FIG. 5 is an explanatory diagram for explaining a color laser printer in a monochrome mode, in which a developing cartridge other than a black developing cartridge is separated from a corresponding photosensitive drum, and a belt cleaning roller is separated from a conveying belt. FIG. 4 is an explanatory diagram for explaining a waste toner collecting operation of a color laser printer, showing a state in which a developing cartridge other than a black developing cartridge is separated from a corresponding photosensitive drum and a belt cleaning roller is in contact with a conveyance belt. . It is a sectional side view which shows 2nd Embodiment of the color laser printer as an example of the image forming apparatus of this invention. It is explanatory drawing explaining attachment / detachment of the process unit, drum unit, and developing cartridge which are shown in FIG. It is a front view of the drum unit shown in FIG. It is AA sectional drawing of the drum unit shown in FIG. It is BB sectional drawing of the drum unit shown in FIG. It is CC sectional drawing of the drum unit shown in FIG. It is explanatory drawing for demonstrating the closing operation | movement of the shutter shown in FIG. FIG. 13 is a perspective view of the developing cartridge shown in FIG. 12. It is DD sectional drawing of the developing cartridge shown in FIG. FIG. 13 is a front view of a drum unit equipped with the developing cartridge shown in FIG. 12. FIG. 21 is an EE cross-sectional view of a drum unit equipped with the developing cartridge shown in FIG. 20. It is explanatory drawing for demonstrating the monochrome mode of the color laser printer shown in FIG.

1. Overall Configuration of Color Laser Printer As shown in FIG. 1, a color laser printer 1 as an example of an image forming apparatus is a horizontal type direct tandem type color laser printer. The color laser printer 1 includes a paper feeding unit 3 for feeding paper P and an image forming unit 4 for forming an image on the fed paper P in a main body casing 2 as an example of an apparatus main body. And an image reading unit 5 for reading image information of the document. In other words, the color laser printer 1 is a multifunction machine that integrally includes the image forming unit 4 and the image reading unit 5.
(1) Main Body Casing The main body casing 2 is formed in a box shape having a substantially rectangular shape in side view that accommodates the paper feeding unit 3, the image forming unit 4, and the image reading unit 5, and a process described later is provided on one side wall thereof. A front cover 6 for attaching and detaching the unit 11 is provided.

In the following description, the side where the front cover 6 is provided (the right side in FIG. 1) is the front side, and the opposite side (the left side in FIG. 1) is the rear side. In addition, when the color laser printer 1 is viewed from the front side, 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.
(2) Paper Feed Unit The paper feed unit 3 includes a paper feed tray 7 that stores the paper P. The paper feed tray 7 is detachably attached to the bottom of the main casing 2. Above the front end of the paper feed tray 7, a paper feed roller 8 and a paper feed path 9 comprising a U-turn path are arranged.

The paper P stored in the paper feed tray 7 is fed one by one toward the paper feed path 9 by the rotation of the paper feed roller 8. Thereafter, the paper P is conveyed from the paper supply path 9 toward the image forming unit 4 (between a photosensitive drum 16 (described later) and a conveyor belt 24 (described later)).
(3) Image Forming Unit The image forming unit 4 includes a scanner unit 10, a process unit 11, a transfer unit 12, and a fixing unit 13.
(3-1) Scanner Unit The scanner unit 10 is disposed on the upper part of the main body casing 2. As indicated by solid lines, the scanner unit 10 emits laser beams to four photosensitive drums 16 (described later) based on the image data to expose the photosensitive drums 16 (described later).
(3-2) Process Unit (3-2-1) Configuration of Process Unit The process unit 11 is disposed below the scanner unit 10 and above the transfer unit 12, and is an example of a holding member 1 One process frame 14 and four developing cartridges 15 as an example of a developing unit corresponding to each color are provided.

The process frame 14 is slidable along the front-rear direction with respect to the main body casing 2 and is detachably provided. The process frame 14 holds a photosensitive drum 16, a scorotron charger 17 and a drum cleaning roller 18 as an example of a photosensitive member. is doing.
Four photosensitive drums 16 are arranged in parallel along the left-right direction at intervals in the front-rear direction. Specifically, a black photosensitive drum 16K, a yellow photosensitive drum 16Y, a magenta photosensitive drum 16M, and a cyan photosensitive drum 16C are sequentially arranged from the front side to the rear side.

The scorotron charger 17 is disposed above the photosensitive drum 16 at an obliquely rear upper side so as to face the photosensitive drum 16 with a gap.
The drum cleaning roller 18 is disposed behind the photosensitive drum 16 so as to face and contact the photosensitive drum 16.
Each developing cartridge 15 is detachably held on the process frame 14 above the photosensitive drum 16 so as to correspond to each photosensitive drum 16. Specifically, a black developing cartridge 15K, a yellow developing cartridge 15Y, a magenta developing cartridge 15M, and a cyan developing cartridge 15C are sequentially arranged from the front side to the rear side. Each developing cartridge 15 includes a developing roller 19 as an example of a developer carrier.

The developing roller 19 is rotatably supported at the lower end of the developing cartridge 15 so as to expose an obliquely lower rear side, and is disposed so as to contact the photosensitive drum 16 from above.
The developing cartridge 15 includes a supply roller 20 that supplies toner to the developing roller 19 and a layer thickness regulating blade 21 that regulates the thickness of the toner supplied to the developing roller 19, and the space above them corresponds to each color. It is partitioned as a toner box 34 as an example of a developer storage chamber that stores toner as an example of the developer to be developed.
(3-2-2) Development Operation in Process Unit The toner in the toner box 34 is supplied to the supply roller 20 and further supplied to the development roller 19, and positive polarity is provided between the supply roller 20 and the development roller 19. Is triboelectrically charged.

The toner supplied to the developing roller 19 is regulated by the layer thickness regulating blade 21 as the developing roller 19 rotates, and is carried on the surface of the developing roller 19 as a thin layer having a constant thickness.
On the other hand, the surface of the photosensitive drum 16 is uniformly positively charged by the scorotron charger 17 as the photosensitive drum 16 rotates, and then the laser beam from the scanner unit 10 (see the broken line in FIG. 1) is scanned at high speed. Is exposed. As a result, an electrostatic latent image corresponding to the image to be formed on the paper P is formed on the surface of the photosensitive drum 16.

When the photosensitive drum 16 further rotates, the positively charged toner carried on the surface of the developing roller 19 is supplied to the electrostatic latent image formed on the surface of the photosensitive drum 16. As a result, the electrostatic latent image on the photosensitive drum 16 is visualized, and a toner image by reversal development is carried on the surface of the photosensitive drum 16.
(3-3) Transfer Unit The transfer unit 12 is disposed along the front-rear direction in the main body casing 2 above the paper feed unit 3 and below the process unit 11. The transfer unit 12 includes a driving roller 22, a driven roller 23, a conveyance belt 24 as an example of an endless belt, and four transfer rollers 35.

The driving roller 22 and the driven roller 23 are arranged to face each other with a space in the front-rear direction.
The conveyor belt 24 is wound around the driving roller 22 and the driven roller 23 so as to face each photosensitive drum 16 in the vertical direction and to have an upper portion thereof in contact with each photosensitive drum 16. Further, the conveyance belt 24 is rotated by the drive roller 22 so that the upper portion of the conveyance belt 24 that contacts each photosensitive drum 16 moves from the front toward the rear.

Each transfer roller 35 is provided to face each photosensitive drum 16 with the upper portion of the transport belt 24 interposed therebetween.
Then, the paper P fed from the paper feeding unit 3 is transported by the transport belt 24 from the front side to the rear side so as to sequentially pass through the transfer positions where the photosensitive drums 16 and the transfer rollers 35 face each other. Is done. During the conveyance, the toner images of the respective colors carried on the respective photosensitive drums 16 are sequentially transferred onto the paper P to form a color image.

Note that toner may remain on the outer peripheral surface of the photosensitive drum 16 after the transfer of the toner image from the photosensitive drum 16 to the paper P. In this case, the remaining waste toner is transferred to the outer peripheral surface of the drum cleaning roller 18 by the cleaning bias applied to the drum cleaning roller 18 when facing the drum cleaning roller 18 by the rotation of the photosensitive drum 16. Temporarily held on the drum cleaning roller 18.
(3-4) Fixing Unit The fixing unit 13 includes a heating roller 25 and a pressure roller 26 that faces the heating roller 25 and is disposed behind the transfer unit 12. In the transfer unit 12, the color image transferred to the paper P is thermally fixed to the paper P by being heated and pressed while the paper P passes between the heating roller 25 and the pressure roller 26. .
(4) Paper Discharge The paper P on which the toner image has been fixed passes through a paper discharge path 27 consisting of a U-turn path and is conveyed toward the paper discharge roller 28, and is formed above the scanner unit 10 by the paper discharge roller 28. The paper is discharged onto the paper discharge tray 29.
(5) Image Reading Unit The image reading unit 5 includes a document table 30 and a presser cover 31 that is swingably supported by the document table 30 and is provided above the paper discharge tray 29.

The document table 30 is formed in a rectangular plate shape in plan view, and a glass surface 32 on which a document is placed is provided on the upper surface. The document table 30 includes a CCD sensor 33 for reading a document placed on the glass surface 32 below the glass surface.
The CCD sensor 33 slides along the left-right direction while facing the glass surface 32 when reading a document.

The presser cover 31 is formed in a rectangular shape in plan view so as to cover the document table 30 from above. The presser cover 31 tilts and swings between a closed position that covers the glass surface 32 from above and an open position that stands and exposes the upper surface of the glass surface 32.
Then, in the image reading unit 5, after the original is placed between the presser cover 31 and the glass surface 32, the CCD sensor 33 slides to read the image information of the original.

Then, based on the read image information of the document, the image forming unit 4 can form an image on the paper P as described above. The color laser printer 1 has a function of transmitting the image information to a personal computer (not shown) connected to the color laser printer 1 or transmitting it through a public telephone line.
2. Details of Process Unit (1) Process Frame As shown in FIG. 2 (a), the process frame 14 is a pair of front beam 41 and rear beam 42 that are opposed to each other with an interval in the left-right direction so as to sandwich them. Side plate 43.

The front beam 41 is provided between the front end portions of the side plates 43 and is formed in a substantially rectangular flat plate shape extending in the left-right direction. When the process frame 14 is attached to or detached from the main body casing 2 on the front surface, the front beam 41 is formed. The frame grip 44 for the user to grip is provided so as to tilt or stand up.
The rear beam 42 is provided between the rear ends of the side plates 43 and is formed in a substantially rectangular flat plate shape extending in the left-right direction when viewed from the front.

The side plates 43 (hereinafter, when referring to the arrangement of the side plates 43 in the left-right direction, the left side plate 43 is referred to as the left side plate 43L and the right side plate 43 is referred to as the right side plate 43R) side view extending in the front-rear direction. It is formed in a substantially rectangular flat plate shape, and both ends of each photosensitive drum 16 are rotatably supported.
Further, four pairs of support plates 45 are provided on both side plates 43 along the front-rear direction so as to correspond to the developing cartridges 15 so as to be opposed to each other with an interval in the left-right direction.

Both support plates 45 are formed in a flat plate shape that bulges inward from the inner side surfaces of both side plates 43, and development guide grooves 46 are formed in both support plates 45.
The developing guide grooves 46 corresponding to the color developing cartridges 15 (the yellow developing cartridge 15Y, the magenta developing cartridge 15M, and the cyan developing cartridge 15C) are abbreviated in a side view in which the upper side is opened downward from the upper end edge of the support plate 45. It is cut out in a U-shape, and its lower end is disposed in the vicinity of the photosensitive drum 16.

The developing guide groove 46 corresponding to the black developing cartridge 15K has the same vertical length as the developing support grooves 47 corresponding to the color developing cartridge 15, and the longitudinal length allowing the black developing cartridge 15K to swing. In addition, it is formed.
Each developing guide groove 46 receives a developing guide shaft 116 (described later) of the corresponding developing cartridge 15 and guides the mounting of the developing cartridge 15 to the process frame 14.

In addition, four developing support grooves 47 are formed in the side plates 43 corresponding to the developing cartridges 15.
Each development support groove 47 is arranged so as to overlap with the corresponding development guide groove 46 when projected in the left-right direction.
Each developing support groove 47 corresponding to the color developing cartridge 15 is cut out in a substantially U shape in a side view with the upper side opened from the upper end edge of both side plates 43 and shorter than the developing guide groove 46. It is formed in a vertical length.

  The developing support groove 47 corresponding to the black developing cartridge 15K is notched in a substantially V shape in a side view in which the upper side is opened downward from the upper edge of the side plates 43 and the lower end is curved in an arc shape. Yes. Further, the development support grooves 47 corresponding to the black development cartridge 15K are formed to have the same vertical length as the development support grooves 47 corresponding to the color development cartridges 15. Further, the front end portion of the developing support groove 47 corresponding to the black developing cartridge 15K extends in the vertical direction, and the rear end portion of the developing support groove 47 corresponding to the black developing cartridge 15K is continuous from the lower end portion thereof. It extends so that it may incline upward as it goes to the back from the front. That is, the developing support groove 47 corresponding to the black developing cartridge 15K is formed so that the length in the front-rear direction is expanded rearward from the bottom to the top so as to allow the black developing cartridge 15K to swing. Has been.

  Further, four development coupling holes 48 are formed through the right side plate 43R so as to overlap the development guide groove 46 when projected in the left-right direction. Each developing coupling hole 48 corresponding to the color developing cartridge 15 is formed as a long hole extending in the vertical direction. The developing coupling hole 48 corresponding to the black developing cartridge 15K is formed as a long hole that is inclined upward from the front to the rear so as to allow the black developing cartridge 15K to swing.

Each developing coupling hole 48 exposes a developing coupling (not shown) for inputting a driving force to each developing cartridge 15 from the right side when each developing cartridge 15 is attached to the process frame 14.
Further, the right side plate 43R includes a support member 51 at its front end.
As shown in FIG. 3A, the support member 51 is formed in a substantially rectangular shape when viewed from the side, and includes a receiving member 52 and a pressing member 53.

The receiving member 52 is formed in a substantially rectangular shape when viewed from the side, and a developing cartridge fitting portion 54 and a pressing member fitting portion 55 are formed at the upper end portion thereof.
The developing cartridge fitting portion 54 is provided on the front side of the receiving member 52. A developing cartridge fitting groove 56 is formed in the developing cartridge fitting portion 54.
The developing cartridge fitting groove 56 is notched downward from the upper end edge, and is opened obliquely upward and forward along the outer peripheral surface of a connecting portion 130 (described later) of a waste toner conveying tube 113 (described later). It is formed in a C shape when viewed from the side cross section. The developing cartridge fitting groove 56 receives a right end portion of a connecting portion 130 (described later) of a waste toner conveying tube 113 (described later).

The pressing member fitting portion 55 is provided behind the developing cartridge fitting portion 54. A presser member fitting groove 57 is formed in the presser member fitting portion 55.
The pressing member fitting groove 57 is cut out from the rear end of the receiving member 52 forward so as to receive the receiving member 52 along the vertical direction, and is formed in a substantially rectangular shape in side view extending in the vertical direction. Yes. A support shaft 58 is provided in the lower end portion of the pressing member fitting groove 57 so as to protrude leftward from the right end portion of the pressing member fitting portion 55 and extend in the left-right direction.

The pressing member 53 is formed in a substantially L shape in side view. Specifically, when the presser member 53 is fitted in the presser member fitting groove 57, the presser member 53 extends in the vertical direction and is bent forward at the upper end portion thereof. Moreover, the lower end part of the pressing member 53 is formed in the substantially circular shape in side view, and the support shaft 58 is penetrated by the center so that relative rotation is possible.
A coil spring 59 is wound around the support shaft 58, one end of the coil spring 59 is connected to the receiving member 52, and the other end of the coil spring 59 is connected to the front end edge of the pressing member 53. Yes. As a result, the pressing member 53 is always urged forward, and stands up so as to come into contact with the rear end portion of the developing cartridge fitting portion 54 from the rear (see FIG. 3A). Further, the pressing member 53 tilts backward with the lower end portion as a fulcrum against the urging force of the coil spring 59 (see FIG. 3B).

Further, as shown in FIG. 8A, a guide hole 49 and an eccentric cam support hole 103 are formed in the both side plates 43.
The guide hole 49 is a long hole extending in the vertical direction, and is formed through the front end of the black photosensitive drum 16K at the lower end portion of the side plates 43. The guide hole 49 receives the belt cleaning roller shaft 87 (described later) and guides the swinging of the belt cleaner 81 (described later).

The eccentric cam support hole 103 is disposed below the guide hole 49 and has a substantially circular shape when viewed from the side. The eccentric cam support hole 103 receives an eccentric cam swing shaft 102 (described later).
(2) Lift The process unit 11 includes a lift 61 as an example of a transport unit that transports waste toner upward.

As shown in FIGS. 2A and 4, the lift 61 is fixed to the left side plate 43L on the left side of the front end portion of the left side plate 43L, and has seven lift side waste toner storage units 62, seven A blade member 63, a lift-side relay part 64, a shutter 65, and a lift-side connecting part 66 are provided.
The lift-side waste toner storage portions 62 are formed in a hollow, substantially cylindrical shape extending in the left-right direction, and are connected to each other in a zigzag shape so as to overlap each other when projected in the front-rear direction. Yes. Specifically, the seven lift-side waste toner reservoirs are connected so that the lower lift-side waste toner reservoir 62 and the lift-side waste toner reservoir 62 adjacent to the front diagonally upper side or the rear diagonally upper side are connected to each other. 62 are sequentially connected.

In addition, the lowermost lift side waste toner storage unit 62 rotatably supports the left end portion of the first screw 86 (described later) so as to share the axis.
The blade member 63 is provided in each lift-side waste toner reservoir 62 and includes a blade shaft 67 and a blade 68.
The blade shaft 67 is inserted into the lift-side waste toner reservoir 62 so as to be rotatable relative to the lift-side waste toner reservoir 62 so as to share the central axis with the lift-side waste toner reservoir 62. Although not shown, the space between the lift-side waste toner reservoir 62 and the blade shaft 67 is sealed so that the toner does not leak.

  Two blades 68 are provided in the lift-side waste toner reservoir 62 so as to extend toward both sides in the radial direction of the blade shaft 67 integrally with the blade shaft 67. Further, the length of the blade 68 in the radial direction of the blade shaft 67 is such a length as to contact the inner peripheral surface of each lift-side waste toner reservoir 62 from the inside. Further, the length in the left-right direction of the blade 68 is substantially equal to the length in the left-right direction of the inner space of each lift-side waste toner reservoir 62.

In the lowermost lift-side waste toner reservoir 62, the shaft of the first screw 86 (described later) disposed in the lift-side waste toner reservoir 62 is used as a blade shaft 67 and the first screw 86 (described later) A blade 68 is integrally provided at the left end.
The lift-side relay unit 64 is provided in a diagonally upper front side of the uppermost lift-side waste toner storage unit 62, and is formed in a U-shaped side sectional view that is opened obliquely forward and upward. The lift-side relay portion 64 is formed with a lift-side communication port 69 having a rectangular shape in front view that communicates with the uppermost lift-side waste toner storage portion 62 at the rear end thereof. The lift-side relay portion 64 is formed with a shutter support hole 70 that penetrates in the left-right direction on the left side wall and receives a support boss 72 (described later) of the shutter 65. Moreover, the lift side relay part 64 receives the shutter part 124 (after-mentioned) of the cock 122 (after-mentioned) from upper direction.

  As shown in FIG. 2B, the shutter 65 is formed in a partial cylindrical shape having a substantially fan shape in a side view. Specifically, the support part 71 having a substantially fan-shaped side view with a central angle of about 120 °, a support boss 72 protruding leftward from the central angle part of the support part 71, and a rightward direction from the arc part of the support part 71 A covering portion 73 that extends in an integrated manner is provided. In addition, a fitting hole 74 that receives a fitting protrusion 127 (described later) is formed in the shutter 65 so as to extend in the left-right direction at the front end portion of the covering portion 73.

The shutter 65 is accommodated in the lift-side relay portion 64 such that the support boss 72 is rotatably inserted into the shutter support hole 70 and the outer surface of the covering portion 73 faces the inner surface of the lift-side relay portion 64. Yes.
Thus, the shutter 65 has a closed position (see FIG. 8C) in which the rear end portion opposes the lift side communication port 69 in the front-rear direction and an open position in which the rear end portion is disposed below the lift side communication port 69. It swings around the support boss 72 at a position (see FIG. 8B).

As shown in FIG. 4, the lift-side connecting portion 66 continuously protrudes rightward from the right end surface of the lowermost lift-side waste toner storage portion 62 and has a slightly smaller diameter than the cleaner-side connecting portion 91 (described later). It is formed into a shape. Further, the lift side connecting portion 66 is made non-rotatable from the left in a through hole 39 (see FIG. 4) formed in the lower end portion of the left side plate 43L so as to protrude rightward from the right side surface of the left side plate 43L. It is inserted. Further, a lift-side seal member 75 is attached to the outer peripheral surface of the lift-side connecting portion 66 disposed on the right side of the left side plate 43L.
(3) Belt Cleaner The process unit 11 also includes a belt cleaner 81 as an example of a cleaning unit that contacts the transport belt 24 and removes waste toner from the surface of the transport belt 24.

As shown in FIGS. 1 and 4, the belt cleaner 81 is disposed obliquely in front of the black photosensitive drum 16 </ b> K, and includes a housing 82, a belt cleaning roller 83, a relay roller 84, a cleaner-side waste toner storage unit 85, and a first cleaner. A screw 86 is provided.
The casing 82 is formed in a box shape extending along the left-right direction.
The belt cleaning roller 83 is accommodated in the housing 82, and is arranged along the left-right direction at the rear end portion of the housing 82 so that the lower end portion is exposed from below. The belt cleaning roller 83 contacts the transport belt 24 at the lower end edge.

Further, as shown in FIG. 8A, the belt cleaning roller 83 includes a belt cleaning roller shaft 87 and a coating layer 88 that covers the belt cleaning roller shaft 87.
The belt cleaning roller shaft 87 is formed to have a lateral length that is longer than the lateral length of the process frame 14. Further, the belt cleaning roller shaft 87 is rotatably supported by the housing 82 so as to protrude outward in the left-right direction from both left and right ends of the housing 82.

The covering layer 88 is made of foamed rubber or sponge, is formed to have a length in the left-right direction that is shorter than the length in the left-right direction of the belt cleaning roller shaft 87, and is housed in the housing 82.
The relay roller 84 is accommodated in the housing 82 and is disposed along the left-right direction so as to contact the belt cleaning roller 83 at an obliquely upper front side of the belt cleaning roller 83. Further, the relay roller 84 is rotatably supported by the housing 82.

The cleaner-side waste toner storage unit 85 is partitioned in the housing 82 as a space in which the first screw 86 is disposed. A scraper blade 85 </ b> A that scrapes off the toner of the relay roller 84 is provided in the opening of the cleaner-side waste toner storage unit 85 facing the relay roller.
As shown in FIG. 4, the first screw 86 is formed in a left-hand thread shape, and is disposed along the left-right direction in the cleaner-side waste toner storage portion 85.

The belt cleaner 81 is provided with a gear cover 89 and a screw bearing 90 at the right end thereof, and is provided with a cleaner side connecting portion 91 at the left end thereof.
The gear cover 89 is fixed to the right end portion of the housing 82.
The screw bearing 90 is formed in a cylindrical shape that protrudes rightward continuously from the right end surface of the gear cover 89, and rotatably supports the right end portion of the first screw 86.

The cleaner-side connecting portion 91 is formed in a cylindrical shape that continuously protrudes to the left from the left end surface of the housing 82, and a cleaner-side seal member 92 is attached to the inner peripheral surface.
The cleaner-side connecting portion 91 includes a cleaner-side seal member 92 and a lift-side seal member 75 interposed between the cleaner-side connecting portion 91 and the lift-side connecting portion 66, and the cleaner-side connecting portion 91 and the lift-side connecting portion. The lift-side connecting portion 66 is rotatably fitted to the lift-side connecting portion 66 so that the space between the portions 66 is sealed.

The screw bearing 90 is rotatably inserted through a through hole 40 (see FIG. 4) formed in the lower end portion of the right side plate 43R.
Further, both end portions in the left-right direction of the belt cleaning roller shaft 87 are respectively inserted into lower end portions of the guide holes 49 of the side plates 43. That is, the belt cleaning roller shaft 87 is held in front of the black developing cartridge 15K disposed in the forefront in the process frame 14.

As shown in FIG. 1, the process frame 14 is provided with a first compression spring 93 between the front end edge of the casing 82 of the belt cleaner 81 and the front beam 41.
The first compression spring 93 has a rear end connected to the housing 82 and a front end connected to the front beam 41.

As a result, the belt cleaner 81 is always urged rearward. That is, the belt cleaner 81 is always biased counterclockwise as viewed from the left side with the axis of the first screw 86 as a fulcrum.
(4) Eccentric Cam Further, the process unit 11 includes a pair of left and right eccentric cams 101 as shown in FIG.

Both eccentric cams 101 are elliptical flat plates arranged in the lateral direction of both side plates 43 and below the guide holes 49, and are longer than the lateral length of the casing 82 of the belt cleaner 81 in the lateral direction. They are opposed to each other with a long interval. Further, the eccentric cam 101 is in contact with the lower end edge of the belt cleaning roller shaft 87 from below.
The eccentric cams 101 are always arranged so as to extend in the front-rear direction (see FIG. 10), and a through hole is formed in the front end portion thereof, and the eccentric cam swinging shaft 102 is formed in the through hole. It is inserted so that relative rotation is impossible.

Then, both end portions in the left-right direction of the eccentric cam swing shaft 102 are rotatably supported in the eccentric cam support holes 103 of the side plates 43, respectively.
Then, the eccentric cam 101 falls along the front-rear direction, rises up along the vertical direction, and a pressure release position (see FIG. 10) for releasing the pressure on the belt cleaning roller shaft 87, and the belt cleaning roller shaft. It moves to a pressing position (see FIG. 8A) that presses 87 upward.

As a result, the belt cleaning roller 83 of the belt cleaner 81 is pressed by the eccentric cam 101, and the contact position (see FIG. 10) that contacts the conveyor belt 24 with the axis of the cleaner-side connecting portion 91 as a fulcrum, and the eccentric cam 101. The pressure is released and the actuator is swung to a separation position (see FIG. 8A) that is separated from the transport belt 24. Since the first screw 86 shares the axis with the cleaner-side connecting portion 91, the belt cleaner 81 is swung between the contact position and the separated position with the axis of the first screw 86 as a fulcrum.
(5) Developer Cartridge As shown in FIGS. 5 and 6, the black developer cartridge 15 </ b> K includes a developing housing 111 as an example of a frame and a waste toner transport tube 113.

  The developing housing 111 is formed in a box shape extending in the left-right direction, and supports the developing roller 19, the supply roller 20, and the layer thickness regulating blade 21 in the lower portion thereof, and accommodates toner in the upper portion thereof. A toner box 34 is provided, and a waste toner container 112 is provided in front of the toner box 34 (see FIG. 1). Further, the developing case 111 includes a developing gripping portion 114, a pair of left and right biasing members 115, a developing guide shaft 116, a developing coupling portion 117, and a gear housing portion 136.

The waste toner container 112 includes a pair of left and right transport pipe supports 110.
In the waste toner container 112, one conveyance tube support 110 is provided at each of both ends in the left-right direction of the upper end, and is formed in a substantially rectangular cylindrical shape in front sectional view. Further, on both side walls in the left-right direction of the transport pipe support 110, transport pipe insertion holes 131 having an inner diameter slightly larger than the outer diameter of the waste toner transport pipe 113 are formed.

The development gripping portion 114 is provided on the upper end surface of the development housing 111, and is gripped by the user when the black development cartridge 15K is attached to or detached from the process frame.
The urging members 115 are arranged on the upper end surface of the developing casing 111 at intervals in the left-right direction so as to sandwich the developing gripping portion 114. The urging member 115 includes a substantially disc-shaped contact member 118 and a second compression spring 119 disposed between the contact member 118 and the upper end surface of the developing housing 111. The second compression spring 119 has an upper end connected to the contact member 118 and a lower end connected to the upper end surface of the developing housing 111. Thereby, the contact member 118 is always urged upward.

  The developing guide shaft 116 is formed in a cylindrical shape that protrudes outward in the left-right direction from the left and right side surfaces of the developing case 111, and three developing guide shafts 116 are spaced apart in the vertical direction on the left side surface of the developing case 111. Two are arranged in parallel on the right side surface of the casing 111 with an interval in the vertical direction. Further, the development guide shaft 116 provided at the top is formed in such a length as to fit into the development support groove 47 from above when the development cartridge 15 is mounted on the process frame 14. Further, the development guide shaft 116 provided below the development guide shaft 116 provided at the uppermost position does not fit in the development support groove 47 when the development cartridge 15 is mounted on the process frame 14. The guide groove 46 is formed shorter than the developing guide shaft 116 provided at the top so as to be fitted from above.

  The uppermost developing guide shaft 116 on the left side shares the central axis with the upper developing guide shaft 116 on the right side, and the lowermost developing guide shaft 116 on the left side is the lower developing guide on the right side. The shaft 116 is provided so as to share the central axis. Further, the developing guide shaft 116 at the substantially center in the vertical direction on the left side surface is provided so as to share the central axis with the developing coupling portion 117.

  The development coupling portion 117 is disposed between the development guide shafts 116 in the vertical direction and is formed so as to protrude rightward from the right end portion of the development housing 111. Further, the length in the left-right direction of the developing coupling portion 117 is formed to be the same as the length in the left-right direction of the developing guide shaft 116 at the substantially vertical center of the left side surface. Further, the development coupling unit 117 includes a coupling cover 120 and a development coupling member (not shown) provided in the coupling cover 120 so as to be relatively rotatable.

The coupling cover 120 is formed in a cylindrical shape protruding rightward from the right end portion of the developing housing 111.
The gear accommodating portion 136 is partitioned at the right end portion of the developing casing 111 on the right side of the toner box 34 and the waste toner accommodating portion 112, and accommodates a gear train (not shown) therein. The gear train in the gear accommodating portion 136 transmits the driving force input from the developing coupling portion 117 to the developing roller 19, the supply roller 20, and the second screw gear 135 (described later).

The waste toner conveyance tube 113 is formed in a cylindrical shape extending in the left-right direction, and the length in the left-right direction is the both ends in the left-right direction (the accommodating portion side relay portion 121 (described later) and the connecting portion 130 (described later)). However, it is formed to be longer than the length in the left-right direction of the developing housing 111 so as to be fitted to the lift-side relay portion 64 and the developing cartridge fitting portion 54 of the process frame 14.
In addition, an opening 129 is formed in the waste toner conveyance tube 113. In addition, the waste toner conveyance pipe 113 includes a storage unit side relay unit 121 as an example of a first protrusion, a cock 122 as an example of a shutter member, a connecting unit 130 as an example of a second protrusion, and an example of a conveyance member. The second screw 128 is provided.

The opening 129 is notched upward from the lower edge of the waste toner conveyance tube 113 so as to expose the inside of the waste toner conveyance tube 113 at a substantially central position in the left-right direction of the waste toner conveyance tube 113, so that a waste toner storage portion is formed. 112 is formed to have a length slightly shorter than the distance between the two transport pipe support portions 110.
The accommodating portion side relay portion 121 is provided to the left of the opening 129 at the left end portion of the waste toner conveying tube 113. In addition, the accommodating portion side relay portion 121 is formed with an accommodating portion side communication port 123 (see FIG. 8B) as an example of an opening. The accommodating portion side relay portion 121 includes a packing 132 and a packing guide portion 133.

The accommodating portion side communication port 123 is formed through the rear end edge of the left end portion of the accommodating portion side relay portion 121 along the front-rear direction (see FIG. 8B).
The packing 132 is formed from an elastic material such as sponge in an annular shape in a side view with an inner diameter slightly shorter than the outer diameter of the accommodating portion side relay portion 121 and an outer diameter slightly longer than the inner diameter of the transport tube support portion 110. Has been.

The packing guide part 133 protrudes from the outer peripheral surface of the accommodating part side relay part 121 toward the radially outer side of the accommodating part side relay part 121 at the right end of the accommodating part side relay part 121, and the outer periphery of the accommodating part side relay part 121. A pair of left and right ridges formed all over. Both packing guide parts 133 are provided at intervals in the left-right direction.
And the packing 132 is externally fitted by the accommodating part side relay part 121 so that it may fit between both the packing guide parts 133. FIG.

The cock 122 is swingably provided at the left end portion of the accommodating portion side relay portion 121, and includes a shutter portion 124, a handle portion 125, and an operation portion side communication port 126.
As shown in FIGS. 5 and 8B, the shutter portion 124 is a front portion of the cock 122 and is formed in a hollow cylindrical shape having a substantially U-shaped cross-sectional view with the right side opened, and the accommodating portion side relay portion. The left end of 121 is rotatably fitted. In addition, a fitting protrusion 127 is formed on the shutter portion 124 on the opposite side of the handle portion 125 in the radial direction.

The fitting protrusion 127 is a protrusion extending along the left-right direction, and is formed so as to protrude outward in the radial direction from the outer peripheral surface of the shutter portion 124.
The handle part 125 is formed in a substantially rectangular flat plate shape in plan view extending continuously rearward from the upper end edge of the shutter part 124 and bent downward as the rear end part moves rearward in a side view. .

The operation portion side communication port 126 is formed through the shutter portion 124 below the handle portion 125 along the front-rear direction.
The cock 122 has an inclined position where the shutter part 124 is located at an open position (see FIG. 8B) where the accommodation part side relay part 121 communicates with the lift 61, and the shutter part 124 has an accommodation part side relay part. It moves between an upright position positioned at a closed position (see FIG. 8C) that shields between 121 and the lift 61.

  The connecting portion 130 is provided to the right of the opening 129 at the right end portion of the waste toner conveying tube 113. Further, like the accommodating portion side relay portion 121, the connecting portion 130 includes a packing 132 and a packing guide portion 133 at the right end thereof, and the packing 132 is fitted between the packing guide portions 133. Further, it is externally fitted to the connecting portion 130. Further, the connecting portion 130 is formed with a second screw gear accommodating portion 134 on the right side of the packing guide portion 133.

  The second screw gear accommodating portion 134 is formed in a cylindrical shape having the same diameter as the connecting portion 130, and the left end portion thereof is substantially flush with the right end portion of the waste toner accommodating portion 112, and the right end portion thereof is the gear accommodating portion. It is formed in a length in the left-right direction so as to be substantially flush with the right end portion of 136. The second screw gear housing part 134 has an opening (not shown) that exposes a second screw gear 135 (described later) at the front end.

The second screw 128 is formed in a right-hand thread shape and is disposed in the left-right direction in the waste toner conveyance tube 113, and the right end portion thereof is rotatably supported by the second screw gear housing portion 134. The left end portion is rotatably supported by the left end portion of the accommodating portion side relay portion 121.
In addition, a second screw gear 135 is provided at the right end of the second screw 128 so as not to be relatively rotatable in the second screw gear housing portion 134. The second screw gear 135 is engaged with a gear train (not shown) in the gear housing portion 136 through an opening (not shown) of the second screw gear housing portion 134, whereby the developing coupling portion 117 is engaged. An internal development coupling member (not shown) and a gear train (not shown) in the gear accommodating portion 136 are connected so as to be able to transmit driving. When a driving force is input from the main body casing 2 to the developing coupling portion 117, the driving force is transmitted to the second screw gear 135 via a gear train (not shown) in the gear housing portion 136. Accordingly, the second screw gear 135 rotates counterclockwise as viewed from the left side.

In the waste toner conveyance tube 113, the packing 132 and the packing guide portion 133 of the accommodating portion side relay portion 121 are fitted into the left conveyance tube support portion 110, and the packing 132 and the packing guide portion 133 of the connecting portion 130 are fitted to the right side. The waste toner container 112 is rotatably supported by the upper end of the waste toner container 112 so as to be fitted in the transport pipe support 110.
Further, the accommodating portion side relay portion 121 of the waste toner conveyance tube 113 protrudes leftward from the left end edge of the developing housing 111, and the connecting portion 130 of the waste toner conveyance tube 113 extends from the right end edge of the developing housing 111. It protrudes to the right.

The packing 132 is in close contact with the inner surface of the transport tube support 110 and the outer peripheral surface of the waste toner transport tube 113 in the left and right transport tube supports 110.
As shown in FIG. 6, the color developing cartridge 15 is formed in the same manner as the black developing cartridge 15K except that the waste toner container 112 and the waste toner transport tube 113 are not provided.
(6) Mounting of Development Cartridge to Process Frame Before mounting the black development cartridge 15K to the process frame 14, the cock 122 of the black development cartridge 15K is placed in the upright position, and the shutter 65 of the lift 61 is in the closed position. Is arranged.

  In order to mount the black developing cartridge 15K on the process frame 14, first, the pressing member 53 of the support member 51 of the process frame 14 is tilted backward against the urging force of the coil spring 59. Then, with the pressing member 53 tilted, the developing gripping portion 114 of the black developing cartridge 15K is gripped, all the developing guide shafts 116 are fitted into the developing guide groove 46, and the shutter portion 124 of the cock 122 is moved to the lift side. The black developing cartridge 15 </ b> K is inserted into the process frame 14 from above, aligned with the relay portion 64 and aligned so that the connecting portion 130 fits into the developing cartridge fitting groove 56.

Then, after the developing roller 19 comes into contact with the photosensitive drum 16 from above, the shutter portion 124 is fitted into the lift-side relay portion 64, and the connecting portion 130 is fitted into the developing cartridge fitting groove 56, and then the holding member 53 is tilted. Is released.
Then, the presser member 53 stands up by the urging force of the coil spring 59 and covers the upper portion of the connecting portion 130.

Then, the connecting portion 130 of the waste toner conveyance tube 113 is pressed from above by the pressing member 53 of the support member 51, and the waste toner conveyance tube 113 is fixed to the process frame 14.
Thereby, the mounting of the black developing cartridge 15K to the process frame 14 is completed.

In order to attach the color developing cartridge 15 to the process frame 14, all the developing guide shafts 116 are held by holding the developing holding portions 114 of the developing cartridges 15 so that the developing roller 19 is exposed rearward. Each developer cartridge 15 is inserted into the process frame 14 from above with the position adjusted so that the toner is fitted in the developing guide groove 46.
Then, the developing roller 19 comes into contact with the photosensitive drum 16 from above, and the mounting of the color developing cartridge 15 to the process frame 14 is completed.

At this time, as shown in FIG. 8C, the shutter portion 124 of the cock 122 of the black developing cartridge 15 </ b> K is fitted to the lift-side relay portion 64, and the storage portion-side relay portion 121 and the lift-side relay portion 64 are connected. Intervening in between.
Further, the fitting protrusion 127 of the cock 122 is fitted into the fitting hole 74 of the shutter 65 from above. Thereby, the cock 122 and the shutter 65 can be interlocked.

  Then, as shown in FIG. 8B, when the cock 122 is moved from the standing position to the tilted position, the shutter portion 124 of the cock 122 rotates counterclockwise as viewed from the left side from the closed position, and communication on the operation unit side is performed. The port 126 slides downward, and the operation unit side communication port 126 and the storage unit side communication port 123 communicate with each other in the front-rear direction. At the same time, in conjunction with the cock 122, the shutter 65 rotates counterclockwise as viewed from the left side from the closed position, and is disposed below the lift side communication port 69.

Thereby, the lift side communication port 69, the operation unit side communication port 126, and the storage unit side communication port 123 overlap each other when projected in the front-rear direction. That is, the shutter 65 is disposed at an open position where the accommodation unit side relay unit 121 and the lift side relay unit 64 communicate with each other via the operation unit side communication port 126.
When removing the black developing cartridge 15K from the process frame 14, as shown in FIG. 8C, first, the handle portion 125 is pulled upward, and the cock 122 is placed in the upright position.

Then, the shutter portion 124 of the cock 122 rotates clockwise from the left side as viewed from the open position, the operation unit side communication port 126 slides upward, and the inner surface of the shutter unit 124 and the storage unit side communication port 123 move in the front-rear direction. Opposite to. At the same time, in conjunction with the cock 122, the shutter 65 rotates clockwise from the left side as viewed from the open position, and faces the lift side communication port 69 in the front-rear direction.
As a result, the shutter 65 is disposed at a closed position that shields between the accommodating portion side relay portion 121 and the lift side relay portion 64.

Next, the presser member 53 of the support member 51 is tilted backward while the cock 122 is positioned at the standing position. Then, with the pressing member 53 tilted rearward, the black developing cartridge 15K is pulled upward to remove the black developing cartridge 15K from the process frame 14.
Then, the fitting between the fitting protrusion 127 of the cock 122 and the fitting hole 74 of the shutter 65 is released, and the removal of the black developing cartridge 15K from the process frame 14 is completed in a state where the shutter 65 is disposed at the closed position. To do.

To remove the color developing cartridges 15 from the process frame 14, each developing cartridge 15 is pulled upward.
3. Details of Main Body Casing (1) Structure of Main Body Casing As shown in FIG. 1 and FIG. 8 (a), the main body casing 2 includes a linear cam mechanism 141, a pair of left and right drive transmission gears 142, and a pair of left and right ridges. 143.

The linear cam mechanism 141 includes a pair of left and right linear cams 144 and a pair of left and right linear cam driving gears 145.
The two linear cams 144 are opposed to each other with a space in the left-right direction wider than the length in the left-right direction of the process unit 11 in the main body casing 2, and extend along the front-rear direction. Further, the linear cam 144 includes four concave portions 146 and a rack portion 147.

  The concave portions 146 are arranged in parallel at intervals in the front-rear direction so as to correspond to the developing cartridges 15 from the front end edge of the linear motion cam 144 to the center portion in the front-rear direction at the upper end edge of the linear motion cam 144. . Each concave portion 146 has a front end inclined upward as it goes forward, and a rear end inclined upward as it goes rearward. Further, the foremost concave portion 146 corresponding to the black developing cartridge 15K is formed to be about twice as long as the other concave portions 146.

The rack portion 147 is formed along the front-rear direction at the lower end edge of the rear end portion of the linear motion cam 144.
Both the linear cam drive gears 145 are disposed below the linear cam 144 and mesh with the rack portion 147. Further, the two linear cam drive gears 145 are connected to each other by a configuration not shown.

The two drive transmission gears 142 are arranged one on each of the left and right sides of the transfer unit 12 behind the transfer roller 35 corresponding to the black photosensitive drum 16K, and the drive transmission gear connecting shaft 148 is inserted in the center thereof so as not to be relatively rotatable. Are connected to each other.
The two protrusions 143 are arranged opposite to each other with a space in the left-right direction below the scanner unit 10 and are formed to extend in the front-rear direction. Both protrusions 143 are provided so as to contact the urging member 115 of each developing cartridge 15 when the process unit 11 is mounted on the main casing 2.
(2) Mounting of the process unit on the main body casing In order to mount the process unit 11 on the main body casing 2, first, the front cover 6 of the main body casing 2 is opened, and the rear end portion of the process unit 11 is placed in the main body casing 2. insert. Next, the frame grip 44 is gripped and the process unit 11 is pushed backward. Then, the mounting of the process unit 11 on the main casing 2 is completed.

At this time, each photosensitive drum 16 comes into contact with the transport belt 24 from above and faces the corresponding transfer roller 35. In other words, the black developing cartridge 15K is disposed at a close position where the developing roller 19 is close to the black photosensitive drum 16K.
Further, each urging member 115 of each developing cartridge 15 is in contact with the protrusion 143 of the main casing 2 from below (see FIG. 1). Each developing cartridge 15 is biased toward the photosensitive drum 16 by the biasing force of the second compression spring 119. As a result, each developing roller 19 is in elastic contact with each photosensitive drum 16.

Further, the eccentric cam 101 is tilted along the front-rear direction, and is disposed at the pressing release position (see FIG. 10). The belt cleaning roller 83 is swung counterclockwise as viewed from the left side integrally with the housing 82 and is disposed at the contact position.
Further, the uppermost developing guide shaft 116 of the black developing cartridge 15K is fitted to the front end portion of the foremost recessed portion 146 of the linear cam mechanism 141 from above. Further, the uppermost developing guide shaft 116 of the color developing cartridge 15 is fitted into the corresponding concave portion 146 of the linear cam mechanism 141 from above.
(3) Engagement of Each Gear The belt cleaner 81 includes a gear train 151 inside the gear cover 89 as shown in FIG. The gear train 151 includes a first screw gear 152. The gear train 151 transmits the driving force input to the first screw gear 152 to the belt cleaning roller 83 and the relay roller 84.

The first screw gear 152 is formed in a disc shape, and is provided at the right end portion of the first screw 86 so as not to be relatively rotatable.
As shown in FIG. 2A, the lift 61 includes seven blade gears 153 so as to correspond to the lift-side waste toner storage portions 62.
Each vane gear 153 is provided on the left end portion of the vane shaft 67 or the first screw 86 on the left side of the corresponding lift-side waste toner storage portion 62 so as not to be relatively rotatable.

  In addition, each blade gear 153 is disposed adjacent to the lowermost first blade gear 153a, the second blade gear 153b disposed adjacent to the upper front of the first blade gear 153a, and the upper rear of the second blade gear 153b. The third blade gear 153c, the fourth blade gear 153d disposed adjacent to the upper front of the third blade gear 153c, the fifth blade gear 153e disposed adjacent to the upper rear of the fourth blade gear 153d, and the fifth blade A sixth blade gear 153f disposed adjacent to the upper front of the gear 153e, and a seventh blade gear 153g disposed adjacent to the upper rear of the sixth blade gear 153f. The first blade gear 153a The third blade gear 153 c is formed to have a length in the left-right direction that is twice or more that of the other blade gear 153.

  The first blade gear 153a meshes with the left end portion of the third blade gear 153c. The third blade gear 153c meshes with the second blade gear 153b and the fourth blade gear 153d at the right end thereof. The fourth blade gear 153d meshes with the fifth blade gear 153e. The fifth blade gear 153e meshes with the sixth blade gear 153f. The sixth blade gear 153f meshes with the seventh blade gear 153g.

Further, as shown in FIG. 8A, an eccentric cam gear 154 is integrally formed on both the eccentric cams 101 on the outer side surface in the left-right direction.
The eccentric cam gear 154 is formed so as to share the central axis with the eccentric cam swing shaft 102.
Further, the process frame 14 includes a pair of left and right relay gears 155.

Both the relay gears 155 are disposed behind the corresponding eccentric cams 101 and are rotatably supported with respect to the process frame 14. The relay gear 155 meshes with the eccentric cam gear 154 from the rear.
When the mounting of the process unit 11 on the main casing 2 is completed, the relay gear 155 of the process frame 14 and the drive transmission gear 142 of the main casing 2 are engaged.
(4) Drive transmission to the process unit (4-1) Drive transmission to the belt cleaner and lift When the driving force is transmitted from the drive source (not shown) of the main casing 2 to the first screw gear 152, the first screw gear 152 is transmitted. Rotates counterclockwise in the left side view (forward rotation, the same applies hereinafter).

Next, the driving force is transmitted from the first screw gear 152 to the relay roller 84 and the belt cleaning roller 83 via the gear train 151.
As a result, the first screw 86, the relay roller 84, and the belt cleaning roller 83 rotate forward.
The driving force (forward driving force) input to the first screw gear 152 is transmitted to the first blade gear 153 a provided at the left end portion of the first screw 86 via the first screw 86. Then, the first blade gear 153a rotates forward (see FIG. 3).

Next, the driving force is transmitted from the first blade gear 153a to the second blade gear 153b and the fourth blade gear 153d via the third blade gear 153c (see FIG. 2A). Then, the third blade gear 153c rotates in the reverse direction, and the second blade gear 153b and the fourth blade gear 153d rotate in the forward direction.
Next, the driving force is transmitted from the fourth blade gear 153d to the seventh blade gear 153g via the fifth blade gear 153e and the sixth blade gear 153f (see FIG. 2A). Then, the fifth blade gear 153e rotates in the reverse direction, the sixth blade gear 153f rotates in the forward direction, and the seventh blade gear 153g rotates in the reverse direction.

Thereby, each blade member 63 rotates.
(4-2) Drive Transmission to Eccentric Cam When a reverse driving force is input to the drive transmission gear 142 from a drive source (not shown) of the main casing 2, the eccentric transmission is performed from the drive transmission gear 142 via the relay gear 155. A driving force is transmitted to the cam gear 154. Then, the drive transmission gear 142 rotates in the reverse direction, the relay gear 155 rotates in the forward direction, and the eccentric cam gear 154 rotates in the reverse direction. As a result, the eccentric cam 101 moves from the tilted position (see FIG. 10) to the standing position (see FIG. 8 (a)).

When a forward driving force is input to the drive transmission gear 142 from a drive source (not shown) of the main casing 2, the driving force is transmitted from the drive transmission gear 142 to the eccentric cam gear 154 via the relay gear 155. Then, the drive transmission gear 142 rotates forward, the relay gear 155 rotates reversely, and the eccentric cam gear 154 rotates forward. Thereby, the eccentric cam 101 moves from the standing position to the tilted position.
4). Operation of Process Unit (1) Image Forming Operation After the process unit 11 is mounted on the main casing 2, when a reverse driving force is input from the main casing 2 to the drive transmission gear 142, the driving force is reduced as described above. Transmitted to the eccentric cam 101, the eccentric cam 101 rotates clockwise in the left side view and is disposed at the pressing position to press the belt cleaning roller shaft 87 upward.

Then, the belt cleaning roller shaft 87 is guided upward along the guide hole 49, and the belt cleaner 81 uses the axis of the first screw 86 as a fulcrum and resists the urging force of the first compression spring 93 as viewed from the left side view. It is swung around.
As a result, as shown in FIG. 8A, the belt cleaning roller 83 is separated from the conveying belt 24 at the separation position, and the color laser printer 1 first enters a color mode for forming a color image.

In the color mode, since all the developing cartridges 15 and all the photosensitive drums 16 are in contact, the color laser printer 1 can form a color image.
Next, to form a monochrome image, as shown in FIG. 9, the color developing cartridge 15 is separated from the photosensitive drum 16 while the black developing cartridge 15 </ b> K is in contact with the photosensitive drum 16.

In order to separate the color developing cartridge 15 from the photosensitive drum 16, the linear cam driving gear 145 is rotated clockwise as viewed from the left side, and the linear cam 144 is moved forward.
Then, the uppermost developing guide shaft 116 of the color developing cartridge 15 is pushed upward along the inclination of the front end portion of each corresponding concave portion 146 of the linear cam 144, so that the color developing cartridge 15 is developed. While being guided by the guide groove 46, it is lifted upward against the urging force of the urging member 115.

At this time, the uppermost developing guide shaft 116 of the black developing cartridge 15K is fitted to the rear end portion of the foremost concave portion 146 of the linear cam 144.
As a result, the color developing cartridge 15 is separated from the photosensitive drum 16 while the black developing cartridge 15K is kept in contact with the photosensitive drum 16, and the color laser printer 1 enters a monochrome mode for forming a black image.

In the monochrome mode, since the black developing cartridge 15K and the black photosensitive drum 16K are in contact with each other and the color developing cartridge 15 and the photosensitive drum 16 are separated from each other, the color laser printer 1 forms a black image. be able to.
(2) Waste toner collection operation When the above-described image forming operation is completed, the waste toner captured by the drum cleaning roller 18 is collected.

In order to collect the waste toner, as shown in FIG. 10, first, all the developing cartridges 15 are separated from the corresponding photosensitive drums 16.
In order to separate all the developing cartridges 15 from the corresponding photosensitive drums 16, the linear cam driving gear 145 is rotated counterclockwise as viewed from the left side, and the linear cam 144 is positioned in the color mode (FIG. 8A). Move it backwards (see below).

Then, the uppermost developing guide shaft 116 of the black developing cartridge 15K is pushed upward along the inclination of the front end of the foremost recess 146 of the linear cam 144, whereby the rear end of the black developing cartridge 15K is , It is lifted upward against the urging force of the urging member 115.
As a result, the developing housing 111 of the black developing cartridge 15 </ b> K rotates clockwise relative to the waste toner transport tube 113 around the axis of the waste toner transport tube 113 as a fulcrum. It is moved to a separation position away from the black photosensitive drum 16K.

Further, the uppermost developing guide shaft 116 of the color developing cartridge 15 is pushed upward along the inclination of the front end portion of the corresponding concave portion 146 of the linear cam 144, whereby the color developing cartridge 15 is developed. While being guided by the guide groove 46, it is lifted upward against the urging force of the urging member 115.
As a result, all the developing cartridges 15 are separated from the corresponding photosensitive drums 16.

Next, a normal rotational driving force is input to the drive transmission gear 142 from a driving source (not shown) of the main casing 2.
Then, as described above, the driving force is transmitted to the eccentric cam 101, and the eccentric cam 101 rotates counterclockwise as viewed from the left side and is disposed at the pressing release position to release the pressure on the belt cleaning roller shaft 87.

Then, the belt cleaning roller shaft 87 is guided downward along the guide hole 49, and the belt cleaner 81 is counterclockwise as viewed from the left side by the urging force of the first compression spring 93 with the axis of the first screw 86 as a fulcrum. Is swung.
As a result, the belt cleaning roller 83 is disposed at the contact position as shown in FIG.

Next, a bias that is opposite to the cleaning bias is applied to the drum cleaning roller 18. Then, the waste toner temporarily held on the drum cleaning roller 18 is discharged from the drum cleaning roller 18 through the photosensitive drum 16 to the conveyance belt 24.
The waste toner released to the conveyor belt 24 passes below the transfer unit 12 and faces the belt cleaning roller 83 due to the circumferential movement of the conveyor belt 24.

Then, the toner released from the drum cleaning roller 18 to the conveying belt 24 is captured by the belt cleaning roller 83 by the cleaning bias applied to the belt cleaning roller 83 and scraped off by the scraping blade 85A via the relay roller 84. And stored in the cleaner-side waste toner storage unit 85.
As shown in FIG. 4, the waste toner stored in the cleaner-side waste toner storage unit 85 is conveyed toward the left by the rotation of the first screw 86 (counterclockwise when viewed from the left side), and the maximum amount of the lift 61 is reached. The toner is supplied to the lift side waste toner storage unit 62 below.

As shown in FIG. 8A, the waste toner supplied to the lowermost lift-side waste toner storage unit 62 is stored in each lift-side waste toner storage unit 62, and then rotated by the blade members 63. Then, it is conveyed in a zigzag shape upward, and is supplied from the lift side communication port 69 to the storage unit side relay unit 121 via the operation unit side communication port 126 and the storage unit side communication port 123.
As shown in FIG. 6, the waste toner supplied to the storage unit side relay unit 121 is conveyed toward the right by the rotation of the second screw 128 (counterclockwise when viewed from the left side), and the waste toner storage unit 112. Is housed. In this way, the collection of waste toner is completed.
5. Operation and Effect (1) According to the color laser printer 1, the waste toner adhering to the transport belt 24 is removed by the belt cleaner 81, and then transported from the belt cleaner 81 to the waste toner storage unit 112 by the lift 61 to be discarded. The toner is stored in the toner container 112.

Therefore, the waste toner removed by the belt cleaner 81 can be stored in the waste toner storage unit 112 provided integrally with the black developing cartridge 15K, and the waste toner storage unit 112 storing the waste toner is stored in the black developing unit. It can be exchanged together with the work of exchanging the cartridge 15K.
As a result, the belt cleaner 81 can be easily maintained.

Further, the black developing cartridge 15K is configured to be swingable with a connecting portion (a storage portion side relay portion 121) between the lift 61 and the waste toner storage portion 112 as a fulcrum. Thereby, the black developing cartridge 15K can be swung to separate the developing roller 19 from the photosensitive drum 16.
Therefore, the developing roller 19 can be separated from the photosensitive drum 16 by swinging the black developing cartridge 15K without moving the photosensitive drum 16, the belt cleaner 81, and the lift 61.

As a result, even if the waste toner container 112 is provided in the black developing cartridge 15K and the belt cleaner 81 and the waste toner container 112 are connected by the lift 61, the positional accuracy of the photosensitive drum 16 is not moved without moving the photosensitive drum 16. The developing roller 19 can be separated from the photosensitive drum 16 while maintaining the above.
(2) Further, according to the color laser printer 1, the black developing cartridge 15K is swung around the connecting portion (the accommodating portion side relay portion 121) between the lift 61 and the waste toner accommodating portion 112, thereby developing the black developing cartridge 15K. The roller 19 moves to a proximity position where the roller 19 is close to the photosensitive drum 16 and a separation position where the developing roller 19 is separated from the photosensitive drum 16.

Therefore, the developing roller 19 can be brought into contact with or separated from the photosensitive drum 16 by swinging the black developing cartridge 15K without moving the photosensitive drum 16, the belt cleaner 81, and the lift 61.
As a result, even if the waste toner container 112 is provided in the black developing cartridge 15K and the belt cleaner 81 and the waste toner container 112 are connected by the lift 61, the positional accuracy of the photosensitive drum 16 is not moved without moving the photosensitive drum 16. The developing roller 19 can be brought into contact with or separated from the photosensitive drum 16 while maintaining the above.
(3) Further, according to this color laser printer 1, as shown in FIG. 2A and FIG. 5, the process frame 14 is provided that detachably holds the black developing cartridge 15K.

  The black developing cartridge 15K includes a developing housing 111 that houses the developing roller 19, the toner box 34, and the waste toner container 112, and a waste toner transport pipe 113 is rotatably provided in the waste toner container 112. It has been. In addition, the waste toner conveying tube 113 includes, at both ends in the left-right direction, a storage portion side relay portion 121 that protrudes to the left from the developing case 111 and a connecting portion 130 that protrudes to the right from the developing case 111. I have.

The accommodating portion side relay portion 121 is connected to the lift side relay portion 64 of the lift 61, and the connecting portion 130 is connected to the support member 51. That is, the accommodating portion side relay portion 121 and the connecting portion 130 are held by the process frame 14.
Therefore, the black developing cartridge 15K can be swung with the accommodating portion side relay portion 121 and the connecting portion 130 held by the process frame 14 as fulcrums.

As a result, the black developing cartridge 15K can be supported at both ends in the left-right direction and can be stably swung.
(4) Also, according to the color laser printer 1, as shown in FIG. 4, the second screw 128 that conveys the waste toner conveyed by the lift 61 toward the right side in the accommodating portion side relay portion 121. Is provided.

Therefore, the waste toner conveyed by the lift 61 can be uniformly stored in the waste toner container 112 in the left-right direction.
(5) Also, according to the color laser printer 1, as shown in FIG. 8A, the accommodating portion side relay portion 121 has a accommodating portion side communication port 123 that allows waste toner to pass from the lift 61. The accommodating portion side relay portion 121 includes a cock 122 that can move between an open position that exposes the accommodating portion side communication port 123 and a closed position that covers the accommodating portion side communication port 123.

Therefore, if the cock 122 is placed in the closed position when the black developing cartridge 15K is detached from the color laser printer 1, the waste toner is blocked from passing through the storage unit side communication port 123 and is discarded from the waste toner storage unit 112. It is possible to prevent toner from spilling.
As a result, it is possible to prevent the waste toner from spilling from the waste toner container 112 in the replacement operation of the black developing cartridge 15K.

  Further, according to the color laser printer 1, the accommodating portion-side relay portion 121 and the connecting portion 130 are fixed to the process frame 14 and are provided to be rotatable with respect to the developing case 111. The black developing cartridge 15 </ b> K moves between the proximity position and the separation position when the developing housing 111 rotates about the axes of the accommodating portion side relay portion 121 and the connecting portion 130.

Therefore, the black developing cartridge 15K can be swung with a simple configuration.
(6) Also, according to the color laser printer 1, as shown in FIG. 1, four photosensitive drums 16 are provided corresponding to the respective colors, and are arranged in parallel at intervals.
Therefore, a color image can be formed.
6). Second Embodiment In the second embodiment, as shown in FIG. 11, members similar to those in the first embodiment are provided except that a process unit 201 is provided instead of the process unit 11. In the second embodiment, the same members as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.
(1) Configuration of Process Unit The process unit 201 according to the second embodiment does not include the belt cleaner 81, and each color developing cartridge 204 includes a waste toner container, and lifts corresponding to each color developing cartridge 204. 231 is provided. Hereinafter, the process unit 201 of the second embodiment will be described.

As shown in FIGS. 11 and 12, the process unit 201 is disposed below the scanner unit 10 and above the transfer unit 12, and includes one process frame 202 and four holding members as an example. A drum unit 203 and four developing cartridges 204 as an example of a developing unit corresponding to each color are provided.
The process frame 202 is slidable along the front-rear direction with respect to the main body casing 2, is provided detachably, and integrally holds the drum units 203.

The drum unit 203 is slidable in the vertical direction with respect to the process frame 202 and is detachable. The drum unit 203 is a photosensitive drum 16 as an example of a photoconductor, a charging roller 205, and a drum as an example of a cleaning unit. A cleaning unit 206 is provided.
The charging roller 205 is disposed obliquely above and behind the photosensitive drum 16 and is in contact with the photosensitive drum 16.

  As shown in FIG. 14, the drum cleaning unit 206 is formed in a box shape having a substantially trapezoidal side view, and is disposed opposite the photosensitive drum 16 behind the photosensitive drum 16. An opening 209 is formed at the front end of the drum cleaning unit 206 so as to face the rear end edge of the photosensitive drum 16 in the front-rear direction. The drum cleaning unit 206 includes a scraper 207 and a first screw 208.

The scraper 207 is formed in a plate shape extending in the vertical direction, and its upper end is fixed to the front end of the drum cleaning unit 206 above the opening 209, and its lower end is rearward of the rear end edge of the photosensitive drum 16. It is provided in the drum cleaning unit 206 so as to come into contact.
The first screw 208 is formed in a left-hand thread shape, and is provided in the drum cleaning unit 206 so as to be rotatable along the left-right direction.

  Each developing cartridge 204 is detachably held by each corresponding drum unit 203 above the front side of the photosensitive drum 16. Specifically, a black developing cartridge 204K, a yellow developing cartridge 204Y, a magenta developing cartridge 204M, and a cyan developing cartridge 204C are sequentially arranged from the front side to the rear side.

Each developing cartridge 204 includes a developing roller 19 as an example of a developer carrier, a supply roller 20 that supplies toner to the developing roller 19, and a layer thickness regulation that regulates the thickness of the toner supplied to the developing roller 19. A blade 21 is provided, and a space above them is provided with a toner box 34 as an example of a developer storage chamber for storing toner as an example of a developer corresponding to each color.
(2) Image Forming Operation in Second Embodiment Also in the process unit 201 of the second embodiment, an image is formed in the same manner as in the first embodiment described above.

The toner in the toner box 34 is supplied to the supply roller 20, is further supplied to the developing roller 19, and is triboelectrically charged positively between the supply roller 20 and the developing roller 19, and then is applied by the layer thickness regulating blade 21. The thickness is regulated and is carried on the surface of the developing roller 19 as a thin layer having a constant thickness.
On the other hand, the photosensitive drum 16 is uniformly positively charged by the charging roller 205 as the photosensitive drum 16 rotates, and is then exposed by high-speed scanning of a laser beam (see the broken line in FIG. 1) from the scanner unit 10. An electrostatic latent image corresponding to an image to be formed on the paper P is formed on the surface.

When the electrostatic latent image on the surface of the photosensitive drum 16 and the toner on the surface of the developing roller 19 face each other, the toner is supplied to the electrostatic latent image formed on the surface of the photosensitive drum 16, and the photosensitive drum A toner image by reversal development is carried on the surface 16.
Thereafter, in the same manner as in the first embodiment, the toner images of the respective colors carried on the respective photosensitive drums 16 are sequentially transferred onto the paper P conveyed to the transfer unit 12, and are heated and heated in the fixing unit 13. By being pressed, the paper P is thermally fixed.

The paper P on which the toner image is fixed passes through the paper discharge path 27 and is conveyed toward the paper discharge roller 28, and is discharged onto a paper discharge tray 29 formed above the scanner unit 10 by the paper discharge roller 28. Paper.
Note that toner may remain on the outer peripheral surface of the photosensitive drum 16 after the transfer of the toner image from the photosensitive drum 16 to the paper P. In this case, the remaining waste toner is scraped off by the scraper 207 as the photosensitive drum 16 rotates, passes through the opening 209, and is temporarily stored in the drum cleaning unit 206.
(3) Details of Process Unit (3-1) Process Frame As shown in FIG. 12, the process frame 202 is formed in a substantially rectangular frame shape in plan view. The process frame 202 is formed with drum unit guide grooves 210 on both side plates in the left-right direction.

The drum unit guide groove 210 is formed to have a groove width slightly wider than the diameter of a drum shaft 220 (described later) of the photosensitive drum 16 and extends in the vertical direction.
(3-2) Drum Unit As shown in FIGS. 13 and 14, each drum unit 203 has a pair of left and right side walls 211 (hereinafter, when referring to the arrangement of the side walls 211 in the left and right direction, the left side wall 211. The left side wall 211L and the right side wall 211 are the right side wall 211R.), The photosensitive drum 16 supported between the side walls 211, and the drum frame 212 laid between the side walls 211.

Both side walls 211 are provided with a pair of outer plates 215 and inner plates 216 that are arranged in parallel in the left-right direction at intervals.
The outer plate 215 is a flat plate disposed outside the side wall 211 in the left-right direction, and is formed in a substantially rectangular shape in side view.
The inner plate 216 is a flat plate disposed inside the side wall 211 in the left-right direction, and is formed in a substantially rectangular shape in the same side view as the outer plate 215.

The photosensitive drum 16 includes a drum shaft 220 that is inserted into the photosensitive drum 16 along the left-right direction.
The drum shaft 220 is formed to have a length in the left-right direction that is longer than the interval between the left and right outer plates 215 of the drum unit 203 so that both ends in the left-right direction are fitted into the drum unit guide grooves 210 of the process unit 201. .

The drum shaft 220 is rotatably inserted into drum shaft insertion holes 221 formed at the lower ends of the outer plate 215 and the inner plate 216 of the side walls 211.
The drum frame 212 is disposed adjacent to the rear of the photosensitive drum 16 at the rear end of the lower end of the drum unit 203. The drum frame 212 is integrally provided with the drum cleaning unit 206 and the charging roller covering unit 222 described above.

The charging roller covering portion 222 is formed in a substantially L shape in a side sectional view that continuously extends from the front end edge of the upper end portion of the drum cleaning portion 206 and opens downward. The charging roller covering unit 222 covers the charging roller 205 from above.
Further, a developing guide groove 213 is formed in the drum unit 203. The drum unit 203 includes a leaf spring 218 and a developing guide member 214.

As shown in FIGS. 14 and 15, the developing guide groove 213 is cut out from the upper end edge of the front end portion of the inner plate 216 toward the rear obliquely downward and is opened to the front obliquely upward. It is formed in a shape.
A development support portion 217 is provided at the rear end portion of the development guide groove 213.
The developing support portion 217 is formed in an arc shape along the outer peripheral surface of the accommodating portion side relay portion 254 (described later) and the connecting portion 256 (described later) of the waste toner conveying tube 252 (described later) at the lower end portion of the developing guide groove 213. ing.

  The leaf spring 218 is made of a steel plate such as stainless steel, and is bent in a substantially triangular shape in a side view with a top portion protruding upward. The plate spring 218 is arranged so that its top portion protrudes into the development guide groove 213 in a side view, and its rear end portion is fixed between the outer plate 215 and the inner plate 216, and its front end portion Is provided so as to be movable downward. Further, the leaf spring 218 has a space (closest distance) between the top of the leaf spring 218 and the rear end surface of the developing guide groove 213 so that the accommodating portion side relay portion 254 (described later) of the waste toner conveying tube 252 (described later) and a connecting portion 256 ( It protrudes so as to be shorter than the diameter (described later).

  The development guide member 214 is disposed in front of the photosensitive drum 16 below the development guide groove 213. Further, the development guide member 214 is formed to have a length in the front-rear direction extending from the front end portion of the inner plate 216 to the substantially center in the front-rear direction so as to bulge from the inner surface of the inner plate 216 toward the inner side in the left-right direction. In addition, a swing guide groove 219 is formed in the development guide member 214.

The swing guide groove 219 is disposed so that the rear end portion thereof faces the front end portion of the photosensitive drum 16, and has a groove width slightly wider than the diameter of a developing guide shaft 250 (described later) of the developing cartridge 204, and the developing support portion 217. It extends in the front-rear direction so as to draw a circle around the center.
The drum unit 203 includes a lift 231 and a shutter 232 as an example of a transport unit, as shown in FIGS.

The lift 231 is provided between the outer plate 215 and the inner plate 216 of the left side wall 211L. From the left end portion of the drum cleaning unit 206 at the rear end portion of the process unit 201, the lift 231 of the development guide groove 213 It extends in the vertical direction so as to incline forward as it goes upward.
The lift 231 includes a lift frame 233 and a belt conveyor 234.

The lift frame 233 includes a front wall 235, a rear wall 236, a lower wall 237, and an upper wall 238. Further, both end portions in the left-right direction of the lift frame 233 are closed by the outer plate 215 and the inner plate 216 of the side wall 211.
The front wall 235 and the rear wall 236 extend in the vertical direction so as to incline forward as they go upward, and are formed in a straight plate shape when projected in the left-right direction, and are parallel to each other with an interval in the front-rear direction. Has been placed. Further, a lift side communication port 239 is formed through the rear wall 236 in the front-rear direction at the upper end.

The lower wall 237 is formed in a substantially semicircular shape in a side sectional view with the upper side opened, and is continuous with the lower end portion of the rear wall 236 at the rear end portion, and continuous with the lower end portion of the front wall 235 at the front end portion. .
The upper wall 238 is formed in a substantially semicircular shape in a side sectional view with the lower side opened, and is continuous with the upper end portion of the rear wall 236 at the rear end portion, and is continuous with the upper end portion of the front wall 235 at the front end portion. .
The belt conveyor 234 is provided in the lift frame 233 and includes a belt member 240 and a belt shaft 241.

The belt member 240 is formed endlessly from an elastic material such as rubber, and includes innumerable protrusions 242 that extend outward from the outer peripheral surface thereof.
Each protrusion 242 is formed so as to extend along the left-right direction orthogonal to the circumferential direction of the belt member 240, and is provided over the entire outer peripheral surface of the belt member 240 at equal intervals. Each protrusion 242 protrudes so as to contact the inner peripheral surface of the lift frame 233 from the inside.

The belt shaft 241 is installed between the outer plate 215 and the inner plate 216 of the left side wall 211L at the upper end portion in the lift frame 233.
A drum cleaning unit 206 is connected to the lower end of the lift 231 from the right side so as to penetrate the inner plate 216, and the lower end of the lift 231 and the drum cleaning unit 206 are communicated in the left-right direction. . Further, the lower end portion of the lift 231 is inserted so that the left end portion of the first screw 208 is rotatably supported by the outer plate 215.

The belt member 240 is wound between the belt shaft 241 and the left end portion of the first screw.
The shutter 232 is formed in a partially cylindrical shape that is substantially fan-shaped when viewed from the side. Specifically, the fan-shaped support portion 243 having a central angle of about 120 ° in side view, the support boss 244 protruding leftward from the central angle portion of the support portion 243, and the arc portion of the support portion 243 facing rightward. And a covering portion 245 extending in an integrated manner. Further, the shutter 232 is formed with a fitting hole 246 that receives a fitting protrusion 262 (described later) at the front end portion of the covering portion 245 so as to extend in the left-right direction.

In the shutter 232, the support boss 244 is rotatably inserted into a shutter support hole (not shown) of the outer plate 215, and the outer surface of the covering portion 245 faces the inner peripheral surface of the developing support portion 217 in a side view. Thus, it is provided on the outer plate 215 of the left side wall 211L.
Thus, the shutter 232 has a closed position (see FIG. 17) where the rear end portion faces the lift side communication port 239 in the front-rear direction, and an open position (see FIG. 17) where the rear end portion is disposed below the lift side communication port 239. 16) and swings with the support boss 244 as a fulcrum.
(3-3) Developing Cartridge As shown in FIGS. 11 and 18, the developing cartridge 204 is formed in a box shape extending in the left-right direction, and includes a developing housing 251 as an example of a frame, and a waste toner transport tube 252. And.

  The developing housing 251 is formed in a box shape extending in the left-right direction, and supports the developing roller 19, the supply roller 20, and the layer thickness regulating blade 21 in the lower portion thereof, and accommodates toner in the upper portion thereof. A toner box 34 as an example of a developer container is provided, and a waste toner container 253 is provided behind the toner box 34 (see FIG. 11). The developing case 251 includes a pair of left and right developing guide shafts 250. Although not shown, the developing case 251 includes a developing gripping part, a pair of right and left biasing members, and a developing coupling part, like the developing cartridge 15 of the first embodiment.

As with the black developing cartridge 15K of the first embodiment, the waste toner storage unit 253 includes a pair of left and right transport pipe supports (not shown).
The waste toner conveyance tube 252 is formed in the same manner as the black developing cartridge 15K of the first embodiment, and includes a storage portion side relay portion 254 as an example of a first projecting portion, a cock 255 as an example of a shutter member, and a second member. A connecting portion 256 as an example of a protruding portion and a second screw 257 as an example of a conveying member are provided.

The accommodating portion side relay portion 254 is provided at the left end portion of the waste toner conveyance tube 252. In addition, in the accommodating portion side relay portion 254, an accommodating portion side communication port 258 (see FIG. 19) as an example of an opening is formed.
The accommodating portion side communication port 258 is formed to penetrate obliquely upward and rearward at the rear end edge of the left end portion of the accommodating portion side relay portion 254 (see FIG. 19).

The cock 255 is swingably provided at the left end portion of the accommodating portion side relay portion 254, and includes a shutter portion 259, a handle portion 260, and an operation portion side communication port 261.
As shown in FIGS. 18 and 19, the shutter portion 259 is a rear portion of the cock 255 and is formed in a hollow cylindrical shape having a substantially U-shaped cross-sectional view with the right side open. The left end is rotatably fitted. In addition, a fitting protrusion 262 is formed on the shutter portion 259 on the opposite side of the handle portion 260 in the radial direction.

The fitting protrusion 262 is a protrusion extending along the left-right direction, and is formed so as to protrude outward in the radial direction from the outer peripheral surface of the shutter portion 259.
The handle portion 260 is formed in a substantially bowl shape in plan view extending continuously forward from the upper end edge of the shutter portion 259, and the front end portion is bent downward in a side view.
The operation unit side communication port 261 is formed in the shutter unit 259 so as to extend along the vertical direction behind the handle unit 260 so that the cock 255 is disposed at an inclined position (described later).

The cock 255 has an upright position where the shutter 259 communicates between the accommodating portion-side relay portion 254 and the lift 231, and a shutter portion 259 lifts from the accommodating portion-side relay portion 254. It moves between the tilt position located in the closed position (see FIG. 21) that shields from the position 231.
The connecting portion 256 is provided at the right end portion of the waste toner conveyance tube 252.

The second screw 257 is disposed along the left-right direction in the waste toner conveyance tube 252.
The waste toner conveyance tube 252 is rotatably supported on the upper end portion of the waste toner storage portion 253.
Further, the accommodating portion side relay portion 254 of the waste toner conveyance tube 252 protrudes leftward from the left end edge of the developing case 251, and the connecting portion 256 of the waste toner conveyance tube 252 extends from the right end edge of the developing case 251. It protrudes to the right.

The developing guide shaft 250 is formed in a cylindrical shape that protrudes outward in the left-right direction from both left and right ends of the developing case 251 at the rear end of the lower end of the developing case 251.
(3-4) Mounting of Development Cartridge to Drum Unit Before mounting the development cartridge 204 to the drum unit 203, the cock 255 of the development cartridge 204 is disposed at the tilted position, and the shutter 232 of the lift 231 is disposed at the closed position. ing.

  In order to attach the developing cartridge 204 to the drum unit 203, the developing guide shaft 250 is fitted into the swing guide groove 219, the shutter portion 259 of the cock 255 is fitted into the developing guide groove 213 of the left side wall 211L, and the connecting portion 256 is fitted. The developer cartridge 204 is inserted into the drum unit 203 from diagonally forward and upward so that the position of the cartridge is fitted in the developing guide groove 213 of the right side wall 211R.

Then, the shutter portion 259 comes into contact with the top of the leaf spring 218 on the left side wall 211L from above, the connecting portion 256 comes into contact with the top of the plate spring 218 on the right side wall 211R from above, and the rear end surface of the developing guide groove 213 and the leaf spring The passage of the shutter portion 259 and the connecting portion 256 with respect to the space 218 is once restricted.
When the developing cartridge 204 is further pushed rearward and obliquely downward, the two leaf springs 218 are bent downward against the elastic force, and the distance between the rear end surface of the developing guide groove 213 and the leaf spring 218. And the passage of the shutter portion 259 and the connecting portion 256 between the rear end surface of the developing guide groove 213 and the leaf spring 218 is allowed.

  When the developing cartridge 204 is further pushed rearward and obliquely downward, the shutter portion 259 is fitted into the developing support portion 217 of the left side wall 211L, and the connecting portion 256 is fitted into the developing support portion 217 of the right side wall 211R. . At the same time, the contact of the shutter portion 259 and the connecting portion 256 with the leaf spring 218 is released, and the leaf spring 218 is restored by its elastic force so that the top portion protrudes forward of the shutter portion 259 and the connecting portion 256.

As a result, the forward movement of the accommodating portion side relay portion 254 and the connecting portion 256 is restricted, and the waste toner conveyance tube 252 is fixed to the drum unit 203.
Further, the developing guide shaft 250 is fitted into the rear end portion of the swing guide groove 219, and the developing roller 19 comes into contact with the photosensitive drum 16 from the front, and the mounting of the developing cartridge 204 to the drum unit 203 is completed.

At this time, as shown in FIG. 21, the fitting protrusion 262 of the cock 255 is fitted into the fitting hole 246 of the shutter 232 from diagonally forward and upward. Thereby, the cock 255 and the shutter 232 can be interlocked.
When the cock 255 is moved from the tilted position to the standing position, the shutter portion 259 of the cock 255 rotates clockwise from the closed position as shown in FIG. 16, and the operation unit side communication port 261 is moved downward. By sliding, the operation unit side communication port 261 and the storage unit side communication port 258 are communicated in the front-rear direction. At the same time, in conjunction with the cock 255, the shutter 232 rotates from the closed position clockwise in a right side view, and is disposed below the lift side communication port 239.

As a result, the lift side communication port 239, the operation unit side communication port 261, and the storage unit side communication port 258 overlap each other when projected in the front-rear direction, and the lift 231 and the waste toner conveyance tube 252 communicate with each other.
When removing the black developing cartridge 15K from the process frame 14, first, the handle portion 260 is tilted downward, and the cock 255 is disposed at the tilted position.

  Then, as shown in FIG. 17, the shutter portion 259 of the cock 255 rotates counterclockwise as viewed from the right side from the open position, and the operation portion side communication port 261 slides upward, so that the inner surface of the shutter portion 259 and the housing portion The side communication port 258 faces in the front-rear direction (see FIG. 19). At the same time, in conjunction with the cock 255, the shutter 232 rotates counterclockwise as viewed from the right side from the open position, and faces the lift side communication port 239 in the front-rear direction.

Accordingly, the shutter 232 is disposed at a closed position that shields between the accommodating portion side communication port 258 and the lift side communication port 239.
Next, with the cock 255 positioned at the tilted position, the developing cartridge 204 is pulled forward and obliquely upward against the elastic force of the leaf spring 218 to remove the developing cartridge 204 from the drum unit 203.

Then, the engagement between the fitting protrusion 262 of the cock 255 and the fitting hole 246 of the shutter 232 is released, and the removal of the developing cartridge 204 from the drum unit 203 is completed in a state where the shutter 232 is disposed at the closed position.
(3-5) Mounting of Drum Unit to Process Frame In order to mount the drum unit 203 with the developing cartridge 204 mounted on the process frame 202, the drum shaft 220 of the photosensitive drum 16 is fitted into the drum unit guide groove 210 of the process frame 202. As shown, the drum unit 203 is mounted on the process frame 202 from above.

As shown in FIG. 12, only the drum unit 203 can be attached to and detached from the process frame 202. Also in this case, as described above, the drum unit 203 is mounted on the process frame 202 from above so that the drum shaft 220 of the photosensitive drum 16 is fitted in the drum unit guide groove 210 of the process frame 202.
(4) Process Unit Operation (4-1) Image Forming Operation When the process unit 201 with the developing cartridge 204 and the drum unit 203 mounted is mounted in the main body casing 2, the color laser printer 1 first starts as shown in FIG. The color mode for forming a color image is entered.

In the color mode, since all the developing cartridges 204 and all the photosensitive drums 16 are in contact, the color laser printer 1 can form a color image.
Next, in order to form a monochrome image, the color developing cartridge 204 is separated from the photosensitive drum 16 while the black developing cartridge 204 is in contact with the photosensitive drum 16 as shown in FIG.

To separate the color developing cartridge 204 from the photosensitive drum 16, the front end portion of the color developing cartridge 204 is lifted upward by a linear cam mechanism (not shown) as in the first embodiment.
Then, the developing case 251 of the color developing cartridge 204 is rotated counterclockwise as viewed from the left side relative to the waste toner transport tube 252 with the axis of the waste toner transport tube 252 as a fulcrum. 19 is moved to a separation position away from the photosensitive drum 16.

As a result, the color developing cartridge 204 is separated from the photosensitive drum 16 while the black developing cartridge 204 is in contact with the photosensitive drum 16, and the color laser printer 1 enters a monochrome mode for forming a black image.
In the monochrome mode, since the black developing cartridge 204K and the black photosensitive drum 16K are in contact with each other and the color developing cartridge 204 and the photosensitive drum 16 are separated from each other, the color laser printer 1 forms a black image. be able to.
(4-2) Waste toner collecting operation In the image forming operation, the waste toner remaining on the outer peripheral surface of the photosensitive drum 16 after the transfer of the toner image from the photosensitive drum 16 to the paper P is, as described above, the photosensitive drum. With the rotation of 16, the scraper 207 scrapes off, passes through the opening 209, and is temporarily stored in the drum cleaning unit 206.

The waste toner stored in the drum cleaning unit 206 is conveyed to the left by the rotation of the first screw 208 and is supplied to the lower end of the lift 231 at the left end of the first screw 208.
The waste toner supplied to the lower end portion of the lift 231 is conveyed from the lower side to the upper side by a clockwise circumferential movement of the belt conveyor 234 of the lift 231, and at the upper end portion of the lift 231, It passes through the communication port 239, the operation unit side communication port 261, and the storage unit side communication port 258, and is supplied to the left end portion of the waste toner conveyance tube 252.

Then, the waste toner supplied to the left end portion of the waste toner transport pipe 252 is transported from the left to the right by the rotation of the second screw, and is stored in the waste toner storage unit 253. In this way, the collection of waste toner is completed.
(5) Effects of Second Embodiment According to the color laser printer 1 of the second embodiment, the same effects as those of the first embodiment described above can be obtained.

Further, according to the color laser printer 1 of the second embodiment, the toner remaining on the photosensitive drum 16 is removed by the drum cleaning unit 206, and then conveyed from the drum cleaning unit 206 to the waste toner storage unit 253 by the lift 231. The toner is stored in the waste toner container 253.
Therefore, the toner (waste toner) removed by the drum cleaning unit 206 can be stored in the waste toner storage unit 253 provided integrally with the developing cartridge 204, and the waste toner storage unit 253 storing the waste toner can be stored in the waste toner storage unit 253. The developing cartridge 204 can be exchanged together with the work.

As a result, the drum cleaning unit 206 can be easily maintained.
Further, the developing cartridge 204 is configured to be swingable about a connecting portion (a storage portion side relay portion 254) between the lift 231 and the waste toner storage portion 253. As a result, the developing cartridge 204 can be swung to separate the developing roller 19 from the photosensitive drum 16.

Therefore, the developing roller 19 can be separated from the photosensitive drum 16 by swinging only the developing cartridge 204 without moving the photosensitive drum 16, the drum cleaning unit 206, and the lift 231.
As a result, even in a configuration in which the waste toner storage unit 253 is provided in the developing cartridge 204 and the drum cleaning unit 206 and the waste toner storage unit 253 are connected by the lift 231, the positional accuracy of the photosensitive drum 16 is not moved. The developing roller 19 can be separated from the photosensitive drum 16 while maintaining the above.

DESCRIPTION OF SYMBOLS 1 Color laser printer 2 Main body casing 14 Process frame 15 Developing cartridge 16 Photosensitive drum 19 Developing roller 24 Conveyor belt 34 Toner box 61 Lift 81 Belt cleaner 111 Developing housing 112 Waste toner storage part 121 Storage part side relay part 122 Cock 123 Storage part Side communication port 128 Second screw 130 Connection unit 203 Drum unit 204 Developer cartridge 206 Drum cleaning unit 231 Lift 251 Development housing 253 Waste toner storage unit 254 Storage unit side relay unit 255 Cock 256 Connection unit 257 Second screw 258 storage unit side communication mouth

Claims (7)

The device body;
A photoconductor provided in the apparatus main body;
A developer storage chamber for storing the developer, a developer carrier for supplying the developer to the photosensitive member, and a development unit provided detachably with respect to the apparatus main body;
An endless belt that faces the photoconductor and moves from one side to the other in a direction orthogonal to the direction facing the photoconductor;
A cleaning unit that contacts the endless belt and removes the developer from the endless belt;
A waste toner storage unit that is provided integrally with the development unit and stores the developer stored in the cleaning unit;
A transport unit that is connected to the cleaning unit and the waste toner storage unit, and transports the developer stored in the cleaning unit to the waste toner storage unit;
The image forming apparatus, wherein the developing unit is configured to be swingable about a connecting portion between the transport unit and the waste toner container. The device body;
A photoconductor provided in the apparatus main body;
A developer storage chamber for storing the developer, a developer carrier for supplying the developer to the photosensitive member, and a development unit provided detachably with respect to the apparatus main body;
A cleaning unit that comes into contact with the photoreceptor and removes the developer remaining on the photoreceptor and accommodates it;
A waste toner storage unit that is provided integrally with the development unit and stores the developer stored in the cleaning unit;
A transport unit that is connected to the cleaning unit and the waste toner storage unit, and transports the developer stored in the cleaning unit to the waste toner storage unit;
The image forming apparatus, wherein the developing unit is configured to be swingable about a connecting portion between the transport unit and the waste toner container.   The developing unit swings to move to a proximity position where the developer carrier is close to the photoconductor and a separation position where the developer carrier is separated from the photoconductor. The image forming apparatus according to claim 1 or 2. A holding member for detachably holding the developing unit;
The developing unit includes a frame for accommodating the developer carrying member, the developer accommodating chamber, and the waste toner accommodating portion.
The waste toner container includes:
A first protrusion that protrudes from one end in the longitudinal direction of the frame toward the one end in the longitudinal direction in the longitudinal direction of the photoconductor, and is connected to the transport unit;
A second protrusion that shares an axis with the first protrusion and protrudes from the other end in the longitudinal direction of the frame toward the other end in the longitudinal direction;
The image forming apparatus according to claim 1, wherein the first protrusion and the second protrusion are held by the holding member.   The image forming apparatus according to claim 4, wherein a conveyance member that conveys the developer conveyed by the conveyance unit toward the other side in the longitudinal direction is provided in the first protrusion. . The first protrusion is formed with an opening that allows the developer to pass from the transport unit,
The first protrusion includes a shutter member movable to an open position that exposes the opening and a closed position that covers the opening,
The first protrusion and the second protrusion are fixed with respect to the holding member, and are provided so as to be rotatable with respect to the frame.
2. The developing unit according to claim 1, wherein the frame moves between the proximity position and the separation position by rotating the frame about the axis of the first protrusion and the second protrusion. The image forming apparatus according to 4 or 5.   The image forming apparatus according to claim 1, wherein a plurality of the photoconductors are provided and are arranged in parallel at intervals.

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