CN116771637B

CN116771637B - Air conditioner compressor

Info

Publication number: CN116771637B
Application number: CN202311071494.8A
Authority: CN
Inventors: 刘桂兴
Original assignee: Macintyre Jiangsu Air Conditioning Co ltd
Current assignee: Macintyre Jiangsu Air Conditioning Co ltd
Priority date: 2023-08-24
Filing date: 2023-08-24
Publication date: 2023-10-24
Anticipated expiration: 2043-08-24
Also published as: CN116771637A

Abstract

The invention discloses an air conditioner compressor, which relates to the technical field of air conditioner refrigeration and comprises a bottom plate, a shell, a pressurizing assembly, a piston assembly and a filtering assembly, wherein the pressurizing assembly is arranged to pressurize refrigerating gas and simultaneously automatically cool a pressurizing part, so that the temperature of the pressurizing part is prevented from being too high, the service life of equipment is influenced, and further the cost is saved; through setting up filtering component, can get rid of impurity and moisture in the refrigerant gas clean, prevent impurity to the damage of equipment to and prevent that excessive moisture from influencing equipment availability factor, cause the energy waste; through setting up filter component, can keep the drying of moisture filter screen voluntarily, promote filtration efficiency and guarantee filtration quality, can utilize filterable moisture to carry out self-cleaning to the filter screen simultaneously, reduce the manual maintenance cost, guarantee the filter effect.

Description

Air conditioner compressor

Technical Field

The invention relates to the technical field of air conditioner refrigeration, in particular to an air conditioner compressor.

Background

A compressor is an apparatus for increasing gas pressure, which is widely used in many industries including air conditioning, refrigerators, automobile engines, industrial manufacturing, and gas transportation; the compressor works in such a way that the pressure and temperature of the gas are increased by compressing the gas to reduce its volume.

The Chinese patent publication No. CN113565759B discloses an air conditioner compressor, which is characterized in that the switching of a single-stage compressor and a double-stage compressor is controlled by controlling a switching plate, so that energy conservation at normal temperature is realized, and heat dissipation is carried out on places with serious heat generation through the arrangement of a plurality of cooling cavities.

The defects of the prior art scheme are that: the prior art cannot radiate heat in the working process, and the abnormal function of the compressor is easily caused in a high temperature state; the impurity in the refrigerant can not be filtered, and the refrigerant is dehumidified, so that the performance of the refrigerant is easily reduced, the refrigeration efficiency is reduced, the filter screen can not be automatically cleaned, and the maintenance cost is high.

Disclosure of Invention

Aiming at the technical problems, the invention adopts the following technical scheme: the air conditioner compressor comprises a bottom plate, a shell, a pressurizing assembly, a piston assembly and a filtering assembly, wherein the pressurizing assembly is rotatably arranged on the bottom plate; the filter assembly comprises a filter shell fixedly arranged in the shell, an impurity filter screen, a filter fixing ring and a moisture filter screen are fixedly arranged in the filter shell, the impurity filter screen is arranged at the bottom end of the filter shell, and the moisture filter screen is arranged at the top end of the filter shell; the filter motor is fixedly arranged on the filter shell, a filter rotating shaft is fixedly arranged on an output shaft of the filter motor, the filter rotating shaft is connected to the filter rotating disc through a spline, a filter connecting rod is rotatably arranged on the filter rotating disc, a filter deflection wheel is rotatably arranged at the other end of the filter connecting rod, the filter deflection wheel is rotatably arranged on the filter rotating shaft, and the filter rotating shaft is rotatably arranged on the filter fixing ring and the impurity filter screen; a plurality of filter extrusion rods distributed in an array are arranged in the filter deflection wheel in a sliding manner, the filter extrusion rods are arranged in the filter fixing rings in a sliding manner, the filter extrusion rods are matched with the water filter screen and the impurity filter screen, the filter cylinder is fixedly arranged on the filter shell, a filter sliding block is fixedly arranged on the filter cylinder, and the filter sliding block is arranged on the filter rotary table in a sliding manner; the filtering rotating shaft is rotatably arranged on the water filtering net.

Further, the pressurizing assembly comprises a pressurizing rotating plate II, a pressurizing rotating plate I, a pressurizing gear II and a pressurizing gear I which are rotatably arranged on the bottom plate, the pressurizing gear II is fixedly arranged on an output shaft of the pressurizing motor, the pressurizing gear II is meshed with the pressurizing gear I, a pressurizing connecting rod II is rotatably arranged on the pressurizing gear II, the other end of the pressurizing connecting rod II is rotatably arranged on the pressurizing rotating plate II, a pressurizing piston II is fixedly arranged on the pressurizing rotating plate II, and the pressurizing piston II is slidably arranged in the pressurizing piston housing I and the pressurizing piston housing II.

Furthermore, a second pressurizing fixed connecting rod is fixedly arranged on the second pressurizing rotating plate, a second pressurizing sliding connecting rod is rotatably arranged at one end of the second pressurizing fixed connecting rod, the other end of the second pressurizing sliding connecting rod is rotatably arranged on a second pressurizing elastic sheet, and the second pressurizing elastic sheet is slidably arranged on the bottom plate.

Further, a first pressurizing connecting rod is rotatably arranged on the first pressurizing gear, the other end of the first pressurizing connecting rod is rotatably arranged on a first pressurizing rotating plate, a first pressurizing piston is fixedly arranged on the first pressurizing rotating plate, the first pressurizing piston is slidably arranged in a first pressurizing piston shell and a second pressurizing piston shell, a first pressurizing fixed connecting rod is fixedly arranged on the first pressurizing rotating plate, a first pressurizing sliding connecting rod is rotatably arranged on the first pressurizing fixed connecting rod, the other end of the first pressurizing sliding connecting rod is rotatably arranged on a first pressurizing elastic sheet, and the first pressurizing elastic sheet is slidably arranged on the bottom plate.

Furthermore, the first pressurizing piston shell and the second pressurizing piston shell are fixedly arranged on the bottom plate, the first pressurizing piston shell is connected to the pressurizing and cooling ring through a conduit, the pressurizing and cooling ring is fixedly arranged on the outer side of the second pressurizing piston shell, and the second pressurizing spring piece and the first pressurizing spring piece are in sliding fit with the piston assembly.

Further, the piston assembly comprises a first piston rod and a second piston rod which are in sliding fit with the second pressurizing elastic sheet and the first pressurizing elastic sheet, the first piston rod is arranged in the first piston housing in a sliding mode, a first piston reset spring is arranged between the first piston rod and the first piston housing, the second piston rod is arranged in the second piston housing in a sliding mode, and a second piston reset spring is arranged between the second piston rod and the second piston housing.

Further, the first piston housing is connected to the second pressurizing piston housing through a conduit, the other end of the first piston housing is connected to the filter housing, and the second piston housing is connected to the second pressurizing piston housing through a conduit.

Further, the pressurized cooling ring is made of rubber material.

Compared with the prior art, the invention has the beneficial effects that: (1) According to the invention, the pressurizing assembly is arranged, so that the refrigerating gas can be pressurized and the pressurizing component can be automatically cooled, the condition that the temperature of the pressurizing component is too high is prevented from influencing the service life of equipment, and the cost is further saved; (2) Through setting up filtering component, can get rid of impurity and moisture in the refrigerant gas clean, prevent impurity to the damage of equipment to and prevent that excessive moisture from influencing equipment availability factor, cause the energy waste; (3) Through setting up filter component, can keep the drying of moisture filter screen voluntarily, promote filtration efficiency and guarantee filtration quality, can utilize filterable moisture to carry out self-cleaning to the filter screen simultaneously, reduce the manual maintenance cost, guarantee the filter effect.

Drawings

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

FIG. 2 is a schematic diagram of the overall structure of the invention in front view;

FIG. 3 is a schematic side view of the overall structure of the present invention;

FIG. 4 is a schematic view of a part of the pressing assembly according to the present invention;

FIG. 5 is a schematic diagram showing a partial structure of a pressing assembly according to the present invention;

FIG. 6 is a schematic view of a portion of a pressurizing assembly according to the third embodiment of the present invention;

FIG. 7 is a schematic view of a part of a pressing assembly according to the present invention;

FIG. 8 is a partial cross-sectional view of a piston assembly of the present invention;

FIG. 9 is a partial cross-sectional view of a second piston assembly of the present invention;

FIG. 10 is a schematic view of a part of a filter assembly according to the present invention;

FIG. 11 is a schematic diagram showing a partial structure of a filter assembly according to the present invention;

FIG. 12 is a partial cross-sectional view of a filter assembly of the present invention;

fig. 13 is a schematic view of a partial structure of a base plate according to the present invention.

Reference numerals: 1-a pressurizing assembly; 2-a piston assembly; 3-a bottom plate; 4-a filter assembly; 5-a housing; 101-pressing a first gear; 102-pressing a first connecting rod; 103-pressing a first rotating plate; 104-pressurizing piston I; 105-pressing the first sliding connecting rod; 106-pressurizing a fixed connecting rod I; 107-pressing a first elastic sheet; 108-a second pressurizing gear; 109-second compression link; 110-pressurizing a second rotating plate; 111-pressurizing a fixed connecting rod II; 112-pressing the second sliding connecting rod; 113-a second pressurizing spring plate; 114-pressurizing piston II; 115-first pressurized piston housing; 116-second pressurizing piston housing; 117-pressurized cooling ring; 118-a pressurizing motor; 201-piston rod I; 202-a first piston return spring; 203-piston housing one; 204-a second piston rod; 205-piston housing two; 206-a piston return spring II; 401-filtering the motor; 402-filtering the rotating shaft; 403-a filter carousel; 404-filter link; 405-filtering a deflection wheel; 406-filtering the extrusion rod; 407-filtering a fixed ring; 408-an impurity filtering net; 409-moisture filter screen; 410-filtering the cylinder; 411-filter slide; 412-a filter housing.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 13, an air conditioner compressor comprises a bottom plate 3, a shell 5, a pressurizing assembly 1, a piston assembly 2 and a filtering assembly 4, wherein the pressurizing assembly 1 is rotatably arranged on the bottom plate 3, the piston assembly 2 is fixedly arranged on the bottom plate 3, the filtering assembly 4 is fixedly arranged in the shell 5, and the bottom plate 3 is fixedly arranged in the shell 5; the filter assembly 4 comprises a filter shell 412 fixedly arranged in the shell 5, an impurity filter screen 408, a filter fixing ring 407 and a moisture filter screen 409 are fixedly arranged in the filter shell 412, the impurity filter screen 408 is arranged at the bottom end of the filter shell 412, and the moisture filter screen 409 is arranged at the top end of the filter shell 412; the filter motor 401 is fixedly arranged on the filter shell 412, a filter rotating shaft 402 is fixedly arranged on an output shaft of the filter motor 401, the filter rotating shaft 402 is connected to the filter rotating disc 403 through a spline, a filter connecting rod 404 is rotatably arranged on the filter rotating disc 403, a filter deflection wheel 405 is rotatably arranged at the other end of the filter connecting rod 404, the filter deflection wheel 405 is rotatably arranged on the filter rotating shaft 402, and the filter rotating shaft 402 is rotatably arranged on the filter fixing ring 407 and the impurity filter screen 408; a plurality of filter extrusion rods 406 distributed in an array are slidably arranged in the filter deflection wheel 405, the filter extrusion rods 406 are slidably arranged in the filter fixing rings 407, the filter extrusion rods 406, a water filter screen 409 and an impurity filter screen 408 form a fit, a filter cylinder 410 is fixedly arranged on a filter shell 412, a filter slide block 411 is fixedly arranged on the filter cylinder 410, and the filter slide block 411 is slidably arranged on the filter rotary table 403; the filter rotation shaft 402 is rotatably provided on the moisture filter 409.

The pressurizing assembly 1 comprises a pressurizing rotating plate II 110, a pressurizing rotating plate I103, a pressurizing gear II 108 and a pressurizing gear I101 which are rotatably arranged on the bottom plate 3, the pressurizing gear II 108 is fixedly arranged on an output shaft of a pressurizing motor 118, the pressurizing gear II 108 is meshed with the pressurizing gear I101, a pressurizing connecting rod II 109 is rotatably arranged on the pressurizing gear II 108, the other end of the pressurizing connecting rod II 109 is rotatably arranged on the pressurizing rotating plate II 110, a pressurizing piston II 114 is fixedly arranged on the pressurizing rotating plate II 110, and the pressurizing piston II 114 is slidably arranged in a pressurizing piston housing I115 and a pressurizing piston housing II 116. The second pressurizing rotating plate 110 is fixedly provided with a second pressurizing fixed connecting rod 111, one end of the second pressurizing fixed connecting rod 111 is rotatably provided with a second pressurizing sliding connecting rod 112, the other end of the second pressurizing sliding connecting rod 112 is rotatably arranged on a second pressurizing elastic sheet 113, and the second pressurizing elastic sheet 113 is slidably arranged on the bottom plate 3.

The first pressurizing gear 101 is rotatably provided with a first pressurizing connecting rod 102, the other end of the first pressurizing connecting rod 102 is rotatably arranged on a first pressurizing rotating plate 103, the first pressurizing rotating plate 103 is fixedly provided with a first pressurizing piston 104, the first pressurizing piston 104 is slidably arranged in a first pressurizing piston housing 115 and a second pressurizing piston housing 116, the first pressurizing rotating plate 103 is fixedly provided with a first pressurizing fixed connecting rod 106, the first pressurizing fixed connecting rod 106 is rotatably provided with a first pressurizing sliding connecting rod 105, the other end of the first pressurizing sliding connecting rod 105 is rotatably arranged on a first pressurizing elastic sheet 107, and the first pressurizing elastic sheet 107 is slidably arranged on the bottom plate 3. The first pressurizing piston housing 115 and the second pressurizing piston housing 116 are fixedly arranged on the bottom plate 3, the first pressurizing piston housing 115 is connected to the pressurizing and cooling ring 117 through a conduit, the pressurizing and cooling ring 117 is fixedly arranged on the outer side of the second pressurizing piston housing 116, and the second pressurizing spring plate 113 and the first pressurizing spring plate 107 are in sliding fit with the piston assembly 2.

The piston assembly 2 comprises a first piston rod 201 and a second piston rod 204 which are in sliding fit with the second pressurizing elastic sheet 113 and the first pressurizing elastic sheet 107, the first piston rod 201 is arranged in the first piston housing 203 in a sliding mode, a first piston return spring 202 is arranged between the first piston rod 201 and the first piston housing 203, the second piston rod 204 is arranged in the second piston housing 205 in a sliding mode, and a second piston return spring 206 is arranged between the second piston rod 204 and the second piston housing 205. The first piston housing 203 is connected to the second pressurizing piston housing 116 through a conduit, the other end of the first piston housing 203 is connected to the filter housing 412, and the second piston housing 205 is connected to the second pressurizing piston housing 116 through a conduit; the pressurized cooling ring 117 is a rubber material.

The invention discloses an air conditioner compressor, which has the working principle that: starting a pressurizing motor 118, wherein the pressurizing motor 118 drives a pressurizing gear II 108 to rotate, the pressurizing gear II 108 drives a pressurizing connecting rod II 109 to rotate, the pressurizing connecting rod II 109 pulls a pressurizing rotating plate II 110 to rotate back and forth, the pressurizing rotating plate II 110 rotates back and forth to pull a pressurizing fixed connecting rod II 111, the pressurizing fixed connecting rod II 111 pulls a pressurizing sliding connecting rod II 112, and the pressurizing sliding connecting rod II 112 pulls a pressurizing elastic piece II 113 to slide back and forth; the rotation of the pressing gear II 108 drives the pressing gear I101 to rotate, the rotation of the pressing gear I101 drives the pressing connecting rod I102, the pressing connecting rod I102 drives the pressing rotating plate I103 to rotate back and forth, the pressing rotating plate I103 drives the pressing fixed connecting rod I106, the pressing fixed connecting rod I106 pulls the pressing sliding connecting rod I105, and the pressing sliding connecting rod I105 pulls the pressing elastic piece I107 to slide back and forth.

When the first pressurizing piston 104 and the second pressurizing piston 114 in the second pressurizing piston housing 116 are close to each other, the cooling gas filtered by the filtering component 4 is compressed, the second pressurizing fixed connecting rod 111 enables the second pressurizing elastic sheet 113 to pull the first piston rod 201 to slide through the second pressurizing sliding connecting rod 112, and the first piston return spring 202 is compressed, so that the first piston rod 201 blocks the conduit channel on the first piston housing 203, and the cooling gas cannot pass through the first piston housing 203 to form a closed circuit; meanwhile, the first pressurizing fixed connecting rod 106 pulls the first pressurizing elastic piece 107 through the first pressurizing sliding connecting rod 105, the first pressurizing elastic piece 107 pulls the second piston rod 204 to the limit position, namely the second piston reset spring 206 is completely compressed, at the moment, the elastic piece on the first pressurizing elastic piece 107 deforms, the second piston rod 204 is separated from the first pressurizing elastic piece 107, the second piston rod 204 is rebounded under the action of the second piston reset spring 206, at the moment, the conduit channel on the second piston housing 205 is opened to form a passage, and the gas compressed by the first pressurizing piston 104 and the second pressurizing piston 114 in the second pressurizing piston housing 116 is discharged from the conduit on the second piston housing 205, so that the pressurization of the cooling gas filtered by the filtering component 4 is completed.

When the first pressurizing piston 104 and the second pressurizing piston 114 in the second pressurizing piston housing 116 complete pressurizing the cooling gas in the second pressurizing piston housing 116, the second pressurizing spring 113 is separated from the first piston rod 201, the first piston rod 201 is pushed to reset under the action of the first piston reset spring 202, and the conduit channel on the first piston housing 203 is opened; the first pressurizing fixed connecting rod 106 pushes the first pressurizing elastic sheet 107 through the first pressurizing sliding connecting rod 105 to clamp the first pressurizing elastic sheet 107 with the second piston rod 204, and pulls the second piston rod 204 to block the conduit passage on the second piston housing 205, so that the cooling gas enters the second pressurizing piston housing 116 to wait for pressurizing again after being filtered by the filtering component 4; and circulating the steps to finish the pressurization of the cooling gas.

When the first pressurizing piston 104 and the second pressurizing piston 114 in the first pressurizing piston housing 115 are far away from each other, cooling water in the pressurizing cooling ring 117 is sucked into the first pressurizing piston housing 115, and when the first pressurizing piston 104 and the second pressurizing piston 114 in the first pressurizing piston housing 115 are close to each other, the sucked cooling water is extruded into the pressurizing cooling ring 117, so that the cooling water flows, heat generated by the second pressurizing piston housing 116 is taken away from the second pressurizing piston housing 116, and the temperature of the second pressurizing piston housing 116 is reduced.

Cooling gas enters from the bottom end of a filter shell 412, dust and impurities are filtered through an impurity filter screen 408, water in the cooling gas is filtered through a water filter screen 409, the cooling gas is dried and cleaned, a filter motor 401 is started, the filter motor 401 drives a filter rotating shaft 402 to rotate, the filter rotating shaft 402 rotates to drive a filter rotating disc 403 and a filter deflection wheel 405 to rotate, a filter cylinder 410 pulls the filter rotating disc 403 through a filter sliding block 411, the filter rotating disc 403 slides on the filter rotating shaft 402, the filter rotating disc 403 slides and pulls the filter deflection wheel 405 to deflect through a filter connecting rod 404, and the filter deflection wheel 405 deflects to enable a plurality of filter extrusion rods 406 to slide back and forth to extrude the impurity filter screen 408 and the water filter screen 409; when the moisture on the moisture filter screen 409 is enough, the moisture is extruded out, drops onto the impurity filter screen 408 wet the impurity filter screen 408, the filter extrusion rod 406 extrudes the impurity filter screen 408 simultaneously so that water and impurities are mixed, finally the impurities are discharged, the impurity filter screen 408 is cleaned, and the moisture filter screen 409 is dried, so that the filtering efficiency is ensured.

Claims

1. An air conditioner compressor, includes bottom plate (3), shell (5), its characterized in that: the novel hydraulic oil pump further comprises a pressurizing assembly (1), a piston assembly (2) and a filtering assembly (4), wherein the pressurizing assembly (1) is rotatably arranged on the bottom plate (3), the piston assembly (2) is fixedly arranged on the bottom plate (3), the filtering assembly (4) is fixedly arranged in the shell (5), and the bottom plate (3) is fixedly arranged in the shell (5); the filter assembly (4) comprises a filter shell (412) fixedly arranged in the shell (5), an impurity filter screen (408), a filter fixing ring (407) and a moisture filter screen (409) are fixedly arranged in the filter shell (412), the impurity filter screen (408) is arranged at the bottom end of the filter shell (412), and the moisture filter screen (409) is arranged at the top end of the filter shell (412); the filter motor (401) is fixedly arranged on the filter shell (412), a filter rotating shaft (402) is fixedly arranged on an output shaft of the filter motor (401), the filter rotating shaft (402) is connected to the filter rotating disc (403) through a spline, a filter connecting rod (404) is rotatably arranged on the filter rotating disc (403), a filter deflection wheel (405) is rotatably arranged at the other end of the filter connecting rod (404), the filter deflection wheel (405) is rotatably arranged on the filter rotating shaft (402), and the filter rotating shaft (402) is rotatably arranged on the filter fixing ring (407) and the impurity filter screen (408); a plurality of filter extrusion rods (406) distributed in an array are arranged in the filter deflection wheel (405) in a sliding mode, the filter extrusion rods (406) are arranged in the filter fixing rings (407) in a sliding mode, the filter extrusion rods (406) are matched with the water filter screen (409) and the impurity filter screen (408), the filter cylinder (410) is fixedly arranged on the filter shell (412), the filter cylinder (410) is fixedly provided with a filter sliding block (411), and the filter sliding block (411) is arranged on the filter rotary disc (403) in a sliding mode; the filtering rotating shaft (402) is rotatably arranged on the water filtering screen (409);

the pressurizing assembly (1) comprises a pressurizing rotating plate II (110), a pressurizing rotating plate I (103), a pressurizing gear II (108) and a pressurizing gear I (101), wherein the pressurizing rotating plate II (110) is rotatably arranged on the bottom plate (3), the pressurizing gear II (108) is fixedly arranged on an output shaft of a pressurizing motor (118), the pressurizing gear II (108) is meshed with the pressurizing gear I (101), a pressurizing connecting rod II (109) is rotatably arranged on the pressurizing gear II (108), the other end of the pressurizing connecting rod II (109) is rotatably arranged on the pressurizing rotating plate II (110), a pressurizing piston II (114) is fixedly arranged on the pressurizing rotating plate II (110), and the pressurizing piston II (114) is slidably arranged in a pressurizing piston housing I (115) and a pressurizing piston housing II (116);

the second pressurizing rotating plate (110) is fixedly provided with a second pressurizing fixed connecting rod (111), one end of the second pressurizing fixed connecting rod (111) is rotatably provided with a second pressurizing sliding connecting rod (112), the other end of the second pressurizing sliding connecting rod (112) is rotatably arranged on a second pressurizing elastic sheet (113), and the second pressurizing elastic sheet (113) is slidably arranged on the bottom plate (3);

the pressurizing gear I (101) is rotationally provided with a pressurizing connecting rod I (102), the other end of the pressurizing connecting rod I (102) is rotationally arranged on a pressurizing rotating plate I (103), a pressurizing piston I (104) is fixedly arranged on the pressurizing rotating plate I (103), the pressurizing piston I (104) is slidably arranged in a pressurizing piston shell I (115) and a pressurizing piston shell II (116), the pressurizing rotating plate I (103) is fixedly provided with a pressurizing fixed connecting rod I (106), the pressurizing fixed connecting rod I (106) is rotationally provided with a pressurizing sliding connecting rod I (105), the other end of the pressurizing sliding connecting rod I (105) is rotationally arranged on a pressurizing elastic piece I (107), and the pressurizing elastic piece I (107) is slidably arranged on the bottom plate (3);

the first pressurizing piston shell (115) and the second pressurizing piston shell (116) are fixedly arranged on the bottom plate (3), the first pressurizing piston shell (115) is connected to the pressurizing and cooling ring (117) through a conduit, the pressurizing and cooling ring (117) is fixedly arranged on the outer side of the second pressurizing piston shell (116), and the second pressurizing spring piece (113), the first pressurizing spring piece (107) are in sliding fit with the piston assembly (2);

the piston assembly (2) comprises a first piston rod (201) and a second piston rod (204) which are in sliding fit with the second pressurizing elastic sheet (113) and the first pressurizing elastic sheet (107), the first piston rod (201) is arranged in the first piston housing (203) in a sliding mode, a first piston return spring (202) is arranged between the first piston rod (201) and the first piston housing (203), the second piston rod (204) is arranged in the second piston housing (205) in a sliding mode, and a second piston return spring (206) is arranged between the second piston rod (204) and the second piston housing (205).

2. An air conditioner compressor as set forth in claim 1, wherein: the first piston housing (203) is connected to the second pressurizing piston housing (116) through a conduit, the other end of the first piston housing (203) is connected to the filter housing (412), and the second piston housing (205) is connected to the second pressurizing piston housing (116) through a conduit.

3. An air conditioner compressor as set forth in claim 2, wherein: the pressurized cooling ring (117) is a rubber material.