CN114147012B

CN114147012B - Automatic cleaning equipment for improving machining and cleaning efficiency of air suction pipe of air conditioner compressor

Info

Publication number: CN114147012B
Application number: CN202111226070.5A
Authority: CN
Inventors: 宣曙; 季海镛
Original assignee: Wuhu Younit Precision Manufacturing Co ltd
Current assignee: Wuhu Younit Precision Manufacturing Co ltd
Priority date: 2021-10-21
Filing date: 2021-10-21
Publication date: 2022-10-04
Anticipated expiration: 2041-10-21
Also published as: CN114147012A

Abstract

The invention provides automatic cleaning equipment for improving the processing and cleaning efficiency of an air suction pipe of an air conditioner compressor, which comprises a cleaning tank, wherein one end of the outer surface of the cleaning tank is provided with a feeding device, the other end of the outer surface of the cleaning tank is provided with a drying device, and a cleaning device is arranged in the cleaning tank; the cleaning device comprises a partition plate fixed on the inner wall of the cleaning tank, a rotary assembly penetrating through the partition plate shell and arranged on the bottom end of the partition plate, and a feeding assembly, a discharging assembly and a feeding assembly which are arranged on the top end of the partition plate in sequence, wherein the feeding assembly and the discharging assembly are the same in structure, and the discharging assembly and the feeding assembly are symmetrically arranged by taking the rotary assembly as a central shaft. The invention can continuously clean a plurality of exhaust pipes and clean the inside and the outside of the exhaust pipes, thereby improving the cleaning effect.

Description

Automatic cleaning equipment for improving machining and cleaning efficiency of air suction pipe of air conditioner compressor

Technical Field

The invention mainly relates to the technical field of air condition compressors, in particular to automatic cleaning equipment for improving the processing and cleaning efficiency of an air suction pipe of an air condition compressor.

Background

The air conditioner is a device for adjusting and controlling parameters such as temperature, humidity and flow rate of ambient air in a building, and the air suction pipe of the air conditioner compressor is usually required to be cleaned in the preparation process.

According to the automobile air conditioner compressor cleaning machine provided by the patent document with the application number of CN201220271373.9, the product comprises a cleaning device, wherein ultrasonic generators are arranged outside the four side walls of the cleaning device, a net basket is arranged inside the cleaning device, and a lifting door is arranged on the operation side of the cleaning device; a group of opposite outer edges of the cleaner are provided with slide bars, a group of opposite edges of the net basket are provided with extending edges which extend outwards in parallel, extending buttons are arranged on the extending edges, the slide bars penetrate through the extending buttons, and the net basket can move up and down on the slide bars through the extending buttons; the basket edge of the basket facing the operation side is shorter than the other three edges. This cleaning equipment is when abluent, adds the washing liquid in the purger, and the compressor soaks completely in the washing liquid, has ultrasonic wave under water simultaneously, improves the cleaning power, and the compressor washs comprehensively.

The compressor cleaning equipment can improve the cleaning capacity through the cleaning liquid and underwater ultrasonic waves, but the soaking type cleaning adopted by the traditional cleaning equipment is single in cleaning means and cannot deeply clean the tubular compressor air suction pipe, so that the cleaning effect of the air suction pipe is influenced.

Disclosure of Invention

The invention mainly provides automatic cleaning equipment for improving the processing and cleaning efficiency of an air suction pipe of an air conditioner compressor, which is used for solving the technical problems in the background technology.

The technical scheme adopted by the invention for solving the technical problems is as follows:

an automatic cleaning device for improving the processing and cleaning efficiency of an air suction pipe of an air conditioner compressor comprises a cleaning tank, wherein a feeding device is arranged at one end of the outer surface of the cleaning tank, a drying device is arranged at the other end of the outer surface of the cleaning tank, and a cleaning device is arranged inside the cleaning tank;

the cleaning device comprises a partition plate fixed on the inner wall of the cleaning tank, a rotary component penetrating through a shell of the partition plate, a cleaning component arranged at the bottom end of the partition plate, and a feeding component, a discharging component and a feeding component which are sequentially arranged at the top end of the partition plate, wherein the feeding component and the discharging component have the same structure, and the discharging component and the feeding component are symmetrically arranged by taking the rotary component as a central shaft;

the rotary assembly comprises a rotary disc which penetrates through the shell of the partition plate and is rotatably connected with the partition plate through a rotating shaft, and a plurality of soaking cylinders for the air suction pipes to penetrate through are fixed on the surface of an inner ring of the rotary disc;

the cleaning assembly comprises an ultrasonic generator and a high-pressure water spray pipe, wherein the ultrasonic generator is arranged at the bottom of the partition plate and fixed on the inner wall of the cleaning tank, and the high-pressure water spray pipe is arranged at the other end of the cleaning tank.

Furthermore, a first through hole for the rotating disc to pass through is formed in the shell of the partition plate, second through holes which are symmetrically formed and are used for the air suction pipe to pass through are formed in the two sides of the first through hole, the second through holes are communicated with the first through hole, and when the rotating disc drives the air suction pipe to move, the air suction pipe can enter the space at the bottom end of the partition plate and pass through the second through hole to enter the space at the bottom end of the partition plate to be cleaned.

Furthermore, the discharging assembly comprises two first rotating shafts which are rotatably connected with the partition plate through bearings, and a first motor which is fixed on the lower surface of the partition plate and connected with the first rotating shafts, the two first rotating shafts are symmetrically arranged by taking the second through hole as a central axis, the outer surface of the top end of each first rotating shaft is fixedly provided with a first friction wheel, and the two first friction wheels push the air suction pipe inserted between the two first rotating shafts to move so that the air suction pipe is inserted into the soaking cylinder.

Furthermore, the feeding assembly comprises a second motor which is fixed on the upper surface of the partition plate and symmetrically arranged by taking the second through hole as a central axis, and a second friction wheel which is fixed on an output shaft of the second motor and penetrates through the outer surface of one side of the partition plate, and the air suction pipe inserted between the second motor and the second motor is pushed to move by the two second friction wheels, so that the air suction pipe is slowly sleeved on the high-pressure water spray pipe, and the high-pressure water spray pipe is cleaned from the inside of the air suction pipe.

Further, the rolling disc include through the bearing with the axis of rotation of the inner wall rotation of first through-hole connection is fixed in a plurality of support spokes of axis of rotation surface are fixed in a plurality ofly the ring gear of support spoke surface, the inner ring surface of ring gear with soak the surface fixed connection of a section of thick bamboo, when the ring gear rotates, the ring gear drives the support spoke and rotates, supports the spoke and drives the axis of rotation and rotate to make the ring gear drive the axis of rotation and rotate.

Furthermore, the rotation assembly further comprises a power mechanism connected with the driving end of the rotating disc, the power mechanism comprises a third motor fixed on the upper surface of the partition plate, an output shaft of the third motor is connected with an input shaft of a speed reducer fixed on the upper surface of the partition plate, a gear is fixed on the outer surface of the output shaft of the speed reducer, the gear is connected with the outer surface of the gear ring, the gear is driven to rotate through the output shaft of the speed reducer, and the gear ring meshed with the gear is driven to rotate through the gear.

Furthermore, the gyration subassembly still including be fixed in wash jar internal surface a plurality of bearing frames to and through the pivot with the bearing wheel of the inner wall rotation connection of bearing frame, the bearing wheel with the surface looks butt of ring gear provides the mounted position for the bearing wheel through the bearing frame, through the bearing wheel with ring gear looks butt, thereby provide the support for the ring gear.

Furthermore, feed arrangement is including being fixed in wash a feeding section of thick bamboo of jar surface, through the bearing the feeding pivot of connection is rotated to the inner wall of feeding section of thick bamboo, and be fixed in a plurality of feed plates of feeding pivot surface drive the feed plate through the feeding pivot and rotate for the breathing pipe that inserts between two feed plates can slide into the inside of washing the jar one by one with the help of gravity.

Furthermore, the feeding device further comprises a material guide plate arranged at the discharge end of the feeding cylinder and fixed on the inner surface of the cleaning tank, and a baffle plate arranged on one side of the material guide plate and fixed on the inner wall surface of the feeding cylinder, and the air suction pipe is blocked by the baffle plate so as to be accurately fallen between the two first friction wheels in the discharging assembly.

Furthermore, drying device is including being fixed in wash jar stoving case of keeping away from feed arrangement's one end surface, be fixed in the heating copper pipe of stoving incasement portion is fixed in the fan of heating copper pipe one end is kept away from to the stoving case to and alternate in on the stoving case casing, and extend to wash the inside tuber pipe of jar, utilize out the tuber pipe further to guide the inside hot-air of heating stoving case to blow to the breathing pipe after wasing.

Compared with the prior art, the invention has the beneficial effects that:

firstly, the invention can continuously clean a plurality of exhaust pipes and can clean the whole exhaust pipe, thereby improving the cleaning effect, and specifically comprises the following steps: the first friction wheel that is the rotation of carrying on the back mutually promotes to insert breathing pipe between them through two and removes, so that the breathing pipe inserts the inside of soaking a section of thick bamboo, drive through the rolling disc and soak a section of thick bamboo and carry out the revolution around the axis of rolling disc, so that empty soaking a section of thick bamboo constantly rotate to with the material loading subassembly in the clearance between two first friction wheels align, so that the material loading subassembly continues the material loading, soak a section of thick bamboo and follow the rolling disc and rotate, soak in the washing liquid of baffle bottom until the blast pipe, produce the ultrasonic wave through supersonic generator, thereby wash the whole of blast pipe.

Secondly, the invention can clean the inner wall of the exhaust pipe, thereby improving the cleaning effect, and specifically comprises the following steps: the exhaust pipe is driven to rotate through the rotating disc, so that the exhaust pipe is inserted between the two second friction wheels in the feeding assembly, the second friction wheels push the air suction pipe inserted between the two second friction wheels to move, the air suction pipe is slowly sleeved outside the high-pressure water spray pipe, and the high-pressure water spray pipe is used for cleaning the inside of the air suction pipe.

The invention will be explained in detail below with reference to the drawings and specific embodiments.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 isbase:Sub>A cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is a cross-sectional view taken along line B-B of FIG. 2;

FIG. 5 is a cross-sectional view taken along line C-C of FIG. 2;

FIG. 6 is a schematic view showing the internal structure of the washing tank of the present invention;

FIG. 7 is an exploded view of the present invention;

FIG. 8 is a schematic view showing the internal structure of the washing tank of the present invention.

In the figure: 10. cleaning the tank; 20. a feeding device; 21. a feeding cylinder; 22. a feeding rotating shaft; 23. a feeding plate; 24. a material guide plate; 25. a baffle plate; 30. a drying device; 31. drying box; 32. heating the copper pipe; 33. an air outlet pipe; 34. a fan; 40. a cleaning device; 41. a partition plate; 42. cleaning the assembly; 421. an ultrasonic generator; 422. a high-pressure water spray pipe; 43. a feeding assembly; 44. a discharge assembly; 441. a first rotating shaft; 442. a first motor; 443. a first friction wheel; 45. a feeding assembly; 451. a second motor; 452. a second friction wheel; 46. a swivel assembly; 461. rotating the disc; 4611. a rotating shaft; 4612. supporting spokes; 4613. a ring gear; 462. a soaking cylinder; 463. a power mechanism; 4631. a third motor; 4632. a speed reducer; 4633. a gear.

Detailed Description

In order that the invention may be more fully understood, reference will now be made to the accompanying drawings, which form a part hereof, and in which is shown by way of illustration, various embodiments of the invention which may be practiced in different forms and not limited to the embodiments described herein, but on the contrary, the embodiments are provided so as to provide a more thorough and complete disclosure of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the use of such term knowledge in the specification of the invention is for the purpose of describing particular embodiments and is not intended to be limiting of the invention, and the use of the term "and/or" herein includes any and all combinations of one or more of the associated listed items.

In an embodiment, referring to fig. 1 to 8, an automatic cleaning apparatus for improving processing and cleaning efficiency of an air suction pipe of an air conditioner compressor includes a cleaning tank 10, wherein a feeding device 20 is disposed at one end of an outer surface of the cleaning tank 10, a drying device 30 is disposed at the other end of the outer surface of the cleaning tank 10, and a cleaning device 40 is disposed inside the cleaning tank 10;

the cleaning device 40 comprises a partition plate 41 fixed on the inner wall of the cleaning tank 10, a rotary component 46 penetrating through the shell of the partition plate 41, a cleaning component 42 arranged at the bottom end of the partition plate 41, and a feeding component 43, a discharging component 44 and a feeding component 45 which are sequentially arranged at the top end of the partition plate 41, wherein the feeding component 43 and the discharging component 44 have the same structure, and the discharging component 44 and the feeding component 45 are symmetrically arranged by taking the rotary component 46 as a central axis;

the rotating assembly 46 includes a rotating disc 461 penetrating through the casing of the partition plate 41 and rotatably connected with the partition plate 41 through a rotating shaft, and a plurality of soaking cylinders 462 for inserting air suction pipes are fixed on the inner ring surface of the rotating disc 461;

the cleaning assembly 42 comprises an ultrasonic generator 421 which is arranged at the bottom of the partition plate 41 and fixed on the inner wall of the cleaning tank 10, and a high-pressure water spray pipe 422 which is arranged at the other end of the cleaning tank 10;

in this embodiment, the exhaust pipe is immersed in the cleaning liquid at the bottom end of the partition plate 41, and ultrasonic waves are generated by the ultrasonic generator 421, thereby cleaning the entire exhaust pipe.

Specifically, please refer to fig. 7 and 8 again, a first through hole 411 for the rotary disk 461 to pass through is formed in the casing of the partition plate 41, second through holes 412, which are symmetrically arranged and through which the air suction pipe passes, are formed on both sides of the first through hole 411, the second through hole 412 is communicated with the first through hole 411, the discharging assembly 44 includes two first rotating shafts 441 rotatably connected to the partition plate 41 through bearings, and a first motor 442 fixed to the lower surface of the partition plate 41 and connected to the first rotating shafts 441, the two first rotating shafts 441 are symmetrically arranged with the second through hole 412 as a central axis, first friction wheels 443 are fixed to the outer surfaces of the top ends of the first rotating shafts 441, the feeding assembly 45 includes a second motor 451 fixed to the upper surface of the partition plate 41 and symmetrically arranged with the second through hole 412 as a central axis, and a second friction wheel 452 fixed to the output shaft of the second motor 451 and passing through the outer surface of one side of the partition plate 41;

it should be noted that, in this embodiment, a sufficient space is provided for the rotary disk 461 through the first through hole 411 on the partition plate 41, and when the rotary disk 461 drives the air suction pipe to move through the second through hole 412 on the partition plate 41, the air suction pipe can enter and pass through the second through hole 412 and enter the space at the bottom end of the partition plate 41 for cleaning;

further, the first motor 442 drives the first rotating shaft 441 connected to the output shaft thereof to rotate, the first rotating shaft 441 drives the first friction wheels 443 on the outer surface thereof to rotate, and when the two first friction wheels 443 rotate away from each other, the two first friction wheels 443 push the air suction pipe inserted therebetween to move, so that the air suction pipe is inserted into the soaking cylinder 462;

further, the second motor 451 drives the second friction wheels 452 on the output shaft to rotate, and when the two second friction wheels 452 rotate in opposite directions, the two second friction wheels 452 push the air suction pipe inserted therebetween to move, so that the air suction pipe is slowly sleeved on the high pressure water spray pipe 422, and the high pressure water spray pipe 422 is cleaned from the inside of the air suction pipe.

Specifically, please refer to fig. 5, 6 and 7 again, the rotating disc 461 includes a rotating shaft 4611 rotatably connected to the inner wall of the first through hole 411 through a bearing, a plurality of supporting spokes 4612 fixed to the outer surface of the rotating shaft 4611, a ring gear 4613 fixed to the outer surface of the plurality of supporting spokes 4612, the inner annular surface of the ring gear 4613 is fixedly connected to the outer surface of the soaking cylinder 462, the rotating assembly 46 further includes a power mechanism 463 connected to the driving end of the rotating disc 461, the power mechanism 463 includes a third motor 4631 fixed to the upper surface of the partition plate 41, the output shaft of the third motor 4631 is connected to the input shaft of the speed reducer 4632 fixed to the upper surface of the partition plate 41, a gear 4633 is fixed to the outer surface of the output shaft of the speed reducer 4632, the gear 4633 is connected to the outer surface of the ring 4613, the rotating assembly 46 further includes a plurality of bearing seats 464 fixed to the inner surface of the cleaning tank 10, and a pressure-bearing wheel 465 rotatably connected to the inner wall of the bearing wheel 464 through a rotating shaft, and the pressure-bearing wheel 465 abuts against the outer surface of the ring 4613;

it should be noted that, in this embodiment, when the ring gear 4613 rotates, the ring gear 4613 drives the supporting spokes 4612 to rotate, and the supporting spokes 4612 drive the rotating shaft 4611 to rotate, so that the ring gear 4613 drives the rotating shaft 4611 to rotate;

further, the output shaft of the third motor 4631 drives the speed reducer 4632 to operate, the output shaft of the speed reducer 4632 drives the gear 4633 to rotate, and the gear 4633 drives the gear ring 4613 engaged with the gear to rotate;

furthermore, a mounting position is provided for the pressure bearing wheel 465 through the bearing seat 464, the pressure bearing wheel 465 abutted to the gear ring 4613 supports the gear ring 4613, gear teeth are arranged on the outer surface of the pressure bearing wheel 465, the pressure bearing wheel 465 is meshed with the gear ring 4613, and therefore the supporting effect on the gear ring 4613 is further improved.

Specifically, please refer to fig. 1 and 5 again, the feeding device 20 includes a feeding cylinder 21 fixed on the outer surface of the cleaning tank 10, a feeding rotating shaft 22 rotatably connected to the inner wall of the feeding cylinder 21 through a bearing, and a plurality of feeding plates 23 fixed on the outer surface of the feeding rotating shaft 22, the feeding device 20 further includes a material guide plate 24 disposed at the discharging end of the feeding cylinder 21 and fixed on the inner surface of the cleaning tank 10, and a baffle plate 25 disposed at one side of the material guide plate 24 and fixed on the inner wall surface of the feeding cylinder 21, the drying device 30 includes a drying box 31 fixed on the outer surface of one end of the cleaning tank 10 away from the feeding device 20, a heating copper pipe 32 fixed inside the drying box 31, a fan 34 fixed on one end of the drying box 31 away from the heating copper pipe 32, and an air outlet pipe 33 inserted on the casing of the drying box 31 and extending into the cleaning tank 10;

it should be noted that, in this embodiment, when the output shaft of the motor drives the feeding rotating shaft 22 to rotate, the feeding rotating shaft 22 drives the feeding plates 23 to rotate, so that the air suction pipes inserted between the two feeding plates 23 can slide into the cleaning tank 10 one by means of gravity;

further, the air suction pipe led into the interior of the cleaning tank 10 by the guide plate 24 falls between the two first friction wheels 443 of the discharging assembly 44, and the air suction pipe is blocked by the baffle 25, so that the air suction pipe can accurately fall between the two first friction wheels 443 of the discharging assembly 44;

furthermore, the air inside the drying box 31 is heated by the heating copper pipe 32, the hot air inside the drying box 31 is guided by the fan 34 to be discharged, and since the plurality of air outlet pipes 33 are inserted into the heating drying box 31 and the air outlet pipes 33 extend to the inside of the cleaning tank 10, the hot air inside the heating drying box 31 is further guided by the air outlet pipes 33 to be blown to the cleaned air suction pipe.

The specific operation mode of the invention is as follows:

when the suction pipe is cleaned by using the cleaning device, firstly, the output shaft of the motor in the feeding device 20 drives the feeding rotating shaft 22 to rotate, and the feeding rotating shaft 22 drives the feeding plates 23 to rotate, so that when the feeding plates 23 are aligned with the feeding holes of the cleaning tank 10, the suction pipe inserted between the two feeding plates 23 can slide into the cleaning tank 10 by virtue of gravity, and as the distance between the two feeding plates 23 can only accommodate one suction pipe, the suction pipe is driven to fall between two first friction wheels 443 in the feeding assembly 43 one by one;

the first motor 442 drives the first rotating shaft 441 connected with the output shaft of the first motor to rotate, the first rotating shaft 441 drives the first friction wheels 443 on the outer surface of the first rotating shaft 443 to rotate, when the two first friction wheels 443 rotate oppositely, the two first friction wheels 443 drive the air suction pipe inserted between the two first friction wheels 443 to move, so that the air suction pipe is inserted into the soaking cylinder 462, the power mechanism 463 drives the rotating disc 461 to rotate, the soaking cylinder 462 is driven by the rotating disc 461 to revolve around the axis of the rotating disc 461, so that the empty soaking cylinder 462 rotates to be aligned with a gap between the two first friction wheels 443 in the feeding assembly 43, the feeding assembly 43 continues to feed, the soaking cylinder 462 rotates until the exhaust pipe is soaked in the cleaning liquid at the bottom end of the partition plate 41, and ultrasonic waves are generated by the ultrasonic generator, so that the whole exhaust pipe is cleaned;

the exhaust pipe is continuously driven to rotate by the rotating disk 461, so that the exhaust pipe is inserted between two second friction wheels 452 in the feeding assembly 45, the air suction pipe inserted between the two second friction wheels 452 is pushed to move by the second friction wheels 452, the air suction pipe is slowly sleeved outside the high-pressure spray pipe 422, so that the high-pressure spray pipe 422 cleans the inside of the air suction pipe, after the cleaning is completed, the exhaust pipe is driven to return by the second friction wheels 452, the exhaust pipe is continuously driven to revolve by the rotating disk 461 until the exhaust pipe is inserted between two first friction wheels 443 in the discharging assembly 44, so that the exhaust pipe is pushed to move by the first friction wheels 443, so that the exhaust pipe is discharged out of the cleaning tank 10, in the process, the air inside the drying box 31 is heated by the heating copper pipe 32, the hot air inside the drying box 31 is guided to be discharged out by the fan 34, and the air outlet pipe 33 extends to the inside of the cleaning tank 10, so that the hot air inside the drying box 31 is further guided to be blown to the cleaned air suction pipe by the air outlet pipe 33.

The invention is described above with reference to the accompanying drawings, it is obvious that the invention is not limited to the above-described embodiments, and it is within the scope of the invention to adopt such insubstantial modifications of the inventive method concept and solution, or to apply the inventive concept and solution directly to other applications without modification.

Claims

1. An automatic cleaning device for improving the processing and cleaning efficiency of an air suction pipe of an air conditioner compressor comprises a cleaning tank (10), and is characterized in that a feeding device (20) is arranged at one end of the outer surface of the cleaning tank (10), a drying device (30) is arranged at the other end of the outer surface of the cleaning tank, and a cleaning device (40) is arranged inside the cleaning tank (10);

the cleaning device (40) comprises a partition plate (41) fixed on the inner wall of the cleaning tank (10), a rotary component (46) penetrating through a shell of the partition plate (41), a cleaning component (42) arranged at the bottom end of the partition plate (41), and a feeding component (43), a discharging component (44) and a feeding component (45) which are sequentially arranged at the top end of the partition plate (41), wherein the feeding component (43) and the discharging component (44) have the same structure, and the discharging component (44) and the feeding component (45) are symmetrically arranged by taking the rotary component (46) as a central axis;

the rotary assembly (46) comprises a rotary disc (461) which penetrates through the shell of the partition plate (41) and is rotatably connected with the partition plate (41) through a rotating shaft, and a plurality of soaking cylinders (462) for inserting the air suction pipes are fixed on the inner ring surface of the rotary disc (461);

the cleaning assembly (42) comprises an ultrasonic generator (421) which is arranged at the bottom of the partition plate (41) and fixed on the inner wall of the cleaning tank (10), and a high-pressure water spray pipe (422) which is arranged at the other end of the cleaning tank (10);

the discharging assembly (44) comprises two first rotating shafts (441) which are rotatably connected with the partition plate (41) through bearings, and a first motor (442) which is fixed on the lower surface of the partition plate (41) and connected with the first rotating shafts (441), the two first rotating shafts (441) are symmetrically arranged by taking the second through hole (412) as a central axis, and first friction wheels (443) are fixed on the outer surfaces of the top ends of the first rotating shafts (441);

the feeding assembly (45) comprises a second motor (451) which is fixed on the upper surface of the partition plate (41) and symmetrically arranged by taking the second through hole (412) as a central axis, and a second friction wheel (452) which is fixed on the outer surface of one side of the partition plate (41) and penetrates through the output shaft of the second motor (451).

2. The automatic cleaning device for improving the processing and cleaning efficiency of the air suction pipe of the air conditioner compressor as claimed in claim 1, wherein a first through hole (411) for the rotating disk (461) to pass through is formed in the casing of the partition plate (41), second through holes (412) for the air suction pipe to pass through are symmetrically formed in both sides of the first through hole (411), and the second through hole (412) is communicated with the first through hole (411).

3. The automatic cleaning apparatus for improving the processing and cleaning efficiency of the air suction pipe of the air conditioner compressor as recited in claim 2, wherein said rotary disk (461) comprises a rotary shaft (4611) rotatably connected to the inner wall of said first through hole (411) through a bearing, a plurality of supporting spokes (4612) fixed to the outer surface of said rotary shaft (4611), a ring gear (4613) fixed to the outer surface of said plurality of supporting spokes (4612), the inner ring surface of said ring gear (4613) being fixedly connected to the outer surface of said steeping barrel (462).

4. The automatic cleaning equipment for improving the processing and cleaning efficiency of the air suction pipe of the air conditioner compressor is characterized in that the rotating assembly (46) further comprises a power mechanism (463) connected with the driving end of the rotating disc (461), the power mechanism (463) comprises a third motor (4631) fixed on the upper surface of the partition plate (41), an output shaft of the third motor (4631) is connected with an input shaft of a speed reducer (4632) fixed on the upper surface of the partition plate (41), a gear (4633) is fixed on the outer surface of the output shaft of the speed reducer (4632), and the gear (4633) is connected with the outer surface of the gear ring (4613).

5. The automatic cleaning equipment for improving the processing and cleaning efficiency of the air suction pipe of the air conditioner compressor is characterized in that the rotating assembly (46) further comprises a plurality of bearing seats (464) fixed on the inner surface of the cleaning tank (10), and a pressure bearing wheel (465) rotatably connected with the inner wall of the bearing seat (464) through a rotating shaft, wherein the pressure bearing wheel (465) is abutted with the outer surface of the gear ring (4613).

6. The automatic cleaning apparatus for improving the processing and cleaning efficiency of the air suction pipe of the air conditioner compressor as claimed in claim 1, wherein said feeding means (20) comprises a feeding cylinder (21) fixed on the outer surface of said cleaning tank (10), a feeding rotary shaft (22) rotatably connected to the inner wall of said feeding cylinder (21) by a bearing, and a plurality of feeding plates (23) fixed on the outer surface of said feeding rotary shaft (22).

7. The automatic cleaning equipment for improving the processing and cleaning efficiency of the air suction pipe of the air conditioning compressor as claimed in claim 6, wherein the feeding device (20) further comprises a material guide plate (24) disposed at the discharge end of the feeding cylinder (21) and fixed on the inner surface of the cleaning tank (10), and a baffle plate (25) disposed at one side of the material guide plate (24) and fixed on the inner wall surface of the feeding cylinder (21).

8. The automatic cleaning equipment for improving the processing and cleaning efficiency of the air suction pipe of the air conditioner compressor is characterized in that the drying device (30) comprises a drying box (31) fixed on the outer surface of one end of the cleaning tank (10) far away from the feeding device (20), a heating copper pipe (32) fixed inside the drying box (31), a fan (34) fixed on one end of the drying box (31) far away from the heating copper pipe (32), and an air outlet pipe (33) inserted on the shell of the drying box (31) and extending to the inside of the cleaning tank (10).