CN111570404B - An automatic cleaning device and an air conditioner - Google Patents

Abstract

The invention provides an automatic cleaning device, which is applied to an air duct and a wind wheel of a wall-mounted air conditioner, comprising: a long brush (130) arranged in the air duct (110) along the width direction of the air duct (110); Two transmission mechanisms (140), respectively provided on the two side walls (111) of the air duct (110), are respectively connected with both ends of the brush (130) for driving the brush (130) along the air duct (110) ) to slide back and forth in the radian direction to sweep off the dust on the air duct (110) and the wind wheel (120) of the air conditioner; The automatic cleaning device can realize automatic cleaning of the air duct and the wind wheel, which is convenient and quick.

Description

Automatic cleaning device and air conditioner

Technical Field

The invention relates to the technical field of air conditioners, in particular to an automatic cleaning device and an air conditioner.

Background

After the air conditioner is used for a long time, dust is accumulated on the surfaces of the air duct and the air wheel. On one hand, the dust causes bacteria to be easily bred in the air duct and the wind wheel, the indoor air quality is affected, and the health of a user is damaged; on the other hand, the dust can increase the wind resistance and reduce the working efficiency of the air conditioner. The air conditioner is difficult to operate when being disassembled and washed by a common user, and the air conditioner component can be damaged, so that the air conditioner is very inconvenient.

Disclosure of Invention

The present invention is directed to an automatic cleaning device and an air conditioner, which at least partially solve the above problems.

In order to solve the above problems, an aspect of the present invention provides an automatic cleaning device for a wall-mounted air conditioner, including: a brush; the two transmission mechanisms are respectively arranged on two side walls of the air duct, are respectively connected with two ends of the hairbrush and are used for driving the hairbrush to slide back and forth along the air duct so as to sweep dust on the air duct and the wind wheel of the air conditioner; the dust absorption baffle is arranged at the air outlet end of the air duct.

From this, the brush can follow drive mechanism and upwards slide along the wind channel, sweeps away the dust in the wind channel, and when removing the wind channel top, the wind wheel was touched in the brush, starts the wind wheel, and the dust on the wind wheel can be swept down to the brush, and when the brush slided down, will follow the wind wheel and wind channel dust of sweeping down and take the air-out end in wind channel, dust absorption baffle is with the dust absorption.

Optionally, the automatic cleaning device further comprises: the purification module is arranged outside the air duct and is communicated with the dust absorption baffle through a pipeline; the fresh air module is arranged outside the air channel and communicated with the purification module.

From this, the purification module filters the air that has the dust that the dust absorption baffle inhaled, inputs the new trend module with the air after filtering, and the new trend module releases clean air into indoor again.

Optionally, the automatic cleaning device further comprises: the first groove is arranged at the air outlet end of the air duct along the width direction of the air duct; the two second grooves are oppositely arranged on the two side walls of the air duct along the radian direction of the air duct and are respectively communicated with the two ends of the first groove; and each transmission cover is used for closing the bottom of one second groove and the port at one end of the first groove.

Therefore, the first groove can be used for storing the hairbrush, and the second groove can be used as a channel for the hairbrush to slide along the radian direction of the air duct.

Optionally, the length of the first groove is the same as the width of the air duct.

Therefore, the first groove can store the brush.

Optionally, the length of the second groove is the same as the length of the air duct.

Thus, the brush can be moved to any position in the wind tunnel.

Optionally, the two transmission mechanisms are respectively arranged in one second groove and one end of the first groove correspondingly connected with the second groove.

Therefore, the brush can freely move in the first groove and the air duct through the transmission mechanism.

Optionally, the dust suction baffle is disposed above the first groove, a suction hole is disposed on a side facing the first groove, and the dust suction baffle closes the first groove in a non-cleaning mode.

Therefore, in a non-cleaning mode, the first groove does not influence air outlet of the air duct, and dust cannot be accumulated in the first groove.

Optionally, the length of the brush is the same as the length of the air duct.

Thus, the brush can clean all surfaces in the length direction of the air duct.

Optionally, the transmission mechanism comprises: more than one wheel axle is positioned in the second groove corresponding to the transmission cover and one end of the first groove communicated with the second groove and is arranged on the transmission cover corresponding to the second groove, and each wheel axle is connected with one motor; the transmission belt is arranged in the second groove and one end of the first groove communicated with the second groove through more than one wheel axle; the brush bolt is arranged on the transmission belt and is used for inserting one end of the brush.

Therefore, the hairbrush can be driven to move out of the first groove through the movement of the transmission belt and slide in the air duct along the radian direction of the air duct.

In another aspect, the present invention provides an air conditioner, which includes the above automatic cleaning device.

The air conditioner has the same advantages as the automatic cleaning device, and the detailed description is omitted.

Drawings

FIG. 1 schematically illustrates a side view of an automated cleaning apparatus provided in accordance with an embodiment of the present invention;

fig. 2 schematically illustrates a schematic diagram of an air conditioner on-hook including an automatic cleaning device according to an embodiment of the present invention;

FIG. 3 schematically illustrates a close-up view of FIG. 2 provided by an embodiment of the present invention;

fig. 4 schematically illustrates another on-hook air conditioner including an automatic cleaning device according to an embodiment of the present invention;

FIG. 5 schematically illustrates a close-up view of FIG. 4 provided by an embodiment of the present invention;

FIG. 6 is a schematic diagram illustrating a transmission mechanism of an automatic cleaning device provided by an embodiment of the present invention;

fig. 7 schematically illustrates another air conditioner on-hook according to an embodiment of the present invention.

Description of the drawings:

110-an air duct, 111-an air duct side wall, 120-a wind wheel, 130-a brush, 140-a transmission mechanism, 141-a wheel shaft, 142-a transmission belt, 143-a brush bolt, 150-a dust absorption baffle, 151-a pipeline, 160-a first groove, 170-a second groove, 180-a transmission cover, 190-a fresh air module and 200-a purification module.

Detailed Description

In order to make the purpose, features and advantages of the present invention more obvious and understandable, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 schematically shows a structure diagram of an automatic cleaning device according to an embodiment of the present invention, in which a wall-mounted air conditioner is used as an application scenario, and referring to fig. 1, the automatic cleaning device according to the embodiment is described in detail below with reference to fig. 2 to 7.

Referring to fig. 1, the present invention provides an automatic cleaning apparatus including: a brush 130; two transmission mechanisms 140, each of which is disposed on two side walls 111 of the air duct 110, and is connected to two ends of the brush 130, respectively, for driving the brush 130 to slide back and forth along the arc direction of the air duct 110, so as to sweep down dust on the air duct 110 and the wind wheel 120 of the air conditioner; and a dust suction baffle 150 disposed at the air outlet end of the air duct 110 for sucking dust. The device has simple structure and high working efficiency, and can realize the automatic cleaning of the air duct 110 and the wind wheel 120.

Referring to fig. 2, in the present embodiment, the automatic cleaning apparatus further includes: the first groove 160 is arranged at the air outlet end of the air duct 110 along the width direction of the air duct 110; the two second grooves 170 are oppositely arranged on the two side walls 111 of the air duct 110 along the radian direction of the air duct 110 and are respectively communicated with the two ends of the first groove 160; two drive caps 180, each drive cap 180 closing the bottom of one second recess 170 and the port at one end of the first recess 160. The radian of the second groove 170 is the same as that of the air duct 110, the notch faces the air duct 110, and one side wall of the second groove 170 is on the same arc surface as the air duct 110 and is used for storing the transmission mechanism 140. The two ends of the brush 130 are connected to the two transmission mechanisms 140, so that the brush 130 is disposed along the width direction of the air duct 110 and can move along the arc direction of the air duct 110 along with the transmission mechanisms 140. The first groove 160 is disposed at the air outlet end of the air duct 110, has the same length as the width of the air duct 110, and can be used for storing the brush 130 when the air duct 110 is not cleaned. In fig. 2, only the right sidewall 111 of the air outlet duct 110 is labeled, the left side of the air outlet duct 110 is the left sidewall corresponding to the right sidewall, the left sidewall is the same as the right sidewall 111, both are provided with the second groove 170, and the transmission cover 180 corresponding to the second groove 170 is shown in the figure.

In this embodiment, the length of the first groove 160 is the same as the width of the air duct 110, so that the length of the first groove 160 is greater than or equal to the length of the brush 130 for accommodating the brush 130. Because the second groove 170 is formed on the side wall 111 of the air duct 110, and the side wall of the second groove 170 is located outside the side wall of the air duct 110, two ends of the first groove 160 slightly extend out of two ends of the air duct 110 and are respectively communicated with the second groove 170.

Referring to fig. 4, in the present embodiment, the length of the second recess 170 is the same as the length of the air duct 110, and the two transmission mechanisms 140 are respectively disposed in one second recess 170 and one end of the first recess 160 correspondingly connected to the second recess 170. The transmission mechanism is accommodated in the second groove 170, does not occupy the space of the air duct 110, and does not affect the air flow of the air duct 110. The radian of the second groove 170 is the same as that of the air duct 110, and the transmission mechanism is arranged in the second groove 170 and can move along the radian direction of the air duct 110 to drive the brush 130 to slide back and forth along the radian of the air duct 110, so as to clean the air duct 110.

Referring to fig. 5 and 6, the transmission mechanism 140 includes: more than one wheel axle 141, which is arranged in the second groove 170 corresponding to the transmission cover 180 and one end of the first groove 160 communicated with the second groove 170, and is arranged on the air duct 110 corresponding to the second groove 170, and each wheel axle is connected with a motor; the transmission belt 142 is arranged in the second groove 170 and one end of the first groove 160 communicated with the second groove 170 through more than one wheel axle 141, and the transmission belt 142 is L-shaped; and a brush pin 143, provided on the belt 142, for inserting one end of the brush 130. Each wheel axle is controlled by a motor and can rotate in the forward direction or the reverse direction, so that the transmission belt 142 sleeved on the wheel axle 141 is driven to move. The brush pin 143 is fixed to the belt 142, and may be disposed inside or outside an annular shape defined by the belt 142 as shown in the figure, and the brush pin 143 may move in a channel formed by the first groove 160 and the second groove 170 along with the forward movement and the reverse movement of the belt 142.

It will be appreciated that the drive mechanism 140 is not limited to the use of belts 142, axles 141, and latches 143.

Referring to fig. 2 and 6, in the present embodiment, the brush 130 is in a long strip shape, the length of the brush 130 is the same as the width of the air duct 110, and the brush 130 is disposed parallel to the width direction of the air duct 110, so that the brush 130 can move along the length direction of the air duct 110 to clean all corners of the air duct 110. Both ends of the brush 130 are respectively connected to the driving mechanisms 140 at both sides of the air duct 110, as shown in fig. 6, and both ends of the brush 130 are inserted into brush pins 143 of the conveying mechanism. When the air duct 110 is not cleaned, the brush 130 is stored in the first groove 160, when the air duct 110 is cleaned, the driving belt 142 rotates forward, so that the brush 130 moves upward along with the L-shaped driving belt 142, moves out of the first groove 160, moves upward along the arc direction of the air duct 110, and when the brush 130 moves to the other end of the driving belt 142, the driving belt 142 rotates reversely, so that the brush 130 moves back, and can return to the first groove 160 again.

Alternatively, gears may be disposed at two ends of the brush 130, and gear teeth are correspondingly disposed on two sidewalls of the two second grooves 170 or two ends of the air duct 110, and the gear teeth are arranged along the arc direction of the air duct 110, so that when the brush 130 slides in the air duct to the transmission mechanism 140, the gear teeth at two ends of the brush 130 are engaged with the gear teeth at two sides of the air duct 110 in sequence, so that the brush 130 rolls relative to the air duct 110, and the cleaning strength is enhanced.

In this embodiment, when the brush 130 moves to the top of the air duct 110 along the length direction of the air duct 110 and contacts the wind wheel 120, the brush 130 stops moving; starting the wind wheel 120 to rotate the wind wheel 120 at a low speed, so that the brush 130 cleans dust on the wind wheel 120; after the preset time is reached, the wind wheel 120 stops running, so that the brush 130 moves reversely, and the wind wheel 120 is cleaned once. The dust swept by the wind wheel 120 is scattered in the wind channel 110 and the air, the dust scattered in the wind channel 110 is swept by the brush 130 to the wind outlet end of the wind channel 110 and then is sucked by the dust suction baffle 150, and the dust in the air is sucked into the dust suction baffle 150 along with the airflow sucked by the dust suction baffle 150.

Optionally, a sensor may be disposed in the second recess 170 or the air duct 110 for sensing the moving position of the brush latch 143 or the brush 130 to control the rotating direction of the belt 142.

Referring to fig. 1 and 4, in the present embodiment, the dust suction baffle 150 is disposed above the first groove 160, and a suction hole is disposed at a side of the dust suction baffle 150 facing the first groove 160, and in the non-cleaning mode, the dust suction baffle 150 closes the first groove 160. The length and width of the dust suction baffle 150 may be the same as the first groove 160 or slightly larger than the first groove 160, so that when the dust suction baffle 150 is covered on the first groove 160, dust can be prevented from accumulating in the groove. The suction guard 150 may be movably mounted on the first groove 160 or the air conditioner sidewall 111. The dust suction baffle 150 is connected to a motor, and the first groove 160 is closed or opened by the motor control. Therefore, in the non-cleaning mode, the dust suction baffle 150 closes the first groove 160, and the first groove 160 does not affect the air outlet of the air duct 110 and dust does not accumulate in the first groove 160. The interior of the dust suction baffle 150 is a cavity communicated with the purification module 200. Referring to fig. 3, the pipeline 151 is shown as the pipeline 151 for communicating the dust suction baffle 150 and the purification module 200, and the pipeline 151 may be one or more.

In this embodiment, the automatic air conditioner cleaning device further comprises a fresh air module 190 and a purification module 200. The purification module 200 is arranged outside the air duct 110 and communicated with the dust absorption baffle 150 through a pipeline 151; the fresh air module 190 is disposed outside the air duct 110 and is communicated with the purification module 200. In the cleaning mode, the fresh air module 190 draws air out of the suction cup 140 through the purification module 200 and the pipeline 151, so that negative pressure is generated in the suction cup 140, dust in the air duct 110 is sucked by the negative pressure, the air with dust is filtered by the purification module 200 and then enters the fresh air module 190, and the fresh air module 190 releases clean air into a room. The dust is deposited in the filter basket of the purification module 200, which can be removed by the user for cleaning. Compared with the direct cleaning air duct 110, the filter barrel is easier to disassemble and more convenient to clean.

The invention also provides an air conditioner which comprises the automatic cleaning device. The automatic cleaning device is installed in the air duct 110 of the air conditioner and is used for removing dust on the air duct 110 and the wind wheel 120.

This air conditioner is through using this wind channel self-cleaning device, the automatic dust on clearance wind channel 110 and the wind wheel 120 to pass through purifier with the dust and collect, reduced the washing degree of difficulty of wind channel 110, avoided the people to dismantle the air conditioner and wash wind channel 110, in order to avoid damaging electronic components and air conditioner subassembly, influence the air conditioner normal operating.

Yet another embodiment of the present invention also provides a method of cleaning a wall-mounted air conditioning duct and wind wheel 120, which may include operations S101-S106.

S101, starting a self-cleaning mode.

When the self-cleaning mode is started, the dust collection baffle 150 is opened under the action of the motor to expose the first groove 160, and meanwhile, the fresh air module 190 is started to generate negative pressure in the dust collection baffle 150, so that the dust collection baffle 150 starts to collect dust.

And S103, driving the transmission mechanism 140 to rotate positively.

The driving mechanism 140 first moves the brush 130 out of the first groove 160, so that the two ends of the brush 130 enter the second groove 170, and drives the brush 130 to slide upwards along the air duct 110, thereby cleaning the air duct 110.

S104, when the brush 130 reaches the top end of the air duct 110, the transmission mechanism 140 stops rotating forward.

When the brush 130 reaches the top end of the wind channel 110 and stops, the wind wheel 120 is started, so that the wind wheel 120 rotates at a low speed, and the brush 130 cleans the wind wheel 120.

S105, after the preset time is reached, the transmission mechanism 140 stops rotating reversely, so that the brush 130 moves toward the air outlet end of the air duct 110.

And repeating S103-S105 to enable the brush 130 to repeatedly clean the air duct 110 and the wind wheel 120.

And S106, closing the self-cleaning mode.

After the air duct self-cleaning mode is turned off, the transmission mechanism 140 transmits the brush 130 back to the first groove 160, the fresh air module 190 is turned off, the dust suction baffle 150 stops sucking dust, and the fresh air module is driven by the motor to be turned off to close the first groove 160.

In the above process, the dust sucked by the dust suction baffle 150 is filtered by the purification module 200, deposited in the filter barrel of the purification module 200, and the filtered air is released into the room again through the fresh air module 190.

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

Claims (9)

1. The utility model provides an automatic cleaning device, is applied to wind channel and the wind wheel of wall-hanging air conditioner, its characterized in that includes:

the strip-shaped brush (130) is arranged in the air duct (110) along the width direction of the air duct (110);

the two transmission mechanisms (140) are respectively arranged on two side walls (111) of the air duct (110), are respectively connected with two ends of the hairbrush (130), and are used for driving the hairbrush (130) to slide back and forth along the radian direction of the air duct (110) so as to sweep dust on the air duct (110) and the wind wheel (120) of the air conditioner;

the first groove (160) is arranged at the air outlet end of the air duct (110) along the width direction of the air duct (110), and the strip-shaped brush (130) is arranged in the first groove (160) in a non-cleaning mode; dust absorption baffle (150), locate the air-out end in wind channel (110), and locate first recess (160) top, orientation one side of first recess (160) is equipped with inhales the hole, under non-clean mode, dust absorption baffle (150) will first recess (160) seal, under clean mode, dust absorption baffle (150) are opened, make rectangular shape brush (130) are followed shift out in first recess (160) and follow the radian direction round trip sliding in wind channel (110), absorb the dust that rectangular shape brush (130) cleaned simultaneously.

2. The automated cleaning apparatus of claim 1, further comprising:

the purification module (200) is arranged outside the air duct (110) and is communicated with the dust absorption baffle (150) through a pipeline (151);

the fresh air module (190) is arranged on the outer side of the air duct (110) and communicated with the purification module (200).

3. The automatic cleaning device according to claim 1 or 2, characterized in that the automatic cleaning device further comprises:

the two second grooves (170) are oppositely arranged on the two side walls (111) of the air duct (110) along the radian direction of the air duct (110) and are respectively communicated with the two ends of the first groove (160);

two transmission covers (180), each transmission cover (180) closing a port at the bottom of one second groove (170) and one end of the first groove (160).

4. The automatic cleaning device according to claim 1, wherein the length of the first groove (160) is the same as the width of the air duct (110).

5. The automatic cleaning device according to claim 3, wherein the length of the second groove (170) is the same as the length of the air duct (110).

6. An automatic cleaning device according to claim 3, characterized in that the two transmission mechanisms (140) are each arranged in one of the second recesses (170) and in one end of the first recess (160) in corresponding connection with the second recess (170).

7. The automatic cleaning device according to claim 1, wherein the brush (130) has a length equal to a width of the air duct (110).

8. The automatic cleaning device according to claim 6, characterized in that the transmission mechanism (140) comprises:

more than one wheel axle (141) which is arranged in the second groove (170) and one end of the first groove (160) communicated with the second groove (170) and is arranged on the transmission cover (180) corresponding to the second groove (170), and each wheel axle is connected with a motor;

a drive belt (142) disposed in the second groove (170) and in an end of the first groove (160) in communication with the second groove (170) through the one or more axles (141);

and the brush plug pin (143) is arranged on the transmission belt (142) and is used for inserting one end of the brush (130).

9. An air conditioner characterized in that it comprises an automatic cleaning apparatus according to any one of claims 1 to 8.

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