WO2013105431A1 - Dust collection device - Google Patents

Dust collection device Download PDF

Info

Publication number
WO2013105431A1
WO2013105431A1 PCT/JP2012/083512 JP2012083512W WO2013105431A1 WO 2013105431 A1 WO2013105431 A1 WO 2013105431A1 JP 2012083512 W JP2012083512 W JP 2012083512W WO 2013105431 A1 WO2013105431 A1 WO 2013105431A1
Authority
WO
WIPO (PCT)
Prior art keywords
dust
cover
dust collecting
handle
collecting container
Prior art date
Application number
PCT/JP2012/083512
Other languages
French (fr)
Japanese (ja)
Inventor
佑毅 矢戸
井上 健一郎
Original Assignee
シャープ株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from JP2012005518A external-priority patent/JP6080360B2/en
Priority claimed from JP2012005537A external-priority patent/JP6012181B2/en
Priority claimed from JP2012005523A external-priority patent/JP6002388B2/en
Priority claimed from JP2012005527A external-priority patent/JP6106364B2/en
Priority claimed from JP2012005520A external-priority patent/JP2013144023A/en
Priority claimed from JP2012005528A external-priority patent/JP6200629B2/en
Application filed by シャープ株式会社 filed Critical シャープ株式会社
Priority to CN201290001118.0U priority Critical patent/CN203943625U/en
Publication of WO2013105431A1 publication Critical patent/WO2013105431A1/en

Links

Images

Classifications

    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47LDOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
    • A47L9/00Details or accessories of suction cleaners, e.g. mechanical means for controlling the suction or for effecting pulsating action; Storing devices specially adapted to suction cleaners or parts thereof; Carrying-vehicles specially adapted for suction cleaners
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47LDOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
    • A47L9/00Details or accessories of suction cleaners, e.g. mechanical means for controlling the suction or for effecting pulsating action; Storing devices specially adapted to suction cleaners or parts thereof; Carrying-vehicles specially adapted for suction cleaners
    • A47L9/10Filters; Dust separators; Dust removal; Automatic exchange of filters
    • A47L9/106Dust removal
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47LDOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
    • A47L2201/00Robotic cleaning machines, i.e. with automatic control of the travelling movement or the cleaning operation

Definitions

  • the present invention relates to a dust collector, and more particularly to a dust collector suitable for a self-propelled cleaner.
  • a vacuum cleaner for cleaning dust such as a floor surface is configured to suck air and collect dust in the sucked air.
  • a method in which a detachable bag that also serves as a filter is provided and the bag is filled with dust is replaced with a new bag.
  • the vacuum cleaner cannot be used without a new replacement bag, so the user must always stock a new bag for replacement.
  • an air cyclone type vacuum cleaner that collects dust by centrifuging the sucked air has been proposed and implemented.
  • This type of vacuum cleaner collects the centrifuged dust in a cylindrical dust cup.
  • the dust cup can be reused by removing the dust cup from the vacuum cleaner body and discarding and emptying the dust in the dust cup. For this reason, there is no need to replace the bag or the like, and it can be used semipermanently.
  • the cyclone type vacuum cleaner requires a large suction force for centrifugal separation.
  • the path for forming the swirling airflow to be centrifuged is not only very complicated, but also the disposal of the collected dust is troublesome.
  • such a cyclone method is hardly used in a portable vacuum cleaner of a charging method in which output and size are restricted or a self-propelled cleaner such as a so-called robot cleaner. Therefore, in a charge-type vacuum cleaner including a self-propelled cleaner, a filter is generally provided in the dust cup without using a bag, and the dust collected by the filter is collected by the dust cup. .
  • a self-propelled cleaner the thing like patent document 1 and 2 shown below is known.
  • a first dust collecting chamber that collects large dust in the sucked air and fine dust in the air that passes through the first dust collecting chamber.
  • a dust collecting device is composed of a second dust collecting chamber having a filter for collecting air. For this reason, the structure of the dust collector becomes complicated, and even if the dust collector is removed from the main body of the cleaner in order to discard the collected dust, it is not possible to discard all the dust at once. That is, a separate operation for opening the second dust collection chamber is required.
  • the first dust collection chamber is a system where the dust collector is pulled out to the side and removed when the collected dust is discarded, even though all the parts connected to the vacuum cleaner body are open. Sometimes dust collected may spill from the first dust collection chamber.
  • the present invention has been made in consideration of the above-described circumstances, and provides an easy-to-use dust collector with a simple configuration.
  • the first dust collecting device flows into the dust collecting container for storing the dust, the inlet for letting the dust sucked from the suction port at the bottom of the vacuum cleaner into the dust collecting container together with the air, and the dust collecting container.
  • An introduction plate that guides dust and air, and a filter unit that passes the air and collects dust;
  • the dust collecting container has a bottom portion, a side wall portion that rises from the periphery of the bottom portion and partially constitutes an edge portion of the inflow port, and an opening portion that is defined by the side wall portion and in which the filter portion is disposed.
  • the introduction plate is disposed in the vicinity of the inlet on the inner surface of the side wall and guides the airflow flowing from the inlet into the dust collecting container to the bottom side.
  • the first dust collector may be configured as follows, or may be combined as appropriate.
  • the introduction plate is connected to the base end portion arranged along the upper edge of the inflow port, the tip end portion having the end portion arranged toward the bottom side, and the base end portion and the tip end portion.
  • the intermediate portion may be formed in a shape that gradually guides the airflow introduced from the inlet into the dust collecting container to the bottom.
  • the intermediate portion may be formed in a curved shape such that the tip portion is directed in a direction perpendicular to the bottom portion.
  • the introduction plate may have side wall portions on both sides from the proximal end portion to the distal end portion.
  • the tip may be formed in a comb shape or a lattice shape.
  • the second dust collector includes a dust collecting container having an opening and accommodating dust, an inlet for allowing dust sucked from the suction port at the bottom of the vacuum cleaner to flow into the dust collecting container together with air, A filter part that allows air flowing into the container to pass through and collects dust; and a cover part that is pivotally supported by the dust container so as to be openable and closable so as to cover the filter part and the opening of the dust container.
  • the filter portion has a packing member that is press-fitted into the cover portion on the outer peripheral portion thereof, and has a convex portion in at least one place of the packing member,
  • the cover part has the notch part for exposing the convex part of a filter part in the position facing a convex part.
  • the second dust collector may be configured as follows, or may be combined as appropriate.
  • the filter part may be pivotally supported in the vicinity of the pivotal support part of the cover part in the dust container.
  • the convex part may be provided on the opposite side to the shaft support part of the filter part.
  • the convex part may have a non-slip
  • the cover portion has a locking piece that can swing at a position that does not coincide with the convex portion on the outer peripheral portion,
  • the dust collecting container may have an engaging part that can be engaged with and disengaged from the locking piece.
  • the cover part may have a discharge port for discharging the air that has passed through the filter part.
  • the third dust collecting device includes a dust collecting container for storing dust, an inflow path for allowing dust sucked from the suction port at the bottom of the vacuum cleaner to flow into the dust collecting container together with air, and air flowing into the dust collecting container.
  • a filter unit that passes the dust and collects dust
  • the dust collecting container has a bottom part, a side wall part rising from the peripheral edge of the bottom part, and an opening part whose periphery is defined by the side wall part
  • the inflow path has an inflow path tip that should be detachably connected to a suction path that communicates with the suction port, and an inflow path base end that is connected to the side wall portion of the dust collecting container and forms a dust inlet.
  • the inflow path is formed in the vicinity of the upper end of the side wall portion inclining from the front end of the inflow path toward the base end of the inflow path.
  • the third dust collector may be configured as follows, or may be combined as appropriate. (10)
  • the filter unit may be provided so as to cover the opening of the dust collecting container.
  • the cover part has a discharge path for discharging the air that has passed through the filter part, Thus, it may extend in the same direction as the inflow path.
  • the discharge path has a discharge path tip that should be detachably connected to the exhaust path of the vacuum cleaner, and a discharge path base end that is connected to the cover portion and forms an air discharge port. From the discharge path base end to the discharge path tip You may incline as it goes to.
  • the front end of the inflow passage and the front end of the discharge passage each have a planar inflow passage flange and a discharge passage flange projecting outward, and the inflow passage flange and the discharge passage flange may be located on the same plane.
  • the fourth dust collecting device has a dust collecting container having an opening and accommodating dust, and dust sucked in from the suction port at the bottom of the vacuum cleaner provided on the side wall of the dust collecting container together with air.
  • An inlet for inflow into the dust collector a cover part pivotally supported by the dust collection container so as to cover the opening of the dust collection container, and a handle pivotally supported by the cover part. In the state where it is supported and the cover portion is closed, the shaft support portion of the handle is positioned so as to be shifted to the inflow port side with respect to the entire center of gravity.
  • the fourth dust collector may be configured as follows, or these may be combined as appropriate. (14) In a state where the handle is supported and the cover portion is opened, the shaft support portion of the handle may be located in the vicinity of the entire center of gravity in the horizontal direction.
  • the shaft support portion of the cover portion may be located closer to the inflow port than the handle shaft support portion.
  • the handle pivot direction and the cover pivot direction may be parallel.
  • the cover portion may include a storage portion for storing the handle when the handle is not raised, and the storage portion may be formed of a recess corresponding to the shape of the handle.
  • a fifth dust collector includes a dust collecting container having an opening and containing dust, a cover part pivotally supported by the dust collecting container so as to cover the opening of the dust collecting container, and a cover part The cover portion and the handle come into contact with each other when the handle is turned upright with respect to the cover portion to regulate the rotation of the handle.
  • a dust collector having a pair of regulating members.
  • the fifth dust collector may be configured as follows, or these may be appropriately combined.
  • the pair of restricting members may include a protruding portion protruding from the surface of the cover in the vicinity of the pivot support portion of the handle and an engaging portion protruding from the handle.
  • the pair of restricting members may have a pair of raised portions on the cover portion and the handle side for abutting each other around the shaft support portion of the handle so that the handle is releasably locked in a standing state.
  • the pair of raised portions constitute a pair of restricting members that maintain the handle in an upright state and restrict rotation.
  • Each of the pair of raised portions may have an inclined surface so that the raised portions of the handle can get over the raised portions of the cover portion when the handles are rotated and come into contact with each other.
  • the cover portion may include a storage portion for storing the handle when the handle is not raised, and the storage portion may be formed of a recess corresponding to the shape of the handle.
  • a sixth dust collector includes a dust collecting container having an opening and containing dust, a cover part pivotally supported by the dust collecting container so as to cover the opening of the dust collecting container, and a cover part
  • the dust container and the cover part are releasably locked so as to maintain a closed state, and a biasing member that biases the cover part in the opening direction is provided, and the cover part is closed.
  • the sixth dust collector may be configured as follows, or may be appropriately combined. (24) Either one of the dust collecting container and the cover portion has a support shaft that pivotally supports the other, and the other has a boss formed with a through hole that fits into the support shaft, and an urging member May comprise a coil spring that is fitted to the support shaft and interposed between the support shaft and the boss.
  • the dust collecting container may be provided with an inflow port in the side wall portion, and the shaft support portion of the cover portion may be located in the vicinity of the inflow port.
  • the cover portion has a flat top surface, and the opening of the dust collection container faces downward in a state where the lock between the dust collection container and the cover portion is released while keeping the top surface horizontal. Also good.
  • the cover portion has a handle pivotally supported so that the handle is supported, and the opening of the dust collection container faces downward in a state where the lock between the dust collection container and the cover portion is released. May be.
  • a self-propelled cleaner provided with the dust collector may be provided.
  • the airflow flowing into the dust collecting container from the inlet is guided to the bottom side by the introduction plate.
  • the air flow including dust from moving linearly from the inlet to the filter unit, thereby locally clogging the filter unit with dust, and the suction force (dust absorption) of the self-propelled cleaner is prevented. Force) can be suppressed, and the number of cleanings of the filter portion can be reduced.
  • the function as a filter can be maintained for a long time.
  • the term “self-propelled cleaner” refers to a housing having a suction port on the bottom and a dust collecting portion inside, a drive wheel for running the housing, rotation, stop and rotation direction of the drive wheel, etc.
  • the resistance given to the airflow which goes to a filter part from an inflow port can be suppressed in a dust collecting container, and the fall of a suction force is suppressed. Can do. This effect can be obtained particularly by the configuration (2).
  • the introduction plate is formed in a duct mouth shape, the airflow flowing into the dust collecting container from the inlet can be efficiently guided to the bottom side.
  • the packing member is in pressure contact with the inner peripheral surface of the cover part and the opening of the dust container opening in a state where the filter container and the cover part close the opening of the dust container. Since it abuts against the edge, leakage of air flowing into and out of the dust collector during the cleaning by the self-propelled cleaner is prevented. Also, if the dust collection container is opened with respect to the cover part, the filter part is maintained in a state where it is press-fitted into the cover part, so that the filter part does not get in the way when the dust in the dust collection container is discarded. Convenient.
  • the opening of the dust collection container is closed by the cover part
  • the opening of the dust collection container is kept closed by the filter part by opening the cover part while pressing the convex part with your finger. Is done. That is, the user can easily remove the filter part from the cover part without exposing the dust collecting surface of the filter part to the outside. Therefore, the dust collected on the collection surface can be shaken off into the dust collection container by vibrating the filter portion using the rod member. At this time, since the packing member of the filter portion is in close contact with the opening edge of the dust collecting container, the dust is not scattered outside from the inside of the dust collecting container.
  • the filter unit when removing dust adhering to the filter unit, the filter unit is opened by opening the cover unit to the dust collecting container and the filter unit. It can be set in the cover part open state which covers the opening part of a dust collecting container. In this state, dust can be removed by rubbing a bar member against the upper surface of the filter portion and vibrating. This dust removal operation can be performed in a hygienic and simple manner without dust being scattered indoors and without the user getting his / her hands dirty, since the dust attached portion of the filter portion can be stored in the dust collecting container. Further, after the dust removal operation, if the filter unit is opened with respect to the dust collecting container so that the filter unit is accommodated in the cover unit, the dust in the dust collecting container can be discarded.
  • the filter part can be easily removed from the cover part even if the convex part is lightly pressed with a finger.
  • the finger is easily caught on the convex portion.
  • the inflow path for allowing dust to flow into the dust collecting container together with air is inclined from the distal end of the inflow path connected to the suction path to the base of the inflow path connected to the side wall portion. Since the dust inlet is formed near the upper end of the side wall, the height difference from the bottom to the inlet is increased, which not only increases the dust collection capacity, but also collects dust when the dust collector is removed. It can also prevent spills.
  • the filter portion covers the opening of the dust collecting container, so that the area of the filter portion can be set large, and together with dust from the inlet. Dust can be reliably collected by efficiently passing the inflowing air.
  • the area of the filter portion can be set large, the filter portion is less likely to be clogged even during long-time operation, and the maintenance (cleaning) interval can be lengthened.
  • the dust collected in the dust collecting container can be easily discarded by opening the cover portion with respect to the dust collecting container. Furthermore, since the discharge path for discharging the air that has passed through the filter portion extends in the same direction so as to overlap the inflow path, the dust collector can be reduced in size.
  • the size of the dust collector is large.
  • the discharge path can be formed in a divergent shape without incurring any change. Thereby, exhaust resistance can be suppressed, and as a result, the inflow efficiency of air containing dust is also improved.
  • the shaft support portion of the handle is positioned so as to be shifted to the inlet side with respect to the entire center of gravity when the cover portion is closed.
  • the entire dust collector rotates so that the inflow port faces upward.
  • the pivot support portion of the handle and the entire dust collector Since the horizontal deviation from the center of gravity is small, it is easy to keep the cover portion horizontal, and as a result, the dust container can be easily adjusted to a posture suitable for the disposal of dust.
  • the opening of the dust collecting container becomes easy to face downward due to its own weight. It becomes easy to take a suitable posture.
  • the posture of the dust collecting container is changed to the dust disposal by adjusting the rotation of the handle with respect to the cover portion. It can be adjusted to a posture suitable for the camera and has excellent operability.
  • the dust collector is provided by providing the handle. Can be prevented from becoming unnecessarily large.
  • the cover portion and the handle each have a pair of regulating members that abut against each other when the handle is in an upright state and regulate the rotation of the handle. Even if the cover part is not held, the dust collector can be lifted in a stable state by gripping the handle. Since the dust collecting device can be lifted in a stable state, the opening operation of the dust collecting container is facilitated, and the collected dust can be reliably discarded.
  • the pair of regulating members is composed of a protruding portion that protrudes from the surface of the cover in the vicinity of the shaft support location, and a locking portion that protrudes from the handle. Therefore, it is possible to reliably regulate the rotation of the handle that is in the standing state with a simple configuration.
  • the cover part and the handle each have a pair of raised parts for releasably locking the handle in an upright state, so that the user can hold the dust collector more by holding the handle. Can be lifted in a stable state. Further, since the rotation of the handle is restricted and locked when the handle is in the standing state, the user can clearly recognize that the handle is in the standing state, and the usability of the user is improved.
  • the raised portion of the handle is The cover can be smoothly climbed over the raised portion while receiving a certain resistance, and the handle can be easily locked and released.
  • the handle when the handle is not raised, the handle can be stored in the storage portion and the upper surface of the cover portion can be flattened. Can be prevented from becoming unnecessarily large.
  • the dust-containing air can be efficiently flowed into the dust collecting container, and the inflowed air can be passed through the filter unit to efficiently collect the dust. It is possible to collect.
  • the urging member that urges the cover portion in the opening direction is provided, and the cover portion rotates to an angle exceeding 90 ° when the engagement with the dust collecting container is released. Therefore, the opening of the dust collecting container can be opened widely with respect to the cover, and the collected dust can be easily discarded.
  • the urging member is formed of a coil spring interposed between the support shaft and the boss, the cover portion is urged reliably with a simple configuration. can do.
  • the opening of the dust collecting container is greatly opened on the side opposite to the inflow port when the cover portion is opened.
  • the collected dust can be discarded from the opening without falling down from the inlet.
  • FIG. 3 is a view corresponding to FIG. 2, showing a state where the lid of the housing is opened and the dust collecting unit is taken out.
  • FIG. 3 is a view corresponding to FIG. 2, showing a state where the lid of the housing is opened and the dust collecting unit is taken out.
  • FIG. 3 is a view corresponding to FIG. 2, showing a state where the lid of the housing is opened and the dust collecting unit is taken out.
  • FIG. 3 is a view corresponding to FIG. 2, showing a state where the lid of the housing is opened and the dust collecting unit is taken out.
  • FIG. 3 is a view corresponding to FIG. 2, showing a state where the lid of the housing is opened and the dust collecting unit is taken out.
  • FIG. 3 is a view corresponding to FIG. 2, showing a state where the lid of the housing is opened and the dust collecting unit is taken out.
  • FIG. 3 is a view corresponding to FIG. 2, showing a state where the lid of the housing is opened and the dust collecting unit is taken out.
  • FIG. 8 is a view corresponding to FIG. 7 showing a state where the handle is raised.
  • FIG. 9 is a view corresponding to FIG. 8 illustrating a state where the handle is raised.
  • FIG. 10 is a view corresponding to FIG. 9 showing a state where the handle is raised.
  • FIG. 7 is a view corresponding to FIG. 6 showing a state where the dust collecting container is opened.
  • FIG. 8 is a view corresponding to FIG. 7 showing a state where the dust collecting container is opened.
  • FIG. 9 is a view corresponding to FIG. 8 illustrating a state in which the dust collecting container is opened.
  • FIG. 10 is a view corresponding to FIG. 9 illustrating a state where the dust collecting container is opened. It is a top view of the dust collector shown by FIG. 6, and has shown the state from which the handle was removed from the cover part. It is a principal part enlarged view of the cover part shown by FIG. It is a principal part enlarged view of the cover part shown by FIG. It is a
  • FIG. 7 is a view corresponding to FIG. 6 showing a state where the cover portion is opened, and shows a state where the filter portion is rotated so as to cover the opening of the dust collecting container.
  • FIG. 7 is a view corresponding to FIG. 6 showing a state where the cover portion is opened, and showing a state where the filter portion is housed in the cover portion.
  • FIG. 7 is a principal part enlarged view of FIG.
  • FIG. 7 is a perspective view of the filter part single-piece
  • FIG. 7 is a view corresponding to FIG. 6 illustrating a state in which a bar member is accommodated in a recess of the cover portion. It is a perspective view which shows an introduction board. It is a perspective view which shows the modification 1 of an introductory board. It is a perspective view which shows the modification 2 of an introduction board.
  • FIG. 1 is a perspective view of a self-propelled cleaner according to an embodiment of the present invention
  • FIG. 2 is a cross-sectional view taken along the line AA of the self-propelled cleaner shown in FIG. 1
  • FIG. 4 is a bottom view of the self-propelled cleaner shown in FIG. 4
  • FIG. 4 is a view corresponding to FIG. 2 showing a state where the cover of the housing is opened and the dust collecting part is taken out
  • FIG. 5 is shown in FIG.
  • It is a block diagram which shows the electrical structure of a self-propelled cleaner.
  • the “self-propelled cleaner” may be referred to as a “cleaning robot”.
  • the cleaning robot (self-propelled cleaner) 1 sucks air containing dust on the floor and exhausts the air from which the dust is removed while self-propelled on the floor where it is installed. It is a cleaning robot that cleans the floor surface.
  • the cleaning robot 1 includes a disk-shaped housing 2, and a rotating brush 9, a side brush 10, a dust collecting device 30, an electric blower 22, a pair of drive wheels 29, Components such as a control unit including a rear wheel 26, a front wheel 27, and various sensors are provided.
  • the portion where the front wheel 27 is disposed is the front portion
  • the portion where the rear wheel 26 is disposed is the rear portion
  • the portion where the dust collecting device 30 is disposed is the intermediate portion.
  • the housing 2 opens and closes when the dust collector 30 is taken in and out of the housing 2 and the bottom plate 2a having a suction port 6 formed at a position near the boundary with the intermediate portion in the front portion.
  • a top plate 2b having a lid portion 3 at an intermediate portion, and a bottom plate 2a and a side plate 2c having an annular shape in plan view provided along the outer periphery of the top plate 2b are provided.
  • the bottom plate 2a is formed with a plurality of holes for projecting the lower portions of the front wheel 27, the pair of drive wheels 29 and the rear wheel 26 from the inside of the housing 2 to the outside, and the boundary between the front portion and the middle portion of the top plate 2b.
  • An exhaust port 7 is formed in the vicinity.
  • the side plate 2c is divided into two in the front and rear directions, and the front side portion of the side plate functions as a bumper.
  • the housing 2 has a front storage chamber R ⁇ b> 1 that stores the motor unit 20, the electric blower 22, the ion generator 25 (see FIG. 5), and the like in the front portion. It has an intermediate storage room R2 for storing the dust collecting device 30 in the part, and a rear storage room R3 for storing the control board 15, the battery 14, the charging terminal 4 and the like of the control part in the rear part, and the front part and the intermediate part.
  • a suction passage 11 and an exhaust passage 12 are provided in the vicinity of the boundary.
  • the suction path 11 communicates the suction port 6 and the intermediate storage chamber R2, and the exhaust path 12 communicates the intermediate storage chamber R2 and the front storage chamber R1.
  • Each of the storage chambers R1, R2, R3, the suction path 11 and the exhaust path 12 is partitioned by a partition wall 39 provided inside the housing 2 and constituting these spaces.
  • the pair of drive wheels 29 are fixed to a pair of rotating shafts 29a that intersect at right angles with a center line C passing through the center of the case 2 that is circular in plan view.
  • the pair of drive wheels 29 rotate in the same direction, the case 2
  • the housing 2 rotates around the center line C.
  • the pair of rotating shafts 29a are coupled so that rotational force can be obtained individually from a pair of motors (not shown), and each motor is fixed to the bottom plate 2a of the housing directly or via a suspension mechanism.
  • the front wheel 27 is made of a roller, contacts the step appearing on the path, and the bottom of the bottom plate 2a of the housing 2 so that the drive wheel 29 is slightly lifted from the floor F where the driving wheel 29 contacts the ground so that the housing 2 can easily get over the step.
  • the part is rotatably provided.
  • the rear wheel 26 is a free wheel, and is rotatably provided on a part of the bottom plate 2a of the housing 2 so as to be in contact with the floor surface F to which the driving wheel 29 is grounded.
  • the pair of driving wheels 29 is arranged in the middle in the front-rear direction with respect to the housing 2, the front wheels 27 are lifted from the floor surface F, and the weight of the cleaning robot 1 can be supported by the pair of driving wheels 29 and the rear wheels 26.
  • the weight is distributed to the housing 2 in the front-rear direction.
  • the dust in front of the course can be guided to the suction port 6 without being blocked by the front wheel 27.
  • the suction port 6 is an open surface of the recess 8 formed on the bottom surface of the housing 2 (the lower surface of the bottom plate 2a) so as to face the floor surface F.
  • a rotating brush 9 that rotates about a rotation axis parallel to the bottom surface of the housing 2 is provided in the recess 8, and a side brush 10 that rotates about a vertical rotation axis is provided on the left and right sides of the recess 8. Is provided.
  • the rotating brush 9 is formed by implanting a brush spirally on the outer peripheral surface of a roller that is a rotating shaft.
  • the side brush 10 is formed by providing a brush bundle radially at the lower end of the rotating shaft.
  • the rotating shaft of the rotating brush 9 and the rotating shaft of the pair of side brushes 10 are pivotally attached to a part of the bottom plate 2a of the housing 2 and include a drive motor, a pulley, a belt, and the like provided in the vicinity thereof. It is connected via a power transmission mechanism.
  • a floor surface detection sensor 13 for detecting the floor surface F is disposed between the bottom surface of the housing 2 and the front wheel 27, and a similar floor is disposed in front of the side portions of the left and right drive wheels 29.
  • a surface detection sensor 19 is arranged.
  • the detection signal is transmitted to the control unit, and the control unit controls the drive wheels 29 to stop.
  • the floor detection sensor 19 can detect the descending stair and stop both driving wheels 29, so that the cleaning robot 1 is prevented from falling to the descending stair.
  • the detection signal may be transmitted to the control unit, and the control unit may control the drive wheel 29 to travel avoiding the descending staircase.
  • the control board 15 is provided with a control circuit that controls each element of the cleaning robot 1 such as the driving wheel 29, the rotating brush 9, the side brush 10, and the electric blower 22.
  • a charging terminal 4 for charging the battery 14 is provided at the rear end of the side plate 2 c of the housing 2.
  • the cleaning robot 1 that cleans the room while traveling by itself returns to the charging stand 40 installed in the room. Thereby, the charging terminal 4 contacts the terminal part 41 provided in the charging stand 40, and the battery 14 is charged.
  • the charging stand 40 connected to a commercial power source (outlet) is usually installed along the side wall S in the room.
  • the battery 14 is charged from the charging stand 40 via the charging terminal 4 and supplies power to each element such as the control board 15, the drive wheel 29, the rotating brush 9, the side brush 10, the electric blower 22, and various sensors.
  • the dust collector 30 is normally stored in the intermediate storage chamber R2 above the axis of the rotation shaft 29a of the drive wheels 29 in the housing 2, and the dust collected in the dust collector 30 is collected.
  • the lid 3 of the housing 2 can be opened and the dust collector 30 can be taken in and out.
  • the dust collector 30 includes a dust collection container 31 having an opening 31d (see FIG. 14), a filter unit 33 that covers the opening 31d of the dust collection container 31, a filter unit 33, and an opening 31d of the dust collection container 31.
  • the cover part 32 which covers is provided.
  • the cover part 32 and the filter part 33 are pivotally supported by the opening edge of the front side of the dust collecting container 31 so that rotation is possible.
  • An inflow path 34 communicating with the suction path 11 of the housing 2 and the housing 2 in a state where the dust collecting device 30 is housed in the intermediate storage chamber R2 of the housing 2 are disposed at the front portion of the side wall of the dust collecting container 31.
  • An exhaust passage 35 communicating with the exhaust passage 12 is provided. The dust collector 30 will be described in detail later.
  • the control unit for controlling the operation of the entire cleaning robot 1 includes a control board 15 having a control circuit composed of a CPU 15a and other electronic components (not shown), and a storage unit for storing a travel map 18a.
  • a motor driver 22a for driving the electric blower 22 for driving the traveling motor 51 of the drive wheel 29, a louver 17 rotatably provided near the exhaust port 7 in the housing 2, and
  • the CPU 15a is a central processing unit and transmits control signals individually to the motor drivers 22a and 51a and the control unit 17a based on the program data stored in advance in the storage unit 18, and the electric blower 22, the traveling motor 51, and the louver. 17 is driven and controlled, and a series of cleaning operation and ion emission operation are performed. Further, the CPU 15a accepts a condition setting related to the operation of the cleaning robot 1 by the user from an operation panel (not shown) and stores it in the storage unit 18.
  • the storage unit 18 can store a travel map 18 a around the installation location of the cleaning robot 1.
  • the travel map 18a is information related to travel such as the travel route and travel speed of the cleaning robot 1, and is stored in advance in the storage unit 18 by the user or automatically recorded during the cleaning operation by the cleaning robot 1 itself. Can do.
  • the odor sensor 52 detects the odor around the outside of the housing 2.
  • the odor sensor 52 for example, a semiconductor type or catalytic combustion type odor sensor can be used.
  • the odor sensor 52 is arranged in a state of being exposed to the outside from the side plate 2c or the top plate 2b of the housing 2.
  • the CPU 15a is connected to the odor sensor 52 via the control unit 52a, and obtains odor information around the outside of the housing 2 based on an output signal from the odor sensor 52.
  • the humidity sensor 53 detects the humidity around the outside of the housing 2.
  • the humidity sensor 53 for example, a capacitance type or electric resistance type humidity sensor using a polymer moisture sensitive material can be used.
  • the humidity sensor 53 is arranged in a state of being exposed to the outside from the side plate 2c or the top plate 2b of the housing 2.
  • the CPU 15a is connected to the humidity sensor 53 via the control unit 53a, and obtains humidity information around the outside of the housing 2 based on an output signal from the humidity sensor 53.
  • a location where an odor above a predetermined threshold at a location where the cleaning robot 1 is installed and a location where the humidity is higher than the predetermined threshold may be stored in advance as specific locations.
  • the CPU 15a can determine that this specific location is a location determined based on the surrounding environment of the housing 2. That is, like the odor sensor 52 and the humidity sensor 53, the travel map 18a serves as an environment detection device that detects the surrounding environment of the housing 2.
  • the human sensor 54 for example, a human sensor that detects the presence of a person using infrared rays, ultrasonic waves, visible light, or the like can be used.
  • the human sensor 54 is disposed in a state of being exposed to the outside from the side plate 2c or the top plate 2b of the housing 2.
  • the CPU 15a is connected to the human sensor 54 through the control unit 54a, and obtains presence information of people around the outside of the housing 2 based on an output signal from the human sensor 54.
  • the contact sensor 55 is disposed, for example, at the front part of the side plate 2c of the housing 2 in order to detect that the cleaning robot 1 has come into contact with an obstacle during traveling.
  • the CPU 15a is connected to the contact sensor 55 via the control unit 55a, and obtains presence information of obstacles around the outside of the housing 2 based on an output signal from the contact sensor 55.
  • the electric blower 22, the ion generator 25, the driving wheel 29, the rotating brush 9, and the side brush 10 are driven by a cleaning operation command.
  • the casing 2 self-propells within a predetermined range and removes dust on the floor surface F from the suction port 6. Inhale air containing.
  • the dust on the floor surface F is scraped up by the rotation of the rotating brush 9 and guided to the suction port 6. Further, the dust on the side of the suction port 6 is guided to the suction port 6 by the rotation of the side brush 10.
  • Air containing dust sucked into the housing 2 from the suction port 6 passes through the suction passage 11 of the housing 2 and the inflow passage 34 of the dust collector 30 as indicated by an arrow A1 in FIG. It flows into the dust collecting container 31.
  • the airflow that has flowed into the dust collecting container 31 passes through the filter portion 33, flows into the space 50 between the filter portion 33 and the cover portion 32, and is discharged to the exhaust passage 12 of the housing 2 through the discharge passage 35. Is done.
  • the dust contained in the airflow in the dust collecting container 31 is captured by the filter unit 33, so that the dust accumulates in the dust collecting container 31.
  • the airflow flowing into the exhaust passage 12 of the housing 2 from the dust collector 30 flows into the front storage chamber R1 as indicated by the arrow A2 in FIG. 2, and flows through the first exhaust passage and the second exhaust passage (not shown). .
  • the airflow flowing through the first exhaust path includes ions (plasma cluster ions (registered trademark)) released by the ion generator 25. Then, as shown by an arrow A3 in FIG. 2, an airflow containing ions is exhausted obliquely upward at the rear from the exhaust port 7 provided on the upper surface of the housing 2. Thereby, cleaning on the floor surface F is performed, and indoor sterilization and deodorization are performed by ions contained in the exhaust of the cleaning robot 1.
  • the cleaning robot 1 turns around the center line C by rotating the left and right drive wheels 29 forward in the same direction, moving forward, moving backward in the same direction and moving backward.
  • the driving wheel 29 stops and the left and right driving wheels 29 rotate in opposite directions to change their directions.
  • the cleaning robot 1 can be self-propelled while avoiding obstacles in the entire installation place or the entire desired range.
  • the cleaning robot 1 is grounded at three points of the left and right drive wheels 29 and the rear wheel 26, and the weight is distributed in such a balance that the rear wheel 26 does not lift from the floor F even if it stops suddenly during forward movement. Yes. Therefore, it is prevented that the cleaning robot 1 suddenly stops in front of the descending stairs while moving forward, and thereby the cleaning robot 1 is tilted forward and falls to the descending stairs.
  • the drive wheels 29 are formed by fitting rubber tires having grooves into the wheels so that they do not slip even when suddenly stopped. Further, since the dust collector 30 is disposed above the rotation shaft 29a of the drive wheel 29, the weight balance of the cleaning robot 1 is maintained even if the weight increases due to dust collection.
  • the cleaning robot 1 can execute a unique operation based on information obtained from the odor sensor 52, the humidity sensor 53, the travel map 18a, and the human sensor 54, which are environment detection devices. For example, the cleaning robot 1 can stay for a certain period of time at a specific location determined based on the surrounding environment detected by the environment detection device, and can release an airflow including ions from the exhaust port 7. The cleaning robot 1 returns to the charging stand 40 when cleaning is completed. Thereby, the charging terminal 4 contacts the terminal part 41 and the battery 14 is charged.
  • the cleaning robot 1 can drive the electric blower 22 and the ion generator 25 in a state of returning to the charging stand 40.
  • an airflow containing ions is released obliquely upward from the exhaust port 7, and the airflow containing ions rises along the side wall S and circulates along the indoor ceiling wall and the opposite side wall.
  • the cleaning robot 1 can also perform the ion emission operation alone.
  • An operation unit is provided on the upper surface of the cleaning robot 1, and a cleaning operation and an ion release operation can be performed by the operation unit.
  • a receiving unit may be provided in the housing 2 and a transmitter that transmits a command signal to the receiving unit may be provided so that the remote controller can be operated.
  • a command signal may be transmitted to the cleaning robot 1 from a mobile phone called a smartphone via an Internet line and a router provided in the room so that it can be remotely operated.
  • the cleaning robot 1 includes a dust collector 30 that is detachably mounted.
  • the dust collecting device 30 has a dust collecting container 31 for collecting dust.
  • the dust container 31 has a main bottom 31x 1 and the side wall portion 31x 2 Metropolitan opening 31d defined by the upper end of the side wall portion 31x 2 above consists. Then, except when the dust collecting device 30 is detached from the cleaning robot 1 and the dust is discarded, the opening 31d of the dust collecting container 31 is usually covered with the filter unit 33 as shown in FIG.
  • the dust collector 30 includes a cover portion pivotally supported to be openable and closable with respect to the dust collection container 31 so as to cover the opening 31 d of the dust collection container 31 together with the filter portion 33. 32.
  • the filter part 33 is accommodated in the cover part 32 by press-fitting, but the filter part 33 can be detached from the cover part 32 as needed.
  • the structure that allows the filter portion 33 to be detached from the cover portion 32 will be described in detail in another item.
  • the side wall 31x 2 on the front side of the dust container 31 inlet port 31a communicating with the inlet 6 of the cleaning robot 1 is formed.
  • the inflow port 31 a is formed at a position above the bottom portion 31 x 1 of the dust collecting container 31 and below the filter portion 33. More specifically, the inflow port 31a is formed near the upper end of the side wall portion 31x 2 to be positioned adjacent to the vicinity of the filter unit 33.
  • the inflow path 34 which guides the air sucked together with dust from the suction port 6 to the dust collecting container 31 is integrally formed so as to extend forward.
  • Inflow path 34 is formed an inlet passage leading end 34a 1 which is detachably connected to the suction passage 11 communicating with the inlet 6 of the cleaning robot 1 is connected to the side wall 31x 2 of the dust container 31 to the inlet 31a and a inflow channel proximal end 34a 2 to.
  • the inflow path 34 is provided in an upwardly inclined state so that a difference in height from the bottom 31x 1 increases from the inflow path front end 34a 1 toward the inflow path base end 34a 2 .
  • the inlet 31a near the upper end of the side wall portion 31x 2 of the dust container 31 to be adjacent the filter portion 33 can be formed by.
  • the bottom 31x 1 of the dust-collecting container 31 can be extended to the vicinity of the bottom plate 2a of the robot cleaner 1 can design a large dust collection capacity (see Fig. 2).
  • the dust collecting capacity may be the same plane size becomes inevitably large. Thereby, in dust collector 30, the time until dust becomes full becomes long, and the cleaning continuation time of robot cleaner 1 can be extended. Further, the robot cleaner 1 is not increased in size.
  • the dust collecting since the inlet 31a near the upper end of the side wall portion 31x 2 of the dust collecting container 31 is formed, the dust collecting been dust between the bottom 31x 1 of the dust-collecting container 31 until the inlet 31a, That is, it accumulates below the inflow port 31a. For this reason, as shown in FIG. 4, it is possible to take out the dust by collecting the dust collecting device 30 by opening the cover 3 of the housing 2 of the cleaning robot 1 and pulling the dust collecting device 30 upward. Can also be prevented from falling from the dust collecting container 31.
  • the opening 31d of the dust container 31 may be in the vicinity is preferably located on the side wall 31x 2 upper.
  • the dust collecting device 30 of the present invention it is possible to deal with problems such as dust falling off when taking out from the main body of the cleaner 1, and to solve the problem that is the problem. .
  • problems such as dust falling off when taking out from the main body of the cleaner 1, and to solve the problem that is the problem.
  • the inlet 31a above the dust collecting container 31, there is a problem that even when the dust collector 30 or the like is slightly tilted during extraction, the collected dust spills from the inlet 31a. Disappear.
  • when taking out the dust collector 30 upwards there is no worry that dust will spill further.
  • the dust collecting device 30 includes the cover portion 32 that is pivotally supported with respect to the dust collecting container 31 so as to be opened and closed. As shown in FIG. 9, the cover portion 32 has a discharge port 32 a serving as an outlet for the air that has passed through the filter portion 33, and the discharge port 35 is directed forward from the discharge port 32 a so as to overlap the inflow channel 34. It extends. That is, the discharge path 35 extends in the same direction as the inflow path 34.
  • the discharge path 35 is connected to the discharge path tip 35a 1 detachably connected to the exhaust path 12 of the robot cleaner 1 and the cover portion 32 to form the discharge port 32a. And a discharge passage base end 35a 2 .
  • Discharge passage 35 is parallel to the inclined face portion overlapping the inlet channel 34 toward the discharge channel proximal end 35a 2 to the discharge passage leading end 35a 1 is an inflow passage 34, toward the discharge channel proximal end 35a 2 to the discharge passage leading end 35a 1 It has a shape that spreads out.
  • the inflow path front end 34a 1 and the discharge path front end 35a 1 are each formed with a planar inflow path flange and a discharge path flange projecting outwardly on the same plane.
  • the plane on which the inflow passage flange and the discharge passage flange are located is set to be parallel to the inclined partition wall 39 (see FIG. 4) on the front side that constitutes the intermediate storage chamber R2 of the robot cleaner 1. Since this partition wall 39 is inclined so that the space in the front-rear direction of the intermediate storage chamber R2 becomes smaller as it goes downward, the inflow passage flange and the discharge passage flange are also separated from the partition wall 39 on the front side of the intermediate storage chamber R2. Similarly, it will be inclined.
  • the discharge path 35 extends in the same direction as the inflow path 34 so as to overlap the inflow path 34, the size of the dust collector 30 in the front-rear direction can be suppressed to the minimum necessary dimension.
  • the opposing part which opposes the inflow path 34 among the discharge paths 35 inclines in parallel with the inflow path 34 and becomes widening, it is exhausted, suppressing the dimension of the height direction of the dust collector 30 to the minimum required dimension. Resistance can be suppressed, and as a result, the efficiency with which dust-containing air flows into the dust collector 30 is improved.
  • the dust collecting device 30 is set in the intermediate storage chamber R2. Then, the position of the dust collector 30 in the front-rear direction is determined, and a good connection with the suction path 11 and the exhaust path 12 is obtained.
  • the inflow passage flange and the discharge passage flange can be formed in the same plane, a configuration for ensuring a close contact state between the suction passage 11 on the intermediate storage chamber R2 side on the main body side of the cleaner 1 and the exhaust passage 12. , Making the design easier.
  • the end surfaces of the suction path 11 and the exhaust path 12 may be inclined on the same plane, and a normal packing member is provided on the end surfaces, so that the tight contact state of the packing member can be reliably ensured.
  • the inflow path front end 34a 1 and the discharge path front end 35a 1 preferably have planar flanges, they may be omitted.
  • the cover portion 32 is provided with a handle 36 that is pivotally supported with respect to the cover portion 32.
  • shaft portions 32 i are formed on both side surfaces of the cover portion 32 so as to protrude in a direction orthogonal to the front-rear direction of the dust collector 30.
  • the handle 36 is formed in a U shape in plan view, and through holes 36b are formed at both ends. For this reason, when the shaft portions 32 i formed on both side surfaces of the cover portion 32 are respectively inserted into the through holes 36 b formed at both ends of the handle 36 so that the handle 36 can rotate with respect to the cover portion 32. Become.
  • a recessed storage portion 32g corresponding to the shape of the handle 36 is formed on the rear side of the upper surface of the cover portion 32.
  • the storage portion 32g has a function of storing the handle 36 in the recess when the handle 36 is not raised, and flattening the upper surface of the dust collecting device 30.
  • the cover portion 32 is formed with a recess 32b that is recessed over a wider range than the substantially central portion of the storage portion 32g so that the handle 36 stored in the storage portion 32g can be easily picked when the handle 36 is raised.
  • a housing recess 32 k that houses a brushed rod member K described later is formed on the upper surface of the cover portion 32.
  • the user when the dust collector 30 is mounted on the robot cleaner 1, the user opens the lid 3 of the housing 2 and picks the handle 36 stored in the storage portion 32g. If the handle 36 is turned upward, the handle 36 is in an upright state protruding upward from the upper surface of the dust collector 30. Therefore, the user can easily take out the dust collecting device 30 from the robot cleaner 1 by holding the handle 36 in the standing state and pulling the dust collecting device 30 upward.
  • the pivots of the handle 36 are in contact with each other when the handle 36 is pivoted with respect to the cover portion 32 and is in an upright state, thereby restricting the rotation of the handle 36.
  • a pair of regulating members 38 are provided for this purpose.
  • the pair of regulating members 38 includes a protruding portion 38 a that protrudes upward from the storage portion 32 g in the vicinity of the rear portion of the shaft support portion of the handle 36, and FIGS. 10, 21, and 23.
  • the both ends of the handle 36 are constituted by locking portions 36a protruding from the handle 36.
  • the handle locking portion 36 a is locked to a protruding portion 38 a that protrudes upward in the vicinity of the rear of the shaft support location.
  • the rotation of the handle 36 is restricted.
  • the rotation of the handle 36 is also restricted by the contact of the surface of the handle 36 opposite to the engaging portion 36a with the vertical surface 32c formed between the storage portion 32g and the upper surface of the cover portion 32.
  • a pair of raised portions 32j and 36c for locking the handle 36 so as to be releasable in an upright state are provided in the vicinity of the shaft support portion of the handle 36 in addition to the above-described regulating member 38. It is formed.
  • the pair of raised portions 32j and 36c also function as a pair of regulating members that regulate the rotation of the handle 36 and maintain the standing state. That is, the same mechanism can be achieved and the same effect can be expected by providing a pair of raised portions 32j and 36c instead of the pair of restricting members 38 (the protruding portion 38a and the locking portion 36b). Moreover, the effect which maintains the handle 36 in the standing state is promoted by providing these simultaneously.
  • the pair of raised portions 32j and 36c are formed around the shaft portion 32i of the cover portion 32 and around the through hole 36b of the handle 36, respectively, and both ends of the handle 36 are rotated when the handle 36 is rotated and brought into contact with each other. It has an inclined surface 32j 1 and 36c 1 so that the protruding portion 36c of the handle 36 can get over the protruding portion 32j of the cover portion 32.
  • the raised portion 36c of the handle 36 gets over the raised portion 32j of the cover portion 32 and the handle 36 is in an upright state, the raised portion 36c of the handle 36 and the raised portion 32j of the cover portion 32 come into contact with each other, and the handle 36 is in an upright state.
  • the rotation of the handle 36 is restricted.
  • the restriction by the pair of raised portions 32j and 36c is to lock the standing state so as to be releasable.
  • the handle 36 is elastically deformed so that both ends thereof are expanded and returns to the original state.
  • An urging force that forcibly guides the handle 36 is applied, and the user can clearly recognize that the handle 36 is in the standing state.
  • the urging force acts similarly when the handle 36 is released from the standing state and the handle 36 is stored in the storage portion 32g.
  • the handle 36 when the handle 36 is raised, the rotation of the handle 36 is restricted, and the handle 36 is releasably locked so as to maintain the standing state. Therefore, the user does not hold the dust collection container 31 or the cover portion 32.
  • the dust collector 30 can be lifted in a stable state by gripping the handle 36. Since the dust collecting device 30 can be lifted in a stable state, the opening operation of the dust collecting container 31 is facilitated, and the collected dust can be reliably discarded.
  • the locking mechanism that locks the cover portion 32 with respect to the dust collecting container 31 will be described in detail later.
  • the handle 36 is in a standing state by the pair of restricting members 38 or the pair of raised portions 32j and 36c, and the pair of restricting members 38 and the pair of raised portions 32j and 36c. Maintained or locked. This can achieve the purpose of stabilizing the removal of the dust collector 30 from the main body of the cleaner 1.
  • the dust collecting device 30 can be stably taken out, the problem and problem of dust falling from the inlet 31a can be solved.
  • the dust collecting apparatus 30 lifted by the user naturally has the inflow port 31a facing upward, and can prevent a situation in which the collected dust unexpectedly flows out of the inflow port 31a.
  • Such an arrangement even if the height difference between the inflow port 31a and the bottom 31x 1 is small, dust collection is dust is effective to prevent the fall spill from the inlet 31a. Therefore, the configuration in which the support position of the handle 36 is shifted closer to the inlet 31a side with respect to the center of gravity G of the dust collector 30 solves the problem and problem of inadvertent spillage of dust from the inlet 31a. It becomes a means.
  • the dust collection container 31 rotates about the pivotal support position with respect to the cover portion 32. Displace forward. Accordingly, the center of gravity G of the entire dust collector 30 also moves forward.
  • the shaft support location of the handle 36 may be set so that the horizontal distance L2 from the center of gravity G of the entire dust collector 30 when the dust container 31 is opened is as small as possible.
  • the locking mechanism includes a locking portion 32e having a locking claw 32d provided on the cover portion 32 side, and a locking claw 32d provided on the dust collecting container 31 side. It is comprised by the protrusion 31b to hook.
  • the locking portion 32e is pivotally attached to a side surface of the cover portion 32 opposite to the shaft support portion so as to be rotatable, and is locked by a not-shown elastic member (for example, a leaf spring, a coil spring, etc.). 32d is urged in a direction to lock the protrusion 31b.
  • a not-shown elastic member for example, a leaf spring, a coil spring, etc.
  • a concave portion 32h (FIG. 9 etc.) is provided on the side of the cover portion 32 opposite to the locking claw 32d. Are formed). Therefore, as shown in FIG. 17, when the upper end of the locking portion 32e locked to the protrusion 31b is pushed, the locking claw 32d at the lower end of the locking portion 32e is separated from the protrusion 31b, and the locked state is released. . Thereby, the dust collecting container 31 is opened with respect to the cover part 32.
  • the protrusion 32 also protrudes on the side surface of the dust collecting container 31 in accordance with the provision of the locking portion 32e in the recessed portion 32h in which the central portion of the side surface of the cover portion 32 is recessed.
  • a protrusion 31b is provided in a recessed portion 31e in which a portion corresponding to 31b is recessed.
  • the filter portion 33 is detachably attached to the cover portion 32.
  • a space 50 is formed between the upper surface of the filter portion 33 and the lower surface of the cover 32 as shown in FIG. 9, and this space 50 becomes an exhaust space.
  • the air that has passed through the filter unit 33 from inside the dust collecting container 31 is exhausted from the dust collecting device 30 to the cleaner body side via the exhaust space 50. That is, as shown in FIG. 2, the air that has passed through the filter unit 33 is introduced into the discharge path 35 that communicates with the exhaust path 12 on the cleaner body side. Therefore, the discharge path 35 is integrally formed on the side surface of the cover portion 32 on the inflow path 34 side.
  • a pair of support shafts 35a projecting outward from both ends in the longitudinal direction of the discharge path 35 of the cover portion 32 are integrally formed.
  • a pair of short cylindrical boss portions 31c formed integrally with the dust collecting container 31 are pivotally supported on the support shaft 35a.
  • the boss portion 31c is provided so as to protrude from the side surface of the dust collecting container 31, and has a support hole into which the support shaft 35a is inserted.
  • the pair of support shafts 35 a are provided so as to protrude from the side surface of the discharge path 35 formed integrally with the cover portion 32. That is, it is only necessary to provide the cover portion 32, and the cover portion 32 may be provided directly on the main body.
  • a coil spring 37 as an urging member is fitted into one of the pair of support shafts 35a.
  • One end of the coil spring 37 is locked to the cover portion 32 side, and the other end is locked to the boss portion 31 c side of the dust collecting container 31. Due to the biasing force of the coil spring 37, the dust collecting container 31 is largely opened as shown in FIGS.
  • the opening angle when the dust collecting container 31 is opened by its own weight with the cover portion 32 maintained in a horizontal state is 90 degrees or less.
  • the opening 31d of the dust collecting container 31 is closed or the opening 31d faces upward.
  • the opening 31d of the dust collecting container 31 is opened at an opening angle exceeding 90 degrees by the biasing force of the coil spring 37 as shown in FIG. Since the opening 31d opens widely, the opening 31d faces downward, and the dust in the dust collecting container 31 can be easily discharged without dirtying the hands. At this time, the state in which the bottom portion 31x 1 of the dust container 31 is inclined to face down, the opening 31d is also inclined downward, the side wall portion 31x 2 of the dust container 31 is inclined downwardly toward the opening 31d It becomes. In this state, since the dust in the dust collecting container 31 is easily moved to the opening 31d side, the disposal process can be easily performed.
  • the opening 31d faces downward means that the opening 31d faces downward so that dust collected in the dust collecting container 31 is naturally discharged from the opening 31d by its own weight. This means broadly and does not necessarily mean only the state in which the opening 31d is directed vertically downward.
  • the operation of opening the dust collecting container 31 is performed by unlocking the locking claw 32d and the protrusion 31b by the locking mechanism, whereby the dust collecting container 31 is automatically opened largely.
  • the handle 36 since a rotation state is controlled by a pair of regulating member 38 or a pair of raised parts 32j and 36c, and these cooperation actions, the handle 36 is held and the cover part 32 is kept horizontal. In the state, the dust collecting container 31 can be opened. Therefore, as described above, the disposal process can be performed in a state in which dust is easily discharged, that is, in a state in which the opening 31d of the dust collection container 31 faces downward.
  • the problem of a disposal and subject of disposal of the dust collected in the dust collecting container 31 are eliminated. That is, it is possible to increase the opening angle of the dust collecting container 31 for collecting dust, and the disposal operation of the collected dust can be surely and easily performed.
  • the introducing plate 34b is disposed in the vicinity of the inflow port 31a in the side wall 31x 2 inner surface of the dust container 31, to guide the flowing in from the inflow port 31a into the dust collecting container 31 the air flow into the bottom 31x 1 side.
  • the introduction plate 34b includes a base end 34b 1 disposed along the upper edge of the inflow port 31a, a distal end 34b 2 having an end disposed toward the bottom 31x 1 side, a base end 34b 1 and a distal end. and a part 34b 2 and the intermediate portion 34b 3 provided continuously to the intermediate portion 34b 3 is formed in a shape which guides from the inlet 31a to gradually bottom 31x 1 the introduced air flow to the dust collecting container 31 ing.
  • the intermediate portion 34b 3 is formed in a curved shape so that the tip end portion 34b 2 is oriented in a direction perpendicular to the bottom portion 31x 1 .
  • the introduction plate 34b has side wall portions 34b 4 on both sides from the base end portion 34b 1 to the tip end portion 34b 2 , so that it is formed into a duct mouth shape as a whole. Has been.
  • the introduction plate 34b has a block-shaped attachment portion 34b 5 integrally formed with the left and right side wall portions 34b 4, and a pair of left and right projections protruding from the bottom surface of the dust collecting container 31.
  • a pair of attachment portions 34b 5 are fixed to the protrusions by, for example, screwing or bonding.
  • FIGS. 2 and 9 the airflow traveling obliquely upward in the inflow path 34 is gradually guided from the inlet 31a to the bottom surface of the dust collecting container 31 by the introduction plate 34b. As a result, a decrease in suction force is suppressed.
  • the point provided with the inlet plate 34b that covers the inflow port 31a and is opened facing the bottom surface of the dust collection container 31 is aligned with the point that the inflow port 31a of the dust collection container 31 is formed at the upper position.
  • the dust collection container 31 can be formed into a deep container shape.
  • the filter unit 33 does not directly collect dust in the air sucked from the inlet 31a, and clogging of the filter unit 33 is suppressed.
  • the filter unit 33 does not collect dust locally, and can collect fine dust that has not accumulated in the dust collection container 31 over the entire area of the filter. Therefore, the maintenance and replacement time of the filter unit 33 can be extended.
  • “maintenance” is a cleaning operation for removing dust adhering to the filter unit 33.
  • FIG. 34 (B) is a perspective view showing Modification 1 of the introduction plate
  • FIG. 34 (C) is a perspective view showing Modification 2 of the introduction plate.
  • the introduction plate 34ba shown in FIG. 34B has a tip 34b 21 close to the bottom surface of the dust collecting container 31 formed in a comb shape. In this way, the comb tooth-like gap portion of the tip portion 34b 21 of the introducing plate 34ba a (slit) is the air while passing through, lint, elongated dust of hairs or the like are collected caught on the tooth portions.
  • the introduction plate 34bb shown in FIG. 34 (C) has a lattice-like tip 34b 22, the same effect can be obtained in this way.
  • an inlet 31a and an introduction plate 34b are provided on the shaft support portion side of the dust collection container 31. Therefore, as shown in FIG. 17, when the dust collection container 31 is opened and the internal dust is discarded, there is no problem that the dust is caught on the introduction plate 34b and is not discharged from the dust collection container 31.
  • the case where the introduction plate 34 b is provided in the dust collection container 31 is illustrated, but may be provided in the filter unit 33.
  • the base end portion of the introduction plate 34 b can be integrally connected to the frame 33 b of the filter portion 33.
  • the cover plate 32 may be provided with an introduction plate 34b.
  • a notch part for projecting the introduction plate 34b from the cover part 32 side to the dust collection container 31 side is provided in the filter part 33.
  • a seal portion that closes the gap between the notch portion and the introduction plate 34 b is also provided in the cover portion 32.
  • the cover part 32 when the cover part 32 is rotated with respect to the filter part 33, it comprises so that the introduction board 34b can pass a notch part.
  • the filter unit 33 is normally housed and held in the cover unit 32 as described above. Therefore, the function can be sufficiently expected by detachably providing the filter portion 33 to the cover portion 32.
  • the filter unit 33 in order to remove dust adhering to the filter unit 33, it is necessary to remove the filter unit 33 from the cover unit 32.
  • the cover unit 32 when the dust collecting container 31 is opened, the surface of the filter unit 33 attached to the cover unit 32 to which dust is attached is exposed. Then, the user manually removes the filter unit 33 from which the dust-adhered surface is exposed from the cover unit 32, and thus the user's hand is contaminated with dust.
  • the filter unit 33 is accommodated in the cover unit 32 when the dust collector 30 is used, and when the filter is cleaned as shown in FIG.
  • the filter part 33 is rotatable with respect to the dust collection container 31 and the cover part 32 so that the filter part 33 can be removed from the cover part 32 and cover the opening part 31 d of the dust collection container 31. That is, as shown in FIGS. 11, 24, and 26, the cover portion 32 is pivotally supported by the dust collection container 31 so as to be openable and closable so as to cover the filter portion 33 and the opening 31 d of the dust collection container 31.
  • the filter portion 33 is also pivotally supported in the vicinity of the pivot portion of the cover portion 32 in the dust collecting container 31 so as to be rotatable.
  • the shaft support part of the filter part 33 and the shaft support part of the cover part 32 may be arranged on the same axis or may be arranged on different axes parallel to each other, but the structure can be simplified. It is preferable that they are arranged on the same axis.
  • the dust collecting container 31 includes the pair of short cylinders disposed on the same axis at a predetermined interval in the vicinity of the opening 31d as described above.
  • a boss 31c is formed.
  • the shaft support portion of the cover portion 32 is provided between the pair of boss portions 31c of the dust collecting container 31, and has a pair of support shafts 35a inserted into the holes of the boss portions 31c.
  • the shaft journal section of the filter unit 33, together are provided on both sides of the pair of the boss portion 31c of the dust container 31, comprising a pair of support shafts 33d 1 which is inserted into the hole of the boss portion 31c.
  • the filter unit 33 includes a pleated filter body 33a for collecting dust while allowing air to pass therethrough, and a resin made around the filter body 33a.
  • a frame 33b for example, ABS resin
  • a packing member 33b 1 provided integrally on the outer periphery of the frame 33b are provided.
  • the side surface of the frame body 33b, a pair of protruding pieces 33d are integrally molded, the support shaft 33d 1 of substantially hemispherical in each opposing surface of the pair of protruding pieces 33d are integrally molded.
  • the frame body 33b, the pair of projecting pieces 33d, and the pair of support shafts 33d 1 are integrally formed of resin. Between the shaft 33d 1 can be elastically easily spread the. Therefore, the pair of support shafts 33d 1 of the filter portion 33 can be easily inserted from the outside into the holes of the boss portions 31c of the dust collecting container 31.
  • the cover portion 32 has the discharge port 32 a serving as an inlet of the discharge path 35 for discharging the air that has passed through the filter portion 33.
  • the support shaft 35a is integrally formed in the vicinity of the discharge port 32a, specifically on both sides of the discharge path 35 (see FIG. 15).
  • the distance between the end surfaces of the pair of support shafts 35 a of the cover portion 32 is set slightly longer than the distance between the inside of the pair of boss portions 31 c of the dust collecting container 31. Therefore, when attaching the cover part 32 to the dust collecting container 31, it can be inserted by inserting the one support shaft 35a into one boss part 31c and then pushing the other support shaft 35a into the other boss part 31c obliquely. .
  • the filter unit 33 is usually housed in the housing recess of the cover 32 in a state where it is press-fitted with the packing member 33b 1 . Is rotatable with respect to the dust collecting container 31. Therefore, this shaft support structure has no influence on the operation of opening the dust collecting container 31 and discarding the dust inside.
  • the pair of support shafts 33d 1 of the filter unit 33 also serves as a restricting member that prevents the pair of boss portions 31c of the dust collecting container 31 from being detached from the pair of support shafts 35a of the cover unit 32. There is an advantage that it is not necessary to newly provide such a regulating member.
  • the filter portion 33 is made to be elastically widened between the pair of support shafts 33 d 1 by utilizing the elastic deformation of the pair of projecting pieces 33 d of the frame portion 33 b of the filter portion 33. Since it can be easily removed from the cylindrical shaft portion 31c and elastic deformation can be used for attaching a new filter portion 33, the filter portion 33 can be easily replaced. Further, when removing dust adhering to the filter main body 33a of the filter unit 33, the filter unit 33 is opened by opening the cover unit 32 with respect to the dust collecting container 31 and the filter unit 33 as shown in FIG. Only the cover portion covering the opening portion 31d of the dust collecting container 31 can be set in an open state. As shown in FIG.
  • dust can be removed by moving the bar member K to the left and right in the direction of the arrow and rubbing it against the pleats on the upper surface of the filter body 33a to vibrate.
  • This dust removal operation can be performed in a state where the dust collecting surface to which the dust of the filter main body 33a adheres is housed in the dust collecting container 31, so that the dust is not scattered indoors and the user can easily and hygienically do not get his hands dirty. It can be done.
  • the dust collecting container 31 can be opened by rotating the filter 33 to open the dust collecting container 31 so that the filter 33 is accommodated in the cover 32.
  • the dust inside can be discarded.
  • the filter main body 33a is formed in a pleat shape that repeats peaks and valleys. Therefore, the filter main body 33a can be vibrated by sequentially rubbing the bar member K against the peak portions, thereby enhancing the dust removal effect. (See FIGS. 29 and 32).
  • the filter area increases, clogging of the filter main body 33a is suppressed, and there is an advantage that it is not necessary to frequently perform the dust removal operation.
  • the filter main body 33a is not limited to this shape, and may be a general flat shape, but a pleated shape is preferable because the above-mentioned merit can be obtained.
  • the filter portion 33 is pivotally supported by the dust collection container 31 and the shaft support portion is disposed on the same axis as the shaft support portion of the cover portion 32 with respect to the dust collection container 31.
  • the handling of the portion 33 becomes very convenient, and the shaft support structure can be simplified.
  • the thin strip-shaped packing member 33b 1 made of rubber, soft resin, or the like is integrally provided around the entire frame 33b of the filter portion 33 (see FIG. 28). As shown in FIG. 13, when the opening 31 d of the dust collecting container 31 is covered with the filter part 33 and the cover part 32, the lower surface of the packing member 33 b 1 contacts the opening edge of the opening 31 d of the dust collecting container 31. Therefore, air leakage in the dust collection container 31 is prevented, and the dust collection container 31 is sealed.
  • the packing member 33 b 1 is in pressure contact with the inner peripheral surface of the cover portion 32, whereby the filter portion 33 is held in a state where it is press-fitted into the cover portion 32.
  • the sealed state of the exhaust space 50 after passing through the filter portion 33 is ensured.
  • the filter unit 33 has a convex portion 33e in at least one position of the packing member 33b 1, the cover portion 32 is convex portion 33e and opposed It has a notch 32f for exposing the convex portion 33e at a position where the protrusion 33e is exposed.
  • the user can easily remove the filter unit 33 from the cover unit 32 without exposing the dust collecting surface of the filter unit 33 to the outside. Then, as described above, the filter part 33 is vibrated using the rod member K, whereby the dust collected on the dust collecting surface can be shaken down into the dust collecting container 31 (see FIG. 32). At this time, since the packing member 33 b 1 of the filter unit 33 is in close contact with the opening edge of the dust collecting container 31, dust does not scatter from the dust collecting container 31 to the outside.
  • the convex portion 33 e of the filter portion 33 is provided on the side opposite to the shaft support portion of the filter portion 33. Thereby, even if the convex part 33e is lightly pressed with a finger
  • FIG. Moreover, the convex part 33e has a non-slip
  • the present invention is not limited to the embodiment shown in the drawings, and may be configured as follows.
  • the dust collector shown in the drawing the dust collection container 31, the cover portion 32, and the filter portion 33 are connected to each other so that the shaft portion is relatively rotatable.
  • the pivotal support portion may be arranged on the side opposite to the inlet 31a and the outlet 32a.
  • the locking part 32e and the protrusion 31b that lock the state where the opening 31d of the dust collecting container 31 is closed by the cover part 32 together with the filter part 33 may be disposed beside the inlet 31a and the outlet 32a.
  • the dust collecting container 31 is opened by holding the handle 36, and then the dust collecting container 31 is placed vertically to remove dust from between the inlet 31a and the shaft support portion. It can be discarded.
  • the exhaust port 32a of the cover part 32 is arranged on the same side as the inlet 31a of the dust collecting container 31, but the exhaust port 32a is the inlet 31a. It may be arranged on the opposite side. In this case, the locking portion 32e and the protrusion 31b may be disposed beside the discharge port 32a.
  • This configuration (II) can also be applied to the configuration (I).
  • the dust collector having the configuration (II) can be applied as a dust collector of a normal cleaner in which a head portion having a suction port is connected to a cleaner body via a hose.
  • the inflow path 34 of the dust collecting container 31 can be leveled without being inclined.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Filters For Electric Vacuum Cleaners (AREA)
  • Filtering Of Dispersed Particles In Gases (AREA)

Abstract

A dust collection device provided with a dust collection container (31) for storing dust, an inlet (31a) through which the dust sucked in from a suction inlet (6) at the bottom of a vacuum cleaner flows to the dust collection container (31) along with air, an introduction plate (34b) for guiding the dust and air that flowed into the dust collection container (31), and a filter unit (33) for capturing the dust by letting the air pass through the filter unit (33), wherein: the dust collection container (31) has a bottom part (31x1), a side wall part (31x2) which rises from the peripheral edge of the bottom part (31x1) and of which a portion constitutes the edge part of the inlet (31a), and an opening (31d) of which the circumference is delimited by means of the side wall part (31x2) and on which the filter unit (33) is disposed; and the introduction plate (34b) is disposed in the vicinity of the inlet (31a) on the inner surface of the side wall part (31x2) and guides the air flow that flowed into the dust collection container (31) from the inlet (31a) toward the bottom part (31x1).

Description

集塵装置Dust collector
 この発明は、集塵装置に関し、詳しくは、自走式掃除機に適した集塵装置に関する。 The present invention relates to a dust collector, and more particularly to a dust collector suitable for a self-propelled cleaner.
 一般に、床面等の塵埃を清掃するための掃除機は、空気を吸引し、吸引した空気中の塵埃を捕集して集塵するように構成されている。
 その集塵方式としては、フィルタを兼用する着脱可能な袋を設け、該袋に塵埃が一杯になると新しい袋と交換する方式が主流である。
 この方式では交換用の新しい袋がなければ掃除機を利用できなくなるため、ユーザーは常に新しい袋を交換用にストックしておく必要がある。
In general, a vacuum cleaner for cleaning dust such as a floor surface is configured to suck air and collect dust in the sucked air.
As the dust collection method, a method in which a detachable bag that also serves as a filter is provided and the bag is filled with dust is replaced with a new bag.
In this method, the vacuum cleaner cannot be used without a new replacement bag, so the user must always stock a new bag for replacement.
 これに対し、吸引した空気を遠心分離することにより塵埃を集塵するエアーサイクロン方式の掃除機が提案され、実施されている。この方式の掃除機では遠心分離された塵埃を円筒形状のダストカップに集塵する。ダストカップが一杯になるとダストカップを掃除機本体から取り外し、ダストカップ内の塵埃を廃棄して空にすることでダストカップの再使用が可能になる。このため、袋等の交換が必要なく、半永久的に使用可能となる。 On the other hand, an air cyclone type vacuum cleaner that collects dust by centrifuging the sucked air has been proposed and implemented. This type of vacuum cleaner collects the centrifuged dust in a cylindrical dust cup. When the dust cup is full, the dust cup can be reused by removing the dust cup from the vacuum cleaner body and discarding and emptying the dust in the dust cup. For this reason, there is no need to replace the bag or the like, and it can be used semipermanently.
 しかし、サイクロン方式の掃除機は、遠心分離を行うためにも大きな吸引力を必要としている。しかも、遠心分離する旋回気流を形成するための経路が非常に複雑になるばかりでなく、集塵した塵埃の廃棄が面倒にもなる。
 また、このようなサイクロン方式は、出力やサイズに制約がある充電方式の携帯型掃除機や、いわゆるロボット掃除機などの自走式掃除機においてはほとんど利用されていない。そこで、自走式掃除機を含む充電方式の掃除機においては袋を用いることなくダストカップ内にフィルタを設け、フィルタで捕集した塵埃をダストカップで集塵する方式が一般的となっている。
 なお、自走式掃除機の例としては、以下に示す特許文献1および2のようなものが知られている。
However, the cyclone type vacuum cleaner requires a large suction force for centrifugal separation. In addition, the path for forming the swirling airflow to be centrifuged is not only very complicated, but also the disposal of the collected dust is troublesome.
In addition, such a cyclone method is hardly used in a portable vacuum cleaner of a charging method in which output and size are restricted or a self-propelled cleaner such as a so-called robot cleaner. Therefore, in a charge-type vacuum cleaner including a self-propelled cleaner, a filter is generally provided in the dust cup without using a bag, and the dust collected by the filter is collected by the dust cup. .
In addition, as an example of a self-propelled cleaner, the thing like patent document 1 and 2 shown below is known.
特開2004-195215号公報JP 2004-195215 A 特開2007-167617号公報JP 2007-167617 A
 例えば、特許文献1に記載のような自走式掃除機では、吸引された空気中の大きな塵埃を集塵する第1集塵室と、第1集塵室を経由した空気中の細かな塵埃を捕集するためのフィルタを有する第2集塵室とから集塵装置が構成されている。
 このため、集塵装置の構造が複雑となり、集塵した塵埃を廃棄するために掃除機本体から集塵装置を取り外しても一度に全ての塵埃を廃棄するこができない。すなわち、第2集塵室を開放する操作が別途必要になる。
 また、第1集塵室は掃除機本体に接続される部分が全て開口されているにも関わらず、集塵した塵埃の廃棄時には集塵装置を側方に引き出して取り外す方式であるため、取り外し時に集塵された塵埃が第1集塵室からこぼれ落ちる恐れもある。
For example, in a self-propelled cleaner as described in Patent Document 1, a first dust collecting chamber that collects large dust in the sucked air and fine dust in the air that passes through the first dust collecting chamber. A dust collecting device is composed of a second dust collecting chamber having a filter for collecting air.
For this reason, the structure of the dust collector becomes complicated, and even if the dust collector is removed from the main body of the cleaner in order to discard the collected dust, it is not possible to discard all the dust at once. That is, a separate operation for opening the second dust collection chamber is required.
In addition, the first dust collection chamber is a system where the dust collector is pulled out to the side and removed when the collected dust is discarded, even though all the parts connected to the vacuum cleaner body are open. Sometimes dust collected may spill from the first dust collection chamber.
 一方、例えば、特許文献2に記載のような自走式掃除機では、サイクロン方式を利用するため、遠心分離用の旋回気流を形成する空気経路が必要となり集塵装置の構造が複雑化する。
 また、集塵装置の下方に塵埃の流入口を設けていることから高さに制約のある自走式掃除機においては塵埃の集塵容量を大きくすることができない。
 さらには、流入口が集塵装置の底部に形成されているため、遠心分離されなかった塵埃が流入口から自然落下する恐れもある。
On the other hand, for example, in a self-propelled cleaner as described in Patent Document 2, since a cyclone system is used, an air path for forming a swirling airflow for centrifugation is required, and the structure of the dust collector is complicated.
Further, since the dust inlet is provided below the dust collector, the dust collecting capacity cannot be increased in a self-propelled cleaner with a height restriction.
Furthermore, since the inlet is formed at the bottom of the dust collector, dust that has not been centrifuged may fall naturally from the inlet.
 この発明は以上のような事情を考慮してなされたもので、簡易な構成で使い勝手のよい集塵装置を提供するものである。 The present invention has been made in consideration of the above-described circumstances, and provides an easy-to-use dust collector with a simple configuration.
 かくして、本発明によれば、次の第1~第6の集塵装置が提供される。
 すなわち、第1の集塵装置は、塵埃を収容する集塵容器と、掃除機の底部の吸込口から吸い込まれた塵埃を空気と共に集塵容器に流入させる流入口と、集塵容器に流入した塵埃と空気とを案内する導入板と、その空気を通過させて塵埃を捕集するフィルタ部とを備え、
 集塵容器は、底部と、底部の周縁から立ち上がると共に一部が流入口の縁部を構成する側壁部と、側壁部により周が規定されると共にフィルタ部が配置される開口部とを有してなり、
 導入板は、側壁部内面における流入口の近傍に配置されて流入口から集塵容器内へ流入した気流を底部側へ案内する。
Thus, according to the present invention, the following first to sixth dust collectors are provided.
That is, the first dust collecting device flows into the dust collecting container for storing the dust, the inlet for letting the dust sucked from the suction port at the bottom of the vacuum cleaner into the dust collecting container together with the air, and the dust collecting container. An introduction plate that guides dust and air, and a filter unit that passes the air and collects dust;
The dust collecting container has a bottom portion, a side wall portion that rises from the periphery of the bottom portion and partially constitutes an edge portion of the inflow port, and an opening portion that is defined by the side wall portion and in which the filter portion is disposed. And
The introduction plate is disposed in the vicinity of the inlet on the inner surface of the side wall and guides the airflow flowing from the inlet into the dust collecting container to the bottom side.
 さらに、この第1の集塵装置は、次のように構成されてもよく、これらが適宜組み合わされてもよい。
(1)導入板は、流入口の上縁に沿って配置された基端部と、底部側へ向けて端部が配置された先端部と、基端部と先端部とに連設された中間部とを有し、中間部は流入口から集塵容器内へ導入された気流を徐々に底部へ案内する形状に形成されてもよい。
Further, the first dust collector may be configured as follows, or may be combined as appropriate.
(1) The introduction plate is connected to the base end portion arranged along the upper edge of the inflow port, the tip end portion having the end portion arranged toward the bottom side, and the base end portion and the tip end portion. The intermediate portion may be formed in a shape that gradually guides the airflow introduced from the inlet into the dust collecting container to the bottom.
(2)中間部は、先端部が底部に対して垂直方向に向くように湾曲形状に形成されてもよい。 (2) The intermediate portion may be formed in a curved shape such that the tip portion is directed in a direction perpendicular to the bottom portion.
(3)導入板が、基端部から先端部に亘って両側に側壁部を有してもよい。 (3) The introduction plate may have side wall portions on both sides from the proximal end portion to the distal end portion.
(4)先端部が、櫛歯状または格子状に形成されてもよい。 (4) The tip may be formed in a comb shape or a lattice shape.
 第2の集塵装置は、開口部を有しかつ塵埃を収容する集塵容器と、掃除機の底部の吸込口から吸い込まれた塵埃を空気と共に集塵容器に流入させる流入口と、集塵容器に流入した空気を通過させて塵埃を捕集するフィルタ部と、フィルタ部と集塵容器の開口部とを覆うように集塵容器に開閉可能に軸支されたカバー部とを備え、
 フィルタ部は、その外周部にカバー部に圧入されるパッキン部材を有すると共に、このパッキン部材の少なくとも1箇所に凸部を有し、
カバー部は、フィルタ部の凸部を露出させるための切欠き部を凸部と対向する位置に有している。
The second dust collector includes a dust collecting container having an opening and accommodating dust, an inlet for allowing dust sucked from the suction port at the bottom of the vacuum cleaner to flow into the dust collecting container together with air, A filter part that allows air flowing into the container to pass through and collects dust; and a cover part that is pivotally supported by the dust container so as to be openable and closable so as to cover the filter part and the opening of the dust container.
The filter portion has a packing member that is press-fitted into the cover portion on the outer peripheral portion thereof, and has a convex portion in at least one place of the packing member,
The cover part has the notch part for exposing the convex part of a filter part in the position facing a convex part.
 さらに、この第2の集塵装置は、次のように構成されてもよく、これらが適宜組み合わされてもよい。
(5)フィルタ部は、集塵容器におけるカバー部の軸支部分近傍に回動可能に軸支されていてもよい。
Further, the second dust collector may be configured as follows, or may be combined as appropriate.
(5) The filter part may be pivotally supported in the vicinity of the pivotal support part of the cover part in the dust container.
(6)凸部は、フィルタ部の軸支部分と反対側に設けられていてもよい。 (6) The convex part may be provided on the opposite side to the shaft support part of the filter part.
(7)凸部は、その露出部分に滑止め部を有していてもよい。 (7) The convex part may have a non-slip | skid part in the exposed part.
(8)カバー部は、その外周部における凸部と一致しない位置に揺動可能な係止片を有し、
 集塵容器は、係止片と係脱可能な係合部を有してもよい。
(8) The cover portion has a locking piece that can swing at a position that does not coincide with the convex portion on the outer peripheral portion,
The dust collecting container may have an engaging part that can be engaged with and disengaged from the locking piece.
(9)カバー部は、フィルタ部を通過した空気を排出する排出口を有してもよい。 (9) The cover part may have a discharge port for discharging the air that has passed through the filter part.
 第3の集塵装置は、塵埃を収容する集塵容器と、掃除機の底部の吸込口から吸い込まれた塵埃を空気と共に集塵容器に流入させる流入路と、集塵容器に流入した空気を通過させて塵埃を捕集するフィルタ部とを備え、
 集塵容器は底部と底部の周縁から立ち上がる側壁部と側壁部により周が規定される開口部とを有し、
 流入路は吸込口と連通する吸引路に離脱可能に接続されるべき流入路先端と集塵容器の側壁部に接続され塵埃の流入口を形成する流入路基端とを有し、
 流入路先端から流入路基端へ向かって傾斜し側壁部の上端近傍に前記流入口が形成されてなる。
The third dust collecting device includes a dust collecting container for storing dust, an inflow path for allowing dust sucked from the suction port at the bottom of the vacuum cleaner to flow into the dust collecting container together with air, and air flowing into the dust collecting container. A filter unit that passes the dust and collects dust,
The dust collecting container has a bottom part, a side wall part rising from the peripheral edge of the bottom part, and an opening part whose periphery is defined by the side wall part,
The inflow path has an inflow path tip that should be detachably connected to a suction path that communicates with the suction port, and an inflow path base end that is connected to the side wall portion of the dust collecting container and forms a dust inlet.
The inflow path is formed in the vicinity of the upper end of the side wall portion inclining from the front end of the inflow path toward the base end of the inflow path.
 さらに、この第3の集塵装置は、次のように構成されてもよく、これらが適宜組み合わされてもよい。
(10)フィルタ部は集塵容器の開口部を覆うように設けられてもよい。
Furthermore, the third dust collector may be configured as follows, or may be combined as appropriate.
(10) The filter unit may be provided so as to cover the opening of the dust collecting container.
(11)フィルタ部を収容し集塵容器に開閉可能に軸支されるカバー部をさらに備え、カバー部はフィルタ部を通過した空気を排出させる排出路を有し、排出路は流入路と重なるように流入路と同一方向に延びてもよい。 (11) It further includes a cover part that accommodates the filter part and is pivotally supported by the dust collecting container so that the filter part is openable and closable. The cover part has a discharge path for discharging the air that has passed through the filter part, Thus, it may extend in the same direction as the inflow path.
(12)排出路は掃除機の排気路に離脱可能に接続されるべき排出路先端とカバー部に接続され空気の排出口を形成する排出路基端とを有し、排出路基端から排出路先端へ向かうに従って傾斜して形成されてもよい。 (12) The discharge path has a discharge path tip that should be detachably connected to the exhaust path of the vacuum cleaner, and a discharge path base end that is connected to the cover portion and forms an air discharge port. From the discharge path base end to the discharge path tip You may incline as it goes to.
(13)流入路先端と排出路先端は外方へ張り出した面状の流入路フランジおよび排出路フランジをそれぞれ有し、流入路フランジと排出路フランジは同一平面上に位置してもよい。 (13) The front end of the inflow passage and the front end of the discharge passage each have a planar inflow passage flange and a discharge passage flange projecting outward, and the inflow passage flange and the discharge passage flange may be located on the same plane.
 第4の集塵装置は、開口部を有しかつ塵埃を収容する集塵容器と、集塵容器の側壁部に設けられ掃除機の底部の吸込口から吸い込まれた塵埃を空気と共に集塵容器に流入させる流入口と、集塵容器の開口部を覆うように集塵容器に開閉可能に軸支されたカバー部と、カバー部に回動可能に軸支された取っ手とを備え、取っ手が支持され、カバー部が閉じられた状態において取っ手の軸支箇所は全体の重心よりも流入口側にずれて位置している。 The fourth dust collecting device has a dust collecting container having an opening and accommodating dust, and dust sucked in from the suction port at the bottom of the vacuum cleaner provided on the side wall of the dust collecting container together with air. An inlet for inflow into the dust collector, a cover part pivotally supported by the dust collection container so as to cover the opening of the dust collection container, and a handle pivotally supported by the cover part. In the state where it is supported and the cover portion is closed, the shaft support portion of the handle is positioned so as to be shifted to the inflow port side with respect to the entire center of gravity.
 さらに、この第4の集塵装置は、次のように構成されてもよく、これらが適宜組み合わされてもよい。
(14)取っ手が支持され、カバー部が開かれた状態において取っ手の軸支箇所は水平方向において全体の重心の近傍に位置していてもよい。
Further, the fourth dust collector may be configured as follows, or these may be combined as appropriate.
(14) In a state where the handle is supported and the cover portion is opened, the shaft support portion of the handle may be located in the vicinity of the entire center of gravity in the horizontal direction.
(15)カバー部の軸支箇所は取っ手の軸支箇所よりも流入口側に位置していてもよい。 (15) The shaft support portion of the cover portion may be located closer to the inflow port than the handle shaft support portion.
(16)取っ手の軸支方向とカバー部の軸支方向が平行であってもよい。 (16) The handle pivot direction and the cover pivot direction may be parallel.
(17)カバー部は取っ手が起立させられていないときに取っ手を収納するための収納部を有し、収納部は取っ手の形状に対応した窪みからなっていてもよい。 (17) The cover portion may include a storage portion for storing the handle when the handle is not raised, and the storage portion may be formed of a recess corresponding to the shape of the handle.
(18)集塵容器に流入した空気を通過させて塵埃を捕集するフィルタ部を更に備えてもよい。 (18) You may further provide the filter part which passes the air which flowed into the dust collecting container, and collects dust.
 第5の集塵装置は、開口部を有しかつ塵埃を収容する集塵容器と、集塵容器の開口部を覆うように集塵容器に開閉可能に軸支されたカバー部と、カバー部に回動可能に軸支された取っ手とを備え、カバー部と取っ手は、カバー部に対して取っ手が回動させられ起立した状態となったときに互いに当接して取っ手の回動を規制する一対の規制部材をそれぞれ有する集塵装置。 A fifth dust collector includes a dust collecting container having an opening and containing dust, a cover part pivotally supported by the dust collecting container so as to cover the opening of the dust collecting container, and a cover part The cover portion and the handle come into contact with each other when the handle is turned upright with respect to the cover portion to regulate the rotation of the handle. A dust collector having a pair of regulating members.
 さらに、この第5の集塵装置は、次のように構成されてもよく、これらが適宜組み合わされてもよい。
(19)一対の規制部材は取っ手の軸支箇所の近傍でカバーの表面から突出する突起部と、取っ手から突出する係止部とからなるのもよい。
Further, the fifth dust collector may be configured as follows, or these may be appropriately combined.
(19) The pair of restricting members may include a protruding portion protruding from the surface of the cover in the vicinity of the pivot support portion of the handle and an engaging portion protruding from the handle.
(20)一対の規制部材は、カバー部と取っ手側に、取っ手の軸支箇所の周囲に互いに当接して取っ手を起立状態で解除可能にロックするための一対の隆起部をそれぞれ有してもよい。この一対の隆起部は、取っ手を起立状態に維持し回動を規制する一対の規制部材を構成する。 (20) The pair of restricting members may have a pair of raised portions on the cover portion and the handle side for abutting each other around the shaft support portion of the handle so that the handle is releasably locked in a standing state. Good. The pair of raised portions constitute a pair of restricting members that maintain the handle in an upright state and restrict rotation.
(21)一対の隆起部は取っ手が回動させられ互いに当接したときに取っ手の隆起部がカバー部の隆起部を乗り越えることができるように傾斜面をそれぞれ有してもよい。 (21) Each of the pair of raised portions may have an inclined surface so that the raised portions of the handle can get over the raised portions of the cover portion when the handles are rotated and come into contact with each other.
(22)カバー部は取っ手が起立させられていないときに取っ手を収納するための収納部を有し、収納部は取っ手の形状に対応した窪みからなるのもよい。 (22) The cover portion may include a storage portion for storing the handle when the handle is not raised, and the storage portion may be formed of a recess corresponding to the shape of the handle.
(23)掃除機の底部の吸込口から吸い込まれた塵埃を空気と共に集塵容器に流入させる流入口と、集塵容器に流入した空気を通過させて塵埃を捕集するフィルタ部とを更に備えてもよい。 (23) Further provided with an inlet for allowing dust sucked from the suction port at the bottom of the vacuum cleaner to flow into the dust collecting container together with air, and a filter unit for collecting the dust by allowing the air flowing into the dust collecting container to pass therethrough. May be.
 第6の集塵装置は、開口部を有しかつ塵埃を収容する集塵容器と、集塵容器の開口部を覆うように集塵容器に開閉可能に軸支されたカバー部と、カバー部が閉じた状態を維持するように集塵容器とカバー部とを解除可能に係止する係止部と、カバー部を開く方向に付勢する付勢部材とを備え、カバー部は閉じた状態において集塵容器の開口部を覆い、係止部の係止が解除されると90°を超える角度まで回動する。 A sixth dust collector includes a dust collecting container having an opening and containing dust, a cover part pivotally supported by the dust collecting container so as to cover the opening of the dust collecting container, and a cover part The dust container and the cover part are releasably locked so as to maintain a closed state, and a biasing member that biases the cover part in the opening direction is provided, and the cover part is closed. When the opening of the dust collecting container is covered and the lock of the lock is released, it is rotated to an angle exceeding 90 °.
 さらに、この第6の集塵装置は、次のように構成されてもよく、これらが適宜組み合わされてもよい。
(24)集塵容器とカバー部のいずれか一方は他方を回動可能に軸支する支持軸を有し、他方は前記支持軸に嵌る貫通孔が形成されたボスを有し、付勢部材は支持軸に嵌められて支持軸とボスとの間に介在するコイルスプリングからなっていてもよい。
Further, the sixth dust collector may be configured as follows, or may be appropriately combined.
(24) Either one of the dust collecting container and the cover portion has a support shaft that pivotally supports the other, and the other has a boss formed with a through hole that fits into the support shaft, and an urging member May comprise a coil spring that is fitted to the support shaft and interposed between the support shaft and the boss.
(25)集塵容器は側壁部に流入口が設けられ、カバー部の軸支箇所は流入口の近傍に位置してもよい。 (25) The dust collecting container may be provided with an inflow port in the side wall portion, and the shaft support portion of the cover portion may be located in the vicinity of the inflow port.
(26)カバー部は平面状の天面を有し、天面を水平に維持しながら集塵容器とカバー部との係止が解除された状態において集塵容器の開口部は下方を向いてもよい。 (26) The cover portion has a flat top surface, and the opening of the dust collection container faces downward in a state where the lock between the dust collection container and the cover portion is released while keeping the top surface horizontal. Also good.
(27)カバー部は回動可能に軸支された取っ手を有し、取っ手が支持され、集塵容器とカバー部との係止が解除された状態において集塵容器の開口部は下方を向いてもよい。 (27) The cover portion has a handle pivotally supported so that the handle is supported, and the opening of the dust collection container faces downward in a state where the lock between the dust collection container and the cover portion is released. May be.
(28)塵埃を捕集するフィルタ部を更に備えてもよい。 (28) You may further provide the filter part which collects dust.
 また、本発明の別の観点によれば、前記集塵装置を備えた自走式掃除機が提供されてもよい。 Further, according to another aspect of the present invention, a self-propelled cleaner provided with the dust collector may be provided.
 本発明の第1の集塵装置によれば、流入口から集塵容器内へ流入した気流が導入板によって底部側へ案内される。この結果、塵埃を含む気流が流入口からフィルタ部へ直線的に移動し、それによってフィルタ部が塵埃にて局所的に目詰まりするということが防止され、自走式掃除機の吸引力(吸塵力)の低下を抑制することができると共に、フィルタ部の清掃回数を低減することができる。特にフィルタとして機能を長期間維持できるようにできる。
 なお、本発明において「自走式掃除機」とは、底面に吸込口を有すると共に内部に集塵部を有する筐体、筐体を走行させる駆動輪、駆動輪の回転、停止および回転方向等を制御する制御部などを備え、ユーザーの手を離れて自立的に掃除動作する掃除機を意味し、後述の図面を用いた実施形態によって一例が示される。
According to the first dust collecting device of the present invention, the airflow flowing into the dust collecting container from the inlet is guided to the bottom side by the introduction plate. As a result, it is possible to prevent the air flow including dust from moving linearly from the inlet to the filter unit, thereby locally clogging the filter unit with dust, and the suction force (dust absorption) of the self-propelled cleaner is prevented. Force) can be suppressed, and the number of cleanings of the filter portion can be reduced. In particular, the function as a filter can be maintained for a long time.
In the present invention, the term “self-propelled cleaner” refers to a housing having a suction port on the bottom and a dust collecting portion inside, a drive wheel for running the housing, rotation, stop and rotation direction of the drive wheel, etc. This means a vacuum cleaner that includes a control unit for controlling the operation and performs a cleaning operation independently from the user's hand, and an example is shown by an embodiment using the drawings described later.
 また、第1の集塵装置の前記構成(1)によれば、集塵容器内において、流入口からフィルタ部へ向かう気流に与える抵抗を抑制することができ、吸引力の低下を抑制することができる。この効果は、特に、前記構成(2)によって得ることができる。 Moreover, according to the said structure (1) of a 1st dust collector, the resistance given to the airflow which goes to a filter part from an inflow port can be suppressed in a dust collecting container, and the fall of a suction force is suppressed. Can do. This effect can be obtained particularly by the configuration (2).
 前記構成(3)によれば、導入板がダクト口形状に形成されるため、流入口から集塵容器内へ流入した気流を効率よく底部側へ案内することができる。 According to the configuration (3), since the introduction plate is formed in a duct mouth shape, the airflow flowing into the dust collecting container from the inlet can be efficiently guided to the bottom side.
 前記構成(4)によれば、糸屑、毛等の繊維状屑が導入板の櫛歯状または格子状の先端部に引っ掛かるため、繊維状屑によるフィルタ部の目詰まりを低減することができる。 According to the configuration (4), since the fibrous waste such as yarn waste and hair is caught by the comb-like or lattice-like tip portion of the introduction plate, clogging of the filter portion due to the fibrous waste can be reduced. .
 第2の集塵装置によれば、フィルタ部およびカバー部にて集塵容器の開口部を閉じた状態において、パッキン部材がカバー部の内周面と圧接しかつ集塵容器の開口部の開口端縁に当接するため、自走式掃除機による掃除の際、集塵装置内に流入し排出される空気の漏れが防止される。
 また、カバー部に対し集塵容器を開放させると、フィルタ部がカバー部内に圧入されて保持された状態を維持するため、集塵容器内の塵埃を廃棄する際にフィルタ部が邪魔とならず便利である。
 また、集塵容器の開口部をカバー部にて閉じた状態のとき、凸部を指で押さえながらカバー部を開くことで、集塵容器の開口部はフィルタ部にて閉じられた状態を維持される。つまり、ユーザーは、フィルタ部の塵埃捕集面を外部に露出させることなく、簡単にフィルタ部をカバー部から出すことができる。そのため、棒部材を用いてフィルタ部を振動させることにより、捕集面に捕集された塵埃を集塵容器内へ振り落とすことができる。このとき、フィルタ部のパッキン部材が集塵容器の開口端縁に密着しているため、塵埃が集塵容器内から外部に飛散しない。
According to the second dust collector, the packing member is in pressure contact with the inner peripheral surface of the cover part and the opening of the dust container opening in a state where the filter container and the cover part close the opening of the dust container. Since it abuts against the edge, leakage of air flowing into and out of the dust collector during the cleaning by the self-propelled cleaner is prevented.
Also, if the dust collection container is opened with respect to the cover part, the filter part is maintained in a state where it is press-fitted into the cover part, so that the filter part does not get in the way when the dust in the dust collection container is discarded. Convenient.
Also, when the opening of the dust collection container is closed by the cover part, the opening of the dust collection container is kept closed by the filter part by opening the cover part while pressing the convex part with your finger. Is done. That is, the user can easily remove the filter part from the cover part without exposing the dust collecting surface of the filter part to the outside. Therefore, the dust collected on the collection surface can be shaken off into the dust collection container by vibrating the filter portion using the rod member. At this time, since the packing member of the filter portion is in close contact with the opening edge of the dust collecting container, the dust is not scattered outside from the inside of the dust collecting container.
 また、第2の集塵装置の前記(5)の構成によれば、フィルタ部に付着した塵埃を除去する際、カバー部を集塵容器およびフィルタ部に対して開放することにより、フィルタ部が集塵容器の開口部を覆うカバー部開放状態にセットすることができる。そして、この状態で、フィルタ部の上面に棒部材を擦りつけて振動させることで除塵を行える。この除塵操作は、フィルタ部の塵埃が付着した部分を集塵容器内に収納した状態で行えるため、室内に塵埃を飛散させず、ユーザーも手を汚すことなく衛生的に簡単に行える。また、除塵操作後は、フィルタ部をカバー部に収容するように、フィルタ部を集塵容器に対して開放すれば、集塵容器内の塵埃を廃棄することができる。 Further, according to the configuration of (5) of the second dust collector, when removing dust adhering to the filter unit, the filter unit is opened by opening the cover unit to the dust collecting container and the filter unit. It can be set in the cover part open state which covers the opening part of a dust collecting container. In this state, dust can be removed by rubbing a bar member against the upper surface of the filter portion and vibrating. This dust removal operation can be performed in a hygienic and simple manner without dust being scattered indoors and without the user getting his / her hands dirty, since the dust attached portion of the filter portion can be stored in the dust collecting container. Further, after the dust removal operation, if the filter unit is opened with respect to the dust collecting container so that the filter unit is accommodated in the cover unit, the dust in the dust collecting container can be discarded.
 前記(6)の構成によれば、凸部を指で軽く押さえても容易にフィルタ部をカバー部から外すことができる。 According to the configuration of (6), the filter part can be easily removed from the cover part even if the convex part is lightly pressed with a finger.
 前記(7)の構成によれば、指が凸部に引っ掛かり易くなる。 According to the configuration of (7), the finger is easily caught on the convex portion.
 前記(8)の構成によれば、係止片を係合部に係止することによりフィルタ部およびカバー部にて集塵容器の開口部を閉じてロックすることができるため、集塵後の集塵装置を持ち運んでも不意に集塵容器が開放して内部の塵埃を室内に撒き散らすような心配がない。 According to the configuration of (8), since the opening of the dust collecting container can be closed and locked by the filter part and the cover part by locking the locking piece to the engaging part, Even if you carry the dust collector, you don't have to worry about the dust container opening unexpectedly and scattering the dust inside.
 前記(9)の構成によれば、空気を集塵装置内でスムーズに流通させることができる。 According to the configuration of (9), air can be smoothly circulated in the dust collector.
 第3の集塵装置によれば、塵埃を空気と共に集塵容器に流入させる流入路が吸引路に離脱可能に接続される流入路先端から側壁部に接続される流入路基端へ向かって傾斜し、側壁部の上端近傍に塵埃の流入口が形成されるので、底部から流入口までの高低差が大きくなり集塵容量を大きくすることができるだけでなく、集塵装置の取り外し時に集塵した塵埃がこぼれ落ちることも防止できる。 According to the third dust collector, the inflow path for allowing dust to flow into the dust collecting container together with air is inclined from the distal end of the inflow path connected to the suction path to the base of the inflow path connected to the side wall portion. Since the dust inlet is formed near the upper end of the side wall, the height difference from the bottom to the inlet is increased, which not only increases the dust collection capacity, but also collects dust when the dust collector is removed. It can also prevent spills.
 また、第3の集塵装置の前記(10)の構成によれば、フィルタ部が集塵容器の開口部を覆うので、フィルタ部の面積を大きく設定することが可能となり、流入口から塵埃と共に流入した空気を効率よく通過させて確実に塵埃を捕集できる。
 また、フィルタ部の面積を大きく設定できることから、長時間の運転でもフィルタ部が目詰まりを起こし難くなり、メンテナンス(清掃)の間隔を長くすることができる。
Further, according to the configuration of (10) of the third dust collector, the filter portion covers the opening of the dust collecting container, so that the area of the filter portion can be set large, and together with dust from the inlet. Dust can be reliably collected by efficiently passing the inflowing air.
In addition, since the area of the filter portion can be set large, the filter portion is less likely to be clogged even during long-time operation, and the maintenance (cleaning) interval can be lengthened.
 前記(11)の構成よれば、集塵容器に対してカバー部を開くことにより、集塵容器に集塵された塵埃を容易に廃棄できる。
 さらには、フィルタ部を通過した空気を排出させる排出路が流入路と重なるように同一方向に延びるので、集塵装置の小型化を図ることが可能となる。
According to the configuration of (11), the dust collected in the dust collecting container can be easily discarded by opening the cover portion with respect to the dust collecting container.
Furthermore, since the discharge path for discharging the air that has passed through the filter portion extends in the same direction so as to overlap the inflow path, the dust collector can be reduced in size.
 前記(12)の構成によれば、排出路がカバー部に接続される排出路基端から掃除機の排気路に離脱可能に接続される排出路先端へ向かうに従って傾斜するので、集塵装置の大型化を招くことなく排出路を末広がりの形状に形成できる。
 これにより、排気抵抗を抑えることができ、結果として塵埃を含んだ空気の流入効率も向上する。
According to the configuration of (12), since the discharge path is inclined from the discharge path base end connected to the cover portion toward the discharge path tip detachably connected to the exhaust path of the cleaner, the size of the dust collector is large. The discharge path can be formed in a divergent shape without incurring any change.
Thereby, exhaust resistance can be suppressed, and as a result, the inflow efficiency of air containing dust is also improved.
 前記(13)の構成によれば、流入路先端と排出路先端に同一平面上に位置する面状のフランジがそれぞれ形成されるので、本発明の集塵装置を掃除機にセットする際の位置決めが行い易くなり、掃除機の吸引路および排気路との良好な接続が得られるようになる。 According to the configuration of (13), since the planar flanges that are located on the same plane are formed at the front end of the inflow passage and the front end of the discharge passage, positioning when the dust collecting device of the present invention is set in the vacuum cleaner. It becomes easy to perform, and a favorable connection with the suction path and the exhaust path of the vacuum cleaner can be obtained.
 第4の集塵装置によれば、カバー部が閉じられた状態において取っ手の軸支箇所は全体の重心よりも流入口側にずれて位置しているので、ユーザーが取っ手を把持して掃除機から集塵装置を持ち上げると、流入口が上方を向くように集塵装置全体が回動する。これにより、集塵された塵埃が流入口から不意に流出するような事態を防止でき、ユーザーの使い勝手が向上する。 According to the fourth dust collecting device, the shaft support portion of the handle is positioned so as to be shifted to the inlet side with respect to the entire center of gravity when the cover portion is closed. When the dust collector is lifted from the top, the entire dust collector rotates so that the inflow port faces upward. As a result, it is possible to prevent a situation in which the collected dust unexpectedly flows out from the inflow port, and the usability of the user is improved.
 また、第4の集塵装置の前記(14)の構成によれば、塵埃を廃棄するために集塵容器に対してカバー部が開かれた際に、取っ手の軸支箇所と集塵装置全体の重心との水平方向のずれが小さくなるためカバー部を水平に維持し易くなり、結果として集塵容器を塵埃の廃棄に適した姿勢に調整し易くなる。 Further, according to the configuration of the above (14) of the fourth dust collector, when the cover portion is opened with respect to the dust container in order to discard the dust, the pivot support portion of the handle and the entire dust collector Since the horizontal deviation from the center of gravity is small, it is easy to keep the cover portion horizontal, and as a result, the dust container can be easily adjusted to a posture suitable for the disposal of dust.
 前記(15)の構成によれば、塵埃を廃棄するために集塵容器に対してカバー部が開かれた際に、集塵容器の開口部が自重によって下方に向きやすくなり、塵埃の廃棄に適した姿勢をとりやすくなる。 According to the configuration of (15), when the cover is opened with respect to the dust collecting container in order to discard the dust, the opening of the dust collecting container becomes easy to face downward due to its own weight. It becomes easy to take a suitable posture.
 前記(16)の構成によれば、取っ手の軸支方向とカバー部の軸支方向が平行となるので、カバー部に対する取っ手の回動を調整することにより、集塵容器の姿勢を塵埃の廃棄に適した姿勢に調整でき、操作性に優れたものとなる。 According to the configuration of (16), since the pivot support direction of the handle and the pivot support direction of the cover portion are parallel, the posture of the dust collecting container is changed to the dust disposal by adjusting the rotation of the handle with respect to the cover portion. It can be adjusted to a posture suitable for the camera and has excellent operability.
 前記(17)の構成によれば、取っ手が起立させられていないときに当該取っ手を収納部に収納してカバー部の上面を平坦にすることができるので、取っ手を設けたことにより集塵装置が無駄に大型化することを防止できる。 According to the configuration of (17), since the handle can be housed in the housing portion and the upper surface of the cover portion can be flattened when the handle is not raised, the dust collector is provided by providing the handle. Can be prevented from becoming unnecessarily large.
 前記(18)の構成によれば、フィルタ部が設けられることにより、集塵容器に流入した空気をフィルタ部に通過させて効率よく塵埃を捕集することが可能となる。 According to the configuration of (18), it is possible to efficiently collect dust by allowing the air that has flowed into the dust collecting container to pass through the filter unit by providing the filter unit.
 第5の集塵装置によれば、カバー部と取っ手は、取っ手が起立状態となったときに互いに当接して取っ手の回動を規制する一対の規制部材をそれぞれ有するので、ユーザーは集塵容器やカバー部を保持しなくても、取っ手を把持することにより集塵装置を安定した状態で持ち上げることができる。そして、集塵装置を安定した状態で持ち上げることが可能になることから、集塵容器の開放操作も容易になり、集塵された塵埃を確実に廃棄できるようになる。 According to the fifth dust collecting device, the cover portion and the handle each have a pair of regulating members that abut against each other when the handle is in an upright state and regulate the rotation of the handle. Even if the cover part is not held, the dust collector can be lifted in a stable state by gripping the handle. Since the dust collecting device can be lifted in a stable state, the opening operation of the dust collecting container is facilitated, and the collected dust can be reliably discarded.
 また、第5の集塵装置の前記(19)の構成によれば、一対の規制部材が軸支箇所の近傍でカバーの表面から突出する突起部と、取っ手から突出する係止部とから構成されるので、簡易な構成で起立状態になった取っ手の回動を確実に規制できる。 Further, according to the configuration of (19) of the fifth dust collecting device, the pair of regulating members is composed of a protruding portion that protrudes from the surface of the cover in the vicinity of the shaft support location, and a locking portion that protrudes from the handle. Therefore, it is possible to reliably regulate the rotation of the handle that is in the standing state with a simple configuration.
 前記(20)の構成によれば、カバー部と取っ手は、取っ手を起立状態で解除可能にロックするための一対の隆起部をそれぞれ有するので、ユーザーは取っ手を把持することにより集塵装置をより安定した状態で持ち上げることができる。
 また、取っ手が起立状態で回動が規制され、ロックされることから、ユーザーに取っ手が起立状態にあることを明確に認識させることができ、ユーザーの使い勝手が向上する。
According to the configuration of (20) above, the cover part and the handle each have a pair of raised parts for releasably locking the handle in an upright state, so that the user can hold the dust collector more by holding the handle. Can be lifted in a stable state.
Further, since the rotation of the handle is restricted and locked when the handle is in the standing state, the user can clearly recognize that the handle is in the standing state, and the usability of the user is improved.
 前記(21)の構成によれば、一対の隆起部が傾斜面をそれぞれ有するので、取っ手が回動させられ取っ手の隆起部とカバー部の隆起部が当接した際に、取っ手の隆起部がカバー部の隆起部を一定の抵抗を受けながらスムーズに乗り越えることができ、取っ手のロックと解除の操作が容易に行える。 According to the configuration of (21), since the pair of raised portions have the inclined surfaces, when the handle is rotated and the raised portion of the handle comes into contact with the raised portion of the cover portion, the raised portion of the handle is The cover can be smoothly climbed over the raised portion while receiving a certain resistance, and the handle can be easily locked and released.
 前記(22)の構成によれば、取っ手が起立させられていないときに当該取っ手を収納部に収納してカバー部の上面を平坦にすることができるので、取っ手を設けたことにより集塵装置が無駄に大型化することを防止できる。 According to the configuration of (22), when the handle is not raised, the handle can be stored in the storage portion and the upper surface of the cover portion can be flattened. Can be prevented from becoming unnecessarily large.
 前記(23)の構成によれば、流入口とフィルタ部が設けられることにより、塵埃を含んだ空気の効率よく集塵容器に流入させ、流入した空気をフィルタ部に通過させて効率よく塵埃を捕集することが可能となる。 According to the configuration of (23), by providing the inlet and the filter unit, the dust-containing air can be efficiently flowed into the dust collecting container, and the inflowed air can be passed through the filter unit to efficiently collect the dust. It is possible to collect.
 第6の集塵装置によれば、カバー部を開く方向に付勢する付勢部材が設けられ、カバー部は集塵容器との係止が解除されると90°を超える角度まで回動するので、カバー部に対して集塵容器の開口部を大きく開かせることが可能となり、集塵された塵埃を容易に廃棄できるようになる。 According to the sixth dust collecting device, the urging member that urges the cover portion in the opening direction is provided, and the cover portion rotates to an angle exceeding 90 ° when the engagement with the dust collecting container is released. Therefore, the opening of the dust collecting container can be opened widely with respect to the cover, and the collected dust can be easily discarded.
 また、第6の集塵装置の前記(24)の構成によれば、付勢部材が支持軸とボスとの間に介在するコイルスプリングからなるので、簡易な構成でカバー部を確実に付勢することができる。 Further, according to the configuration (24) of the sixth dust collector, since the urging member is formed of a coil spring interposed between the support shaft and the boss, the cover portion is urged reliably with a simple configuration. can do.
 前記(25)の構成によれば、カバー部の軸支箇所が流入口の近傍に位置するので、カバー部が開かれた状態において集塵容器の開口部は流入口と反対側が大きく開くこととなり、集塵された塵埃が流入口から零れ落ちることなく開口部より塵埃を廃棄処理できる。 According to the configuration of (25), since the pivot support portion of the cover portion is located in the vicinity of the inflow port, the opening of the dust collecting container is greatly opened on the side opposite to the inflow port when the cover portion is opened. The collected dust can be discarded from the opening without falling down from the inlet.
 前記(26)の構成によれば、カバー部の平面状の天面を水平に維持しつつ集塵容器とカバー部との係止を解除すると、集塵容器の開口部が必然的に下方を向くため、ユーザーは集塵された塵埃に触れることなく塵埃を廃棄できる。 According to the configuration of (26), when the locking of the dust collecting container and the cover part is released while maintaining the flat top surface of the cover part horizontal, the opening of the dust collecting container inevitably faces downward. Therefore, the user can discard the dust without touching the collected dust.
 前記(27)の構成によれば、カバー部に対して回動可能に軸支された取っ手を支持しながら集塵容器とカバー部との係止を解除すると、集塵容器の開口部が必然的に下方を向くため、ユーザーは集塵された塵埃に触れることなく塵埃を廃棄できる。 According to the configuration of (27), when the lock between the dust collecting container and the cover portion is released while supporting the handle pivotally supported with respect to the cover portion, the opening portion of the dust collecting container is necessarily formed. Therefore, the user can discard the dust without touching the collected dust.
 前記(28)の構成によれば、フィルタ部が設けられることにより、効率よく塵埃を捕集することが可能となる。 According to the configuration of (28), it is possible to efficiently collect dust by providing the filter unit.
本発明の実施形態に係る自走式掃除機の斜視図である。It is a perspective view of the self-propelled cleaner concerning an embodiment of the present invention. 図1に示される自走式掃除機のA-A矢視断面図である。It is AA arrow sectional drawing of the self-propelled cleaner shown by FIG. 図1に示される自走式掃除機の底面図である。It is a bottom view of the self-propelled cleaner shown in FIG. 筐体の蓋部が開放され集塵部が取り出された状態を示す図2対応図である。FIG. 3 is a view corresponding to FIG. 2, showing a state where the lid of the housing is opened and the dust collecting unit is taken out. 図1に示される自走式掃除機の電気的な構成を示すブロック図である。It is a block diagram which shows the electrical structure of the self-propelled cleaner shown by FIG. 本発明の実施形態に係る自走式掃除機に備えられる集塵部単体の斜視図であり、正面側から見た状態を示している。It is a perspective view of a dust collection unit simple substance provided in a self-propelled cleaner concerning an embodiment of the present invention, and has shown the state seen from the front side. 図6に示される集塵部を背面側から見た斜視図である。It is the perspective view which looked at the dust collection part shown by FIG. 6 from the back side. 図6に示される集塵部の左側面図である。It is a left view of the dust collecting part shown by FIG. 図7のB-B矢視断面図である。FIG. 8 is a cross-sectional view taken along line BB in FIG. 7. 取っ手が起立させられた状態を示す図6対応図である。FIG. 7 is a view corresponding to FIG. 6 illustrating a state where the handle is raised.
取っ手が起立させられた状態を示す図7対応図である。FIG. 8 is a view corresponding to FIG. 7 showing a state where the handle is raised. 取っ手が起立させられた状態を示す図8対応図である。FIG. 9 is a view corresponding to FIG. 8 illustrating a state where the handle is raised. 取っ手が起立させられた状態を示す図9対応図である。FIG. 10 is a view corresponding to FIG. 9 showing a state where the handle is raised. 集塵容器が開放された状態を示す図6対応図である。FIG. 7 is a view corresponding to FIG. 6 showing a state where the dust collecting container is opened. 集塵容器が開放された状態を示す図7対応図である。FIG. 8 is a view corresponding to FIG. 7 showing a state where the dust collecting container is opened. 集塵容器が開放された状態を示す図8対応図である。FIG. 9 is a view corresponding to FIG. 8 illustrating a state in which the dust collecting container is opened. 集塵容器が開放された状態を示す図9対応図である。FIG. 10 is a view corresponding to FIG. 9 illustrating a state where the dust collecting container is opened. 図6に示される集塵装置の平面図であり、カバー部から取っ手が取り外された状態を示している。It is a top view of the dust collector shown by FIG. 6, and has shown the state from which the handle was removed from the cover part. 図18に示されるカバー部の要部拡大図である。It is a principal part enlarged view of the cover part shown by FIG. 図18に示されるカバー部の要部拡大図である。It is a principal part enlarged view of the cover part shown by FIG.
図6に示される集塵装置に設けられる取っ手単体の正面図である。It is a front view of the handle simple substance provided in the dust collector shown in FIG. 図21に示される取っ手の要部拡大図である。It is a principal part enlarged view of the handle shown by FIG. 図21に示される取っ手の要部拡大図である。It is a principal part enlarged view of the handle shown by FIG. 図6に示される集塵装置の分解構成図である。It is a disassembled block diagram of the dust collector shown by FIG. カバー部が開かれた状態を示す図6対応図であり、フィルタ部が集塵容器の開口部を覆うように回動させられた状態を示している。FIG. 7 is a view corresponding to FIG. 6 showing a state where the cover portion is opened, and shows a state where the filter portion is rotated so as to cover the opening of the dust collecting container. カバー部が開かれた状態を示す図6対応図であり、フィルタ部がカバー部に収納された状態を示している。FIG. 7 is a view corresponding to FIG. 6 showing a state where the cover portion is opened, and showing a state where the filter portion is housed in the cover portion. 図26の要部拡大図である。It is a principal part enlarged view of FIG. 図6に示される集塵装置に設けられるフィルタ部単体の斜視図である。It is a perspective view of the filter part single-piece | unit provided in the dust collector shown by FIG. 図28のC-C矢視断面図である。It is CC sectional view taken on the line of FIG. 図28に示されるフィルタ部の要部拡大図である。It is a principal part enlarged view of the filter part shown by FIG.
図28に示されるフィルタ部の要部拡大図である。It is a principal part enlarged view of the filter part shown by FIG. フィルタ部を棒部材でメンテナンスしている状態を示す説明図である。It is explanatory drawing which shows the state which is maintaining the filter part with the rod member. カバー部の窪みに棒部材が収容された状態を示す図6対応図である。FIG. 7 is a view corresponding to FIG. 6 illustrating a state in which a bar member is accommodated in a recess of the cover portion. 導入板を示す斜視図である。It is a perspective view which shows an introduction board. 導入板の変形例1を示す斜視図である。It is a perspective view which shows the modification 1 of an introductory board. 導入板の変形例2を示す斜視図である。It is a perspective view which shows the modification 2 of an introduction board.
<自走式掃除機の説明>
 図1は本発明の実施形態に係る自走式掃除機の斜視図であり、図2は図1に示される自走式掃除機のA-A矢視断面図であり、図3は図1に示される自走式掃除機の底面図であり、図4は筐体の蓋部が開放され集塵部が取り出された状態を示す図2対応図であり、図5は図1に示される自走式掃除機の電気的な構成を示すブロック図である。以下、「自走式掃除機」を「掃除ロボット」と言う場合がある。
<Description of self-propelled vacuum cleaner>
1 is a perspective view of a self-propelled cleaner according to an embodiment of the present invention, FIG. 2 is a cross-sectional view taken along the line AA of the self-propelled cleaner shown in FIG. 1, and FIG. 4 is a bottom view of the self-propelled cleaner shown in FIG. 4, FIG. 4 is a view corresponding to FIG. 2 showing a state where the cover of the housing is opened and the dust collecting part is taken out, and FIG. 5 is shown in FIG. It is a block diagram which shows the electrical structure of a self-propelled cleaner. Hereinafter, the “self-propelled cleaner” may be referred to as a “cleaning robot”.
 本発明に係る掃除ロボット(自走式掃除機)1は、設置された場所の床面を自走しながら、床面上の塵埃を含む空気を吸い込み、塵埃を除去した空気を排気することにより床面上を掃除する掃除ロボットである。
 掃除ロボット1は、円盤形の筐体2を備え、この筐体2の内部および外部に、回転ブラシ9、サイドブラシ10、本発明の集塵装置30、電動送風機22、一対の駆動輪29、後輪26および前輪27、各種センサを含む制御部等の構成要素が設けられている。
 この掃除ロボット1において、前輪27が配置されている部分が前方部、後輪26が配置されている部分が後方部、集塵装置30が配置されている部分が中間部である。
The cleaning robot (self-propelled cleaner) 1 according to the present invention sucks air containing dust on the floor and exhausts the air from which the dust is removed while self-propelled on the floor where it is installed. It is a cleaning robot that cleans the floor surface.
The cleaning robot 1 includes a disk-shaped housing 2, and a rotating brush 9, a side brush 10, a dust collecting device 30, an electric blower 22, a pair of drive wheels 29, Components such as a control unit including a rear wheel 26, a front wheel 27, and various sensors are provided.
In this cleaning robot 1, the portion where the front wheel 27 is disposed is the front portion, the portion where the rear wheel 26 is disposed is the rear portion, and the portion where the dust collecting device 30 is disposed is the intermediate portion.
 筐体2は、前方部における中間部との境界付近の位置に形成された吸込口6を有する平面視円形の底板2aと、筐体2に対して集塵装置30を出し入れする際に開閉する蓋部3を中間部に有している天板2bと、底板2aおよび天板2bの外周部に沿って設けられた平面視円環形の側板2cとを備えている。また、底板2aには前輪27、一対の駆動輪29および後輪26の下部を筐体2内から外部へ突出させる複数の孔部が形成され、天板2bにおける前方部と中間部との境界付近には排気口7が形成されている。なお、側板2cは、前後に二分割されており、側板前部はバンパーとして機能する。 The housing 2 opens and closes when the dust collector 30 is taken in and out of the housing 2 and the bottom plate 2a having a suction port 6 formed at a position near the boundary with the intermediate portion in the front portion. A top plate 2b having a lid portion 3 at an intermediate portion, and a bottom plate 2a and a side plate 2c having an annular shape in plan view provided along the outer periphery of the top plate 2b are provided. The bottom plate 2a is formed with a plurality of holes for projecting the lower portions of the front wheel 27, the pair of drive wheels 29 and the rear wheel 26 from the inside of the housing 2 to the outside, and the boundary between the front portion and the middle portion of the top plate 2b. An exhaust port 7 is formed in the vicinity. In addition, the side plate 2c is divided into two in the front and rear directions, and the front side portion of the side plate functions as a bumper.
 また、図4に示されるように、筐体2の内部において、前方部にモータユニット20、電動送風機22、イオン発生装置25(図5参照)等を収納する前方収納室R1を有し、中間部に集塵装置30を収納する中間収納室R2を有し、後方部に制御部の制御基板15、バッテリー14、充電端子4等を収納する後方収納室R3を有し、前方部と中間部との境界付近に吸引路11および排気路12を有している。吸引路11は吸込口6と中間収納室R2とを連通し、排気路12は中間収納室R2と前方収納室R1とを連通している。なお、これらの各収納室R1、R2、R3、吸引路11および排気路12は、筐体2の内部に設けられてこれらの空間を構成する仕切り壁39によって仕切られている。 Further, as shown in FIG. 4, the housing 2 has a front storage chamber R <b> 1 that stores the motor unit 20, the electric blower 22, the ion generator 25 (see FIG. 5), and the like in the front portion. It has an intermediate storage room R2 for storing the dust collecting device 30 in the part, and a rear storage room R3 for storing the control board 15, the battery 14, the charging terminal 4 and the like of the control part in the rear part, and the front part and the intermediate part. A suction passage 11 and an exhaust passage 12 are provided in the vicinity of the boundary. The suction path 11 communicates the suction port 6 and the intermediate storage chamber R2, and the exhaust path 12 communicates the intermediate storage chamber R2 and the front storage chamber R1. Each of the storage chambers R1, R2, R3, the suction path 11 and the exhaust path 12 is partitioned by a partition wall 39 provided inside the housing 2 and constituting these spaces.
 一対の駆動輪29は、平面視円形の筐体2の中心を通る中心線Cと直角に交わる一対の回転軸29aに固定されており、一対の駆動輪29が同一方向に回転すると筐体2が進退し、各駆動輪29が逆方向に回転すると筐体2が中心線Cの回りに回転する。
一対の回転軸29aは、図示しない一対のモータからそれぞれ個別に回転力が得られるように連結されており、各モータは筐体の底板2aに直接またはサスペンション機構を介して固定されている。
The pair of drive wheels 29 are fixed to a pair of rotating shafts 29a that intersect at right angles with a center line C passing through the center of the case 2 that is circular in plan view. When the pair of drive wheels 29 rotate in the same direction, the case 2 When the drive wheel 29 advances and retreats and each drive wheel 29 rotates in the opposite direction, the housing 2 rotates around the center line C.
The pair of rotating shafts 29a are coupled so that rotational force can be obtained individually from a pair of motors (not shown), and each motor is fixed to the bottom plate 2a of the housing directly or via a suspension mechanism.
 前輪27はローラからなり、進路上に現れた段差に接地し、筐体2が段差を容易に乗り越えられるよう、駆動輪29が接地する床面Fから少し浮き上がるよう筐体2の底板2aの一部に回転可能に設けられている。
 後輪26は自在車輪からなり、駆動輪29が接地する床面Fと接地するよう筐体2の底板2aの一部に回転可能に設けられている。
 このように、筐体2に対して前後方向中間に一対の駆動輪29を配置し、前輪27を床面Fから浮かせ、掃除ロボット1の重量を一対の駆動輪29と後輪26によって支持できるよう、筐体2に対して前後方向に重量が配分されている。これにより、進路前方の塵埃を前輪27によって遮ることなく吸込口6に導くことができる。
The front wheel 27 is made of a roller, contacts the step appearing on the path, and the bottom of the bottom plate 2a of the housing 2 so that the drive wheel 29 is slightly lifted from the floor F where the driving wheel 29 contacts the ground so that the housing 2 can easily get over the step. The part is rotatably provided.
The rear wheel 26 is a free wheel, and is rotatably provided on a part of the bottom plate 2a of the housing 2 so as to be in contact with the floor surface F to which the driving wheel 29 is grounded.
In this way, the pair of driving wheels 29 is arranged in the middle in the front-rear direction with respect to the housing 2, the front wheels 27 are lifted from the floor surface F, and the weight of the cleaning robot 1 can be supported by the pair of driving wheels 29 and the rear wheels 26. Thus, the weight is distributed to the housing 2 in the front-rear direction. Thereby, the dust in front of the course can be guided to the suction port 6 without being blocked by the front wheel 27.
 吸込口6は、床面Fに対面するよう筐体2の底面(底板2aの下面)に形成された凹部8の開放面である。この凹部8内には、筐体2の底面と平行な回転軸心廻りに回転する回転ブラシ9が設けられており、凹部8の左右両側には垂直な回転軸心廻りに回転するサイドブラシ10が設けられている。回転ブラシ9は、回転軸であるローラの外周面に螺旋状にブラシを植設することにより形成されている。サイドブラシ10は、回転軸の下端にブラシ束を放射状に設けることにより形成されている。なお、回転ブラシ9の回転軸および一対のサイドブラシ10の回転軸は、筐体2の底板2aの一部に枢着されると共に、その付近に設けられた駆動モータとプーリおよびベルト等を含む動力伝達機構を介して連結されている。 The suction port 6 is an open surface of the recess 8 formed on the bottom surface of the housing 2 (the lower surface of the bottom plate 2a) so as to face the floor surface F. A rotating brush 9 that rotates about a rotation axis parallel to the bottom surface of the housing 2 is provided in the recess 8, and a side brush 10 that rotates about a vertical rotation axis is provided on the left and right sides of the recess 8. Is provided. The rotating brush 9 is formed by implanting a brush spirally on the outer peripheral surface of a roller that is a rotating shaft. The side brush 10 is formed by providing a brush bundle radially at the lower end of the rotating shaft. The rotating shaft of the rotating brush 9 and the rotating shaft of the pair of side brushes 10 are pivotally attached to a part of the bottom plate 2a of the housing 2 and include a drive motor, a pulley, a belt, and the like provided in the vicinity thereof. It is connected via a power transmission mechanism.
 図3に示されるように、筐体2の底面と前輪27との間には床面Fを検知する床面検知センサ13が配置され、左右の駆動輪29の側部前方には同様の床面検知センサ19が配置されている。床面検知センサ13によって下り階段を検知すると、その検知信号が制御部に送信され、制御部が両駆動輪29が停止するよう制御する。また、床面検知センサ13が故障した場合、床面検知センサ19が下り階段を検知して両駆動輪29を停止することができるため、掃除ロボット1の下り階段への落下が防止されている。また、床面検知センサ19が、下り階段を検知すると、その検知信号が制御部に送信され、制御部が駆動輪29に下り階段を回避して走行するように制御してもよい。 As shown in FIG. 3, a floor surface detection sensor 13 for detecting the floor surface F is disposed between the bottom surface of the housing 2 and the front wheel 27, and a similar floor is disposed in front of the side portions of the left and right drive wheels 29. A surface detection sensor 19 is arranged. When the downstairs are detected by the floor surface detection sensor 13, the detection signal is transmitted to the control unit, and the control unit controls the drive wheels 29 to stop. Further, when the floor detection sensor 13 breaks down, the floor detection sensor 19 can detect the descending stair and stop both driving wheels 29, so that the cleaning robot 1 is prevented from falling to the descending stair. . Further, when the floor surface detection sensor 19 detects the descending staircase, the detection signal may be transmitted to the control unit, and the control unit may control the drive wheel 29 to travel avoiding the descending staircase.
 制御基板15には、掃除ロボット1における駆動輪29、回転ブラシ9、サイドブラシ10、電動送風機22等の各要素を制御する制御回路が設けられている。
筐体2の側板2cの後端には、バッテリー14の充電を行う充電端子4が設けられている。室内を自走しながら掃除する掃除ロボット1は、室内に設置されている充電台40に帰還する。これにより、充電台40に設けられた端子部41に充電端子4が接触し、バッテリー14の充電が行われる。商用電源(コンセント)に接続される充電台40は、通常、室内の側壁Sに沿って設置される。
 バッテリー14は、充電端子4を介して充電台40から充電され、制御基板15、駆動輪29、回転ブラシ9、サイドブラシ10、電動送風機22、各種センサ等の各要素に電力を供給する。
The control board 15 is provided with a control circuit that controls each element of the cleaning robot 1 such as the driving wheel 29, the rotating brush 9, the side brush 10, and the electric blower 22.
A charging terminal 4 for charging the battery 14 is provided at the rear end of the side plate 2 c of the housing 2. The cleaning robot 1 that cleans the room while traveling by itself returns to the charging stand 40 installed in the room. Thereby, the charging terminal 4 contacts the terminal part 41 provided in the charging stand 40, and the battery 14 is charged. The charging stand 40 connected to a commercial power source (outlet) is usually installed along the side wall S in the room.
The battery 14 is charged from the charging stand 40 via the charging terminal 4 and supplies power to each element such as the control board 15, the drive wheel 29, the rotating brush 9, the side brush 10, the electric blower 22, and various sensors.
 集塵装置30は、通常、筐体2内における両駆動輪29の回転軸29aの軸心よりも上方の中間収納室R2内に収納されており、集塵装置30内に捕集された塵埃を廃棄する際は、図4に示されるように、筐体2の蓋部3を開いて集塵装置30を出し入れすることができる。
 集塵装置30は、開口部31d(図14参照)を有する集塵容器31と、集塵容器31の開口部31dを覆うフィルタ部33と、フィルタ部33と集塵容器31の開口部31dとを覆うカバー部32とを備えている。カバー部32およびフィルタ部33は、集塵容器31の前側の開口端縁に回動可能に軸支されている。
 集塵容器31の側壁前部には、集塵装置30が筐体2の中間収納室R2内に収納された状態において、筐体2の吸引路11と連通する流入路34と、筐体2の排気路12と連通する排出路35とが設けられている。なお、集塵装置30についてさらに詳しくは後述する。
The dust collector 30 is normally stored in the intermediate storage chamber R2 above the axis of the rotation shaft 29a of the drive wheels 29 in the housing 2, and the dust collected in the dust collector 30 is collected. When discarding the dust collector, as shown in FIG. 4, the lid 3 of the housing 2 can be opened and the dust collector 30 can be taken in and out.
The dust collector 30 includes a dust collection container 31 having an opening 31d (see FIG. 14), a filter unit 33 that covers the opening 31d of the dust collection container 31, a filter unit 33, and an opening 31d of the dust collection container 31. The cover part 32 which covers is provided. The cover part 32 and the filter part 33 are pivotally supported by the opening edge of the front side of the dust collecting container 31 so that rotation is possible.
An inflow path 34 communicating with the suction path 11 of the housing 2 and the housing 2 in a state where the dust collecting device 30 is housed in the intermediate storage chamber R2 of the housing 2 are disposed at the front portion of the side wall of the dust collecting container 31. An exhaust passage 35 communicating with the exhaust passage 12 is provided. The dust collector 30 will be described in detail later.
 掃除ロボット1全体の動作制御を行う制御部は、図5に示されるように、CPU15aおよびその他の図示しない電子部品で構成された制御回路を有する制御基板15と、走行マップ18aを記憶する記憶部18、電動送風機22を駆動するためのモータドライバ22a、駆動輪29の走行モータ51を駆動するためのモータドライバ51a、筐体2内の排気口7付近に回動可能に設けられたルーバー17およびそれを駆動するための制御ユニット17a、臭いセンサ52およびその制御ユニット52a、湿度センサ53およびその制御ユニット53a、人感センサ54およびその制御ユニット54a、接触センサ55およびその制御ユニット55a等を備えて構成される。 As shown in FIG. 5, the control unit for controlling the operation of the entire cleaning robot 1 includes a control board 15 having a control circuit composed of a CPU 15a and other electronic components (not shown), and a storage unit for storing a travel map 18a. 18, a motor driver 22a for driving the electric blower 22, a motor driver 51a for driving the traveling motor 51 of the drive wheel 29, a louver 17 rotatably provided near the exhaust port 7 in the housing 2, and A control unit 17a for driving it, an odor sensor 52 and its control unit 52a, a humidity sensor 53 and its control unit 53a, a human sensor 54 and its control unit 54a, a contact sensor 55 and its control unit 55a, etc. Composed.
 CPU15aは中央演算処理装置であり、記憶部18に予め記憶されたプログラムデータに基いて、モータドライバ22a、51aおよび制御ユニット17aに個別に制御信号を送信し、電動送風機22、走行モータ51およびルーバー17を駆動制御して、一連の掃除運転およびイオン放出運転を行う。
 また、CPU15aは、ユーザーによる掃除ロボット1の動作に係る条件設定を操作パネル(図示省略)から受け付けて記憶部18に記憶させる。この記憶部18は、掃除ロボット1の設置場所周辺の走行マップ18aを記憶することができる。走行マップ18aは、掃除ロボット1の走行経路や走行速度などといった走行に係る情報であり、予めユーザーによって記憶部18に記憶させるか、あるいは掃除ロボット1自体が掃除運転中に自動的に記録することができる。
The CPU 15a is a central processing unit and transmits control signals individually to the motor drivers 22a and 51a and the control unit 17a based on the program data stored in advance in the storage unit 18, and the electric blower 22, the traveling motor 51, and the louver. 17 is driven and controlled, and a series of cleaning operation and ion emission operation are performed.
Further, the CPU 15a accepts a condition setting related to the operation of the cleaning robot 1 by the user from an operation panel (not shown) and stores it in the storage unit 18. The storage unit 18 can store a travel map 18 a around the installation location of the cleaning robot 1. The travel map 18a is information related to travel such as the travel route and travel speed of the cleaning robot 1, and is stored in advance in the storage unit 18 by the user or automatically recorded during the cleaning operation by the cleaning robot 1 itself. Can do.
 臭いセンサ52は、筐体2の外部周辺の臭いを検知する。臭いセンサ52としては、例えば、半導体式や接触燃焼式の臭いセンサを用いることができる。掃除ロボット1の外部周辺の臭いを検知するために、例えば、筐体2の側板2cまたは天板2bから外部へ露出した状態で臭いセンサ52が配置される。CPU15aは制御ユニット52aを介して臭いセンサ52と接続されており、臭いセンサ52からの出力信号に基づいて筐体2の外部周辺の臭い情報を得る。 The odor sensor 52 detects the odor around the outside of the housing 2. As the odor sensor 52, for example, a semiconductor type or catalytic combustion type odor sensor can be used. In order to detect the odor around the outside of the cleaning robot 1, for example, the odor sensor 52 is arranged in a state of being exposed to the outside from the side plate 2c or the top plate 2b of the housing 2. The CPU 15a is connected to the odor sensor 52 via the control unit 52a, and obtains odor information around the outside of the housing 2 based on an output signal from the odor sensor 52.
 湿度センサ53は、筐体2の外部周辺の湿度を検知する。湿度センサ53としては、例えば、高分子感湿材料を用いた静電容量式や電気抵抗式の湿度センサを用いることができる。掃除ロボット1の外部周辺の相対湿度を検知するために、例えば、筐体2の側板2cまたは天板2bから外部へ露出した状態で湿度センサ53が配置される。CPU15aは制御ユニット53aを介して湿度センサ53と接続されており、湿度センサ53からの出力信号に基づいて筐体2の外部周辺の湿度情報を得る。 The humidity sensor 53 detects the humidity around the outside of the housing 2. As the humidity sensor 53, for example, a capacitance type or electric resistance type humidity sensor using a polymer moisture sensitive material can be used. In order to detect the relative humidity around the outside of the cleaning robot 1, for example, the humidity sensor 53 is arranged in a state of being exposed to the outside from the side plate 2c or the top plate 2b of the housing 2. The CPU 15a is connected to the humidity sensor 53 via the control unit 53a, and obtains humidity information around the outside of the housing 2 based on an output signal from the humidity sensor 53.
 なお、走行マップ18aには、掃除ロボット1が設置される設置場所における所定閾値以上の臭気が漂う箇所および所定閾値以上に湿気が高い箇所が特定箇所として予め記憶されていてもよい。このようにすれば、CPU15aがこの特定箇所を筐体2の周辺環境に基づいて定めた箇所であると判断することができる。つまり、走行マップ18aが、臭いセンサ52および湿度センサ53と同様に、筐体2の周辺環境を検知する環境検知装置としての役割を果たすことになる。 In the travel map 18a, a location where an odor above a predetermined threshold at a location where the cleaning robot 1 is installed and a location where the humidity is higher than the predetermined threshold may be stored in advance as specific locations. In this way, the CPU 15a can determine that this specific location is a location determined based on the surrounding environment of the housing 2. That is, like the odor sensor 52 and the humidity sensor 53, the travel map 18a serves as an environment detection device that detects the surrounding environment of the housing 2.
 人感センサ54としては、例えば、赤外線、超音波、可視光等によって人の存在を検知する人感センサを用いることができる。掃除ロボット1の外部周辺の人の存在を検知するために、例えば、筐体2の側板2cまたは天板2bから外部へ露出した状態で人感センサ54が配置される。CPU15aは制御ユニット54aを介して人感センサ54と接続されており、人感センサ54からの出力信号に基づいて筐体2の外部周辺の人の存在情報を得る。 As the human sensor 54, for example, a human sensor that detects the presence of a person using infrared rays, ultrasonic waves, visible light, or the like can be used. In order to detect the presence of a person around the outside of the cleaning robot 1, for example, the human sensor 54 is disposed in a state of being exposed to the outside from the side plate 2c or the top plate 2b of the housing 2. The CPU 15a is connected to the human sensor 54 through the control unit 54a, and obtains presence information of people around the outside of the housing 2 based on an output signal from the human sensor 54.
 接触センサ55は、掃除ロボット1が走行時に障害物と接触したことを検知するために、例えば、筐体2の側板2cの前部に配置される。CPU15aは制御ユニット55aを介して接触センサ55と接続されており、接触センサ55からの出力信号に基づいて筐体2の外部周辺の障害物の存在情報を得る。 The contact sensor 55 is disposed, for example, at the front part of the side plate 2c of the housing 2 in order to detect that the cleaning robot 1 has come into contact with an obstacle during traveling. The CPU 15a is connected to the contact sensor 55 via the control unit 55a, and obtains presence information of obstacles around the outside of the housing 2 based on an output signal from the contact sensor 55.
 このように構成された掃除ロボット1において、掃除運転の指令により、電動送風機22、イオン発生装置25、駆動輪29、回転ブラシ9およびサイドブラシ10が駆動する。これにより、回転ブラシ9、サイドブラシ10、駆動輪29および後輪26が床面Fに接地した状態で、筐体2は所定の範囲を自走しながら吸込口6から床面Fの塵埃を含む空気を吸い込む。このとき、回転ブラシ9の回転によって床面F上の塵埃は掻き上げられて吸込口6に導かれる。また、サイドブラシ10の回転によって吸込口6の側方の塵埃が吸込口6に導かれる。 In the cleaning robot 1 configured as described above, the electric blower 22, the ion generator 25, the driving wheel 29, the rotating brush 9, and the side brush 10 are driven by a cleaning operation command. As a result, in a state where the rotary brush 9, the side brush 10, the drive wheel 29 and the rear wheel 26 are in contact with the floor surface F, the casing 2 self-propells within a predetermined range and removes dust on the floor surface F from the suction port 6. Inhale air containing. At this time, the dust on the floor surface F is scraped up by the rotation of the rotating brush 9 and guided to the suction port 6. Further, the dust on the side of the suction port 6 is guided to the suction port 6 by the rotation of the side brush 10.
 吸込口6から筐体2内に吸い込まれた塵埃を含む空気は、図2の矢印A1に示されるように、筐体2の吸引路11を通り、集塵装置30の流入路34を通って集塵容器31内に流入する。集塵容器31内に流入した気流は、フィルタ部33を通過してフィルタ部33とカバー部32との間の空間50に流入し、排出路35を通って筐体2の排気路12へ排出される。この際、集塵容器31内の気流に含まれる塵埃はフィルタ部33によって捕獲されるため、集塵容器31内に塵埃が堆積する。 Air containing dust sucked into the housing 2 from the suction port 6 passes through the suction passage 11 of the housing 2 and the inflow passage 34 of the dust collector 30 as indicated by an arrow A1 in FIG. It flows into the dust collecting container 31. The airflow that has flowed into the dust collecting container 31 passes through the filter portion 33, flows into the space 50 between the filter portion 33 and the cover portion 32, and is discharged to the exhaust passage 12 of the housing 2 through the discharge passage 35. Is done. At this time, the dust contained in the airflow in the dust collecting container 31 is captured by the filter unit 33, so that the dust accumulates in the dust collecting container 31.
 集塵装置30から筐体2の排気路12へ流入した気流は、図2の矢印A2に示されるように前方収納室R1へ流入し、図示しない第1排気路および第2排気路を流通する。第1排気路を流通する気流にはイオン発生装置25が放出するイオン(プラズマクラスターイオン(登録商標))が含まれる。そして、筐体2の上面に設けた排気口7から、図2の矢印A3に示されるように、後方の斜め上方にイオンを含む気流が排気される。これにより、床面F上の掃除が行われると共に、掃除ロボット1の排気に含まれるイオンによって室内の除菌および脱臭が行われる。このとき、排気口7から後方の斜め上方に向けて排気するので、床面Fの塵埃の巻き上げが防止され、室内の清浄度を向上することができる。
 また、図示省略するが、第1排気路を流通する気流の一部は、凹部8に導かれてもよい。このようにすれば、吸込口6から吸引路11に導かれる気流内にイオンが含まれるため、集塵装置30の集塵容器31内およびフィルタ部33の除菌および脱臭を行うことができる。
The airflow flowing into the exhaust passage 12 of the housing 2 from the dust collector 30 flows into the front storage chamber R1 as indicated by the arrow A2 in FIG. 2, and flows through the first exhaust passage and the second exhaust passage (not shown). . The airflow flowing through the first exhaust path includes ions (plasma cluster ions (registered trademark)) released by the ion generator 25. Then, as shown by an arrow A3 in FIG. 2, an airflow containing ions is exhausted obliquely upward at the rear from the exhaust port 7 provided on the upper surface of the housing 2. Thereby, cleaning on the floor surface F is performed, and indoor sterilization and deodorization are performed by ions contained in the exhaust of the cleaning robot 1. At this time, exhaust is performed obliquely upward from the exhaust port 7 to the rear, so that the dust on the floor surface F is prevented from being rolled up, and the cleanliness of the room can be improved.
Although not shown, a part of the airflow flowing through the first exhaust path may be guided to the recess 8. In this way, since ions are included in the airflow guided from the suction port 6 to the suction path 11, sterilization and deodorization of the dust collection container 31 of the dust collector 30 and the filter unit 33 can be performed.
 また、掃除ロボット1は、左右の駆動輪29が同一方向に正回転して前進し、同一方向に逆回転して後退し、互いに逆方向に回転することにより中心線Cを中心に旋回する。例えば、掃除ロボット1は、掃除領域の周縁に到達した場合および進路上の障害物に衝突した場合、駆動輪29が停止し、左右の駆動輪29を互いに逆方向に回転して向きを変える。これにより、掃除ロボット1は、設置場所全体あるいは所望範囲全体に障害物を避けながら自走することができる。 Also, the cleaning robot 1 turns around the center line C by rotating the left and right drive wheels 29 forward in the same direction, moving forward, moving backward in the same direction and moving backward. For example, when the cleaning robot 1 reaches the periphery of the cleaning area and collides with an obstacle on the course, the driving wheel 29 stops and the left and right driving wheels 29 rotate in opposite directions to change their directions. Thereby, the cleaning robot 1 can be self-propelled while avoiding obstacles in the entire installation place or the entire desired range.
 また、掃除ロボット1は、左右の駆動輪29と後輪26の3点で接地しており、前進時に急停止しても後輪26が床面Fから浮き上がらないようなバランスで重量配分されている。そのため、掃除ロボット1が前進中に下り階段の手前で急停止し、それによって掃除ロボット1が前のめりに傾いて下り階段へ落下するということが防止されている。なお、駆動輪29は、急停止してもスリップしないよう、溝を有するゴムタイヤをホイールに嵌め込んで形成されている。
 また、集塵装置30が駆動輪29の回転軸29aの上方に配置されているため、集塵によって重量が増加しても掃除ロボット1の重量バランスが維持される。
In addition, the cleaning robot 1 is grounded at three points of the left and right drive wheels 29 and the rear wheel 26, and the weight is distributed in such a balance that the rear wheel 26 does not lift from the floor F even if it stops suddenly during forward movement. Yes. Therefore, it is prevented that the cleaning robot 1 suddenly stops in front of the descending stairs while moving forward, and thereby the cleaning robot 1 is tilted forward and falls to the descending stairs. The drive wheels 29 are formed by fitting rubber tires having grooves into the wheels so that they do not slip even when suddenly stopped.
Further, since the dust collector 30 is disposed above the rotation shaft 29a of the drive wheel 29, the weight balance of the cleaning robot 1 is maintained even if the weight increases due to dust collection.
 掃除ロボット1は、環境検知装置である臭いセンサ52、湿度センサ53、走行マップ18aおよび人感センサ54から得られる情報に基づいて独特の動作を実行することができる。例えば、掃除ロボット1は、環境検知装置が検知した周辺環境に基づいて定めた特定箇所に一定時間留まり、排気口7からイオンを含む気流を放出することができる。
掃除ロボット1は、掃除が終了すると充電台40に帰還する。これにより、充電端子4が端子部41に接してバッテリー14が充電される。
The cleaning robot 1 can execute a unique operation based on information obtained from the odor sensor 52, the humidity sensor 53, the travel map 18a, and the human sensor 54, which are environment detection devices. For example, the cleaning robot 1 can stay for a certain period of time at a specific location determined based on the surrounding environment detected by the environment detection device, and can release an airflow including ions from the exhaust port 7.
The cleaning robot 1 returns to the charging stand 40 when cleaning is completed. Thereby, the charging terminal 4 contacts the terminal part 41 and the battery 14 is charged.
 また、掃除ロボット1は、充電台40に帰還した状態で電動送風機22およびイオン発生装置25を駆動することができる。これにより、排気口7から後方の斜め上方にイオンを含む気流が放出され、イオンを含む気流は側壁Sに沿って上昇し、室内の天井壁および対向する側壁に沿って流通する。この結果、イオンが室内全体に行き渡り、除菌効果や脱臭効果を向上させることができる。このように、掃除ロボット1は、イオン放出運転を単独で実行することも可能である。 Moreover, the cleaning robot 1 can drive the electric blower 22 and the ion generator 25 in a state of returning to the charging stand 40. As a result, an airflow containing ions is released obliquely upward from the exhaust port 7, and the airflow containing ions rises along the side wall S and circulates along the indoor ceiling wall and the opposite side wall. As a result, ions spread throughout the room, and the sterilization effect and deodorization effect can be improved. Thus, the cleaning robot 1 can also perform the ion emission operation alone.
 掃除ロボット1の上面には操作部が設けられており、操作部によって掃除運転およびイオン放出運転を実行させることができる。また、筐体2内に受信部を設けると共に、受信部に指令信号を発信する送信機を設けてリモコン操作できるようにしてもよい。また、スマートフォンと呼ばれる携帯電話からインターネット回線および室内に設けたルーターを介して指令信号を掃除ロボット1に送信して遠隔操作できるようにしてもよい。 An operation unit is provided on the upper surface of the cleaning robot 1, and a cleaning operation and an ion release operation can be performed by the operation unit. In addition, a receiving unit may be provided in the housing 2 and a transmitter that transmits a command signal to the receiving unit may be provided so that the remote controller can be operated. In addition, a command signal may be transmitted to the cleaning robot 1 from a mobile phone called a smartphone via an Internet line and a router provided in the room so that it can be remotely operated.
<集塵装置の詳細な説明>
(流入口について)
 図4に示されるように、本発明の実施形態に係る掃除ロボット1は、離脱可能に装着される集塵装置30を備える。
 図6~9に示されるように、集塵装置30は塵埃を集塵する集塵容器31を有する。また、図26に示されるように、集塵容器31は主に底部31x1と側壁部31x2とから構成され上方に側壁部31x2の上端により規定された開口部31dを有する。そして、集塵装置30が掃除ロボット1から取り外され塵埃が廃棄される時を除き、通常、図9に示されるように集塵容器31の開口部31dはフィルタ部33によって覆われる。
<Detailed description of dust collector>
(About the inlet)
As shown in FIG. 4, the cleaning robot 1 according to the embodiment of the present invention includes a dust collector 30 that is detachably mounted.
As shown in FIGS. 6 to 9, the dust collecting device 30 has a dust collecting container 31 for collecting dust. Further, as shown in FIG. 26, the dust container 31 has a main bottom 31x 1 and the side wall portion 31x 2 Metropolitan opening 31d defined by the upper end of the side wall portion 31x 2 above consists. Then, except when the dust collecting device 30 is detached from the cleaning robot 1 and the dust is discarded, the opening 31d of the dust collecting container 31 is usually covered with the filter unit 33 as shown in FIG.
 図15~17に示されるように、集塵装置30は、集塵容器31の開口部31dを上記フィルタ部33と共に覆うように、集塵容器31に対して開閉可能に軸支されたカバー部32を備えている。カバー部32内には、通常、上記フィルタ部33が圧入により収容されているが、フィルタ部33は必要に応じてカバー部32から離脱させることもできる。フィルタ部33をカバー部32から離脱可能とする構造については別の項目で詳述する。 As shown in FIGS. 15 to 17, the dust collector 30 includes a cover portion pivotally supported to be openable and closable with respect to the dust collection container 31 so as to cover the opening 31 d of the dust collection container 31 together with the filter portion 33. 32. Normally, the filter part 33 is accommodated in the cover part 32 by press-fitting, but the filter part 33 can be detached from the cover part 32 as needed. The structure that allows the filter portion 33 to be detached from the cover portion 32 will be described in detail in another item.
 図7~9に示されるように、集塵容器31の前方側の側壁部31x2には掃除ロボット1の吸込口6(図2参照)に連通する流入口31aが形成されている。流入口31aは、集塵容器31の底部31x1より上で、なおかつフィルタ部33より下となる位置に形成されている。より具体的には、流入口31aは、フィルタ部33の近傍に隣接して位置するように側壁部31x2の上端近傍に形成されている。 As shown in FIGS. 7-9, the side wall 31x 2 on the front side of the dust container 31 inlet port 31a communicating with the inlet 6 of the cleaning robot 1 (see FIG. 2) is formed. The inflow port 31 a is formed at a position above the bottom portion 31 x 1 of the dust collecting container 31 and below the filter portion 33. More specifically, the inflow port 31a is formed near the upper end of the side wall portion 31x 2 to be positioned adjacent to the vicinity of the filter unit 33.
 この流入口31aからは上記吸込口6から塵埃と共に吸い込んだ空気を集塵容器31へと導く流入路34が前方へ向かって延びるように一体に形成されている。流入路34は、掃除ロボット1の吸込口6に連通する吸引路11に離脱可能に接続される流入路先端34a1と、集塵容器31の側壁部31x2に接続され上記流入口31aを形成する流入路基端34a2とを有している。 From this inflow port 31a, the inflow path 34 which guides the air sucked together with dust from the suction port 6 to the dust collecting container 31 is integrally formed so as to extend forward. Inflow path 34 is formed an inlet passage leading end 34a 1 which is detachably connected to the suction passage 11 communicating with the inlet 6 of the cleaning robot 1 is connected to the side wall 31x 2 of the dust container 31 to the inlet 31a and a inflow channel proximal end 34a 2 to.
 ここで、流入路34は、流入路先端34a1から流入路基端34a2へ向かうに従って底部31x1との高低差が大きくなるように上傾斜状態で設けられる。これにより、流入口31aを集塵容器31の側壁部31x2の上端近傍にフィルタ部33と隣接させて形成することが可能となる。この結果、集塵容器31の底部31x1をロボット掃除機1の底板2a付近まで延設させることができ、集塵容量を大きく設計できる(図2参照)。 Here, the inflow path 34 is provided in an upwardly inclined state so that a difference in height from the bottom 31x 1 increases from the inflow path front end 34a 1 toward the inflow path base end 34a 2 . Thus, the inlet 31a near the upper end of the side wall portion 31x 2 of the dust container 31 to be adjacent the filter portion 33 can be formed by. As a result, the bottom 31x 1 of the dust-collecting container 31 can be extended to the vicinity of the bottom plate 2a of the robot cleaner 1 can design a large dust collection capacity (see Fig. 2).
 以上の構成によれば、集塵容器31の底部31x1をロボット掃除機1の底板2a付近まで延設できるため、同じ平面寸法であっても集塵容量が必然的に大きくなる。これにより、集塵装置30においては塵埃が満杯になるまでの時間が長くなり、ロボット掃除機1の掃除継続時間を延長できる。また、ロボット掃除機1の大型化を招くこともない。 According to the above configuration, it is possible to extend the bottom 31x 1 of the dust container 31 to the vicinity of the bottom plate 2a of the robot cleaner 1, the dust collecting capacity may be the same plane size becomes inevitably large. Thereby, in dust collector 30, the time until dust becomes full becomes long, and the cleaning continuation time of robot cleaner 1 can be extended. Further, the robot cleaner 1 is not increased in size.
 また、上述の通り、集塵容器31の側壁部31x2の上端近傍に流入口31aが形成されるので、集塵された塵埃は集塵容器31の底部31x1から流入口31aまでの間、すなわち流入口31aよりも下に溜まることとなる。このため、図4に示されるように掃除ロボット1の筐体2の蓋部3を開き、集塵装置30を上方へ引き上げるようにして取り出すことが可能となり、また、取り出し時に集塵された塵埃が集塵容器31から零れ落ちることも防止できる。
 なお、集塵容器31の開口部31dは側壁部31x2上端に位置することが好ましいが近傍でもよい。
 以上説明したように、本発明の集塵装置30によれば、掃除機1本体からの取り出し時の塵埃の零れ落ち等の課題に対処し、この課題である問題を解消することが可能となる。つまり、流入口31aを集塵容器31の上位置に設けることで、取り出し時、集塵装置30等が多少傾くような場合でも、集塵された塵埃が流入口31aから零れ落ちるような問題がなくなる。また、集塵装置30を上方へと取り出すような場合には、さらに塵埃が零れ落ちるといった心配がなくなる。
Further, as described above, since the inlet 31a near the upper end of the side wall portion 31x 2 of the dust collecting container 31 is formed, the dust collecting been dust between the bottom 31x 1 of the dust-collecting container 31 until the inlet 31a, That is, it accumulates below the inflow port 31a. For this reason, as shown in FIG. 4, it is possible to take out the dust by collecting the dust collecting device 30 by opening the cover 3 of the housing 2 of the cleaning robot 1 and pulling the dust collecting device 30 upward. Can also be prevented from falling from the dust collecting container 31.
The opening 31d of the dust container 31 may be in the vicinity is preferably located on the side wall 31x 2 upper.
As described above, according to the dust collecting device 30 of the present invention, it is possible to deal with problems such as dust falling off when taking out from the main body of the cleaner 1, and to solve the problem that is the problem. . In other words, by providing the inlet 31a above the dust collecting container 31, there is a problem that even when the dust collector 30 or the like is slightly tilted during extraction, the collected dust spills from the inlet 31a. Disappear. Moreover, when taking out the dust collector 30 upwards, there is no worry that dust will spill further.
(流入路と排出路の配置について)
 前記の通り、集塵装置30は、集塵容器31に対して開閉可能に軸支されたカバー部32を備えている。図9に示されるように、カバー部32はフィルタ部33を通過した空気の出口となる排出口32aを有し、排出口32aからは排出路35が流入路34と重なるように前方へ向かって延びている。つまり、排出路35は流入路34と同一方向に延びている。
(About the arrangement of inflow and discharge channels)
As described above, the dust collecting device 30 includes the cover portion 32 that is pivotally supported with respect to the dust collecting container 31 so as to be opened and closed. As shown in FIG. 9, the cover portion 32 has a discharge port 32 a serving as an outlet for the air that has passed through the filter portion 33, and the discharge port 35 is directed forward from the discharge port 32 a so as to overlap the inflow channel 34. It extends. That is, the discharge path 35 extends in the same direction as the inflow path 34.
 また、図9に示されるように、排出路35は、ロボット掃除機1の排気路12に離脱可能に接続される排出路先端35a1と、カバー部32に接続され上記排出口32aを形成する排出路基端35a2とを有している。排出路35は排出路基端35a2から排出路先端35a1へ向かうに従って流入路34と重なる対向部分が流入路34と平行に傾斜しており、排出路基端35a2から排出路先端35a1へ向かって末広がりとなる形状を有している。そして、流入路先端34a1と排出路先端35a1には外方へ張り出した面状の流入路フランジおよび排出路フランジが同一平面上に位置するようにそれぞれ形成されている。 Further, as shown in FIG. 9, the discharge path 35 is connected to the discharge path tip 35a 1 detachably connected to the exhaust path 12 of the robot cleaner 1 and the cover portion 32 to form the discharge port 32a. And a discharge passage base end 35a 2 . Discharge passage 35 is parallel to the inclined face portion overlapping the inlet channel 34 toward the discharge channel proximal end 35a 2 to the discharge passage leading end 35a 1 is an inflow passage 34, toward the discharge channel proximal end 35a 2 to the discharge passage leading end 35a 1 It has a shape that spreads out. The inflow path front end 34a 1 and the discharge path front end 35a 1 are each formed with a planar inflow path flange and a discharge path flange projecting outwardly on the same plane.
 流入路フランジおよび排出路フランジが位置する平面は、ロボット掃除機1の中間収納室R2を構成する前方側の傾斜した仕切り壁39(図4参照)と平行になるように設定されている。この仕切り壁39は下方へ向かうに従って中間収納室R2の前後方向の間隔が小さくなるように傾斜しているので、流入路フランジおよび排出路フランジもまた中間収納室R2の前方側の仕切り壁39と同様に傾斜することとなる。 The plane on which the inflow passage flange and the discharge passage flange are located is set to be parallel to the inclined partition wall 39 (see FIG. 4) on the front side that constitutes the intermediate storage chamber R2 of the robot cleaner 1. Since this partition wall 39 is inclined so that the space in the front-rear direction of the intermediate storage chamber R2 becomes smaller as it goes downward, the inflow passage flange and the discharge passage flange are also separated from the partition wall 39 on the front side of the intermediate storage chamber R2. Similarly, it will be inclined.
 以上の構成によれば、排出路35が流入路34と重なるように流入路34と同一方向に延びるので、集塵装置30の前後方向の寸法を必要最小限の寸法に抑えることができる。また、排出路35のうち流入路34と対向する対向部分が流入路34と平行に傾斜して末広がりとなるので、集塵装置30の高さ方向の寸法を必要最小限の寸法に抑えつつ排気抵抗を抑えることができ、結果として塵埃を含んだ空気が集塵装置30へ流入する効率も向上する。
 さらには、流入路フランジおよび排出路フランジが同一平面上に位置し、かつ中間収納室R2の前方側の仕切り壁39と同様に傾斜しているので、集塵装置30を中間収納室R2へセットすると、集塵装置30の前後方向の位置が自ずと定まり、吸引路11および排気路12との良好な接続が得られる。特に、流入路フランジおよび排出路フランジを同一平面状にすることができるため、掃除機1本体側の中間収納室R2側の吸引路11と、排気路12との密着状態を確保するための構成、設計が簡単になる。つまり、吸引路11と排気路12の端面を同一平面で傾斜させればよく、その端面には通常パッキン部材が設けられており、そのパッキン部材の密着状態を確実に確保できる。
 なお、流入路先端34a1と排出路先端35a1は面状のフランジを有することが好ましいが、無くてもよい。
According to the above configuration, since the discharge path 35 extends in the same direction as the inflow path 34 so as to overlap the inflow path 34, the size of the dust collector 30 in the front-rear direction can be suppressed to the minimum necessary dimension. Moreover, since the opposing part which opposes the inflow path 34 among the discharge paths 35 inclines in parallel with the inflow path 34 and becomes widening, it is exhausted, suppressing the dimension of the height direction of the dust collector 30 to the minimum required dimension. Resistance can be suppressed, and as a result, the efficiency with which dust-containing air flows into the dust collector 30 is improved.
Furthermore, since the inflow passage flange and the discharge passage flange are located on the same plane and are inclined similarly to the partition wall 39 on the front side of the intermediate storage chamber R2, the dust collecting device 30 is set in the intermediate storage chamber R2. Then, the position of the dust collector 30 in the front-rear direction is determined, and a good connection with the suction path 11 and the exhaust path 12 is obtained. In particular, since the inflow passage flange and the discharge passage flange can be formed in the same plane, a configuration for ensuring a close contact state between the suction passage 11 on the intermediate storage chamber R2 side on the main body side of the cleaner 1 and the exhaust passage 12. , Making the design easier. In other words, the end surfaces of the suction path 11 and the exhaust path 12 may be inclined on the same plane, and a normal packing member is provided on the end surfaces, so that the tight contact state of the packing member can be reliably ensured.
In addition, although the inflow path front end 34a 1 and the discharge path front end 35a 1 preferably have planar flanges, they may be omitted.
(取っ手の係止機構について)
 図6~13に示されるように、カバー部32には、カバー部32に対して回動可能に軸支された取っ手36が設けられている。
 図18~20に示されるように、カバー部32の両側面には集塵装置30の前後方向と直交する方向に向かって突出する軸部32iがそれぞれ形成されている。
 一方、図21~23に示されるように取っ手36は平面視でコの字形状に形成され、両端に貫通孔36bがそれぞれ形成されている。
 このため、取っ手36の両端に形成された貫通孔36bにカバー部32の両側面に形成された軸部32iをそれぞれ嵌め入れるように挿入すると、カバー部32に対して取っ手36が回動可能となる。
(About the locking mechanism of the handle)
As shown in FIGS. 6 to 13, the cover portion 32 is provided with a handle 36 that is pivotally supported with respect to the cover portion 32.
As shown in FIGS. 18 to 20, shaft portions 32 i are formed on both side surfaces of the cover portion 32 so as to protrude in a direction orthogonal to the front-rear direction of the dust collector 30.
On the other hand, as shown in FIGS. 21 to 23, the handle 36 is formed in a U shape in plan view, and through holes 36b are formed at both ends.
For this reason, when the shaft portions 32 i formed on both side surfaces of the cover portion 32 are respectively inserted into the through holes 36 b formed at both ends of the handle 36 so that the handle 36 can rotate with respect to the cover portion 32. Become.
 図18~20に示されるように、カバー部32上面の後方側には取っ手36の形状と対応するように窪んだ収納部32gが形成されている。図6~9に示されるように、収納部32gは取っ手36が起立させられていないときに取っ手36をその窪みの中に収納し、集塵装置30の上面を平坦にする作用を担う。
 また、カバー部32には、取っ手36を起立させる際に収納部32gに収納された取っ手36を摘み易くするために収納部32gのほぼ中央部分より更に広範囲に亘って窪んだ凹部32bが形成されている。また、図32および33に示されるように、カバー部32の上面には後述するブラシ付き棒部材Kを収納する収納凹部32kが形成されている。
As shown in FIGS. 18 to 20, a recessed storage portion 32g corresponding to the shape of the handle 36 is formed on the rear side of the upper surface of the cover portion 32. As shown in FIGS. 6 to 9, the storage portion 32g has a function of storing the handle 36 in the recess when the handle 36 is not raised, and flattening the upper surface of the dust collecting device 30.
In addition, the cover portion 32 is formed with a recess 32b that is recessed over a wider range than the substantially central portion of the storage portion 32g so that the handle 36 stored in the storage portion 32g can be easily picked when the handle 36 is raised. ing. As shown in FIGS. 32 and 33, a housing recess 32 k that houses a brushed rod member K described later is formed on the upper surface of the cover portion 32.
 したがって、図4に示されるように、集塵装置30がロボット掃除機1に装着されている状態において、ユーザーが筐体2の蓋部3を開いて収納部32gに収納された取っ手36を摘んで上方へ回動させると、取っ手36は集塵装置30の上面よりも上方へ突出した起立状態となる。このため、ユーザーは起立状態となった取っ手36を把持して集塵装置30を上方へ引き上げることにより、ロボット掃除機1から集塵装置30を容易に取り出すことができる。 Therefore, as shown in FIG. 4, when the dust collector 30 is mounted on the robot cleaner 1, the user opens the lid 3 of the housing 2 and picks the handle 36 stored in the storage portion 32g. If the handle 36 is turned upward, the handle 36 is in an upright state protruding upward from the upper surface of the dust collector 30. Therefore, the user can easily take out the dust collecting device 30 from the robot cleaner 1 by holding the handle 36 in the standing state and pulling the dust collecting device 30 upward.
 図10に示されるように、取っ手36の軸支箇所には、カバー部32に対して取っ手36が回動させられ起立した状態となったときに互いに当接して取っ手36の回動を規制するための一対の規制部材38が設けられている。一対の規制部材38は、図10および図18~20に示されるように取っ手36の軸支箇所の後方近傍で収納部32gから上方に突出する突起部38aと、図10と図21と図23に示されるように取っ手36の両端部において取っ手36から突出する係止部36aとから構成されている。 As shown in FIG. 10, the pivots of the handle 36 are in contact with each other when the handle 36 is pivoted with respect to the cover portion 32 and is in an upright state, thereby restricting the rotation of the handle 36. A pair of regulating members 38 are provided for this purpose. As shown in FIGS. 10 and 18 to 20, the pair of regulating members 38 includes a protruding portion 38 a that protrudes upward from the storage portion 32 g in the vicinity of the rear portion of the shaft support portion of the handle 36, and FIGS. 10, 21, and 23. As shown in FIG. 3, the both ends of the handle 36 are constituted by locking portions 36a protruding from the handle 36.
 図16に示されるように、カバー部32に対して取っ手36が回動させられ起立状態となると、取っ手の係止部36aが軸支箇所の後方近傍で上方に突出する突起部38aに係止され、取っ手36の回動が規制される。さらにこの際、係止部36aとは反対側の取っ手36の表面が収納部32gとカバー部32の上面との間に形成された垂直面32cに当接することでも取っ手36の回動が規制される。 As shown in FIG. 16, when the handle 36 is rotated with respect to the cover portion 32 to be in an upright state, the handle locking portion 36 a is locked to a protruding portion 38 a that protrudes upward in the vicinity of the rear of the shaft support location. Thus, the rotation of the handle 36 is restricted. Further, at this time, the rotation of the handle 36 is also restricted by the contact of the surface of the handle 36 opposite to the engaging portion 36a with the vertical surface 32c formed between the storage portion 32g and the upper surface of the cover portion 32. The
 図19~23に示されるように、取っ手36の軸支箇所の近傍には、上述の規制部材38に加え、取っ手36を起立状態で解除可能にロックするための一対の隆起部32j、36cが形成される。この一対の隆起部32j、36cについても、取っ手36の回動を規制、起立状態を維持する一対の規制部材の機能を果たす。つまり、上述した一対の規制部材38(突起部38aと係止部36b)に代えて、一対の隆起部32j、36cを設けることでも、同一機構を果たし、同一効果を期待できる。また、これらを同時に設けることで、取っ手36を起立状態を維持させる効果が助長される。
 また、一対の隆起部32j、36cはカバー部32の軸部32iの周囲と取っ手36の貫通孔36bの周囲にそれぞれ形成され、取っ手36が回動させられ互いに当接したときに取っ手36の両端部が広がるように弾性変形し、取っ手36の隆起部36cがカバー部32の隆起部32jを乗り越えることができるように傾斜面32j1、36c1をそれぞれ有している。
As shown in FIGS. 19 to 23, a pair of raised portions 32j and 36c for locking the handle 36 so as to be releasable in an upright state are provided in the vicinity of the shaft support portion of the handle 36 in addition to the above-described regulating member 38. It is formed. The pair of raised portions 32j and 36c also function as a pair of regulating members that regulate the rotation of the handle 36 and maintain the standing state. That is, the same mechanism can be achieved and the same effect can be expected by providing a pair of raised portions 32j and 36c instead of the pair of restricting members 38 (the protruding portion 38a and the locking portion 36b). Moreover, the effect which maintains the handle 36 in the standing state is promoted by providing these simultaneously.
The pair of raised portions 32j and 36c are formed around the shaft portion 32i of the cover portion 32 and around the through hole 36b of the handle 36, respectively, and both ends of the handle 36 are rotated when the handle 36 is rotated and brought into contact with each other. It has an inclined surface 32j 1 and 36c 1 so that the protruding portion 36c of the handle 36 can get over the protruding portion 32j of the cover portion 32.
 取っ手36の隆起部36cがカバー部32の隆起部32jを乗り越えて取っ手36が起立状態となると、取っ手36の隆起部36cとカバー部32の隆起部32jが互いに当接し、取っ手36は起立状態を維持し、取っ手36の回動を規制する。特に、一対の隆起部32j、36cによる規制は、解除可能に起立状態をロックすることである。
 なお、取っ手36の隆起部36cがカバー部32の隆起部32jを乗り越える際、取っ手36は両端部が広がるように弾性変形し元の状態に戻ろうとするため、取っ手36には取っ手36を起立状態へ強制的に導くような付勢力が作用し、ユーザーに取っ手36が起立状態にあることを明確に認識させることができる。上記付勢力は、取っ手36の起立状態を解除し、取っ手36を収納部32gに収納する際にも同様に作用する。
When the raised portion 36c of the handle 36 gets over the raised portion 32j of the cover portion 32 and the handle 36 is in an upright state, the raised portion 36c of the handle 36 and the raised portion 32j of the cover portion 32 come into contact with each other, and the handle 36 is in an upright state. The rotation of the handle 36 is restricted. In particular, the restriction by the pair of raised portions 32j and 36c is to lock the standing state so as to be releasable.
Note that when the raised portion 36c of the handle 36 gets over the raised portion 32j of the cover portion 32, the handle 36 is elastically deformed so that both ends thereof are expanded and returns to the original state. An urging force that forcibly guides the handle 36 is applied, and the user can clearly recognize that the handle 36 is in the standing state. The urging force acts similarly when the handle 36 is released from the standing state and the handle 36 is stored in the storage portion 32g.
 以上の構成によれば、取っ手36の起立時に取っ手36は回動が規制され、起立状態を維持するように解除可能にロックされるため、ユーザーは集塵容器31やカバー部32を保持しなくても、取っ手36を把持することにより集塵装置30を安定した状態で持ち上げることができる。そして、集塵装置30を安定した状態で持ち上げることが可能になることから、集塵容器31の開放操作も容易になり、集塵された塵埃を確実に廃棄できるようになる。
 なお、集塵容器31に対してカバー部32を係止する係止機構については後の項で詳細に説明する。
 以上説明した本発明の集塵装置30において、取っ手36は一対の規制部材38または一対の隆起部32j、36c、また一対の規制部材38と一対の隆起部32j、36cの協働により起立状態が維持、あるいはロックされる。これは、集塵装置30を掃除機1本体からの取り出しを安定させる目的を達成できる。また、集塵装置30を安定させて取り出せることで、流入口31aからの塵埃の零れ落ちの課題、問題点を解消することにもなる。
According to the above configuration, when the handle 36 is raised, the rotation of the handle 36 is restricted, and the handle 36 is releasably locked so as to maintain the standing state. Therefore, the user does not hold the dust collection container 31 or the cover portion 32. However, the dust collector 30 can be lifted in a stable state by gripping the handle 36. Since the dust collecting device 30 can be lifted in a stable state, the opening operation of the dust collecting container 31 is facilitated, and the collected dust can be reliably discarded.
The locking mechanism that locks the cover portion 32 with respect to the dust collecting container 31 will be described in detail later.
In the dust collector 30 of the present invention described above, the handle 36 is in a standing state by the pair of restricting members 38 or the pair of raised portions 32j and 36c, and the pair of restricting members 38 and the pair of raised portions 32j and 36c. Maintained or locked. This can achieve the purpose of stabilizing the removal of the dust collector 30 from the main body of the cleaner 1. In addition, since the dust collecting device 30 can be stably taken out, the problem and problem of dust falling from the inlet 31a can be solved.
(集塵装置の重心と取っ手の配置について)
 図13に示されるように、カバー部32が閉じられた状態において、取っ手36の軸支箇所は、集塵装置30の全体の重心Gよりも流入口31a側に距離L1だけずれて位置している。これにより、ユーザーが起立状態にある取っ手36を把持し、ロボット掃除機1から集塵装置30を引き上げると、取っ手36の軸支箇所と集塵装置30全体の重心Gとのずれにより集塵装置30全体が、時計回りに回動しようとする。このため、ユーザーによって持ち上げられた集塵装置30は自然に流入口31aが上方へ向くようになり、集塵された塵埃が流入口31aから不意に流出するような事態を防止できる。このような構成は、流入口31aと底部31x1との高低差が小さい場合でも、集塵された塵埃が流入口31aから零れ落ちることを防止するのに有効である。
 したがって、集塵装置30の重心Gに対して取っ手36の支持位置を、流入口31a側寄りにずらせる構成は、流入口31aからの塵埃を不用意な零れ落ちといった問題、課題を解消する一手段となる。
(About the center of gravity of the dust collector and the arrangement of the handles)
As shown in FIG. 13, in the state where the cover portion 32 is closed, the pivotal support portion of the handle 36 is positioned so as to be shifted by a distance L <b> 1 on the inlet 31 a side from the center of gravity G of the entire dust collector 30. Yes. As a result, when the user holds the handle 36 in the standing state and pulls up the dust collector 30 from the robot cleaner 1, the dust collector is caused by the deviation between the shaft support location of the handle 36 and the center of gravity G of the entire dust collector 30. The whole 30 tries to rotate clockwise. For this reason, the dust collecting apparatus 30 lifted by the user naturally has the inflow port 31a facing upward, and can prevent a situation in which the collected dust unexpectedly flows out of the inflow port 31a. Such an arrangement, even if the height difference between the inflow port 31a and the bottom 31x 1 is small, dust collection is dust is effective to prevent the fall spill from the inlet 31a.
Therefore, the configuration in which the support position of the handle 36 is shifted closer to the inlet 31a side with respect to the center of gravity G of the dust collector 30 solves the problem and problem of inadvertent spillage of dust from the inlet 31a. It becomes a means.
 図17に示されるように、カバー部32と集塵容器31との係止を解除して集塵容器31を開放すると、集塵容器31はカバー部32に対する軸支箇所を中心に回動し前方へ変位する。これに伴い、集塵装置30全体の重心Gも前方へ移動する。取っ手36の軸支箇所は、集塵容器31を開放したときの集塵装置30全体の重心Gとの水平方向の距離L2がなるべく小さくなるように設定されるとよい。これにより、ユーザーが取っ手36を把持し、集塵容器31を開放させた際に集塵装置30全体の重心Gと取っ手36の軸支箇所との水平方向のずれが小さくなり、ユーザーが意図せずともカバー部32の上面は自ずとほぼ水平に維持されるようになる。これにより、開放された集塵容器31の開口部31dを下方へ向けやすくなり集塵された塵埃の廃棄が容易になる。 As shown in FIG. 17, when the locking of the cover portion 32 and the dust collection container 31 is released and the dust collection container 31 is opened, the dust collection container 31 rotates about the pivotal support position with respect to the cover portion 32. Displace forward. Accordingly, the center of gravity G of the entire dust collector 30 also moves forward. The shaft support location of the handle 36 may be set so that the horizontal distance L2 from the center of gravity G of the entire dust collector 30 when the dust container 31 is opened is as small as possible. As a result, when the user grips the handle 36 and opens the dust collecting container 31, the horizontal deviation between the center of gravity G of the entire dust collecting device 30 and the pivotal support portion of the handle 36 is reduced, and the user intends. At least the upper surface of the cover part 32 is maintained substantially horizontal. Accordingly, the opening 31d of the opened dust collection container 31 can be easily directed downward, and the collected dust can be easily discarded.
(係止機構について)
 集塵容器31とカバー部32とを相対的に開放可能とするためには、それらを軸支する構成が必要となる。この構成を説明する前に、回動状態を規制する機構、つまり集塵容器31とカバー部32との相対的な開閉を規制する係止機構について説明する。
 図9と図17に示されるように、係止機構は、カバー部32側に設けられた係止爪32dを有する係止部32eと、集塵容器31側に設けられて係止爪32dを引っ掛ける突起31bとで構成される。係止部32eは、回動可能にカバー部32の軸支部分側と反対の側面に揺動可能に枢着され、図示しない弾発部材(例えば、板バネ、コイルスプリング等)によって係止爪32dを突起31bに係止させる方向に付勢している。
(About locking mechanism)
In order to enable the dust collection container 31 and the cover portion 32 to be opened relatively, a configuration for supporting them is required. Before explaining this configuration, a mechanism for regulating the rotation state, that is, a locking mechanism for regulating the relative opening and closing of the dust collecting container 31 and the cover portion 32 will be explained.
9 and 17, the locking mechanism includes a locking portion 32e having a locking claw 32d provided on the cover portion 32 side, and a locking claw 32d provided on the dust collecting container 31 side. It is comprised by the protrusion 31b to hook. The locking portion 32e is pivotally attached to a side surface of the cover portion 32 opposite to the shaft support portion so as to be rotatable, and is locked by a not-shown elastic member (for example, a leaf spring, a coil spring, etc.). 32d is urged in a direction to lock the protrusion 31b.
 また、係止部32eの付勢力に抗した方向に係止部32eを回動できるようにするために、カバー部32の側面における係止爪32dと反対側には凹み部32h(図9等を参照)が形成されている。そのため、図17に示されるように、突起31bに係止した係止部32eの上端を押すと、係止部32eの下端の係止爪32dが突起31bと離間し、係止状態が解かれる。これにより、集塵容器31がカバー部32に対し開放される。
 また、係止機構において、カバー部32の側面の左右方向の中央部を窪ませた凹み部32h内に係止部32eが設けられているのに合わせて、集塵容器31の側面においても突起31bに対応する部分を窪ませた凹み部31e内に突起31bが設けられている。これにより、係止機構を集塵装置30から突出させないようにしている。そのため、この集塵装置30を掃除機本体の中間収納室R2に装着すると、係止機構の係止状態が不意に解除してしまうようなことがない。また、掃除機本体側の中間収納室R2の内側面を単純な平坦面に形成でき、係止機構部分に合わせた複雑な形状に形成する必要がなくなる。
Further, in order to be able to rotate the locking portion 32e in a direction against the urging force of the locking portion 32e, a concave portion 32h (FIG. 9 etc.) is provided on the side of the cover portion 32 opposite to the locking claw 32d. Are formed). Therefore, as shown in FIG. 17, when the upper end of the locking portion 32e locked to the protrusion 31b is pushed, the locking claw 32d at the lower end of the locking portion 32e is separated from the protrusion 31b, and the locked state is released. . Thereby, the dust collecting container 31 is opened with respect to the cover part 32.
Further, in the locking mechanism, the protrusion 32 also protrudes on the side surface of the dust collecting container 31 in accordance with the provision of the locking portion 32e in the recessed portion 32h in which the central portion of the side surface of the cover portion 32 is recessed. A protrusion 31b is provided in a recessed portion 31e in which a portion corresponding to 31b is recessed. This prevents the locking mechanism from protruding from the dust collector 30. For this reason, when the dust collecting device 30 is mounted in the intermediate storage chamber R2 of the cleaner body, the locking state of the locking mechanism is not unexpectedly released. Further, the inner side surface of the intermediate storage chamber R2 on the cleaner body side can be formed into a simple flat surface, and there is no need to form a complicated shape in accordance with the locking mechanism portion.
(集塵容器の軸支構造について)
 一方、図25と図26に示されるように、フィルタ部33は、前記カバー部32に着脱可能に取付けられる。このフィルタ部33の上面とカバー32の下面との間には、図9に示されるように空間50が形成されており、この空間50が排気空間となる。集塵容器31内からフィルタ部33を通過した空気は、排気空間50を経由して、集塵装置30から掃除機本体側へ排気される。つまり、図2に示されるように、フィルタ部33を通過した空気は、掃除機本体側の排気路12と連通する排出路35へ導入される。そのため、カバー部32の流入路34側の側面に排出路35が一体成形されている。
(About the shaft support structure of the dust collection container)
On the other hand, as shown in FIGS. 25 and 26, the filter portion 33 is detachably attached to the cover portion 32. A space 50 is formed between the upper surface of the filter portion 33 and the lower surface of the cover 32 as shown in FIG. 9, and this space 50 becomes an exhaust space. The air that has passed through the filter unit 33 from inside the dust collecting container 31 is exhausted from the dust collecting device 30 to the cleaner body side via the exhaust space 50. That is, as shown in FIG. 2, the air that has passed through the filter unit 33 is introduced into the discharge path 35 that communicates with the exhaust path 12 on the cleaner body side. Therefore, the discharge path 35 is integrally formed on the side surface of the cover portion 32 on the inflow path 34 side.
 また、図7と図24に示されるように、カバー部32の排出路35の長手方向の両端部から外側へ向かって突出する一対の支持軸35aが一体成形されている。この支持軸35aに、集塵容器31に一体成形された一対の短筒状ボス部31cが軸支されている。このボス部31cは、集塵容器31の側面から突出して設けられており、支持軸35aが挿入される支持孔を有している。一対のボス部31cに一対の支持軸35aを挿入することで、カバー32が集塵容器31に対して回動可能に取り付けられる。
 なお、変形例として、カバー部32にボス部が設けられ、集塵容器31に支持軸が設けられてもよい。また、一対の支持軸35aは、カバー部32に一体形成されている排出路35の側面から突出させるように設けている。つまり、カバー部32に設ければよいことであって、カバー部32本体に直接設けるようにしてもよい。
Further, as shown in FIGS. 7 and 24, a pair of support shafts 35a projecting outward from both ends in the longitudinal direction of the discharge path 35 of the cover portion 32 are integrally formed. A pair of short cylindrical boss portions 31c formed integrally with the dust collecting container 31 are pivotally supported on the support shaft 35a. The boss portion 31c is provided so as to protrude from the side surface of the dust collecting container 31, and has a support hole into which the support shaft 35a is inserted. By inserting the pair of support shafts 35a into the pair of boss portions 31c, the cover 32 is attached to the dust collecting container 31 so as to be rotatable.
As a modification, the cover portion 32 may be provided with a boss portion, and the dust collecting container 31 may be provided with a support shaft. Further, the pair of support shafts 35 a are provided so as to protrude from the side surface of the discharge path 35 formed integrally with the cover portion 32. That is, it is only necessary to provide the cover portion 32, and the cover portion 32 may be provided directly on the main body.
 図24と図27に示されるように、一対の支持軸35aの一方には、付勢部材としてのコイルスプリング37が嵌め込まれている。そして、このコイルスプリング37の一端は、カバー部32側に、他端は集塵容器31の上記ボス部31c側に係止されている。このコイルスプリング37の付勢力によって、図14~図17に示されるように、集塵容器31は大きく開放する。
 一方、コイルスプリング37を省略した場合、カバー部32を水平状態に維持した状態で集塵容器31を自重により開放したときの開放角度は90度以下となる。しかし、カバー部32を水平状態から係止機構を下げた状態または上げた状態にすると、集塵容器31の開口部31dが閉じた状態または開口部31dが上に向いた状態になる。そのため、集塵容器31内の塵埃を排出し難くなり、集塵容器31が深いほど顕著になる。
 このように集塵容器31から塵埃を排出し難い状態になると、両手を使って集塵容器31の開口部31dが下に向くように操作する必要がある。このような操作を行うのであれば、当然のこととして、集塵容器31を回動可能に軸支する構成の代わりに、集塵容器31からカバー部32を取り外しできる構成にする方が構造を簡略化できる。
As shown in FIGS. 24 and 27, a coil spring 37 as an urging member is fitted into one of the pair of support shafts 35a. One end of the coil spring 37 is locked to the cover portion 32 side, and the other end is locked to the boss portion 31 c side of the dust collecting container 31. Due to the biasing force of the coil spring 37, the dust collecting container 31 is largely opened as shown in FIGS.
On the other hand, when the coil spring 37 is omitted, the opening angle when the dust collecting container 31 is opened by its own weight with the cover portion 32 maintained in a horizontal state is 90 degrees or less. However, when the cover 32 is moved from the horizontal state to the state where the locking mechanism is lowered or raised, the opening 31d of the dust collecting container 31 is closed or the opening 31d faces upward. Therefore, it becomes difficult to discharge the dust in the dust collection container 31, and becomes more prominent as the dust collection container 31 is deeper.
Thus, when it becomes difficult to discharge the dust from the dust collection container 31, it is necessary to operate with both hands so that the opening 31d of the dust collection container 31 faces downward. If such an operation is performed, as a matter of course, instead of a configuration in which the dust collection container 31 is pivotally supported, a structure in which the cover portion 32 can be removed from the dust collection container 31 is structured. It can be simplified.
 本発明においては、片手でも取っ手36を持ち、係止状態を解けば、図17に示されるように、コイルスプリング37の付勢力によって90度を越える開放角度で集塵容器31の開口部31dが大きく開くため、開口部31dが下方を向くこととなり、集塵容器31内の塵埃を手を汚すことなく簡単に排出できる。この際、集塵容器31の底部31x1が下に向くように傾斜し、開口部31dも下向きに傾斜し、集塵容器31の側壁部31x2が開口部31dに向かって下方へ傾斜した状態となる。この状態は、集塵容器31内の塵埃を開口部31d側へ移動し易くしているため、廃棄処理の操作を簡単に行える。 In the present invention, if the handle 36 is held with one hand and the locked state is released, the opening 31d of the dust collecting container 31 is opened at an opening angle exceeding 90 degrees by the biasing force of the coil spring 37 as shown in FIG. Since the opening 31d opens widely, the opening 31d faces downward, and the dust in the dust collecting container 31 can be easily discharged without dirtying the hands. At this time, the state in which the bottom portion 31x 1 of the dust container 31 is inclined to face down, the opening 31d is also inclined downward, the side wall portion 31x 2 of the dust container 31 is inclined downwardly toward the opening 31d It becomes. In this state, since the dust in the dust collecting container 31 is easily moved to the opening 31d side, the disposal process can be easily performed.
 なお、本発明において開口部31dが下方を向くとは、集塵容器31に集塵された塵埃がその自重によって開口部31dから自然に排出されるように開口部31dが下向きになった状態を広く意味し、必ずしも開口部31dが鉛直下方に向いた状態のみを意味するものではない。 In the present invention, the opening 31d faces downward means that the opening 31d faces downward so that dust collected in the dust collecting container 31 is naturally discharged from the opening 31d by its own weight. This means broadly and does not necessarily mean only the state in which the opening 31d is directed vertically downward.
 集塵容器31を開放させる操作は、先に説明したとおり、係止機構による係止爪32dと突起31bとの係止を解くことで行われ、それにより集塵容器31が自動的に大きく開放する。また、取っ手36においては、一対の規制部材38または一対の隆起部32j、36c、またこれらの協働の作用により回動状態が規制されるため、取っ手36を持ちカバー部32を水平に維持した状態で、集塵容器31を開放することができる。そのため、前記のように、塵埃を排出しやすい状態、すなわち、集塵容器31の開口部31dが下方を向く状態で廃棄処理操作を行うことができる。
 以上、本発明の集塵装置30によれば、集塵容器31内の集塵された塵埃の廃棄を処理の問題点、課題を解消するものである。つまり、集塵するための集塵容器31の開放角度を大きくすることを可能にしており、集塵された塵埃の廃棄処理操作を確実、かつ簡単にできる。
As described above, the operation of opening the dust collecting container 31 is performed by unlocking the locking claw 32d and the protrusion 31b by the locking mechanism, whereby the dust collecting container 31 is automatically opened largely. To do. Moreover, in the handle 36, since a rotation state is controlled by a pair of regulating member 38 or a pair of raised parts 32j and 36c, and these cooperation actions, the handle 36 is held and the cover part 32 is kept horizontal. In the state, the dust collecting container 31 can be opened. Therefore, as described above, the disposal process can be performed in a state in which dust is easily discharged, that is, in a state in which the opening 31d of the dust collection container 31 faces downward.
As mentioned above, according to the dust collector 30 of this invention, the problem of a disposal and subject of disposal of the dust collected in the dust collecting container 31 are eliminated. That is, it is possible to increase the opening angle of the dust collecting container 31 for collecting dust, and the disposal operation of the collected dust can be surely and easily performed.
(集塵容器の導入板について)
 前記のように、本発明の集塵容器31の流入口31aは開口部31d付近の位置に形成されているため、流入口31aから集塵容器31内に吸引された空気はフィルタ部33に直接導かれることになる。これでは、空気中に含まれる塵埃が直接的にフィルタ部33で捕集されるため、フィルタ部33における流入口31aの近傍部分が局所的に目詰まりしやすくなる。このような点を解消するためにも、本発明はさらに図9および図34(A)に示されるように、本発明の集塵装置30には導入板34bが設けられている。
(Dust collection container introduction plate)
As described above, since the inflow port 31a of the dust collection container 31 of the present invention is formed at a position near the opening 31d, the air sucked into the dust collection container 31 from the inflow port 31a directly enters the filter unit 33. Will be guided. In this case, since dust contained in the air is directly collected by the filter unit 33, the vicinity of the inflow port 31a in the filter unit 33 is likely to be locally clogged. In order to eliminate such a point, as shown in FIGS. 9 and 34A, the present invention is further provided with an introduction plate 34b in the dust collecting apparatus 30 of the present invention.
 この導入板34bは、集塵容器31の側壁部31x2内面における流入口31aの近傍に配置されており、流入口31aから集塵容器31内へ流入した気流を底部31x1側へ案内する。
 導入板34bは、流入口31aの上縁に沿って配置された基端部34b1と、底部31x1側へ向けて端部が配置された先端部34b2と、基端部34b1と先端部34b2とに連設された中間部34b3とを有し、中間部34b3は流入口31aから集塵容器31内へ導入された気流を徐々に底部31x1へ案内する形状に形成されている。具体的には、中間部34b3は、先端部34b2が底部31x1に対して垂直方向に向くように湾曲形状に形成されている。また、図9および図26に示されるように導入板34bは、基端部34b1から先端部34b2に亘って両側に側壁部34b4を有しているため、全体としてダクト口形状に形成されている。
The introducing plate 34b is disposed in the vicinity of the inflow port 31a in the side wall 31x 2 inner surface of the dust container 31, to guide the flowing in from the inflow port 31a into the dust collecting container 31 the air flow into the bottom 31x 1 side.
The introduction plate 34b includes a base end 34b 1 disposed along the upper edge of the inflow port 31a, a distal end 34b 2 having an end disposed toward the bottom 31x 1 side, a base end 34b 1 and a distal end. and a part 34b 2 and the intermediate portion 34b 3 provided continuously to the intermediate portion 34b 3 is formed in a shape which guides from the inlet 31a to gradually bottom 31x 1 the introduced air flow to the dust collecting container 31 ing. Specifically, the intermediate portion 34b 3 is formed in a curved shape so that the tip end portion 34b 2 is oriented in a direction perpendicular to the bottom portion 31x 1 . Further, as shown in FIGS. 9 and 26, the introduction plate 34b has side wall portions 34b 4 on both sides from the base end portion 34b 1 to the tip end portion 34b 2 , so that it is formed into a duct mouth shape as a whole. Has been.
 また、図26に示されるように導入板34bは、左右の側壁部34b4と一体成形されたブロック形の取付部34b5を有しており、集塵容器31の底面から突出した左右一対の突起部に一対の取付部34b5が、例えば、ネジ止めや接着等により固定されている。図2および図9に示されるように、流入路34を斜め上方に向かって進む気流は、導入板34bによって流入口31aから徐々に集塵容器31の底面へ案内されるため、気流に与える抵抗が抑制され、この結果、吸引力の低下が抑制される。
 流入口31aを覆い、かつ集塵容器31の底面と対向して開放されるダクト口形状の導入板34bを設けた点は、集塵容器31の流入口31aを上位置に形成した点と合わせて、集塵容器31を深い容器形に形成することを可能としている。
Further, as shown in FIG. 26, the introduction plate 34b has a block-shaped attachment portion 34b 5 integrally formed with the left and right side wall portions 34b 4, and a pair of left and right projections protruding from the bottom surface of the dust collecting container 31. A pair of attachment portions 34b 5 are fixed to the protrusions by, for example, screwing or bonding. As shown in FIGS. 2 and 9, the airflow traveling obliquely upward in the inflow path 34 is gradually guided from the inlet 31a to the bottom surface of the dust collecting container 31 by the introduction plate 34b. As a result, a decrease in suction force is suppressed.
The point provided with the inlet plate 34b that covers the inflow port 31a and is opened facing the bottom surface of the dust collection container 31 is aligned with the point that the inflow port 31a of the dust collection container 31 is formed at the upper position. Thus, the dust collection container 31 can be formed into a deep container shape.
 前記のように、導入板34bを設けたことにより、流入口31aから集塵容器31内へ流入した気流は底面へと向かう。これにより塵埃の一部、例えば、大きな塵埃は底面に堆積し、空気中に含まれる小さな塵埃はフィルタ部33へと導かれる。その結果、フィルタ部33は直接的に流入口31aから吸気された空気中の塵埃を捕集することがなく、フィルタ部33の目詰まりが抑制される。しかも、フィルタ部33は、局所的に塵埃を捕集するといったことがなく、集塵容器31に堆積しなかった細かな塵埃をフィルタ全域で捕集できる。よって、フィルタ部33のメンテナンスおよび交換時期を延長することができる。なお、この場合、「メンテナンス」とは、フィルタ部33に付着した塵埃を除去する清掃作業である。 As described above, by providing the introduction plate 34b, the airflow flowing from the inlet 31a into the dust collecting container 31 is directed toward the bottom surface. Thereby, a part of the dust, for example, large dust is accumulated on the bottom surface, and the small dust contained in the air is guided to the filter unit 33. As a result, the filter unit 33 does not directly collect dust in the air sucked from the inlet 31a, and clogging of the filter unit 33 is suppressed. In addition, the filter unit 33 does not collect dust locally, and can collect fine dust that has not accumulated in the dust collection container 31 over the entire area of the filter. Therefore, the maintenance and replacement time of the filter unit 33 can be extended. In this case, “maintenance” is a cleaning operation for removing dust adhering to the filter unit 33.
 図34(B)は導入板の変形例1を示す斜視図であり、図34(C)は導入板の変形例2を示す斜視図である。
 図34(B)に示された導入板34baは、集塵容器31の底面に近接する先端部34b21が櫛歯状に形成されている。このようにすれば、導入板34baの櫛歯状先端部34b21の隙間部分(スリット)を空気が通過する際、糸屑、髪の毛等の細長い塵埃が櫛歯部分に引っ掛かって捕集される。また、図34(C)に示された導入板34bbは、格子状先端部34b22を有しており、このようにしても同様の効果が得られる。
FIG. 34 (B) is a perspective view showing Modification 1 of the introduction plate, and FIG. 34 (C) is a perspective view showing Modification 2 of the introduction plate.
The introduction plate 34ba shown in FIG. 34B has a tip 34b 21 close to the bottom surface of the dust collecting container 31 formed in a comb shape. In this way, the comb tooth-like gap portion of the tip portion 34b 21 of the introducing plate 34ba a (slit) is the air while passing through, lint, elongated dust of hairs or the like are collected caught on the tooth portions. The introduction plate 34bb shown in FIG. 34 (C) has a lattice-like tip 34b 22, the same effect can be obtained in this way.
 本実施形態では、集塵容器31の軸支部分側に流入口31aおよび導入板34bが設けられている。そのため、図17に示されるように、集塵容器31を開放して内部の塵埃を廃棄する際、塵埃が導入板34bに引っ掛かって集塵容器31内から排出されないという不具合がない。 In this embodiment, an inlet 31a and an introduction plate 34b are provided on the shaft support portion side of the dust collection container 31. Therefore, as shown in FIG. 17, when the dust collection container 31 is opened and the internal dust is discarded, there is no problem that the dust is caught on the introduction plate 34b and is not discharged from the dust collection container 31.
 なお、本実施形態では、導入板34bが集塵容器31に設けられている場合を例示したが、フィルタ部33に設けられてもよい。この場合、例えば、フィルタ部33の枠体33bに導入板34bの基端部を一体状に連設させることができる。
 また、カバー部32に導入板34bを設けてもよい。この場合、集塵容器31に対してフィルタ部33およびカバー部32を閉じた状態において、カバー部32側から集塵容器31側へ導入板34bを突出させるための切欠き部をフィルタ部33に形成すると共に、この切欠き部と導入板34bとの隙間を塞ぐシール部もカバー部32に設ける。また、カバー部32をフィルタ部33に対して回動させると導入板34bが切欠き部を通過できるように構成する。
In the present embodiment, the case where the introduction plate 34 b is provided in the dust collection container 31 is illustrated, but may be provided in the filter unit 33. In this case, for example, the base end portion of the introduction plate 34 b can be integrally connected to the frame 33 b of the filter portion 33.
Further, the cover plate 32 may be provided with an introduction plate 34b. In this case, in the state where the filter part 33 and the cover part 32 are closed with respect to the dust collection container 31, a notch part for projecting the introduction plate 34b from the cover part 32 side to the dust collection container 31 side is provided in the filter part 33. A seal portion that closes the gap between the notch portion and the introduction plate 34 b is also provided in the cover portion 32. Moreover, when the cover part 32 is rotated with respect to the filter part 33, it comprises so that the introduction board 34b can pass a notch part.
(集塵容器とフィルタ部とカバー部の軸支構造について)
 図13に示されるように、フィルタ部33は、先に説明したように、通常、カバー部32内に収容保持された状態にある。そのため、カバー部32にフィルタ部33を着脱可能に設けることでも十分にその機能を期待できる。
 一方、フィルタ部33に付着した塵埃を除塵するためには、フィルタ部33をカバー部32から取り外す必要がある。この際、集塵容器31を開放すると、カバー部32に装着されたフィルタ部33の塵埃が付着した面が露出する。そして、塵埃が付着した面を露出させたフィルタ部33をユーザーがカバー部32から手作業で取り外すことになるため、ユーザーの手が塵埃で汚れてしまう。
(About the shaft support structure of the dust collection container, filter part and cover part)
As shown in FIG. 13, the filter unit 33 is normally housed and held in the cover unit 32 as described above. Therefore, the function can be sufficiently expected by detachably providing the filter portion 33 to the cover portion 32.
On the other hand, in order to remove dust adhering to the filter unit 33, it is necessary to remove the filter unit 33 from the cover unit 32. At this time, when the dust collecting container 31 is opened, the surface of the filter unit 33 attached to the cover unit 32 to which dust is attached is exposed. Then, the user manually removes the filter unit 33 from which the dust-adhered surface is exposed from the cover unit 32, and thus the user's hand is contaminated with dust.
 この不具合を解消するために、本発明では、図13に示されるように、集塵装置30の使用時にはフィルタ部33をカバー部32内に収容し、図25に示されるように、フィルタ清掃時にはフィルタ部33がカバー部32から外れて集塵容器31の開口部31dを覆うことができるように、フィルタ部33が集塵容器31およびカバー部32に対して回動可能となっている。
 すなわち、図11、図24および図26に示されるように、カバー部32はフィルタ部33と集塵容器31の開口部31dとを覆うように集塵容器31に開閉可能に軸支されており、フィルタ部33も集塵容器31におけるカバー部32の軸支部分近傍に回動可能に軸支されている。
In order to eliminate this problem, in the present invention, as shown in FIG. 13, the filter unit 33 is accommodated in the cover unit 32 when the dust collector 30 is used, and when the filter is cleaned as shown in FIG. The filter part 33 is rotatable with respect to the dust collection container 31 and the cover part 32 so that the filter part 33 can be removed from the cover part 32 and cover the opening part 31 d of the dust collection container 31.
That is, as shown in FIGS. 11, 24, and 26, the cover portion 32 is pivotally supported by the dust collection container 31 so as to be openable and closable so as to cover the filter portion 33 and the opening 31 d of the dust collection container 31. The filter portion 33 is also pivotally supported in the vicinity of the pivot portion of the cover portion 32 in the dust collecting container 31 so as to be rotatable.
 フィルタ部33の軸支部分とカバー部32の軸支部分とは、同一軸心上に配置されてもよく、互いに平行な異なる軸心上に配置されていてもよいが、構造が簡素化できる上で同一軸心上に配置されていることが好ましい。
 具体的には、図24~図27に示されるように、集塵容器31は、先に説明したように開口部31dの近傍に所定間隔をもって同一軸心上に配置された前記一対の短筒状ボス部31cを有している。カバー部32の軸支部分は、集塵容器31の一対のボス部31cの間に設けられると共に、各ボス部31cの孔に挿入される一対の支持軸35aを有してなる。また、フィルタ部33の軸支部分は、集塵容器31の一対のボス部31cの両側に設けられると共に、各ボス部31cの孔に挿入される一対の支持軸33d1を有してなる。
The shaft support part of the filter part 33 and the shaft support part of the cover part 32 may be arranged on the same axis or may be arranged on different axes parallel to each other, but the structure can be simplified. It is preferable that they are arranged on the same axis.
Specifically, as shown in FIGS. 24 to 27, the dust collecting container 31 includes the pair of short cylinders disposed on the same axis at a predetermined interval in the vicinity of the opening 31d as described above. A boss 31c is formed. The shaft support portion of the cover portion 32 is provided between the pair of boss portions 31c of the dust collecting container 31, and has a pair of support shafts 35a inserted into the holes of the boss portions 31c. The shaft journal section of the filter unit 33, together are provided on both sides of the pair of the boss portion 31c of the dust container 31, comprising a pair of support shafts 33d 1 which is inserted into the hole of the boss portion 31c.
 詳しく説明すると、図28~図30に示されるように、フィルタ部33は、空気を通過させながら塵埃を捕集するためのひだ状のフィルタ本体33aと、このフィルタ本体33aの周囲を囲む樹脂製(例えば、ABS樹脂)の枠体33bと、枠体33bの外周部に一体状に設けられたパッキン部材33b1とを有してなる。この枠体33bの側面に、一対の突出片33dが一体成形されており、一対の突出片33dの各対向面にほぼ半球形の前記支持軸33d1が一体成形されている。
 フィルタ部33の一対の支持軸33d1は半球形であることに加え、枠体33bと一対の突出片33dと一対の支持軸33d1とは樹脂にて一体成形されているため、一対の支持軸33d1の間を弾性的に容易に広げることができる。したがって、集塵容器31の各ボス部31cの孔にフィルタ部33の一対の支持軸33d1を外側から容易に挿入することができる。
More specifically, as shown in FIGS. 28 to 30, the filter unit 33 includes a pleated filter body 33a for collecting dust while allowing air to pass therethrough, and a resin made around the filter body 33a. A frame 33b (for example, ABS resin) and a packing member 33b 1 provided integrally on the outer periphery of the frame 33b are provided. The side surface of the frame body 33b, a pair of protruding pieces 33d are integrally molded, the support shaft 33d 1 of substantially hemispherical in each opposing surface of the pair of protruding pieces 33d are integrally molded.
In addition to the hemispherical shape of the pair of support shafts 33d 1 of the filter portion 33, the frame body 33b, the pair of projecting pieces 33d, and the pair of support shafts 33d 1 are integrally formed of resin. between the shaft 33d 1 can be elastically easily spread the. Therefore, the pair of support shafts 33d 1 of the filter portion 33 can be easily inserted from the outside into the holes of the boss portions 31c of the dust collecting container 31.
 図13と図15に示されるように、カバー部32は、フィルタ部33を通過した空気を排出する前記排出路35の入口となる前記排出口32aを有している。そして、この排出口32aの近傍、具体的には、排出路35の両側に前記支持軸35aが一体成形されている(図15参照)。図24に示されるように、カバー部32の一対の支持軸35aの端面間の距離は、集塵容器31の一対のボス部31c内側の間の距離よりも僅かに長く設定されている。
 よって、カバー部32を集塵容器31に取り付ける際は、一方のボス部31cに一方の支持軸35aを挿入した後、他方のボス部31cに他方の支持軸35aを斜めから押し込むことにより挿入できる。
As shown in FIGS. 13 and 15, the cover portion 32 has the discharge port 32 a serving as an inlet of the discharge path 35 for discharging the air that has passed through the filter portion 33. The support shaft 35a is integrally formed in the vicinity of the discharge port 32a, specifically on both sides of the discharge path 35 (see FIG. 15). As shown in FIG. 24, the distance between the end surfaces of the pair of support shafts 35 a of the cover portion 32 is set slightly longer than the distance between the inside of the pair of boss portions 31 c of the dust collecting container 31.
Therefore, when attaching the cover part 32 to the dust collecting container 31, it can be inserted by inserting the one support shaft 35a into one boss part 31c and then pushing the other support shaft 35a into the other boss part 31c obliquely. .
 これにより、図10~図17に示されるように、通常、フィルタ部33はカバー32の収容凹部内にパッキン部材33b1にて圧入された状態で収納されており、カバー32とフィルタ部33とが集塵容器31に対して回動可能となっている。したがって、この軸支構造は、集塵容器31を開放して内部の塵埃を廃棄する操作には全く影響はない。しかも、フィルタ部33の一対の支持軸33d1は、集塵容器31の一対のボス部31cがカバー部32の一対の支持軸35aから離脱するのを防止する規制部材を兼ねているため、このような規制部材を新たに設ける必要がないメリットが得られる。 As a result, as shown in FIGS. 10 to 17, the filter unit 33 is usually housed in the housing recess of the cover 32 in a state where it is press-fitted with the packing member 33b 1 . Is rotatable with respect to the dust collecting container 31. Therefore, this shaft support structure has no influence on the operation of opening the dust collecting container 31 and discarding the dust inside. In addition, since the pair of support shafts 33d 1 of the filter unit 33 also serves as a restricting member that prevents the pair of boss portions 31c of the dust collecting container 31 from being detached from the pair of support shafts 35a of the cover unit 32. There is an advantage that it is not necessary to newly provide such a regulating member.
 さらに、フィルタ部33の枠部33bの一対の突出片33dの弾性変形を利用して一対の支持軸33d1の間を弾性的に広げることにより、フィルタ部33を集塵容器31の一対の短筒状軸部31cから容易に取り外すことができ、新しいフィルタ部33の取り付けも同様に弾性変形を利用できるため、フィルタ部33の交換を簡単に行うことができる。
 また、フィルタ部33のフィルタ本体33aに付着した塵埃を除去する際は、図25に示されるように、カバー部32を集塵容器31およびフィルタ部33に対して開放することにより、フィルタ部33のみが集塵容器31の開口部31dを覆うカバー部開放状態にセットすることができる。図32に示されるように、この状態で、棒部材Kを矢印方向の左右に移動させてフィルタ本体33aの上面のひだ部に擦りつけて振動させることで除塵を行える。この除塵操作は、フィルタ本体33aの塵埃が付着した塵埃捕集面を集塵容器31内に収納した状態で行えるため、室内に塵埃を飛散させず、ユーザーも手を汚すことなく衛生的に簡単に行える。
Further, the filter portion 33 is made to be elastically widened between the pair of support shafts 33 d 1 by utilizing the elastic deformation of the pair of projecting pieces 33 d of the frame portion 33 b of the filter portion 33. Since it can be easily removed from the cylindrical shaft portion 31c and elastic deformation can be used for attaching a new filter portion 33, the filter portion 33 can be easily replaced.
Further, when removing dust adhering to the filter main body 33a of the filter unit 33, the filter unit 33 is opened by opening the cover unit 32 with respect to the dust collecting container 31 and the filter unit 33 as shown in FIG. Only the cover portion covering the opening portion 31d of the dust collecting container 31 can be set in an open state. As shown in FIG. 32, in this state, dust can be removed by moving the bar member K to the left and right in the direction of the arrow and rubbing it against the pleats on the upper surface of the filter body 33a to vibrate. This dust removal operation can be performed in a state where the dust collecting surface to which the dust of the filter main body 33a adheres is housed in the dust collecting container 31, so that the dust is not scattered indoors and the user can easily and hygienically do not get his hands dirty. It can be done.
 除塵操作後は、図14~図17に示されるように、フィルタ部33をカバー部32に収容するように、フィルタ部33を回動させて集塵容器31を開放すれば、集塵容器31内の塵埃を廃棄することができる。
 前記のように、フィルタ本体33aは、山と谷を繰り返すひだ状に形成されているため、山部分に棒部材Kを順次擦りつけることでフィルタ本体33aを振動させることができ、除塵効果を高めることができる(図29、図32参照)。これに加え、フィルタ面積が増加するため、フィルタ本体33aの目詰まりが抑制されており、除塵操作を頻繁に行わなくてもよくなるメリットが得られる。なお、フィルタ本体33aはこの形状に限定されるものではなく、一般的な平面状でもよいが、ひだ状の方が前記メリットを得ることができるため好ましい。
 このように、フィルタ部33を集塵容器31に回動可能に軸支し、その軸支部分をカバー部32の集塵容器31に対する軸支部分と同一軸心上に配置することで、フィルタ部33の取り扱いが非常に利便性のよいものとなると共に、軸支構造を簡素化することができる。
After the dust removal operation, as shown in FIGS. 14 to 17, the dust collecting container 31 can be opened by rotating the filter 33 to open the dust collecting container 31 so that the filter 33 is accommodated in the cover 32. The dust inside can be discarded.
As described above, the filter main body 33a is formed in a pleat shape that repeats peaks and valleys. Therefore, the filter main body 33a can be vibrated by sequentially rubbing the bar member K against the peak portions, thereby enhancing the dust removal effect. (See FIGS. 29 and 32). In addition, since the filter area increases, clogging of the filter main body 33a is suppressed, and there is an advantage that it is not necessary to frequently perform the dust removal operation. The filter main body 33a is not limited to this shape, and may be a general flat shape, but a pleated shape is preferable because the above-mentioned merit can be obtained.
In this way, the filter portion 33 is pivotally supported by the dust collection container 31 and the shaft support portion is disposed on the same axis as the shaft support portion of the cover portion 32 with respect to the dust collection container 31. The handling of the portion 33 becomes very convenient, and the shaft support structure can be simplified.
(フィルタ部を容易に回動させる構成について)
 前記のように、フィルタ部33の枠体33bの全周囲には、ゴム、軟質樹脂等からなる薄い帯状のパッキン部材33b1が一体状に設けられている(図28参照)。図13に示されるように、集塵容器31の開口部31dをフィルタ部33およびカバー部32にて覆うと、パッキン部材33b1の下面が集塵容器31の開口部31dの開口端縁に当接するため、集塵容器31内の空気漏れが防止され、集塵容器31内が密封される。また、フィルタ部33をカバー部32内に収納した状態において、パッキン部材33b1はカバー部32の内周面と圧接しており、これによりフィルタ部33はカバー部32に圧入された状態で保持されると共に、フィルタ部33を通過した後の排気空間50の密閉状態が確保されている。
(Regarding the configuration for easily rotating the filter section)
As described above, the thin strip-shaped packing member 33b 1 made of rubber, soft resin, or the like is integrally provided around the entire frame 33b of the filter portion 33 (see FIG. 28). As shown in FIG. 13, when the opening 31 d of the dust collecting container 31 is covered with the filter part 33 and the cover part 32, the lower surface of the packing member 33 b 1 contacts the opening edge of the opening 31 d of the dust collecting container 31. Therefore, air leakage in the dust collection container 31 is prevented, and the dust collection container 31 is sealed. Further, in a state where the filter portion 33 is housed in the cover portion 32, the packing member 33 b 1 is in pressure contact with the inner peripheral surface of the cover portion 32, whereby the filter portion 33 is held in a state where it is press-fitted into the cover portion 32. In addition, the sealed state of the exhaust space 50 after passing through the filter portion 33 is ensured.
 このような構成により、図14~図17および図26に示されるように、カバー部32に対し集塵容器31を開放(回動)させると、フィルタ部33はカバー部32内に圧入されて保持された状態を維持する。
 フィルタ部33のフィルタ本体33aの除塵を行う場合、図25および図32に示されるように、フィルタ部33をカバー部32内から離脱させる必要があるが、集塵容器31に対して単にカバー部32を開放しただけでは、図26に示されるように、フィルタ部33がカバー部32内に保持された状態を維持するため、フィルタ部33の塵埃捕集面が露出してしまい、ユーザーが塵埃捕集面に触れるという不具合を生じるおそれがある。
With this configuration, as shown in FIGS. 14 to 17 and FIG. 26, when the dust collecting container 31 is opened (rotated) with respect to the cover portion 32, the filter portion 33 is press-fitted into the cover portion 32. Maintain the held state.
When removing the dust from the filter body 33a of the filter unit 33, as shown in FIGS. 25 and 32, the filter unit 33 needs to be detached from the cover unit 32. 26, the filter unit 33 is maintained in the cover 32 as shown in FIG. 26. As a result, the dust collecting surface of the filter unit 33 is exposed, and the user is exposed to dust. There is a risk of touching the collecting surface.
 このような不具合を解消するために、図10と図25に示されるように、フィルタ部33はパッキン部材33b1の少なくとも1箇所に凸部33eを有し、カバー部32は凸部33eと対向する位置に凸部33eを露出させるための切欠き部32fを有している。
 集塵容器31の開口部31dをカバー部32にて閉じた状態のとき(図10参照)、凸部33eを指で押さえ、係止機構を解除し、カバー部32を開くことで、集塵容器31の開口部31dはフィルタ部33にて閉じられた状態を維持される(図25参照)。つまり、ユーザーは、フィルタ部33の塵埃捕集面を外部に露出させることなく、簡単にフィルタ部33をカバー部32内から離脱させることができる。そして、前記のように、棒部材Kを用いてフィルタ部33を振動させることにより、塵埃捕集面に捕集された塵埃を集塵容器31内へ振り落とすことができる(図32参照)。このとき、フィルタ部33のパッキン部材33b1が集塵容器31の開口端縁に密着しているため、塵埃が集塵容器31内から外部に飛散しない。
To solve such problems, as shown in FIGS. 10 and 25, the filter unit 33 has a convex portion 33e in at least one position of the packing member 33b 1, the cover portion 32 is convex portion 33e and opposed It has a notch 32f for exposing the convex portion 33e at a position where the protrusion 33e is exposed.
When the opening portion 31d of the dust collecting container 31 is closed by the cover portion 32 (see FIG. 10), the convex portion 33e is pressed with a finger, the locking mechanism is released, and the cover portion 32 is opened to collect dust. The opening 31d of the container 31 is kept closed by the filter 33 (see FIG. 25). That is, the user can easily remove the filter unit 33 from the cover unit 32 without exposing the dust collecting surface of the filter unit 33 to the outside. Then, as described above, the filter part 33 is vibrated using the rod member K, whereby the dust collected on the dust collecting surface can be shaken down into the dust collecting container 31 (see FIG. 32). At this time, since the packing member 33 b 1 of the filter unit 33 is in close contact with the opening edge of the dust collecting container 31, dust does not scatter from the dust collecting container 31 to the outside.
 また、フィルタ部33の凸部33eは、フィルタ部33の軸支部分と反対側に設けられている。これにより、凸部33eを指で軽く押さえても容易にフィルタ部33をカバー部32から外すことができる。
 また、指が凸部33eに引っ掛かり易くなるように、凸部33eはその露出部分に滑止め部を有している。図31に示されるように、滑止め部は、例えば、ローレット加工面の如く、凸部33eの露出表面に形成された小さな凹凸群からなる。
Further, the convex portion 33 e of the filter portion 33 is provided on the side opposite to the shaft support portion of the filter portion 33. Thereby, even if the convex part 33e is lightly pressed with a finger | toe, the filter part 33 can be easily removed from the cover part 32. FIG.
Moreover, the convex part 33e has a non-slip | skid part in the exposed part so that a finger | toe may be easily caught on the convex part 33e. As shown in FIG. 31, the non-slip portion is formed of a small uneven group formed on the exposed surface of the convex portion 33e, such as a knurled surface.
<他の実施形態>
 本発明は図面に示された実施形態に限定されず、以下のように構成されてもよい。
(I)図面で示された集塵装置は、集塵容器31とカバー部32とフィルタ部33とが相対的に回動できるように相互に連結された軸支部分が、流入口31aおよび排出口32a側に配置されたものであるが、軸支部分は流入口31aおよび排出口32aと反対側に配置されてもよい。この場合、フィルタ部33と共にカバー部32にて集塵容器31の開口部31dを閉じた状態をロックする係止部32eおよび突起31bを、流入口31aおよび排出口32aの横に配置すればよい。また、集塵容器31内の塵埃を廃棄する際は、取っ手36を持って集塵容器31を開放した後、集塵容器31を縦にして流入口31aと軸支部分との間から塵埃を廃棄すればよい。
<Other embodiments>
The present invention is not limited to the embodiment shown in the drawings, and may be configured as follows.
(I) In the dust collector shown in the drawing, the dust collection container 31, the cover portion 32, and the filter portion 33 are connected to each other so that the shaft portion is relatively rotatable. Although it is arranged on the outlet 32a side, the pivotal support portion may be arranged on the side opposite to the inlet 31a and the outlet 32a. In this case, the locking part 32e and the protrusion 31b that lock the state where the opening 31d of the dust collecting container 31 is closed by the cover part 32 together with the filter part 33 may be disposed beside the inlet 31a and the outlet 32a. . When the dust in the dust collecting container 31 is discarded, the dust collecting container 31 is opened by holding the handle 36, and then the dust collecting container 31 is placed vertically to remove dust from between the inlet 31a and the shaft support portion. It can be discarded.
(II)図面で示された集塵装置は、カバー部32の排気口32aを集塵容器31の流入口31aと同じ側に配置されたものであるが、排気口32aを流入口31aとは反対側に配置してもよい。この場合、係止部32eおよび突起31bを排出口32aの横に配置すればよい。なお、この構成(II)は前記構成(I)にも適用できる。 (II) In the dust collector shown in the drawing, the exhaust port 32a of the cover part 32 is arranged on the same side as the inlet 31a of the dust collecting container 31, but the exhaust port 32a is the inlet 31a. It may be arranged on the opposite side. In this case, the locking portion 32e and the protrusion 31b may be disposed beside the discharge port 32a. This configuration (II) can also be applied to the configuration (I).
(III)前記構成(II)を有する集塵装置は、吸込口を有するヘッド部がホースを介して掃除機本体に接続される通常の掃除機の集塵装置として適用可能である。この場合、集塵容器31の流入路34の傾斜を無くして水平にすることができる。 (III) The dust collector having the configuration (II) can be applied as a dust collector of a normal cleaner in which a head portion having a suction port is connected to a cleaner body via a hose. In this case, the inflow path 34 of the dust collecting container 31 can be leveled without being inclined.
1 自走式掃除機(掃除ロボット)
6 吸込口
11 吸引路
12 排気路
30 集塵装置
31 集塵容器
31a 流入口
31d 開口部
31x1 底部
31x2 側壁部
32 カバー部
32a 排出口
33 フィルタ部
33b1 パッキン部材
33e 凸部
34 流入路34b 導入板
35 排出路
35a 支持軸
36 取っ手
G 重心
1 Self-propelled vacuum cleaner (cleaning robot)
6 Suction Port 11 Suction Channel 12 Exhaust Channel 30 Dust Collector 31 Dust Collector 31a Inlet 31d Opening 31x 1 Bottom 31x 2 Side Wall 32 Cover 32a Discharge Port 33 Filter Portion 33b 1 Packing Member 33e Protruding Port 34 Inlet Port 34b Introduction plate 35 Discharge path 35a Support shaft 36 Handle G Center of gravity

Claims (15)

  1.  塵埃を収容する集塵容器と、掃除機の底部の吸込口から吸い込まれた塵埃を空気と共に集塵容器に流入させる流入口と、集塵容器に流入した塵埃と空気とを案内する導入板と、その空気を通過させて塵埃を捕集するフィルタ部とを備え、
     集塵容器は、底部と、底部の周縁から立ち上がると共に一部が流入口の縁部を構成する側壁部と、側壁部により周が規定されると共にフィルタ部が配置される開口部とを有してなり、
     導入板は、側壁部内面における流入口の近傍に配置されて流入口から集塵容器内へ流入した気流を底部側へ案内する集塵装置。
    A dust collecting container for storing dust, an inlet for allowing dust sucked from the suction port at the bottom of the vacuum cleaner to flow into the dust collecting container together with air, and an introduction plate for guiding the dust and air flowing into the dust collecting container; A filter unit that passes the air and collects dust,
    The dust collecting container has a bottom portion, a side wall portion that rises from the periphery of the bottom portion and partially constitutes an edge portion of the inflow port, and an opening portion that is defined by the side wall portion and in which the filter portion is disposed. And
    The introduction plate is a dust collector that is disposed in the vicinity of the inlet on the inner surface of the side wall and guides the airflow flowing from the inlet into the dust collecting container toward the bottom.
  2.  導入板は、流入口の上縁に沿って配置された基端部と、底部側へ向けて端部が配置された先端部と、基端部と先端部とに連設された中間部とを有し、中間部は流入口から集塵容器内へ導入された気流を徐々に底部へ案内する形状に形成された請求項1に記載の集塵装置。 The introduction plate includes a base end portion disposed along the upper edge of the inflow port, a distal end portion having an end portion disposed toward the bottom side, and an intermediate portion provided continuously to the base end portion and the distal end portion. The dust collector according to claim 1, wherein the intermediate portion is formed in a shape that gradually guides the airflow introduced into the dust collecting container from the inlet to the bottom portion.
  3.  中間部は、先端部が底部に対して垂直方向に向くように湾曲形状に形成された請求項2に記載の集塵装置。 3. The dust collector according to claim 2, wherein the intermediate part is formed in a curved shape so that the tip part is directed in a direction perpendicular to the bottom part.
  4.  開口部を有しかつ塵埃を収容する集塵容器と、掃除機の底部の吸込口から吸い込まれた塵埃を空気と共に集塵容器に流入させる流入口と、集塵容器に流入した空気を通過させて塵埃を捕集するフィルタ部と、フィルタ部と集塵容器の開口部とを覆うように集塵容器に開閉可能に軸支されたカバー部とを備え、
     フィルタ部は、その外周部にカバー部に圧入されるパッキン部材を有すると共に、このパッキン部材の少なくとも1箇所に凸部を有し、
     カバー部は、フィルタ部の凸部を露出させるための切欠き部を凸部と対向する位置に有している集塵装置。
    A dust collection container that has an opening and accommodates dust, an inlet through which dust sucked from the suction port at the bottom of the vacuum cleaner flows into the dust collection container together with air, and air that has flowed into the dust collection container is allowed to pass through. A filter part for collecting dust and a cover part pivotally supported by the dust collection container so as to cover the filter part and the opening part of the dust collection container.
    The filter portion has a packing member that is press-fitted into the cover portion on the outer peripheral portion thereof, and has a convex portion in at least one place of the packing member,
    The cover part is a dust collector having a notch for exposing the convex part of the filter part at a position facing the convex part.
  5.  フィルタ部は、集塵容器におけるカバー部の軸支部分近傍に回動可能に軸支されている請求項4に記載の集塵装置。 5. The dust collecting apparatus according to claim 4, wherein the filter part is pivotally supported in the vicinity of a pivotal support part of the cover part in the dust collecting container.
  6.  凸部は、フィルタ部の軸支部分と反対側に設けられている請求項5に記載の集塵装置。 The dust collector according to claim 5, wherein the convex portion is provided on a side opposite to the shaft support portion of the filter portion.
  7.  塵埃を収容する集塵容器と、掃除機の底部の吸込口から吸い込まれた塵埃を空気と共に集塵容器に流入させる流入路と、集塵容器に流入した空気を通過させて塵埃を捕集するフィルタ部とを備え、
     集塵容器は底部と底部の周縁から立ち上がる側壁部と側壁部により周が規定される開口部とを有し、
     流入路は吸込口と連通する吸引路に離脱可能に接続されるべき流入路先端と集塵容器の側壁部に接続され塵埃の流入口を形成する流入路基端とを有し、
     流入路先端から流入路基端へ向かって傾斜し側壁部の上端近傍に前記流入口が形成されてなる集塵装置。
    A dust collecting container for storing dust, an inflow passage through which dust sucked in from the suction port at the bottom of the vacuum cleaner flows into the dust collecting container together with air, and the air flowing into the dust collecting container are passed through to collect the dust. With a filter section,
    The dust collecting container has a bottom part, a side wall part rising from the peripheral edge of the bottom part, and an opening part whose periphery is defined by the side wall part,
    The inflow path has an inflow path tip that should be detachably connected to a suction path that communicates with the suction port, and an inflow path base end that is connected to the side wall portion of the dust collecting container and forms a dust inlet.
    A dust collector in which the inflow port is formed in the vicinity of the upper end of the side wall portion, which is inclined from the front end of the inflow passage toward the proximal end of the inflow passage.
  8.  フィルタ部は集塵容器の開口部を覆うように設けられる請求項7に記載の集塵装置。 The dust collecting apparatus according to claim 7, wherein the filter unit is provided so as to cover an opening of the dust collecting container.
  9.  開口部を有しかつ塵埃を収容する集塵容器と、集塵容器の側壁部に設けられ掃除機の底部の吸込口から吸い込まれた塵埃を空気と共に集塵容器に流入させる流入口と、集塵容器の開口部を覆うように集塵容器に開閉可能に軸支されたカバー部と、カバー部に回動可能に軸支された取っ手とを備え、取っ手が支持され、カバー部が閉じられた状態において取っ手の軸支箇所は全体の重心よりも流入口側にずれて位置している集塵装置。 A dust collecting container having an opening and containing dust; an inlet provided on a side wall of the dust collecting container for allowing dust sucked from a suction port at the bottom of the cleaner to flow into the dust collecting container together with air; A cover part pivotally supported by the dust container so as to cover the opening of the dust container and a handle pivotally supported by the cover part are supported, and the handle is supported and the cover part is closed. The dust collector is located in a state where the handle's pivotal support is shifted to the inlet side of the entire center of gravity.
  10.  取っ手が支持され、カバー部が開かれた状態において取っ手の軸支箇所は水平方向において全体の重心の近傍に位置している請求項9に記載の集塵装置。 10. The dust collector according to claim 9, wherein the handle is supported and the shaft support portion of the handle is positioned in the vicinity of the entire center of gravity in the horizontal direction in a state where the cover is opened.
  11.  開口部を有しかつ塵埃を収容する集塵容器と、集塵容器の開口部を覆うように集塵容器に開閉可能に軸支されたカバー部と、カバー部に回動可能に軸支された取っ手とを備え、カバー部と取っ手は、カバー部に対して取っ手が回動させられ起立した状態となったときに互いに当接して取っ手の回動を規制する一対の規制部材をそれぞれ有する集塵装置。 A dust collection container having an opening and containing dust, a cover part pivotally supported by the dust collection container so as to cover the opening part of the dust collection container, and a pivot part pivotally supported by the cover part The cover portion and the handle each have a pair of restricting members that abut against each other and restrict the rotation of the handle when the handle is turned upright with respect to the cover portion. Dust equipment.
  12.  一対の規制部材は取っ手の軸支箇所の近傍でカバーの表面から突出する突起部と、取っ手から突出する係止部とからなる請求項11に記載の集塵装置。 The dust collector according to claim 11, wherein the pair of regulating members includes a protruding portion that protrudes from the surface of the cover in the vicinity of the pivot support portion of the handle and a locking portion that protrudes from the handle.
  13.  一対の規制部材は、カバー部と取っ手側に、取っ手の軸支箇所の周囲に互いに当接して取っ手を起立状態で解除可能にロックするための一対の隆起部をそれぞれ有する請求項12に記載の集塵装置。 The pair of restricting members respectively have a pair of raised portions on the cover portion and the handle side for abutting each other around the shaft support portion of the handle and locking the handle so that the handle can be released in an upright state. Dust collector.
  14.  開口部を有しかつ塵埃を収容する集塵容器と、集塵容器の開口部を覆うように集塵容器に開閉可能に軸支されたカバー部と、カバー部が閉じた状態を維持するように集塵容器とカバー部とを解除可能に係止する係止部と、カバー部を開く方向に付勢する付勢部材とを備え、カバー部は閉じた状態において集塵容器の開口部を覆い、係止部の係止が解除されると90°を超える角度まで回動する集塵装置。 A dust collection container having an opening and containing dust, a cover part pivotally supported by the dust collection container so as to cover the opening of the dust collection container, and a state in which the cover part is kept closed And a urging member for urging the dust collecting container and the cover portion in a releasable direction, and a biasing member for urging the cover portion in the opening direction. A dust collector that covers and rotates to an angle exceeding 90 ° when the locking portion is unlocked.
  15.  集塵容器とカバー部のいずれか一方は他方を回動可能に軸支する支持軸を有し、他方は前記支持軸に嵌る貫通孔が形成されたボスを有し、付勢部材は支持軸に嵌められて支持軸とボスとの間に介在するコイルスプリングからなる請求項14に記載の集塵装置。 Either the dust collecting container or the cover portion has a support shaft that pivotally supports the other, and the other has a boss formed with a through hole that fits into the support shaft, and the biasing member is a support shaft The dust collecting device according to claim 14, comprising a coil spring that is fitted between the support shaft and the boss.
PCT/JP2012/083512 2012-01-13 2012-12-25 Dust collection device WO2013105431A1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201290001118.0U CN203943625U (en) 2012-01-13 2012-12-25 Dust collect plant

Applications Claiming Priority (12)

Application Number Priority Date Filing Date Title
JP2012005518A JP6080360B2 (en) 2012-01-13 2012-01-13 Dust collector and self-propelled vacuum cleaner provided with the same
JP2012005537A JP6012181B2 (en) 2012-01-13 2012-01-13 Dust collector and self-propelled cleaner provided with the dust collector [7]
JP2012005523A JP6002388B2 (en) 2012-01-13 2012-01-13 Dust collector and self-propelled vacuum cleaner provided with the same
JP2012005527A JP6106364B2 (en) 2012-01-13 2012-01-13 Dust collector and self-propelled vacuum cleaner provided with the same
JP2012-005527 2012-01-13
JP2012-005528 2012-01-13
JP2012005520A JP2013144023A (en) 2012-01-13 2012-01-13 Dust collecting device and self-propelled vacuum cleaner including the same
JP2012-005520 2012-01-13
JP2012-005523 2012-01-13
JP2012-005537 2012-01-13
JP2012005528A JP6200629B2 (en) 2012-01-13 2012-01-13 Self-propelled vacuum cleaner
JP2012-005518 2012-09-10

Publications (1)

Publication Number Publication Date
WO2013105431A1 true WO2013105431A1 (en) 2013-07-18

Family

ID=48781389

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/JP2012/083512 WO2013105431A1 (en) 2012-01-13 2012-12-25 Dust collection device

Country Status (2)

Country Link
CN (1) CN203943625U (en)
WO (1) WO2013105431A1 (en)

Cited By (45)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2015090438A1 (en) * 2013-12-20 2015-06-25 Aktiebolaget Electrolux Autonomous cleaner
WO2015090439A1 (en) 2013-12-20 2015-06-25 Aktiebolaget Electrolux Dust container
WO2015090437A1 (en) * 2013-12-20 2015-06-25 Aktiebolaget Electrolux Autonomous cleaner
EP3000370A1 (en) * 2014-09-24 2016-03-30 LG Electronics Inc. Robot cleaner
JP2017000251A (en) * 2015-06-05 2017-01-05 株式会社マキタ Self-propelled dust collection robot
EP3222187A1 (en) * 2016-03-21 2017-09-27 Miele & Cie. KG Container for holding dust
US9811089B2 (en) 2013-12-19 2017-11-07 Aktiebolaget Electrolux Robotic cleaning device with perimeter recording function
US9939529B2 (en) 2012-08-27 2018-04-10 Aktiebolaget Electrolux Robot positioning system
US9946263B2 (en) 2013-12-19 2018-04-17 Aktiebolaget Electrolux Prioritizing cleaning areas
US20180116478A1 (en) * 2016-10-28 2018-05-03 Irobot Corporation Mobile cleaning robot with a bin
US10045675B2 (en) 2013-12-19 2018-08-14 Aktiebolaget Electrolux Robotic vacuum cleaner with side brush moving in spiral pattern
US10149589B2 (en) 2013-12-19 2018-12-11 Aktiebolaget Electrolux Sensing climb of obstacle of a robotic cleaning device
US10209080B2 (en) 2013-12-19 2019-02-19 Aktiebolaget Electrolux Robotic cleaning device
US10219665B2 (en) 2013-04-15 2019-03-05 Aktiebolaget Electrolux Robotic vacuum cleaner with protruding sidebrush
US10342400B2 (en) 2016-05-20 2019-07-09 Lg Electronics Inc. Autonomous cleaner
US10342405B2 (en) 2016-05-20 2019-07-09 Lg Electronics Inc. Autonomous cleaner
US10362916B2 (en) 2016-05-20 2019-07-30 Lg Electronics Inc. Autonomous cleaner
US10398276B2 (en) 2016-05-20 2019-09-03 Lg Electronics Inc. Autonomous cleaner
US10420448B2 (en) 2016-05-20 2019-09-24 Lg Electronics Inc. Autonomous cleaner
US10433697B2 (en) 2013-12-19 2019-10-08 Aktiebolaget Electrolux Adaptive speed control of rotating side brush
US10441128B2 (en) 2016-05-20 2019-10-15 Lg Electronics Inc. Autonomous cleaner
US10448794B2 (en) 2013-04-15 2019-10-22 Aktiebolaget Electrolux Robotic vacuum cleaner
US10463212B2 (en) 2016-05-20 2019-11-05 Lg Electronics Inc. Autonomous cleaner
US10463221B2 (en) 2016-05-20 2019-11-05 Lg Electronics Inc. Autonomous cleaner
US10481611B2 (en) 2016-05-20 2019-11-19 Lg Electronics Inc. Autonomous cleaner
US10499778B2 (en) 2014-09-08 2019-12-10 Aktiebolaget Electrolux Robotic vacuum cleaner
US10518416B2 (en) 2014-07-10 2019-12-31 Aktiebolaget Electrolux Method for detecting a measurement error in a robotic cleaning device
US10524628B2 (en) 2016-05-20 2020-01-07 Lg Electronics Inc. Autonomous cleaner
US10534367B2 (en) 2014-12-16 2020-01-14 Aktiebolaget Electrolux Experience-based roadmap for a robotic cleaning device
CN111002346A (en) * 2019-12-17 2020-04-14 小狗电器互联网科技(北京)股份有限公司 Robot trapped detection method and robot
US10617271B2 (en) 2013-12-19 2020-04-14 Aktiebolaget Electrolux Robotic cleaning device and method for landmark recognition
US10678251B2 (en) 2014-12-16 2020-06-09 Aktiebolaget Electrolux Cleaning method for a robotic cleaning device
US10729297B2 (en) 2014-09-08 2020-08-04 Aktiebolaget Electrolux Robotic vacuum cleaner
US10779695B2 (en) 2017-12-29 2020-09-22 Irobot Corporation Debris bins and mobile cleaning robots including same
EP3750466A1 (en) * 2019-06-10 2020-12-16 Bissell Inc. Autonomous floor cleaner with carry handle
US10874274B2 (en) 2015-09-03 2020-12-29 Aktiebolaget Electrolux System of robotic cleaning devices
US10877484B2 (en) 2014-12-10 2020-12-29 Aktiebolaget Electrolux Using laser sensor for floor type detection
US10874271B2 (en) 2014-12-12 2020-12-29 Aktiebolaget Electrolux Side brush and robotic cleaner
WO2021041887A1 (en) 2019-08-28 2021-03-04 Sharkninja Operating Llc Debris fin for robotic cleaner dust cup
US11099554B2 (en) 2015-04-17 2021-08-24 Aktiebolaget Electrolux Robotic cleaning device and a method of controlling the robotic cleaning device
US11122953B2 (en) 2016-05-11 2021-09-21 Aktiebolaget Electrolux Robotic cleaning device
US11169533B2 (en) 2016-03-15 2021-11-09 Aktiebolaget Electrolux Robotic cleaning device and a method at the robotic cleaning device of performing cliff detection
US11474533B2 (en) 2017-06-02 2022-10-18 Aktiebolaget Electrolux Method of detecting a difference in level of a surface in front of a robotic cleaning device
US11846937B2 (en) 2016-05-20 2023-12-19 Lg Electronics Inc. Autonomous cleaner
US11921517B2 (en) 2017-09-26 2024-03-05 Aktiebolaget Electrolux Controlling movement of a robotic cleaning device

Families Citing this family (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CA2970571A1 (en) 2014-12-12 2016-06-16 Jiangsu Midea Cleaning Appliances Co., Ltd. Device for beating dust and dust collector using same
CN106137034B (en) * 2014-12-12 2019-06-07 江苏美的清洁电器股份有限公司 Make apparatus for ash and the dust catcher with this dozen of apparatus for ash
TWI653964B (en) 2016-05-17 2019-03-21 Lg電子股份有限公司 Mobile robot and its control method
TWI639021B (en) 2016-05-17 2018-10-21 南韓商Lg電子股份有限公司 Mobile robot and method of controlling the same
CN207979622U (en) 2016-05-17 2018-10-19 Lg电子株式会社 Robot cleaner
CN107374505B (en) * 2017-08-24 2022-10-28 深圳银星智能集团股份有限公司 Dust box and cleaning robot
US20190142233A1 (en) * 2017-11-16 2019-05-16 Irobot Corporation Washable bin for a robot vacuum cleaner
CN208659189U (en) * 2018-03-30 2019-03-29 江苏美的清洁电器股份有限公司 Dust-collecting box and sweeping robot
US10485394B2 (en) 2018-03-30 2019-11-26 Jiangsu Midea Cleaning Appliances Co., Ltd. Dust collection box and robot vacuum cleaner
CN208659188U (en) 2018-03-30 2019-03-29 江苏美的清洁电器股份有限公司 Dust-collecting box and sweeping robot
CN108937733B (en) * 2018-08-02 2020-11-06 绍兴兴裕门窗有限公司 Method for improving indoor air quality
TWI810377B (en) * 2018-11-20 2023-08-01 日商松下知識產權經營股份有限公司 Electric vacuum cleaners and containers for electric vacuum cleaners
CN111195108B (en) * 2018-11-20 2022-07-05 松下知识产权经营株式会社 Electric vacuum cleaner and container
CN110801177A (en) * 2019-11-21 2020-02-18 苏州高之仙自动化科技有限公司 Dust collection box and cleaning robot with same

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2001258807A (en) * 2000-03-16 2001-09-25 Sharp Corp Self-traveling vacuum cleaner
JP2006320455A (en) * 2005-05-18 2006-11-30 Matsushita Electric Ind Co Ltd Dust collection container and vacuum cleaner using it
JP2007143666A (en) * 2005-11-24 2007-06-14 Funai Electric Co Ltd Self-propelled cleaner
JP2008011985A (en) * 2006-07-04 2008-01-24 Sanyo Electric Co Ltd Dust collecting container and vacuum cleaner

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2001258807A (en) * 2000-03-16 2001-09-25 Sharp Corp Self-traveling vacuum cleaner
JP2006320455A (en) * 2005-05-18 2006-11-30 Matsushita Electric Ind Co Ltd Dust collection container and vacuum cleaner using it
JP2007143666A (en) * 2005-11-24 2007-06-14 Funai Electric Co Ltd Self-propelled cleaner
JP2008011985A (en) * 2006-07-04 2008-01-24 Sanyo Electric Co Ltd Dust collecting container and vacuum cleaner

Cited By (75)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US9939529B2 (en) 2012-08-27 2018-04-10 Aktiebolaget Electrolux Robot positioning system
US10448794B2 (en) 2013-04-15 2019-10-22 Aktiebolaget Electrolux Robotic vacuum cleaner
US10219665B2 (en) 2013-04-15 2019-03-05 Aktiebolaget Electrolux Robotic vacuum cleaner with protruding sidebrush
US10045675B2 (en) 2013-12-19 2018-08-14 Aktiebolaget Electrolux Robotic vacuum cleaner with side brush moving in spiral pattern
US10149589B2 (en) 2013-12-19 2018-12-11 Aktiebolaget Electrolux Sensing climb of obstacle of a robotic cleaning device
US10209080B2 (en) 2013-12-19 2019-02-19 Aktiebolaget Electrolux Robotic cleaning device
US10433697B2 (en) 2013-12-19 2019-10-08 Aktiebolaget Electrolux Adaptive speed control of rotating side brush
US10617271B2 (en) 2013-12-19 2020-04-14 Aktiebolaget Electrolux Robotic cleaning device and method for landmark recognition
US9946263B2 (en) 2013-12-19 2018-04-17 Aktiebolaget Electrolux Prioritizing cleaning areas
US9811089B2 (en) 2013-12-19 2017-11-07 Aktiebolaget Electrolux Robotic cleaning device with perimeter recording function
WO2015090437A1 (en) * 2013-12-20 2015-06-25 Aktiebolaget Electrolux Autonomous cleaner
EP3357393A2 (en) 2013-12-20 2018-08-08 Aktiebolaget Electrolux Autonomous cleaner
JP2016540549A (en) * 2013-12-20 2016-12-28 アクチエボラゲット エレクトロルックス Automatic vacuum cleaner
WO2015090439A1 (en) 2013-12-20 2015-06-25 Aktiebolaget Electrolux Dust container
CN105813527A (en) * 2013-12-20 2016-07-27 伊莱克斯公司 Autonomous cleaner
WO2015090438A1 (en) * 2013-12-20 2015-06-25 Aktiebolaget Electrolux Autonomous cleaner
CN105848545B (en) * 2013-12-20 2019-02-19 伊莱克斯公司 Dust receptacle
US10231591B2 (en) 2013-12-20 2019-03-19 Aktiebolaget Electrolux Dust container
CN105848545A (en) * 2013-12-20 2016-08-10 伊莱克斯公司 Dust container
US10518416B2 (en) 2014-07-10 2019-12-31 Aktiebolaget Electrolux Method for detecting a measurement error in a robotic cleaning device
US10729297B2 (en) 2014-09-08 2020-08-04 Aktiebolaget Electrolux Robotic vacuum cleaner
US10499778B2 (en) 2014-09-08 2019-12-10 Aktiebolaget Electrolux Robotic vacuum cleaner
US9572468B2 (en) 2014-09-24 2017-02-21 Lg Electronics Inc. Robot cleaner
EP3178361A1 (en) * 2014-09-24 2017-06-14 LG Electronics Inc. Robot cleaner
US9801515B2 (en) 2014-09-24 2017-10-31 Lg Electronics Inc. Robot cleaner
EP3000370A1 (en) * 2014-09-24 2016-03-30 LG Electronics Inc. Robot cleaner
US10877484B2 (en) 2014-12-10 2020-12-29 Aktiebolaget Electrolux Using laser sensor for floor type detection
US10874271B2 (en) 2014-12-12 2020-12-29 Aktiebolaget Electrolux Side brush and robotic cleaner
US10534367B2 (en) 2014-12-16 2020-01-14 Aktiebolaget Electrolux Experience-based roadmap for a robotic cleaning device
US10678251B2 (en) 2014-12-16 2020-06-09 Aktiebolaget Electrolux Cleaning method for a robotic cleaning device
US11099554B2 (en) 2015-04-17 2021-08-24 Aktiebolaget Electrolux Robotic cleaning device and a method of controlling the robotic cleaning device
JP2017000251A (en) * 2015-06-05 2017-01-05 株式会社マキタ Self-propelled dust collection robot
US11712142B2 (en) 2015-09-03 2023-08-01 Aktiebolaget Electrolux System of robotic cleaning devices
US10874274B2 (en) 2015-09-03 2020-12-29 Aktiebolaget Electrolux System of robotic cleaning devices
US11169533B2 (en) 2016-03-15 2021-11-09 Aktiebolaget Electrolux Robotic cleaning device and a method at the robotic cleaning device of performing cliff detection
EP3222187A1 (en) * 2016-03-21 2017-09-27 Miele & Cie. KG Container for holding dust
US11122953B2 (en) 2016-05-11 2021-09-21 Aktiebolaget Electrolux Robotic cleaning device
US10856714B2 (en) 2016-05-20 2020-12-08 Lg Electronics Inc. Autonomous cleaner
US10939792B2 (en) 2016-05-20 2021-03-09 Lg Electronics Inc. Autonomous cleaner
US10524628B2 (en) 2016-05-20 2020-01-07 Lg Electronics Inc. Autonomous cleaner
US10342400B2 (en) 2016-05-20 2019-07-09 Lg Electronics Inc. Autonomous cleaner
US11846937B2 (en) 2016-05-20 2023-12-19 Lg Electronics Inc. Autonomous cleaner
US10420448B2 (en) 2016-05-20 2019-09-24 Lg Electronics Inc. Autonomous cleaner
US11547263B2 (en) 2016-05-20 2023-01-10 Lg Electronics Inc. Autonomous cleaner
US10362916B2 (en) 2016-05-20 2019-07-30 Lg Electronics Inc. Autonomous cleaner
US10441128B2 (en) 2016-05-20 2019-10-15 Lg Electronics Inc. Autonomous cleaner
US10342405B2 (en) 2016-05-20 2019-07-09 Lg Electronics Inc. Autonomous cleaner
US10827896B2 (en) 2016-05-20 2020-11-10 Lg Electronics Inc. Autonomous cleaner
US10827895B2 (en) 2016-05-20 2020-11-10 Lg Electronics Inc. Autonomous cleaner
US10835095B2 (en) 2016-05-20 2020-11-17 Lg Electronics Inc. Autonomous cleaner
US10398276B2 (en) 2016-05-20 2019-09-03 Lg Electronics Inc. Autonomous cleaner
US10463212B2 (en) 2016-05-20 2019-11-05 Lg Electronics Inc. Autonomous cleaner
US10481611B2 (en) 2016-05-20 2019-11-19 Lg Electronics Inc. Autonomous cleaner
US10463221B2 (en) 2016-05-20 2019-11-05 Lg Electronics Inc. Autonomous cleaner
CN107997685A (en) * 2016-10-28 2018-05-08 美国iRobot公司 Mobile clean robot with case
US10292554B2 (en) * 2016-10-28 2019-05-21 Irobot Corporation Mobile cleaning robot with a bin
US11357371B2 (en) 2016-10-28 2022-06-14 Irobot Corporation Mobile cleaning robot with a bin
JP2020072931A (en) * 2016-10-28 2020-05-14 アイロボット・コーポレーション Mobile cleaning robot with bin
US11918172B2 (en) 2016-10-28 2024-03-05 Irobot Corporation Mobile cleaning robot with a bin
US20180116478A1 (en) * 2016-10-28 2018-05-03 Irobot Corporation Mobile cleaning robot with a bin
JP2019534053A (en) * 2016-10-28 2019-11-28 アイロボット・コーポレーション Mobile cleaning robot with container
JP6999215B2 (en) 2016-10-28 2022-01-18 アイロボット・コーポレーション Mobile cleaning robot with a container
US11474533B2 (en) 2017-06-02 2022-10-18 Aktiebolaget Electrolux Method of detecting a difference in level of a surface in front of a robotic cleaning device
US11921517B2 (en) 2017-09-26 2024-03-05 Aktiebolaget Electrolux Controlling movement of a robotic cleaning device
US10779695B2 (en) 2017-12-29 2020-09-22 Irobot Corporation Debris bins and mobile cleaning robots including same
US11641990B2 (en) 2017-12-29 2023-05-09 Irobot Corporation Debris bins and mobile cleaning robots including same
US11612297B2 (en) 2019-06-10 2023-03-28 Bissell Inc. Autonomous floor cleaner with carry handle
EP3750466A1 (en) * 2019-06-10 2020-12-16 Bissell Inc. Autonomous floor cleaner with carry handle
US11129512B2 (en) 2019-06-10 2021-09-28 Bissell Inc. Autonomous floor cleaner with carry handle
EP3868272A1 (en) * 2019-06-10 2021-08-25 Bissell Inc. Autonomous floor cleaner with carry handle
WO2021041887A1 (en) 2019-08-28 2021-03-04 Sharkninja Operating Llc Debris fin for robotic cleaner dust cup
EP4021265A4 (en) * 2019-08-28 2023-09-13 SharkNinja Operating LLC Debris fin for robotic cleaner dust cup
US11969126B2 (en) 2019-08-28 2024-04-30 Sharkninja Operating Llc Debris fin for robotic cleaner dust cup
CN111002346B (en) * 2019-12-17 2021-05-14 小狗电器互联网科技(北京)股份有限公司 Robot trapped detection method and robot
CN111002346A (en) * 2019-12-17 2020-04-14 小狗电器互联网科技(北京)股份有限公司 Robot trapped detection method and robot

Also Published As

Publication number Publication date
CN203943625U (en) 2014-11-19

Similar Documents

Publication Publication Date Title
WO2013105431A1 (en) Dust collection device
JP6012181B2 (en) Dust collector and self-propelled cleaner provided with the dust collector [7]
JP6002388B2 (en) Dust collector and self-propelled vacuum cleaner provided with the same
JP5957135B2 (en) Dust collector and self-propelled vacuum cleaner provided with the same
JP6080360B2 (en) Dust collector and self-propelled vacuum cleaner provided with the same
JP6116134B2 (en) Suction port body and self-propelled vacuum cleaner provided with the same
JP2013230199A (en) Suction port body, suction tool and self-traveling cleaner
JP5827137B2 (en) Dust collector and self-propelled cleaner provided with the same [6]
JP5933096B2 (en) Dust collector and self-propelled vacuum cleaner provided with the same
JP5965513B2 (en) Self-propelled vacuum cleaner
JP5894701B2 (en) Dust collector and self-propelled vacuum cleaner provided with the same
JP5926849B2 (en) Dust collector and self-propelled vacuum cleaner provided with the same
JP5933090B2 (en) Dust collector and self-propelled vacuum cleaner provided with the same
JP6200629B2 (en) Self-propelled vacuum cleaner
JP5938134B2 (en) Dust collector and self-propelled vacuum cleaner provided with the same
JP5933098B2 (en) Dust collector and self-propelled vacuum cleaner provided with the same
JP5941591B2 (en) Dust collector and self-propelled vacuum cleaner provided with the same
JP5933097B2 (en) Dust collector and self-propelled vacuum cleaner provided with the same
JP5933101B2 (en) Dust collector and self-propelled vacuum cleaner provided with the same
JP5926848B2 (en) Dust collector and self-propelled vacuum cleaner provided with the same
JP5933100B2 (en) Dust collector and self-propelled vacuum cleaner provided with the same
JP5933099B2 (en) Dust collector and self-propelled vacuum cleaner provided with the same
JP5933102B2 (en) Dust collector and self-propelled vacuum cleaner provided with the same
JP5926847B2 (en) Dust collector and self-propelled vacuum cleaner provided with the same
JP6106364B2 (en) Dust collector and self-propelled vacuum cleaner provided with the same

Legal Events

Date Code Title Description
WWE Wipo information: entry into national phase

Ref document number: 201290001118.0

Country of ref document: CN

121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 12865452

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: DE

122 Ep: pct application non-entry in european phase

Ref document number: 12865452

Country of ref document: EP

Kind code of ref document: A1