CN218410104U - Self-dedusting air conditioner - Google Patents

Abstract

The utility model discloses a from dust removal air conditioner, include: a filter screen; the output shaft of the cross-flow motor is connected with a cross-flow fan blade; the cleaning mechanism is used for cleaning the filter screen; the clutch device is used for connecting or disconnecting the transmission between the through-flow motor and the cleaning mechanism; when the clutch device is locked, the through-flow motor drives the cleaning mechanism to remove dust from the filter screen; when the clutch device is disengaged, the cross-flow motor drives the cross-flow fan blades to blow out dust to the outside of the air conditioner. The connection transmission between the through-flow motor and the cleaning mechanism is realized through the clutch device, namely, the through-flow motor drives the cleaning mechanism to remove dust on the filter screen when the clutch device is locked, and the through-flow motor does not drive the cleaning mechanism any more when the clutch device is disengaged; compared with the prior art in which a plurality of motors are adopted for driving, only a single motor is adopted, so that the cost is saved, and an additional sensor is not required to be added.

Description

Self-dedusting air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to a from dust removal air conditioner.

Background

The filter screen of an indoor unit of an existing air conditioner can be accumulated with dust for a long time, the dust can affect the refrigerating effect and the air quality of a room, and the existing general method is that a user can detach the filter screen and manually clean the filter screen, which is difficult for users who are not familiar with the structure of the air conditioner or have poor manual operation capability. In other patent schemes, the blockage degree of a filter screen is detected by an air detection device, and then a dust suction device is controlled to suck dust according to the blockage degree. However, the dust suction device of the scheme needs to be driven by a single motor. For example, a brush is used to clean the filter screen, and then a negative pressure tank is used to absorb the cleaned dust. The brush and the negative pressure box are driven by a motor respectively, so the cost is too high. Or one of the brush or the negative pressure box is driven by a through-flow fan motor, but the requirement of the driving of the negative pressure box on the motor is higher, if the motor is driven by the through-flow fan motor, the cost of the motor is increased, in addition, an additional sensor is required in the existing scheme, and the existing scheme cannot be put into use under the condition that the overall cost reduction trend of the industry is stronger.

Based on this, utility model people provide a from dust removal air conditioner and solve above-mentioned technical problem.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem that among the prior art brush is cleared away and is needed a motor drive respectively through filter screen and negative-pressure tank, the higher technical problem who just needs to increase extra sensor of cost.

In order to solve the above problems, the utility model provides a from dust removal air conditioner, include: a filter screen; the output shaft of the cross-flow motor is connected with a cross-flow fan blade; the cleaning mechanism is used for cleaning the filter screen; the clutch device is used for connecting or disconnecting the transmission between the through-flow motor and the sweeping mechanism; when the clutch device is locked, the through-flow motor drives the cleaning mechanism to remove dust from the filter screen; when the clutch device is disengaged, the cross-flow motor drives the cross-flow fan blades to blow out dust to the outside of the air conditioner.

Compared with the prior art, the technical effect that this scheme of adoption can reach: the connection transmission between the through-flow motor and the cleaning mechanism is realized through the clutch device, namely, the through-flow motor drives the cleaning mechanism to remove dust on the filter screen when the clutch device is locked, and the through-flow motor does not drive the cleaning mechanism any more when the clutch device is disengaged; compared with the prior art in which a plurality of motors are adopted for driving, only a single motor is adopted, so that the cost is saved, and an additional sensor is not required to be added.

In the embodiment, the through-flow motor comprises a first working state and a second working state; when the clutch device is locked, the through-flow motor is in a first working state; when the clutch device is disengaged, the through-flow motor is in a second working state; wherein the rotating speed of the through-flow motor in the first working state is less than that of the through-flow motor in the second working state.

The technical effect after the technical scheme is adopted is that the through-flow motor comprises a first working state which is a slow working state, a second working state which is a fast working state, and the through-flow motor drives the cleaning mechanism to remove dust from the filter screen in the slow working state when the clutch device is locked; through controlling the slow working state and the fast working state of the through-flow motor, the through-flow motor can drive the cleaning mechanism to remove dust on the filter screen or drive the through-flow fan blades to blow out dust to the outside of the air conditioner.

In this embodiment, the cleaning mechanism includes: the dust removing brush is used for removing dust from the filter screen; and the transmission mechanism is connected between the through-flow motor and the dust removing brush, wherein the dust removing brush reciprocates on the filter screen through the transmission mechanism under the action of the through-flow motor to remove dust on the filter screen.

The technical effect after adopting this technical scheme does, the brush face of dust removal brush slightly be less than with the wide face of filter screen, the dust removal brush is at filter screen surface round trip movement to make the dust removal brush can as far as possible brush the dust on the filter screen, efficiency is higher.

In this embodiment, the transmission mechanism includes: the fan gear is coaxially connected to an output shaft of the cross-flow motor; the clutch device is arranged between the fan gear and the transmission rack; one end of the transmission rack is connected with the dust removing brush.

The technical effect after adopting this technical scheme does, is connected with clutch through the fan gear, and clutch and fan gear connection go on so that the fan gear can drive the transmission rack under the prerequisite that clutch connects to further drive the dust removal brush motion, ensure that the dust removal brush can effectively remove dust to the filter screen.

In this embodiment, the clutch device includes: the output shaft of the driving source is connected with a transmission gear, and the transmission gear is used for connecting or disconnecting the transmission of the fan gear and the transmission rack.

The technical effect after the technical scheme is adopted is that the driving source drives the transmission gear to move so that one end of the transmission gear is meshed with the fan gear, and the other end of the transmission gear is meshed with the transmission rack, so that the transmission gear is driven to rotate when the fan gear rotates, the transmission rack is driven to move, and finally the dust removal brush is driven to remove dust along the surface of the filter screen.

In this embodiment, the transmission gear includes an engaged position state and a disengaged position state; when the clutch device is locked, the transmission gear is in the state from the disconnecting position state to the engaging position state; when the clutch device is disengaged, the transmission gear is in an engagement position state to a disconnection position state.

The technical effect after the technical scheme is adopted is that the transmission gear has two position states, including an engagement position state and a disconnection position state; the distance for driving the transmission gear to move by the driving source is preset in advance, when the clutch device is locked, the transmission gear is in a state from a disconnection position to a meshing position, so that the fan gear drives the clutch device to drive the rack to move, and finally the dust removing brush is driven to clean the filter screen; on the contrary, when the clutch device is disengaged, the transmission gear is in a state from the meshing position to the disconnecting position, so that the fan gear cannot drive the dust removing brush to move, and the clutch device can well control the dust removing brush.

In this embodiment, the clutch device further includes: the sliding groove is arranged along the direction vertical to the arrangement direction of the transmission rack; the driving source operates in the positive direction to drive the transmission gear to slide in the positive direction along the sliding groove so as to lock the clutch device; the driving source operates reversely to drive the transmission gear to slide reversely along the sliding groove so as to enable the clutch device to be disengaged.

The technical effect after the technical scheme is adopted is that in order to ensure that the transmission gear can slide along the appointed direction, a sliding groove is arranged, the arrangement direction of the sliding groove is vertical to the arrangement direction of the transmission rack, and the transmission gear can stably enter the meshing position or exit the meshing position to realize the locking or the disengagement of the clutch device.

In this embodiment, the air conditioner further includes: the air deflector is used for opening or closing an air outlet of the air conditioner; the ash outlet is arranged at the top of the air conditioner; when the cleaning mechanism removes dust from the filter screen, the air deflector is closed; after the cleaning mechanism cleans the filter screen, the cross-flow motor drives the cross-flow fan blades to move so that dust leaves the air conditioner from the dust outlet.

The technical effect after the technical scheme is adopted is that the air deflector is used for opening or closing the air outlet of the air conditioner, and the top of the air conditioner is provided with an ash outlet and used for discharging ash; the air deflector is opened under the normal working state of the air conditioner, and the air deflector is closed when the air conditioner cleans the filter screen, so that the cleaning mechanism can clean the filter screen, and after the cleaning is finished, the through-flow motor can drive the through-flow fan blades to move, so that dust leaves the air conditioner from the dust outlet.

In this embodiment, the through-flow motor includes a forward rotation output state and a reverse rotation output state, and the through-flow motor alternately drives the transmission mechanism through the forward rotation output state and the reverse rotation output state to make the dust removing brush reciprocate on the filter screen.

The technical effect after the technical scheme is adopted is that the forward output and the reverse output of the through-flow motor are adopted to realize that the through-flow motor is in a forward rotation output state and a reverse rotation output state, and the reciprocating motion of the dust removing brush on the filter screen is realized through the forward output and the reverse output of the through-flow motor.

In this embodiment, the transmission mechanism further includes: a guide that restricts the drive rack from moving only in the filter screen arrangement direction.

The technical effect who adopts behind this technical scheme does, through the setting of guide with the restriction transmission rack only can arrange the direction along the filter screen and remove to make the dust removal brush also only can arrange the direction along the filter screen and remove, guaranteed that the dust removal brush can clear up the filter screen surface.

Drawings

Fig. 1 is a schematic view of the overall structure of a self-dedusting air conditioner of the present invention;

fig. 2 is a schematic view of the left side view of the self-cleaning air conditioner and the structure of the transmission gear in the engaged position;

fig. 3 is a schematic view of a top view of the self-cleaning air conditioner and the structure of the transmission gear in the off position state.

Description of reference numerals: 1. a filter screen; 2. a transmission mechanism; 3. a dust removal brush; 4. a clutch device; 5. a fan gear; 6. a drive rack; 7. a transmission gear; 8. a drive source; 9. a chute.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

The filter screen is the filter screen on the air conditioner indoor set, and the ash deposit has had more can influence the air quality in refrigeration effect and room on the filter screen, and current need manual dismantlement filter screen to wash, and is more difficult to the user that the manual ability is poor.

A self-dusting air conditioner, as shown in fig. 1 to 3, includes: a filter screen 1; the output shaft of the cross-flow motor is connected with a cross-flow fan blade; the cleaning mechanism is used for cleaning the filter screen 1; the clutch device 4 is used for connecting or disconnecting the transmission between the through-flow motor and the cleaning mechanism; when the clutch device 4 is locked, the through-flow motor drives the cleaning mechanism to remove dust from the filter screen 1; when the clutch device 4 is disengaged, the cross-flow motor drives the cross-flow fan blades to blow out dust to the outside of the air conditioner.

The cross-flow motor (not shown in the figure) is arranged in the air conditioner and comprises a cross-flow fan blade connected with an output shaft of the cross-flow motor, wherein the cross-flow fan blade drives partial indoor air to flow under the driving of the motor, and a certain air circulation vehicle is generated for the air conditioner, so that the heat exchange between the indoor air and a heat exchanger of an indoor unit of the air conditioner is realized by the air flowing circularly.

The cleaning mechanism can clean the filter screen 1, and the dust on the filter screen 1 is cleaned under the action of the cleaning mechanism.

In the prior art, the cleaning mechanism needs to be driven by one driving source 8, and the driving source 8 for discharging dust out of the air conditioner needs to be driven by a through-flow motor. In order to save cost, the cleaning mechanism is driven by a through-flow motor. The transmission between the through-flow motor and the cleaning mechanism is realized through the clutch device 4. Namely, the clutch device 4 acts as a switch for connecting the through-flow motor and the cleaning mechanism, and when the clutch device 4 is locked (i.e., when the through-flow motor is connected with the cleaning mechanism), the through-flow motor drives the cleaning mechanism to remove dust from the filter screen 1. When the clutch device 4 is disengaged, the cross-flow motor drives the cross-flow fan blades to blow out dust to the outside of the air conditioner. The purpose that the through-flow motor can drive the cleaning mechanism to clean the filter screen 1 and can drive the through-flow fan blades to blow out dust to the outside of the air conditioner is achieved.

Preferably, the through-flow motor comprises a first operating state and a second operating state; when the clutch device 4 is locked, the through-flow motor is in a first working state; when the clutch device 4 is disengaged, the through-flow motor is in a second working state; the rotating speed of the through-flow motor in the first working state is lower than that of the through-flow motor in the second working state.

The through-flow motor is divided into two working states, wherein the working state with relatively low rotating speed corresponds to the first working state, and the working state with relatively high rotating speed corresponds to the second working state. When the clutch device 4 is locked, the cross-flow motor is in a first working state, the rotating speed is low, and at the moment, the force generated by the cross-flow fan blade under the slow rotation of the cross-flow motor can not blow out the dust in the air conditioner to the outside of the air conditioner. At this moment, the through-flow motor drives the cleaning mechanism to move through the clutch device 4, so that the cleaning mechanism removes dust from the filter screen 1, and after the cleaning mechanism removes dust from the filter screen 1, the dust is in the air conditioner and needs to be brought out of the air conditioner, so that the filter screen 1 is cleaned. At the moment, the through-flow motor is in a second working state, the second working state is a working state with a higher rotating speed, the clutch device 4 is disengaged, and the through-flow motor drives the through-flow fan blades to rotate at a high speed, so that dust in the air conditioner is blown out of the air conditioner, and the filter screen 1 is effectively cleaned.

The sweeping mechanism comprises: the dust removing brush 3 is used for removing dust from the filter screen 1; and the transmission mechanism 2 is connected between the through-flow motor and the dust removing brush 3, wherein the dust removing brush 3 reciprocates on the filter screen 1 under the action of the through-flow motor through the transmission mechanism 2 to remove dust on the filter screen 1.

The dust removing brush 3 is provided with a brush along the circumferential direction of the dust removing brush 3, and the length of the dust removing brush 3 can cover the width of the filter screen 1, so that dust on the filter screen 1 can be cleaned when the dust removing brush 3 moves on the filter screen 1. The transmission mechanism 2 is used for transmitting torque between the through-flow motor and the dust removing brush 3 so that the through-flow motor can drive the dust removing brush 3 to move, wherein the transmission mechanism 2 can be a gear and rack structure, a crank sliding mechanism and the like which can enable the dust removing brush 3 to reciprocate.

The transmission mechanism 2 includes: the fan gear 5 is coaxially connected to an output shaft of the cross-flow motor; the clutch device 4 is arranged between the fan gear 5 and the transmission rack 6; one end of the transmission rack 6 is connected with the dust removing brush 3.

The transmission mechanism 2 is preferably a fan gear 5 coaxially connected to an output shaft of the cross-flow motor, the fan gear 5 is not meshed with the transmission rack 6, the fan gear 5 and the transmission rack 6 are transmitted through a clutch device 4, namely, when the clutch device 4 is positioned between the fan gear 5 and the transmission rack 6, one end of the clutch device 4 is meshed with the fan gear 5, and the other end of the clutch device 4 is meshed with the transmission rack 6. The fan gear 5 rotates to drive the clutch device 4 to operate so as to enable the transmission rack 6 to move the dust removing brush 3, and the fan gear 5 can be driven to rotate forward and backward through the forward and backward rotation of the cross-flow motor, so that the dust removing brush 3 can be driven to reciprocate.

The clutch device 4 includes: and an output shaft of the driving source 8 is connected with a transmission gear 7, and the transmission gear 7 is used for connecting or disconnecting the transmission of the fan gear 5 and the transmission rack 6.

The clutch device 4 comprises a driving source 8, the driving source 8 is used for controlling the movement of the transmission gear 7, and the fan gear 5 and the transmission rack 6 can be connected after the driving source 8 drives the transmission gear 7 to move for a preset distance, so that the clutch device 4 is locked; and when the driving source 8 drives the transmission gear 7 to move for a preset distance, the connection between the fan gear 5 and the transmission rack 6 can be disconnected, so that the clutch device 4 is disconnected. The driving source 8 can be an air cylinder, and the driving gear 7 is driven to move back and forth by the expansion of an expansion link of the air cylinder so as to disconnect or lock the clutch device 4; alternatively, the driving source 8 may be a motor which passes through a slider-crank mechanism, wherein the transmission gear 7 serves as a slider in the slider-crank mechanism, so that the transmission gear 7 is driven to move back and forth by the crank action when the motor rotates, so as to disconnect or lock the clutch device 4.

The transmission gear 7 comprises an engagement position state and a disconnection position state; when the clutch device 4 is locked, the transmission gear 7 is in the state from the disconnecting position to the state from the engaging position; when the clutch device 4 is disengaged, the transmission gear 7 is in the state of the engagement position to the state of the disconnection position.

The transmission gear 7 is divided into two position states, when the transmission gear 7, the fan gear 5 and the rack are in the same vertical plane when the transmission gear is in the meshing position state, when the transmission gear is in the disconnection position state, the fan gear 5 and the transmission rack 6 are in the same vertical plane, and the transmission gear 7, the fan gear 5 and the transmission rack 6 are in different vertical planes.

The clutch device 4 further includes: the sliding groove 9 is arranged along the direction perpendicular to the arrangement direction of the transmission rack 6; the driving source 8 operates in a forward direction to drive the transmission gear 7 to slide in a forward direction along the sliding chute 9 so as to lock the clutch device 4; the driving source 8 operates reversely to drive the transmission gear 7 to slide reversely along the sliding groove 9 so as to disengage the clutch device 4.

The arrangement direction of the sliding grooves 9 is perpendicular to the arrangement direction of the transmission rack 6, so that the transmission gear 7 can stably enter the meshing position or exit the meshing position to lock or release the clutch device 4.

The air conditioner also comprises: an air guide plate (not shown) for opening or closing an outlet of the air conditioner; the ash outlet is arranged at the top of the air conditioner; when the cleaning mechanism removes dust from the filter screen 1, the air deflector is closed; after the cleaning mechanism cleans the filter screen 1, the cross-flow motor drives the cross-flow fan blades to move so that dust leaves the air conditioner from the dust outlet.

The air deflector is used for opening or closing an air outlet of the air conditioner, and the top of the air conditioner is provided with an ash outlet and used for discharging ash; the air deflector is opened under the normal working condition of the air conditioner, and the air deflector is closed when the air conditioner cleans the filter screen 1, so that the cleaning mechanism can clean the filter screen 1, and after cleaning, the through-flow motor can drive the through-flow fan blades to move to enable dust to leave the air conditioner from the dust outlet.

The through-flow motor comprises a forward rotation output state and a reverse rotation output state, and the through-flow motor alternately drives the transmission mechanism 2 through the forward rotation output state and the reverse rotation output state so as to enable the dust removing brush 3 to reciprocate on the filter screen 1.

The positive output and the reverse output of the through-flow motor are adopted to realize that the through-flow motor is in a positive rotation output state and a reverse rotation output state, and the reciprocating motion of the dust removing brush 3 on the filter screen 1 is realized through the positive output and the reverse output of the through-flow motor.

The transmission mechanism 2 further includes: a guide (not shown in the figures) which limits the movement of the transmission rack 6 only in the direction of arrangement of the filter sieve 1.

The setting through the guide is with restriction transmission rack 6 only can arrange the direction removal along filter screen 1 to make dust removal brush 3 also only can arrange the direction removal along filter screen 1, guaranteed that dust removal brush 3 can clear up filter screen 1 surface.

Wherein, the utility model discloses a concrete operating procedure as follows: the utility model discloses a fan control device, including user control end APP, user control end APP has increased a button or the function of dust removal shutdown, when the user selects the dust removal shutdown, the aviation baffle can be closed earlier to the air conditioner internal unit, the synchronous stall of cross-flow fan blade simultaneously, then drive gear 7 is controlled by driving source 8 and is got into to the meshing position state by the disconnection position state, driving source 8 can be the cylinder, also can drive the slider-crank structure for the motor, can set up the distance that drive gear 7 will remove in advance, stop driving source 8 work after drive gear 7 has removed appointed distance, so that drive gear 7 is by disconnection position state to the meshing position state. At the moment, the through-flow motor is in a first working state and is in a state of slow forward rotation to drive the dust removal brush 3 to remove dust in the forward direction, and the running distance of the dust removal brush 3 is fixed and is the length of the filter screen 1 in the length direction, so that the number of turns of the through-flow motor can be preset by a program, and the dust removal brush 3 just runs from one end of the filter screen 1 to the other end of the filter screen 1 after the motor rotates for a few turns. After the through-flow motor finishes cleaning the filter screen 1 by adopting the slow forward rotation dust removing brush 3, the through-flow motor finishes cleaning the filter screen 1 by adopting the slow reverse rotation dust removing brush 3 to move to the original position, so that the dust on the filter screen 1 is cleaned by the dust removing brush 3 in one period. And when the cleaning of 3 periods is finished, the dust removal is automatically finished. Then the driving source 8 drives the transmission gear 7 to be in a state from the meshing position to the disconnection position, then the cross flow motor moves in a second working state, the air deflector is closed at the moment, air is blown out from the top of the air conditioner indoor unit after running in the air conditioner indoor unit, and therefore dust is also brought out of the air conditioner indoor unit. And then the cross flow motor stops after running for about 30S, and the internal unit of the air conditioner is turned off. The whole dust removal process is short in time, does not have a high-power operation process, and is low in use cost for customers, so that the dust removal device can be used frequently to clean dust deposited on the filter screen 1. The refrigeration effect can be prevented from being influenced by more dust accumulation caused by long-term non-cleaning. As long as a certain dust removal frequency is kept, even if dust is directly blown out of the air conditioner body, the influence on indoor air is not great, and in addition, the influence of the dust can be reduced to the minimum by opening the door and window for ventilation.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected by one skilled in the art without departing from the spirit and scope of the invention, as defined in the appended claims.

Claims (10)

1. The utility model provides a from dust removal air conditioner which characterized in that: the method comprises the following steps:

a filter screen (1);

the output shaft of the cross-flow motor is connected with a cross-flow fan blade;

the cleaning mechanism is used for cleaning the filter screen (1);

the clutch device (4) is used for connecting or disconnecting the transmission between the cross-flow motor and the cleaning mechanism;

when the clutch device (4) is locked, the through-flow motor drives the cleaning mechanism to remove dust from the filter screen (1); when the clutch device (4) is disengaged, the cross-flow motor drives the cross-flow fan blades to blow out dust to the outside of the air conditioner.

2. The self-dusting air conditioner of claim 1, wherein the through-flow motor comprises a first operating state and a second operating state; when the clutch device (4) is locked, the through-flow motor is in a first working state; when the clutch device (4) is disengaged, the through-flow motor is in a second working state;

wherein the rotating speed of the through-flow motor in the first working state is less than that of the through-flow motor in the second working state.

3. The self-dusting air conditioner of claim 1, wherein the sweeping mechanism comprises:

the dust removal brush (3) is used for removing dust from the filter screen (1);

the transmission mechanism (2) is connected between the through-flow motor and the dust removing brush (3),

the dust removing brush (3) reciprocates on the filter screen (1) under the action of the through-flow motor through the transmission mechanism (2) to remove dust on the filter screen (1).

4. The self-dusting air conditioner according to claim 3, characterized in that the transmission mechanism (2) comprises:

the fan gear (5) is coaxially connected to the output shaft of the cross-flow motor;

the clutch device (4) is arranged between the fan gear (5) and the transmission rack (6); one end of the transmission rack (6) is connected with the dust removing brush (3).

5. The self-dusting air conditioner according to claim 4, characterized in that the clutch device (4) comprises:

the fan driving device comprises a driving source (8), wherein an output shaft of the driving source (8) is connected with a transmission gear (7), and the transmission gear (7) is used for connecting or disconnecting the fan gear (5) and the transmission rack (6).

6. The self-dusting air conditioner of claim 5,

the transmission gear (7) comprises a meshing position state and a disconnecting position state;

when the clutch device (4) is locked, the transmission gear (7) is in the state from the disconnecting position to the engaging position; when the clutch device (4) is disengaged, the transmission gear (7) is in the state of an engagement position to the state of a disconnection position.

7. The self-dusting air conditioner according to claim 6, characterized in that the clutch device (4) further comprises:

the sliding groove (9) is arranged along the direction perpendicular to the arrangement direction of the transmission rack (6);

the driving source (8) operates in the positive direction to drive the transmission gear (7) to slide in the positive direction along the sliding groove (9) so as to lock the clutch device (4); the driving source (8) operates reversely to drive the transmission gear (7) to slide reversely along the sliding groove (9) so as to enable the clutch device (4) to be disengaged.

8. The self-dusting air conditioner as claimed in claim 6, further comprising:

the air deflector is used for opening or closing an air outlet of the air conditioner;

the ash outlet is arranged at the top of the air conditioner;

when the cleaning mechanism removes dust from the filter screen (1), the air deflector is closed; after the cleaning mechanism cleans the filter screen (1), the cross-flow motor drives the cross-flow fan blades to move so that dust leaves the air conditioner from the dust outlet.

9. The self-dedusting air conditioner according to claim 4, characterized in that the through-flow motor comprises a forward rotation output state and a reverse rotation output state, and the through-flow motor alternately drives the transmission mechanism (2) through the forward rotation output state and the reverse rotation output state so as to enable the dedusting brush (3) to reciprocate on the filter screen (1).

10. The self-dusting air conditioner according to claim 4, characterized in that the transmission mechanism (2) further comprises:

a guide member which restricts the movement of the transmission rack (6) only in the arrangement direction of the filter screen (1).

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