JP2022044967A - Dust collection container, filter cleaning device and air conditioner - Google Patents

Abstract

To provide a dust collection container that can properly compress deviated dust.SOLUTION: A dust collection container is detachably provided in a filter cleaning device that removes dust from a filter. The dust collection container includes: a storage part having a deposition area in which dust removed from a filter deposits; and a pressing plate that is a plate-like member for pressing the dust depositing in the deposition area so as to cover the dust.SELECTED DRAWING: Figure 8

Description

The present invention relates to a dust collector, a filter cleaning device, and an air conditioner.

Patent Document 1 discloses an air conditioner including a dust collecting box having a suction portion for sucking in dust removed from a filter by a cleaning brush and a pushing portion for pushing in the dust that has been sucked in.

In this air conditioner, the pushing portion can push the dust scraped from the cleaning brush by the scraping portion into the inner part of the storage box in the dust collecting box.

Japanese Unexamined Patent Publication No. 2004-347246

Patent Document 1 has a configuration in which dust is compressed by moving it to the back inside the dust collecting container by the rotational movement of the pushing portion. However, this pushing portion is not configured to directly press the area where dust is accumulated in the dust collecting container. Therefore, in Patent Document 1, when the amount of dust accumulated in the dust collecting container is small, the dust cannot be appropriately compressed.

An object of the present disclosure is to provide a dust collector, a filter cleaning device, and an air conditioner capable of appropriately compressing dust.

The dust collecting container according to one aspect of the present disclosure is a dust collecting container detachably provided in a filter cleaning device for removing dust from the filter, and has a depositing region for accumulating the dust removed from the filter. The accommodating portion and a pressing plate which is a plate-shaped member for pressing so as to cover the dust accumulated in the accumulation area are provided.

Further, the filter cleaning device according to one aspect of the present disclosure is a dust collecting container detachably provided on the filter cleaning device for removing dust from the filter, and is a depositing region for accumulating the dust removed from the filter. A dust collecting container having a storage portion having a dust collecting portion, a pressing plate which is a plate-shaped member for pressing the dust deposited in the accumulation region so as to cover the dust, an engaging portion engaging with the rotating shaft, and the above. It is provided with a driving unit for driving the engaging portion to rotate the rotating shaft, and a removing portion for removing the dust adhering to the filter and accommodating the removed dust in the accommodating portion.

Further, the air conditioner according to one aspect of the present disclosure is a dust collecting container detachably provided in a filter cleaning device for removing dust from the filter, and is a depositing region for accumulating the dust removed from the filter. A dust collecting container having a storage portion having a dust collecting portion, a pressing plate which is a plate-shaped member for pressing the dust deposited in the accumulation region so as to cover the dust, an engaging portion engaging with the rotating shaft, and the above. A filter cleaning device including a drive unit for driving the engaging portion to rotate the rotating shaft, and a removing portion for removing the dust adhering to the filter and accommodating the removed dust in the accommodating portion. It includes an air inlet, an air outlet, and an air passage in which the filter is arranged and is an air passage provided between the inlet and the outlet.

It is a perspective view which shows the main part structure of the air conditioner which concerns on embodiment of this disclosure. It is an exploded perspective view of the air conditioner shown in FIG. FIG. 3 is a sectional view taken along line III-III of the air conditioner shown in FIG. FIG. 3 is a perspective view showing a configuration of a main part of a dust collecting filter unit included in the air conditioner shown in FIG. 1. FIG. 3 is a partially enlarged view of the dust collection filter unit shown in FIG. 4 in the A region. It is a perspective view which shows the main part structure of the dust collector provided in the air conditioner shown in FIG. It is a perspective view which shows the main part structure of the dust collector provided in the air conditioner shown in FIG. 6 is a sectional view taken along the line VIII-VIII of the dust collecting container shown in FIG. It is sectional drawing which shows the state which pressed the dust in the dust collecting container shown in FIG. It is a figure which shows the engaging state of the engaging gear of the dust collecting container shown in FIG. 6 and the pressing plate drive gear of a support main body. FIG. 3 is a block diagram schematically showing an example of a main configuration of an electrical unit included in the air conditioner shown in FIG. 1. FIG. 3 is a block diagram schematically showing an example of a main part configuration of an electrical unit according to a modification of the air conditioner shown in FIG. 1. It is sectional drawing of the dust collecting container which concerns on the modification of embodiment. It is sectional drawing of the dust collecting container which concerns on the modification of embodiment.

Hereinafter, embodiments and modifications of the present disclosure will be described with reference to the drawings. In the following, the same or corresponding elements are designated by the same reference numerals throughout all the figures, and the overlapping description thereof will be omitted. Further, the embodiments and modifications described below are merely examples of the present disclosure, and the present disclosure is not limited to the embodiments and modifications. Even if it is not the embodiment and the modification, various changes can be made according to the design and the like as long as it does not deviate from the technical idea of the present disclosure.

[Air conditioner]
The overall configuration of the air conditioner 1 according to the embodiment of the present disclosure will be described with reference to FIGS. 1 to 3. FIG. 1 is a perspective view showing a configuration of a main part of the air conditioner 1 according to the embodiment of the present disclosure. FIG. 2 is an exploded perspective view of the air conditioner 1 shown in FIG. FIG. 3 is a sectional view taken along line III-III of the air conditioner 1 shown in FIG.

In FIG. 1, the upper side of the paper surface is the upper side, the lower side is the lower side, the side on which the front panel 11 is arranged is the front, and the opposite side of the front panel 11, that is, the side on which the back panel 13 is arranged is the rear. Also, when viewed from the front side to the rear side, the left side is the left and the right side is the right.

The air conditioner 1 according to the present embodiment is, for example, an air conditioner that adjusts the temperature and humidity of the air in the room. In the embodiment of the present disclosure, an outdoor unit (not shown) in which a compressor (not shown) and a condenser (not shown) are integrated, and an evaporator (heat exchanger 31 for an indoor unit described later) are used. An air-conditioning system in the form of a unit consisting of a built-in indoor unit will be described as an example. In particular, the air conditioner 1 will be described as an indoor unit in such a unit form, however, the air conditioner 1 is not limited to such an indoor unit. The air conditioner 1 may be an air conditioner in which a compressor, a condenser, and an evaporator are integrated into an integrated unit.

As shown in FIG. 1, the air conditioner 1 has a substantially rectangular parallelepiped shape. The air conditioner 1 is connected to the outdoor unit via a liquid-side pipe (not shown) through which the liquefied refrigerant flows and a gas-side pipe (not shown) through which the vaporized refrigerant flows. Then, the air conditioner 1 constitutes a refrigerant circuit (not shown) with the outdoor unit. As shown in FIGS. 1 and 2, the air conditioner 1 includes a housing 10, a dust collecting filter unit 20 (filter cleaning device), an air conditioner unit 30, and an electrical unit 40.

[Case]
As shown in FIG. 1, the housing 10 is a resin molded product having a substantially rectangular parallelepiped shape, and includes a front panel 11, a main body panel 12, and a back panel 13. The housing 10 houses a dust collecting filter unit 20, an air conditioning unit 30, and an electrical unit 40 inside the housing 10.

As shown in FIG. 2, the main body panel 12 is arranged with a top panel 14 having a plurality of openings (suction ports 16) formed above. The upper surface panel 14 is configured to cover the upper surface side of the dust collection filter unit 20. Indoor air flows into the housing 10 through the suction port 16.

As shown in FIGS. 1 and 2, a thin plate-shaped flap 15 extending in the left-right direction of the housing 10 is provided at the lower portion of the main body panel 12. The flap 15 is attached to the main body panel 12 via a flap rotation shaft (not shown) provided at the rear end of the flap 15. Then, it can swing around the rotation axis for the flap.

The flap 15 is arranged at a position where the discharge port 17 is closed when the operation of the air conditioner 1 is stopped. On the other hand, when the air conditioner 1 is in operation, as shown in FIG. 3, the end portion on the front surface side of the flap 15 moves downward to form an discharge port 17 for discharging air from the inside of the housing 10.

The flap rotation shaft is connected to a flap drive motor 33 (see FIG. 11 described later) connected to the electrical unit 40, and is rotatable by the rotational force (torque) of the flap drive motor 33. Then, when the air conditioner 1 is in operation, the flap drive motor 33 operates in response to the control signal output from the electrical unit 40 to rotate the flap rotation shaft. The rotation of the flap rotation shaft causes the flap 15 to rotate to a predetermined position. By rotating the flap rotation shaft in this way, it is possible to rotate the flap 15 around the axis of the flap rotation shaft and specify the discharge angle of the air discharged into the room from the discharge port 17.

[Air conditioning unit]
As shown in FIGS. 2 and 3, the air conditioning unit 30 includes a heat exchanger 31 for an indoor unit and a blower 32.

The heat exchanger 31 for an indoor unit is composed of a plurality of heat exchangers. As shown in FIG. 3, the heat exchanger 31 for the indoor unit is arranged so as to cover the upper part of the blower 32. Each heat exchanger constituting the heat exchanger 31 for an indoor unit has a configuration in which a large number of heat radiation fins (not shown) are attached to a heat transfer tube (not shown) folded at the left end. The liquid side pipe and the gas side pipe described above are connected to the heat exchanger 31 for the indoor unit. The heat exchanger 31 for an indoor unit functions as an evaporator, for example, during the cooling operation of the air conditioner 1.

When the air conditioner 1 is in operation, the blower 32 causes the indoor air to flow into the housing 10 through the suction port 16 and supplies it to the indoor unit heat exchanger 31, and the indoor unit heat exchanger 31. The heat-exchanged air is discharged into the room through the discharge port 17. An air passage 18, which is an air passage, is provided between the suction port 16 and the discharge port 17. The dust collecting filters 21L and 21R included in the dust collecting filter unit 20 are arranged in the air passage 18.

[Dust collection filter unit]
In addition to FIG. 3 described above, the configuration of the dust collection filter unit 20 will be described with reference to FIGS. 4 and 5. FIG. 4 is a perspective view showing a configuration of a main part of the dust collecting filter unit 20 included in the air conditioner 1 shown in FIG. FIG. 5 is a partially enlarged view of the dust collection filter unit 20 shown in FIG. 4 in the A region. In FIG. 5, for convenience of explanation, the dust collecting container 23 is shown in a removed state.

As shown in FIGS. 4 and 5, the dust collection filter unit 20 includes two dust collection filters 21L and 21R, a support main body 22, two dust collection containers 23L and 23R, two filter drive rollers 24L and 24R, and two. It includes filter drive motors 25L and 25R, roller drive motor 26, power relay unit 27, and two pressing plate drive motors 28R and 28L. When it is not necessary to distinguish between the two dust collecting filters 21L and 21R, it is simply referred to as a dust collecting filter 21 (filter). Further, when it is not necessary to particularly distinguish between the two dust collecting containers 23L and 23R, the two dust collecting containers 23L and 23R are simply referred to as dust collecting containers 23. Further, when it is not necessary to particularly distinguish between the two filter drive rollers 24L and 24R, they are simply referred to as the filter drive rollers 24. When it is not necessary to distinguish between the two filter drive motors 25L and 25R, the two filter drive motors 25L and 25R are simply referred to as the filter drive motor 25. Further, when it is not necessary to particularly distinguish between the two pressing plate drive motors 28L and 28R, the two pressing plate driving motors 28L and 28R are simply referred to as pressing plate driving motors 28 (driving unit).

As shown in FIG. 4, in the dust collection filter unit 20, the two dust collection filters 21L and 21R, the two dust collection containers 23L and 23R, and the two filter drive rollers 24L and 24R are arranged in the left-right direction in the support main body 22. It is placed adjacent to. Further, the two filter drive motors 25L and 25R and the two pressing plate drive motors 28L and 28R are provided one on each of the left side wall portion 223 and the right side wall portion 225 of the support main body 22. The roller drive motor 26 is provided only on the right side wall portion 225 of the support main body 22. Further, as shown in FIG. 4, the power relay unit 27 is provided on the front side of the support main body 22 and at the central portion in the left-right direction.

(Dust collection filter)
The dust collection filter 21 (filter) is a filter that removes dust contained in the air flowing in from the suction port 16. As shown in FIG. 4, the dust collecting filter 21 includes a frame body 211 and an air filter, and is removable from the support main body 22. The air filter is arranged corresponding to the opening portion of the grid frame portion 211b of the frame body 211, but is not shown in FIG. 4 for convenience of explanation.

The frame body 211 is a support member that supports the air filter, and as shown in FIG. 4, the grid frame portion 211b that divides the region surrounded by the substantially rectangular outer frame portion 211a and the outer frame portion 211a into a grid pattern. To prepare for. As shown in FIG. 3, rack portions 211c, which are rod-shaped gears, are formed on the left and right lower surfaces of the outer frame portion 211a. Then, when the dust collecting filter 21 is attached to the support main body 22, the rack portion 211c of the frame body 211 and the pinion portion 242 of the filter drive roller 24 are fitted (see FIG. 3).

Since the rack portion 211c of the frame body 211 and the pinion portion 242 of the filter drive roller 24 are fitted in this way, when the filter drive roller 24 rotates counterclockwise in FIG. 3, the dust collecting filter 21 becomes the support main body 22. It moves forward and is wound up by the filter drive roller 24. The dust collecting filter 21 wound around the filter drive roller 24 is folded back along the peripheral surface of the filter drive roller 24 and guided to the guide GD.

On the contrary, when the filter drive roller 24 rotates clockwise in FIG. 3, the dust collecting filter 21 moves toward the rear of the support main body 22. That is, the dust collecting filter 21 guided by the guide GD and housed in the dust collecting filter unit 20 is taken up by the filter drive roller 24. The dust collecting filter 21 wound around the filter drive roller 24 is folded back along the peripheral surface of the filter drive roller 24, moves toward the rear of the support main body, and returns to the initial position. The initial position is the initial arrangement position when the dust collecting filter 21 is attached to the support main body 22.

(Support body)
As shown in FIG. 4, the support main body 22 includes two dust collecting filters 21L and 21R, two dust collecting containers 23L and 23R, two filter drive motors 25L and 25R, a roller drive motor 26, a power relay unit 27, and a power relay unit 27. It is a support member that supports the two pressing plate drive motors 28L and 28R.

The support main body 22 is a resin plate-shaped member that is curved downward from the rear side to the front side. The support body 22 includes a grid rib 222, a left side wall portion 223, a central wall portion 224, a right side wall portion 225, and a bottom support portion 226.

The lattice rib 222 is a lattice-shaped reinforcing rib for improving the strength of the support main body 22, and is formed on the upper surface of the support main body 22.

As shown in FIG. 4, the left side wall portion 223 is a side wall formed on the left edge portion of the support main body 22, and a guide GD is formed on the inner surface of the left side wall portion 223 as shown in FIG. Has been done. This guide GD is a guide member for guiding the dust collecting filter 21 in a specified direction. In the embodiment, as shown in FIGS. 4 and 5, the guide GD is provided on the left side wall portion 223 so as to extend upward from the peripheral surface of the filter drive roller 24 toward the rear side of the support main body 22. Further, a filter drive motor 25L and a pressing plate drive motor 28L are provided on the outer surface of the left side wall portion 223. Furthermore, as shown in FIG. 5, the pressing plate driving gear 227 (engaging portion) connected to the pressing plate driving motor 28L on the inner surface of the left side wall portion 223 near the joint position with the bottom support portion 226. ) Is provided. The pressing plate drive gear 227 engages with the engaging gear 237a described later provided in the dust collecting container 23, and transmits the rotational force of the pressing plate driving motor 28L to the engaging gear 237a.

As shown in FIG. 4, the right side wall portion 225 is a side wall formed on the right side edge portion of the support main body 22. Although not shown in FIG. 4, a guide GD having the same shape as the left wall portion 223 is formed on the inner side surface of the right side wall portion 225. Further, a roller drive motor 26, a filter drive motor 25R, and a pressing plate drive motor 28R are fixed to the outer surface of the right side wall portion 225. Although not particularly shown, a pressing plate drive gear 227 is provided inside the right side wall portion 225 and in the vicinity of the joint position with the bottom support portion 226, similarly to the left side wall portion 223.

As shown in FIG. 4, the central wall portion 224 is a wall portion extending in the front-rear direction in a substantially central portion in the width direction (left-right direction) of the support main body 22. As shown in FIG. 4, guide GDs having the same shape as the guide GD of the left side wall portion 223 and the guide GD of the right side wall portion 225 are provided on the left and right side surfaces of the central wall portion 224. The guide GD provided on the left side surface of the central wall portion 224 and the guide GD provided on the left side wall portion 223 are provided at opposite positions, and can guide the left and right side portions of the dust collecting filter 21L. .. Further, the guide GD provided on the right side surface of the central wall portion 224 and the guide GD provided on the right side wall portion 225 are provided at opposite positions to guide the left and right side portions of the dust collecting filter 21R. Can be done. Therefore, each of the two dust collecting filters 21L and the dust collecting filters 21R provided on the left and right sides can be guided in a predetermined direction.

As shown in FIGS. 4 and 5, the bottom support portion 226 is a lower surface member formed at the lowermost end portion of the support main body 22, and is a support member that supports the bottom of the dust collecting container 23. The bottom support portion 226 includes a shelf plate portion 226a and a claw portion 226b. As shown in FIG. 5, the shelf plate portion 226a is a plate member that comes into contact with the bottom portion of the dust collecting container 23 and supports the dust collecting container 23. As shown in FIG. 5, the claw portion 226b is a leaf spring member formed on the shelf plate portion 226a, and is cantilevered and supported by the shelf plate portion 226a at one end and upward to the other end. A protruding protrusion is formed. When the dust collecting container 23 is attached to the support main body 22, the protruding portion of the claw portion 226b comes into contact with the bottom of the dust collecting container 23, and the dust collecting container 23 is urged from below to above. Therefore, when the dust collecting container 23 is attached to the support main body 22, it is possible to prevent misalignment. A plurality of claw portions 226b are provided for one dust collecting container 23 in the shelf plate portion 226a.

(Dust collection container)
The configuration of the dust collecting container 23 will be described with reference to FIGS. 6 to 9. FIG. 6 is a perspective view showing a main configuration of a dust collecting container 23 included in the air conditioner 1 shown in FIG. 1. FIG. 7 is a perspective view showing a main configuration of a dust collecting container 23 included in the air conditioner 1 shown in FIG. 1. FIG. 8 is a cross-sectional view taken along the line VIII-VIII of the dust collecting container 23 shown in FIG. FIG. 9 is a cross-sectional view showing a state in which dust is pressed in the dust collecting container shown in FIG. Note that FIG. 6 is a perspective view of the dust collecting container 23 when viewed from the front side, and FIG. 7 is a perspective view of the dust collecting container 23 when viewed from the back side.

The dust collection container 23 is a container for collecting dust removed from the dust collection filter 21. The dust collecting container 23 can be attached to and detached from the support main body 22 in the front-rear direction. As shown in FIGS. 6 to 9, the dust collecting container 23 includes an accommodating portion 231, a mechanism accommodating portion 232, a detachable mechanism 233, a brushed roller 234 (removing portion), and a side gear portion 235.

As shown in FIGS. 6 to 8, the accommodating portion 231 faces the bottom portion 231a and the four side portions 231b erected above the bottom portion 231a so as to surround the outer periphery of the bottom portion 231a and above the bottom portion 231a. It is a box member having a substantially rectangular parallelepiped shape and includes an upper portion 231c provided at a position. The bottom portion 231a and the top portion 231c have a rectangular shape whose left-right direction is the longitudinal direction. Further, the four side portions 231b are arranged on the front side portion 231b1 arranged on the front surface of the accommodating portion 231, the back side portion 231b2 arranged on the back surface, the left side portion 231b3 arranged on the left side surface, and the right side surface. The right side portion 231b4 is included.

The bottom portion 231a includes a deposition area 231a1 on which dust scraped from the dust collection filter 21 by the brushed roller 234 is deposited. Further, an opening (accommodation port 231c1) is formed in the upper portion 231c. The accommodating port 231c1 is an opening for guiding the dust sucked from the dust collecting filter 21 by the brushed roller 234 provided on the upper surface side of the upper portion 231c into the accommodating portion 231. Further, the storage port 231c1 also functions as a dust discharge port when the dust collection container 23 is removed from the support main body 22 and the dust accumulated in the dust collection container 23 is discharged.

The accommodating portion 231 may be formed of a transparent or translucent resin so that the user can recognize the accumulated dust from the outside. Further, the accommodating portion 231 is provided with a pressing plate 236 which is a plate-shaped member inside, and the pressing plate 236 can press and compress the accumulated dust. Details of the dust pressing mechanism by the pressing plate 236 will be described later.

As shown in FIG. 8, the mechanism accommodating portion 232 is a square tube-shaped box member arranged above and in front of the accommodating portion 231 in the dust collecting container 2. The mechanism accommodating portion 232 accommodates the attachment / detachment mechanism 233. The attachment / detachment mechanism 233 is a mechanism for making the dust collecting container 23 detachable from the support main body 22.

The mechanism accommodating portion 232 has openings (not shown) formed on the left and right side surfaces, through which engagement pins (not shown) provided at the left and right ends of the attachment / detachment mechanism 233 may protrude or accommodate the mechanism. It is configured so that it can be retracted into the portion 232. On the other hand, holes (not shown) for receiving the engaging pins are formed in each of the left side wall portion 223 and the right side wall portion 225 of the support main body 22. Then, the dust collecting container 23 is locked to the support main body 22 by inserting the engaging pin into the hole, and the dust collecting container 23 is removed from the support main body 22 by pulling out the engaging pin from the hole. be able to.

The brushed roller 234 is a member for scraping dust from the dust collecting filter 21 when the dust collecting filter 21 is cleaned (filter cleaning step). The brushed roller 234 is a roller having a brush attached to its peripheral surface, and is rotatably supported by both the left and right wall portions of the dust collecting container 23. In the filter cleaning step, the brushed roller 234 scrapes dust from the dust collecting filter 21 by abutting the dust collecting filter 21 while the brush attached to the peripheral surface rotates. Then, the scraped dust is collected in the accommodating portion 231.

More specifically, as described above, the dust collecting filter 21 can be moved in the front-rear direction by the rotation of the filter drive roller 24. Further, as shown in FIG. 3, in the attached state where the dust collecting container 23 is attached to the support main body 22, the brushed roller 234 is arranged so that the dust collecting filter 21 can be sandwiched between the dust collecting container 23 and the filter driving roller 24. Has been done. Therefore, each time the dust collection filter 21 moves in the front-rear direction due to the rotation of the filter drive roller 24, the dust collection filter 21 comes into contact with the brush of the brushed roller 234, and the dust adhering to the dust collection filter 21 is scraped off by the brush.

The number of times the dust collecting filter 21 reciprocates in the front-rear direction of the air conditioner 1 in one filter cleaning step is arbitrary. The number of reciprocations is appropriately set from the relationship between the amount of dust adhering to the dust collection filter 21 and the amount of dust that can be removed from the dust collection filter 21 by the roller 234 with a brush when the dust collection filter 21 reciprocates in the front-rear direction. Will be done.

As shown in FIGS. 6 and 7, the side gear portions 235 are attached to both ends of the shaft portion of the brushed roller 234 protruding from both wall portions of the dust collecting container 23 that pivotally supports the brushed roller 234. It is a gear. The side gear portion 235 engages with a gear (not shown) provided at the tip of the shaft of the roller drive motor 26.

More specifically, of the two dust collecting containers 23L and 23R arranged adjacent to each other in the left-right direction, the dust collecting container 23R arranged on the right side is attached to both ends of the brushed roller 234 in the attached state. The two provided side gear portions 235 engage with other members as follows.

That is, of the two side gear portions 235 provided in the brushed roller 234 provided in the dust collecting container 23R, the side gear portion 235 provided at the right end portion of the shaft portion is a gear provided at the tip of the shaft of the roller drive motor 26. Engage with. On the other hand, the side gear portion 235 provided at the left end portion of the shaft portion engages with the relay gear (not shown) provided in the power relay portion 27.

Further, in the dust collecting container 23L arranged on the left side, the two side gear portions 235 provided at both ends of the brushed roller 234 engage with other members as follows in the attached state.

That is, of the two side gear portions 235 provided in the brushed roller 234 provided in the dust collecting container 23L, the side gear portion 235 provided at the right end portion of the shaft portion meshes with the relay gear of the power relay portion 27. On the other hand, the side gear portion 235 provided at the left end portion of the shaft portion is free.

As described above, the shaft portion of the brushed roller 234 provided on the dust collecting container 23R engages with the shaft portion of the brushed roller 234 provided on the dust collecting container 23L via the relay gear of the power relay unit 27. can do. Then, the power relay unit 27 can transmit the rotational force transmitted from the roller drive motor 26 to the brushed roller 234 of the dust collecting container 23R to the brushed roller 234 of the dust collecting container 23L via the relay gear. .. Therefore, the roller drive motor 26 can rotate each of the brushed roller 234 of the dust collecting container 23R and the brushed roller 234 of the dust collecting container 23L at the same time.

(Closed posture / pressing posture of pressing plate)
In the dust collecting container 23 according to the embodiment, the pressing plate 236 stands from the bottom 231a along the back side portion 231b2 of the accommodating portion 231 and the pressing posture for pressing the dust accumulated in the accumulation region 231a1 so as to cover it from above. It is configured to be able to take two postures, that is, a closed posture that closes the opening 238 formed in the back side portion 231b2 in the provided posture.

First, a configuration that realizes a closed posture will be described. The accommodating portion 231 includes a posture maintaining member (not shown) that urges the pressing plate 236 toward the back surface side portion 231b2. As the posture maintaining member, for example, an elastic member such as a torsion coil spring can be used. When a torsion coil spring is used as the posture maintaining member, the rotary shaft 237 is inserted through the inner circumference of the coil of the torsion coil spring. Further, the first arm portion extending from one end of the coil is joined to the bottom portion 231a, and the second arm portion extending from the other end is joined to the force receiving surface 236b of the pressing plate 236. Although the structure using the torsion coil spring as the posture maintaining member has been described here, the present invention is not limited to this. Any member may be used as long as it can urge the pressing plate 236 so that the pressing plate 236 can take a closed posture in the accommodating portion 231.

Further, the area of the main surface of the pressing plate 236 is larger than the opening size of the opening 238. Therefore, in the closed posture, the pressing plate 236 can close the opening 238 and function as a part of the back side portion 231b2.

Next, a configuration for realizing the pressing posture will be described. In the pressing posture, the pressing plate 236 presses toward the deposition region 231a1 so that the dust does not move upward. As a result, in the dust collecting container 23 according to the embodiment, the dust can be compressed between the accumulation region 231a1 and the pressing plate 236. Further, since the dust is covered from above by the pressing plate 236, it is possible to prevent the dust from moving upward when in the pressing posture.

Specifically, the pressing plate 236 exerts a force on one main surface to maintain a contact surface 236a that abuts on the dust, and on the other main surface to maintain a posture in which the dust is pressed by the contact surface 236a. Each has a receiving force receiving surface 236b.

Further, the pressing plate 236 has a rotation shaft 237 extended in the left-right direction at an end portion on the bottom portion 231a side in the closed posture. Then, with the rotation of the rotating shaft 237, the pressing plate 236 rotates around the axis of the rotating shaft 237 from the back surface side portion 231b2 toward the bottom portion 231a. As the pressing plate 236 rotates around the axis of the rotating shaft 237 in this way, as shown in FIG. 9, the dust accumulated in the accumulation region 231a1 of the bottom 231a is pressed by the contact surface 236a of the pressing plate 236. To. In the dust collecting container 23 according to the embodiment, the deposition area 231a1 and the inner surface of the bottom 231a coincide with each other. Therefore, the shape of the main surface of the pressing plate 236 is substantially the same as the shape of the inner surface of the bottom portion 231a.

Further, the dust collecting container 23 according to the embodiment has the following configuration as a rotating mechanism for rotating the rotating shaft 237 described above. That is, the rotary shaft 237 is rotatably supported by the left side portion 231b3 and the right side portion 231b4 of the accommodating portion 231. Then, as shown in FIG. 10, engagement gears 237a are provided on the left end portion of the rotary shaft 237 protruding from the left side portion 231b3 and the right end portion of the rotary shaft 237 protruding from the right side portion 231b4, respectively. FIG. 10 is a diagram showing an engaged state between the engaging gear 237a of the dust collecting container 23 shown in FIG. 6 and the pressing plate drive gear 227 of the support main body 22.

When the dust collecting container 23 is attached to the support main body 22, the engaging gear 237a of the rotating shaft 237 included in the dust collecting container 23 is fitted into the pressing plate drive gear 227 included in the support main body 22. By fitting the engaging gear 237a and the pressing plate drive gear 227 in this way, the rotational force of the pressing plate drive motor 28L is transferred to the rotating shaft 237 provided with the engaging gear 237a via the pressing plate drive gear 227. Can be communicated.

By the way, in the rotation mechanism of the rotation shaft 237 described above, in addition to the force that produces the rotational movement, a force that presses the rotation shaft 237 in one direction also acts on the rotation shaft 237. Therefore, in the direction in which a gap is generated between the dust collector 23 and the air conditioner 1 in the attached state, such as above the dust collector 23 or in the direction of removing the dust collector 23 (front side of the air conditioner 1). When a force is applied to the rotating shaft 237, the dust collecting container 23 rattles.

Therefore, the air conditioner 1 is devised so that the arrangement relationship between the pressing plate drive gear 227 and the engaging gear 237a is as shown in FIG. The central axis of the engaging gear 237a coincides with the axis of the rotating shaft 237.

Specifically, the central axis of the pressing plate drive gear 227 is parallel to the stretching direction of the rotating shaft 237. Further, the engaging gear 237a and the pressing plate drive gear 227 are arranged so that the central axis of the pressing plate drive gear 227 is vertically above the axis of the rotating shaft 237 (the central axis of the engaging gear 237a). Be placed. In particular, it is preferable that the central axis of the engaging gear 237a is arranged directly below the central axis of the pressing plate drive gear 227. However, considering the ease of attaching the dust collecting container 23 to the support main body 22, the central axis of the pressing plate drive gear 227 may be located on the back side of the central axis of the engaging gear 237a.

By arranging the pressing plate drive gear 227 and the engaging gear 237a in this way, when the force is transmitted to the engaging gear 237a (rotating shaft 237) via the pressing plate driving gear 227, the force is transmitted to the rotating shaft 237. It is possible to suppress the application of force in the upward direction or the removal direction of the dust collecting container 23 (in front of the air conditioner 1). Therefore, it is possible to prevent the dust collecting container 23 from rattling in the air conditioner 1.

In the dust collecting container 23 according to the embodiment, as described above, the pressing plate 236 presses the dust collected in the deposition area 231a1 so as to cover the dust from above. On the other hand, the air conditioner disclosed in Patent Document 1 has a configuration in which dust is moved to the inner part of the dust collecting container by the rotational movement of the pushing portion.

As described above, the configuration disclosed in Patent Document 1 is not a configuration that covers the entire dust deposited in the deposition region 231a1 by the pressing portion from above. Therefore, in Patent Document 1, for example, after the dust collecting container is removed from the support main body, the dust accumulated in the dust collecting container may be unintentionally scattered to the outside. Further, in Patent Document 1, the pushing portion moves the dust to the inner part of the dust collecting container to compress the dust. Therefore, the dust cannot be properly compressed at the stage where the dust has not accumulated in the dust collecting container to some extent.

On the other hand, in the dust collecting container 23 according to the embodiment of the present disclosure, the dust accumulated in the accumulation area 231a1 in the accommodating portion 231 can be pressed so as to cover the dust accumulated in the accumulation area 231a1 from above regardless of the amount of the accumulation. Therefore, in the dust collecting container 23 according to the embodiment of the present disclosure, the dust can be appropriately compressed by the pressing plate 236.

(Electrical unit)
Next, the configuration of the electrical unit 40 will be described with reference to FIG. FIG. 11 is a block diagram schematically showing an example of the main configuration of the electrical unit 40 included in the air conditioner 1 shown in FIG. 1.

As shown in FIG. 11, the electrical unit 40 includes a communication control unit 41, a central processing unit 42 (drive control unit), a number of times measurement unit 43, and an operating time measurement unit 44, and each of these units mutually buses. It is connected. Further, the electrical unit 40 is communicably connected to the filter drive motor 25, the roller drive motor 26, the pressing plate drive motor 28, the flap drive motor 33, and the blower 32 through the communication line Lc.

The central processing unit 42 is an arithmetic processing unit that performs various controls of each unit of the air conditioner 1. The central processing calculation unit 42 has, for example, a filter drive motor 25, a roller drive motor 26, a pressing plate drive motor 28, based on an input signal input via an input interface (not shown) such as a remote controller or an operation panel. A control signal for controlling the flap drive motor 33, the blower 32, and the like is generated.

The communication control unit 41 establishes connections with, for example, the filter drive motor 25, the roller drive motor 26, the pressing plate drive motor 28, the flap drive motor 33, and the blower 32, and the control generated by the central processing unit 42. It sends a signal and accepts an input signal input via an input interface.

The number-of-times measuring unit 43 measures the number of times the above-mentioned filter cleaning process is performed. The number-of-times measuring unit 43 transmits the measured number of times the filter cleaning process is performed to the central processing unit 42.

The operating time measuring unit 44 measures the operating time of the air conditioner 1. The operating time measuring unit 44 transmits the measured operating time to the central processing unit 42.

The central processing unit 42 can control to execute the pressing operation by the pressing plate 236 based on the number of times the cleaning process is performed received from the number measuring unit 43 or the operating time received from the operating time measuring unit 44.

By the way, in the air conditioner 1 according to the embodiment, the above-mentioned rotation mechanism is based on the case where the pressing operation by the pressing plate 236 in the dust collecting container 23 is manually performed by the user and the control signal from the central processing unit 42. It may be done by. Hereinafter, the manual pressing operation and the pressing operation by the rotation mechanism will be described.

(Manual pressing operation)
The manual pressing operation can be performed by the user when the dust collector 23 is removed from the air conditioner 1.

As shown in FIG. 8, in the accommodating portion 231, an opening 238 is formed in the back side portion 231b2. The opening 238 is formed at a position where at least a part of the force receiving surface 236b of the pressing plate 236 is exposed to the outside of the accommodating portion 231.

Therefore, the user can access the force receiving surface 236b from the outside of the accommodating portion 231 through the opening 238. Therefore, for example, in the dust collecting container 23 removed from the air conditioner 1, the user may apply a force to the force receiving surface 236b from the outside of the accommodating portion 231 with a finger or the like to press the dust by the pressing plate 236. can. Therefore, the dust collecting container 23 can appropriately compress the dust accumulated in the accumulation region 231a1.

Further, since the posture maintaining member is provided, when the force exerted by the user on the force receiving surface 236b is released, the pressing plate 236 rotates around the axis of the rotating shaft 237 from the bottom portion 231a toward the back side portion 231b2. .. Then, the posture of the pressing plate 236 is maintained in the closed posture.

The front side portion 231b1 (first side portion) is exposed to the outside of the air conditioner 1 in the attached state in which the dust collecting container 23 is attached to the support main body 22. On the other hand, the back side portion 231b2 (second side portion) is housed in the air conditioner 1. Since the back side portion 231b2 in which the opening 238 is formed is accommodated in the air conditioner 1 in the attached state, dust in the accommodating portion 231 is discharged to the outside through the opening 238. Can be prevented.

(Pressing operation by rotation mechanism)
Next, a configuration in which the pressing operation of the pressing plate 236 is executed by the rotation mechanism will be described. It is preferable that the pressing operation of the pressing plate 236 is performed at an appropriate timing according to the amount of dust accumulated in the accommodating portion 231 of the dust collecting container 23.

Here, the amount of dust accumulated in the accommodating portion 231 correlates with the number of times the filter cleaning step is performed. Therefore, in the air conditioner 1 according to the embodiment, the pressing operation by the pressing plate 236 is performed based on the control signal transmitted from the electrical unit 40 according to the number of times the filter cleaning step is performed.

Specifically, the number-of-times measuring unit 43 sets the number of transmissions of the control signal instructing the start of operation transmitted from the central processing unit 42 to the filter drive motor 25 or the roller drive motor 26 as the number of times the filter cleaning process is performed. It is considered and counted. Then, the number-of-times measuring unit 43 transmits the counted number of times the filter cleaning process is performed to the central processing unit 42.

The central processing unit 42 determines whether or not the number of executions of the filter cleaning step counted by the number measurement unit 43 has reached a predetermined number. When the central processing unit 42 determines that the number of times the filter cleaning process has been performed has reached a predetermined number, the central processing unit 42 transmits a control signal instructing the start of operation to the pressing plate drive motor 28 via the communication control unit 41.

The pressing plate drive motor 28 transmits a rotational force from the rear side portion 231b2 toward the bottom portion 231a so that the pressing plate 236 rotates around the axis of the rotating shaft 237 based on the control signal received from the central processing unit 42. ..

As described above, in the air conditioner 1, the amount of dust accumulated in the accommodating portion 231 can be estimated and the dust can be pressed by the pressing plate 236.

The amount of dust accumulated in the accommodating portion 231 also correlates with the operating time of the air conditioner 1. Therefore, in the air conditioner 1 according to the embodiment, the pressing operation may be performed by the pressing plate 236 based on the control signal transmitted from the electrical unit 40 according to the operating time of the air conditioner 1.

Specifically, the operating time measuring unit 44 measures the operating time of the blower 32 as the operating time of the air conditioner 1. That is, the operating time measuring unit 44 records the timing at which the control signal instructing the start of operation is transmitted from the central processing unit 42 to the blower 32 and the timing at which the control signal instructing the stop of operation is transmitted, and the blower 32. Measure the operating time of. The operating time measuring unit 44 transmits the measured operating time of the blower 32 to the central processing unit 42.

The central processing unit 42 determines whether or not the operating time measured by the operating time measuring unit 44 has reached a predetermined time. When the central processing unit 42 determines that the operating time has reached a predetermined time, the central processing unit 42 transmits a control signal instructing the start of operation to the pressing plate drive motor 28 via the communication control unit 41.

The pressing plate drive motor 28 transmits a rotational force from the rear side portion 231b2 toward the bottom portion 231a so that the pressing plate 236 rotates around the axis of the rotating shaft 237 based on the control signal received from the central processing unit 42. ..

As described above, in the air conditioner 1, dust can be pressed by the pressing plate 236 based on the control signal transmitted from the central processing unit 42.

(Modification example)
The air conditioner 1 according to the modified example of the embodiment will be described with reference to FIGS. 12 to 14. FIG. 12 is a block diagram schematically showing an example of the main part configuration of the electrical unit 40 according to the modified example of the air conditioner 1 shown in FIG. 1. 13 and 14 are cross-sectional views of the dust collecting container 23 according to the modified example of the embodiment. 13 and 14 show an example of the cross-sectional structure when the dust collecting container 23 is cut out at the same position as the cross-sectional view shown in FIGS. 8 and 9.

In the air conditioner 1 according to the embodiment, the rotational force of the pressing plate drive motor 28 can be transmitted to the rotating shaft 237 provided with the engaging gear 237a via the pressing plate driving gear 227. The air conditioner 1 according to the modification of the embodiment is provided with a pressing plate drive gear 227 and an engaging gear 237a, but instead is provided with a pushing force that exerts a force on the force receiving surface 236b of the pressing plate 236 as shown in FIGS. The difference is that the plate 290, the push rotation shaft 291 provided at the end of the push plate 290, and the push plate drive motor 293 for operating the push plate 290 are provided. Regarding other configurations, the air conditioner 1 according to the modified example of the embodiment is the same as the air conditioner 1 according to the embodiment. Therefore, similar members are assigned the same number and the description thereof will be omitted.

The push plate 290 is a plate-shaped member that exerts a force on the force receiving surface 236b of the pressing plate 236 through the opening 238. The push plate 290 is held in an upright state from the bottom 231a of the accommodating portion 231 toward the upper portion 231c when no force is applied to the pressing plate 236, that is, when the pressing operation by the pressing plate 236 is not performed. .. Further, the push plate 290 is provided with a push rotation shaft 291 at the end on the bottom side in an upright state. In the push plate 290, the end on the bottom side is referred to as the base end of the push plate 290, and the end opposite to the base end is referred to as the tip of the push plate 290.

When the pressing operation is performed, the push plate drive motor 293 operates in response to the control signal output from the central processing unit 42 of the electrical unit 40 to rotate the push rotation shaft 291. Due to the rotation of the push rotation shaft 291, the tip end portion of the push plate 290 comes into contact with the push plate 236, and a force is applied to the force receiving surface 236b. As described above, when a force is applied to the pressing plate 236 from the pushing plate 290, the pressing plate 236 is rotated by this force and presses the dust accumulated in the accumulation region 231a1.

As described above, the central processing unit 42 may be configured to output a control signal to the push plate drive motor 293 when it is determined that the number of times the filter cleaning process has been performed has reached a predetermined number of times. .. Alternatively, as described above, the central processing unit 42 may be configured to output a control signal to the push plate drive motor 293 when it is determined that the operating time of the air conditioner 1 has reached a predetermined time.

Further, since the push plate 290 comes into contact with the push plate 236 via the opening 238, the push rotation shaft 291 is arranged parallel to the rotation shaft 237 above the lower end of the opening 238. Further, the area of the main surface of the push plate 290 is smaller than the opening area of the opening 238 so that the track at the tip of the push plate 290 passes through the opening 238.

As described above, in the air conditioner 1 according to the modified example of the embodiment, a force can be applied to the force receiving surface 236b of the pressing plate 241 by the pushing plate 290 in the accommodating portion 231 of the dust collecting container 23. Then, the pressing plate 236 can be rotated and moved toward the bottom by the force applied from the pushing plate 290, and the dust accumulated in the accumulation region 231a1 can be pressed so as to be covered by the pressing plate 236.

In the above-described embodiment, the air conditioner 1 provided with the dust collecting container 23 has been described as an example, but the present invention is not limited thereto. For example, it can be used for all devices having an air filter and having a function of removing dust adhering to the air filter.

1 Air conditioner 10 Housing 16 Suction port 17 Discharge port 18 Air passage 20 Dust collection filter unit (filter cleaning device)
21 Dust collection filter (filter)
22 Support body 23 Dust collector 28 Press plate drive motor (drive unit)
30 Air conditioning unit 40 Electrical unit 41 Communication control unit 42 Central processing unit (drive control unit)
43 Number of times measurement unit 44 Operating time measurement unit 227 Press plate drive gear (engagement unit)
231 Accommodation 231a Bottom 231a1 Sedimentation area 231b Side 231b1 Front side (first side)
231b2 Back side (second side)
234 Brushed roller (removal part)
236 Press plate 236a Contact surface 236b Force receiving surface 237 Rotating shaft 237a Engagement gear 238 Opening 241 Press plate

Claims (10)

A dust collection container that is detachably provided on the filter cleaning device that removes dust from the filter.
An accommodating portion having a deposition area for accumulating the dust removed from the filter,
A pressing plate, which is a plate-shaped member that presses so as to cover the dust accumulated in the accumulation area,
Equipped with a dust collecting container. The pressing plate has a contact surface that comes into contact with the dust on one main surface, and a force receiving surface that receives a force exerted on the other main surface to take a posture in which the dust is pressed by the contact surface. Have and
The dust collecting container according to claim 1, wherein the accommodating portion is formed with an opening that is open so that at least a part of the force receiving surface is exposed. The accommodating portion has a bottom portion including the sedimentary region and a side portion erected from the bottom portion so as to surround the outer periphery of the bottom portion.
The side portion includes a first side portion exposed to the outside in an attached state in which the dust collecting container is attached in the filter cleaning device, and a second side portion housed in the filter cleaning device.
The dust collecting container according to claim 2, wherein the opening is formed on the second side portion. The dust collecting container according to claim 3, further comprising a posture-maintaining member that maintains the posture of the pressing plate so as to close the opening in a posture erected from the bottom along the second side portion. The pressing plate has a rotation axis at the end on the bottom side in a posture maintained by the posture maintaining member.
The dust collection according to claim 4, wherein when the dust accumulated in the accumulation area is pressed by the pressing plate, the pressing plate rotates around the axis of the rotating shaft from the second side portion toward the bottom portion. container. The dust collecting container according to claim 5 and
An engaging portion that engages with the rotating shaft,
A drive unit that drives the engaging portion to rotate the rotating shaft,
A filter cleaning device including a removing unit for removing the dust adhering to the filter and accommodating the removed dust in the accommodating unit. The engaging portion is a gear whose central axis is parallel to the extending direction of the rotating shaft.
The filter cleaning device according to claim 6, wherein the rotating shaft and the gear are arranged so that the axial center of the central axis of the gear is higher than the axial center of the rotating shaft in the vertical direction. The filter cleaning device according to claim 6 or 7.
Air inlet and
The air outlet and
The filter is arranged and includes an air passage which is an air passage provided between the suction port and the exhaust port.
Air conditioner. A drive control unit that controls the drive unit,
A number measuring unit for measuring the number of times the dust is removed from the filter by the removing unit is provided.
The drive control unit
When it is determined that the number of removals measured by the number-of-times measuring unit has reached a predetermined number of times, the driving unit is controlled so that the pressing plate moves from the second side portion toward the bottom portion to the shaft of the rotating shaft. The air conditioner according to claim 8, wherein the rotating shaft is rotated so as to rotate around the air conditioner. A drive control unit that controls the drive unit,
It is equipped with an operating time measuring unit that measures the operating time of the air conditioner.
The drive control unit
When it is determined that the operating time of the air conditioner measured by the operating time measuring unit has reached a predetermined time, the driving unit is controlled so that the pressing plate moves from the second side portion toward the bottom portion. The air conditioner according to claim 8, wherein the rotating shaft is rotated so as to rotate about the axis of the rotating shaft.

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