A new air compressor with filter cleaning system
By using a chamfered plate to scrape away impurities from the filter element column, a drying device to absorb moisture, and a vibration device to shake off impurities, the problems of impurities adhering to the surface of the filter element column and moisture entering are solved, thereby improving the operating efficiency of the air compressor and the life of the filter element, and preventing corrosion.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- FUJIAN AIWEITE INTELLIGENT EQUIP CO LTD
- Filing Date
- 2026-04-14
- Publication Date
- 2026-06-09
AI Technical Summary
Impurities adhere firmly to the surface of the existing air compressor filter element column, affecting its self-cleaning ability, leading to frequent shutdowns and manual cleaning, and moisture entering the casing causing corrosion and damage.
A chamfered plate is used to scrape away impurities from the filter column, a drying device absorbs moisture, a vibration device shakes off loose impurities, and calcium chloride blocks are used for drying and sponge blocks for lubrication to prevent jamming.
It improves the operating efficiency of the air compressor and the life of the filter element, prevents rust, and ensures clean and smooth operation.
Smart Images

Figure CN122014560B_ABST
Abstract
Description
Technical Field
[0001] This invention belongs to the field of air compressor filter cleaning, specifically relating to a novel air compressor with a filter cleaning system. Background Technology
[0002] An air compressor converts mechanical energy into gas pressure energy, compressing air at normal pressure into high-pressure air as a power source. A new type of air compressor with a filter cleaning system integrates an automatic filter cleaning function, which allows the air compressor to automatically remove dust, lint, and other impurities accumulated on the filter surface without manual shutdown and cleaning during operation.
[0003] Patent CN223075692U discloses an air compressor with a filter cleaning system, including a body and a pick-up device. Wheels are mounted on the lower surface of the body, and an air pipe is installed on one side of the body. A filter element is installed on the inner wall of the air pipe. The pick-up device is located on the surface of the air pipe and includes an arc-shaped sleeve fixedly connected to the air pipe. A slot is formed on the surface of the arc-shaped sleeve, and a fixing block is slidably connected to the inner wall of the slot. A movable plate is fixedly connected to one side of the fixing block. The side of the movable plate away from the fixing block passes through the arc-shaped sleeve and is slidably connected to it. A locking block is fixedly connected to the surface of the movable plate. There are two movable plates, arranged in a mirror-symmetrical configuration. This patent facilitates the disassembly and maintenance of the filter element, increases equipment safety, reduces operational difficulty, improves usability, and facilitates filter element replacement and maintenance, reducing the likelihood of filter element clogging and unusable conditions.
[0004] During the air compressor's intake and compression process, the filter element filters out dust, lint, and other impurities from the air. Over time, these impurities adhere firmly to the surface of the filter element, forming thick and stubborn deposits that are difficult to remove with a regular scraper. This significantly affects the air compressor's self-cleaning ability, leading to frequent shutdowns and manual disassembly and cleaning of the filter element. Furthermore, during the intake process, moisture from the air also enters the air compressor, causing corrosion and damage to internal parts. Additionally, the dust, lint, and other impurities scraped off by the chamfering plate tend to accumulate loosely on the filter element surface, making the chamfering plate ineffective at cleaning the filter element. Summary of the Invention
[0005] The purpose of this invention is to provide a novel air compressor with a filter element cleaning system to solve the problem that impurities adhere firmly to the surface of the filter element column, forming thick and stubborn impurities that affect the air compressor's self-cleaning ability and cause the air compressor to need to be stopped frequently and the filter element to be manually disassembled and cleaned.
[0006] To achieve the above objectives, the present invention provides a novel air compressor with a filter cleaning system, comprising: a housing, wherein four wheels are mounted on the inner wall at the bottom of the housing;
[0007] An air compressor body is installed on the inner wall of a housing, and a casing is provided on the front of the air compressor body;
[0008] The mesh cover is fixedly installed on the front of the housing. Air enters the housing through the mesh seams of the mesh cover, and the mesh cover filters out large dust particles in the air.
[0009] The motor is fixedly mounted on the right side of the housing;
[0010] A round rod is installed through and rotatably on the left and right sides of the inner wall of the housing, and the right end of the round rod is fixedly connected to the left end of the output shaft of the motor.
[0011] Two gear discs are fixed to the outer wall of the round rod. The output shaft of the motor drives the round rod to rotate clockwise, and the round rod drives the gear discs to rotate clockwise.
[0012] The filter element column is fixed on one side of two toothed discs that are close to each other, and the toothed discs drive the filter element column to rotate clockwise;
[0013] A U-shaped frame, the U-shaped frame being fixed inside the top of the housing;
[0014] A long rod, which is installed through and rotatably on the left and right sides of the inner wall of the U-shaped frame;
[0015] Two gears are fixed to the outer wall of a long rod, and the outer walls of the two gears mesh with the outer walls of the two gear discs respectively;
[0016] A plurality of chamfering plates are fixed to the outer wall of the long rod, and the plurality of chamfering plates are located inside the U-shaped frame. The tooth gaps of the gear disk drive the gear to reverse, the gear drives the long rod to reverse, and the long rod drives the chamfering plates to reverse.
[0017] Several chamfered plates rotate to scrape away impurities from the surface of the filter element column.
[0018] In one possible implementation, the air compressor body includes: an air tank, a base frame, a control console, and four air pumps. An air outlet is provided on the left side of the air tank. The base frame is fixed to the top surface of the air tank. The control console is fixedly installed on the right side of the top surface of the base frame. The four air pumps are fixedly installed on the top surface of the base frame. Each of the four air pumps has an air inlet on its front side and an air outlet pipe on its bottom surface. The air outlet pipes of the four air pumps pass through and are fixed to the top surface of the air tank.
[0019] In one possible implementation, the back of the housing is fixedly connected to the front of the base frame, and the housing is nested on the outer wall of the air inlets of four air pumps, the air inlets of the four air pumps being located behind the filter column.
[0020] In one possible implementation, a drying device is provided on one side of the two toothed discs that are far apart from each other. The drying device is used to dry the inside of the machine housing. A vibration device is provided on the outer wall of the drying device to vibrate the filter column so that impurities do not accumulate on the surface of the filter column.
[0021] In one possible implementation, the drying device includes: two ring frames, each of which is fixed to one side of two toothed discs that are far apart from each other;
[0022] Two ring frames are fixed to opposite sides of two ring frames, and the ring frames drive the ring frames to rotate clockwise.
[0023] Two disc shells are fixed on opposite sides of two ring frames, and the ring frames drive the disc shells to rotate clockwise.
[0024] Several calcium chloride blocks are fixed to the inner walls of two disc shells, and the disc shells drive the calcium chloride blocks to rotate in the forward direction.
[0025] Two ring nets are respectively set between the outer wall of the two sets of ring frames and the inner wall of the disk shell, and the disk shell drives the ring nets to rotate in the forward direction;
[0026] Several of the calcium chloride blocks are used to dry the moisture inside the machine casing.
[0027] In one possible implementation, the first ring frame is respectively fitted onto both sides of the round rod, and the second ring frame is respectively fitted onto both sides of the round rod, with the two disc shells having their opposite sides sliding contact with the left and right sides of the inner wall of the housing.
[0028] In one possible implementation, a ring plate is fixed to the outer wall of each of the two ring frames, and a vertical plate is fixed to the outer wall of each of the two ring plates. A sponge block is installed on the side of each of the two vertical plates that is close to each other. The sponge blocks are filled with lubricating oil and contact the side of each of the two gear discs that is far from each other. The ring plate drives the vertical plate to rotate clockwise, and the vertical plate drives the sponge block to rotate clockwise. The sponge block follows the gear disc to rotate clockwise.
[0029] In one possible implementation, the vibration device includes: two supports, each of which is fixed to the outer wall of two ring frames;
[0030] Two strip shells are respectively fixed to the ends of two sets of supports away from the second ring frame; the supports drive the strip shells to rotate clockwise.
[0031] Four spring clips are fixed in pairs to the inner walls of the two strip shells;
[0032] Two spheres are respectively disposed inside two strip shells. The spheres strike the spring sheet, and the spring sheet transmits the vibration to the strip shell.
[0033] The sphere is used to strike the shrapnel and generate vibration.
[0034] In one possible implementation, the two supports are located between the two sets of toothed discs and the ring network, respectively, and the two strip shells are located on the sides of the two toothed discs that are far apart from each other.
[0035] In one possible implementation, a square plate is fixed in the middle of the two shells on opposite sides, a spring is fixed in the opposite side of the two square plates, and a circular plate is fixed in the opposite end of the two springs away from the two square plates. The opposite side of the two circular plates contacts the surfaces of the two ring networks. The square plate drives the spring to rotate clockwise, the spring drives the circular plate to rotate clockwise, the circular plate follows the ring network to rotate clockwise, and the circular plate transmits vibration to the ring network.
[0036] Compared with the prior art, the beneficial effects of the present invention are:
[0037] (1) The present invention uses an air compressor body, a housing, a mesh cover, a motor, a round rod, a gear disc, a filter element column, a U-shaped frame, a long rod, and a gear with a chamfering plate. When the air compressor body is running, air enters the housing through the mesh gap of the mesh cover. The mesh cover filters large dust particles in the air. The output shaft of the motor drives the round rod to rotate forward, the round rod drives the gear disc to rotate forward, the gear disc drives the filter element column to rotate forward, and the filter element column filters dust, lint, and other impurities in the air. The tooth gap of the gear disc drives the gear to rotate in reverse, the gear drives the long rod to rotate in reverse, and the long rod drives the chamfering plate to rotate in reverse. The force of the chamfering plate when it rotates will be applied to the place where impurities accumulate, scraping the impurities from the surface of the filter element column, preventing the impurities from adhering firmly to the surface of the filter element column, which would cause the air compressor to need to be stopped frequently and the filter element to be manually disassembled and cleaned. This effectively improves the operating efficiency of the air compressor and the service life of the filter element column.
[0038] (2) The present invention, through the setting of the drying device, makes the ring frame one, ring frame two, disc shell and calcium chloride block cooperate with the ring network. Ring frame one drives ring frame two to rotate forward, ring frame two drives disc shell to rotate forward, disc shell drives calcium chloride block to rotate forward, disc shell drives the ring network to rotate forward, calcium chloride block and air come into contact over a large area, calcium chloride block adsorbs moisture in the air, prevents moisture in the air from entering the air compressor, and thus prevents the internal parts of the machine casing from rusting and being damaged.
[0039] (3) The present invention, through the setting of the drying device, makes the ring plate and the vertical plate cooperate with the sponge block. The ring plate drives the vertical plate to rotate forward, the vertical plate drives the sponge block to rotate forward, and the sponge block follows the gear plate to rotate forward. The sponge block intermittently wipes the lubricating oil onto the gear surface to prevent the disc housing transmission gear from jamming and causing the air compressor's self-cleaning to be unsmooth.
[0040] (4) The present invention uses a vibration device to make the support frame, strip shell and spring piece cooperate with the ball. The support frame drives the strip shell to rotate in the forward direction. The ball hits the spring piece. The spring piece transmits the vibration to the strip shell. The strip shell transmits the vibration to the filter column. During the rotation of the filter column, the loose impurities are shaken off, preventing the impurities from accumulating on the surface of the filter column and causing the chamfer plate to have a poor cleaning effect on the filter column.
[0041] (5) The present invention uses a vibration device to make the square plate and spring work together with the round plate. The square plate drives the spring to rotate in the forward direction, the spring drives the round plate to rotate in the forward direction, and the round plate follows the ring network to rotate in the forward direction. The round plate transmits the vibration to the ring network, preventing the mesh gaps of the ring network from being blocked by impurities, which would cause the calcium chloride block to have poor moisture absorption effect. Attached Figure Description
[0042] Figure 1 Overall diagram provided for embodiments of this application;
[0043] Figure 2 This is a schematic diagram of the internal structure of the outer shell provided in an embodiment of this application;
[0044] Figure 3 Overall back view provided for embodiments of this application;
[0045] Figure 4 A main body diagram of an air compressor provided in an embodiment of this application;
[0046] Figure 5 Internal component diagrams provided for embodiments of this application;
[0047] Figure 6 A cross-sectional view of the casing provided in an embodiment of this application;
[0048] Figure 7 Provided for the embodiments of this application Figure 6 Enlarged view of a portion of point A in the middle;
[0049] Figure 8 A diagram of a drying apparatus provided in an embodiment of this application;
[0050] Figure 9 Provided for the embodiments of this application Figure 8 Enlarged view of a section at point B in the middle;
[0051] Figure 10 A diagram of a vibration device provided in an embodiment of this application;
[0052] Figure 11 Provided for the embodiments of this application Figure 10 Enlarged view of a section at point C.
[0053] Explanation of key figure labels:
[0054] 01. Outer shell; 1. Air compressor body; 101. Air tank; 102. Wheels; 103. Base frame; 104. Control console; 105. Air pump; 2. Machine casing; 3. Mesh cover; 4. Motor; 5. Round rod; 6. Gear disc; 7. Filter column; 8. U-shaped frame; 9. Long rod; 10. Gear; 11. Chamfer plate; 12. Drying device; 121. Ring frame one; 122. Ring frame two; 123. Disc shell; 124. Calcium chloride block; 125. Ring mesh; 126. Ring plate; 127. Vertical plate; 128. Sponge block; 13. Vibration device; 131. Support frame; 132. Strip shell; 133. Spring; 134. Sphere; 135. Square plate; 136. Spring; 137. Round plate. Detailed Implementation
[0055] The specific embodiments of the present invention will now be described in detail with reference to the accompanying drawings, but it should be understood that the scope of protection of the present invention is not limited to the specific embodiments.
[0056] like Figure 1-11 As shown, one embodiment of the present invention is: a novel air compressor with a filter cleaning system, comprising: a housing 01, and four wheels 102 installed on the inner wall of the bottom of the housing 01;
[0057] Air compressor body 1 is installed on the inner wall of outer casing 01. Air compressor body 1 includes: air tank 101, base frame 103, control console 104 and four air compressors 105. Air tank 101 has an air outlet on the left side. Base frame 103 is fixed to the top surface of air tank 101. Control console 104 is fixed to the right side of the top surface of base frame 103. Four air compressors 105 are fixed to the top surface of base frame 103. Each of the four air compressors 105 has an air inlet on its front. Each of the four air compressors 105 has an air outlet pipe on its bottom surface. The air outlet pipes of the four air compressors 105 pass through and are fixed to the top surface of air tank 101. Air compressor body 1 has a housing 2 on its front. The back of housing 2 is fixedly connected to the front of base frame 103. Housing 2 is nested in the outer wall of the air inlet of the four air compressors 105.
[0058] Mesh cover 3 is fixedly installed on the front of the casing 2;
[0059] Motor 4 is fixedly installed on the right side of housing 2;
[0060] Round rod 5 is installed through and rotatably on the left and right sides of the inner wall of the housing 2. The right end of round rod 5 is fixedly connected to the left end of the output shaft of motor 4.
[0061] Two toothed discs 6 are fixed to the outer wall of the round rod 5;
[0062] The filter element column 7 is fixed on one side of the two toothed discs 6 that are close to each other, and the air inlets of the four air pumps 105 are located behind the filter element column 7.
[0063] U-shaped frame 8, the U-shaped frame 8 is fixed inside the top of the casing 2;
[0064] Long rod 9 is installed through and rotatably on the left and right sides of the inner wall of U-shaped frame 8;
[0065] Two gears 10 are fixed to the outer wall of the long rod 9, and the outer walls of the two gears 10 mesh with the outer walls of the two gear discs 6 respectively.
[0066] Several chamfering plates 11 are fixed to the outer wall of the long rod 9, and several chamfering plates 11 are located inside the U-shaped frame 8. Several chamfering plates 11 rotate to scrape off impurities from the surface of the filter column 7.
[0067] When using this air compressor, the wheels 102 allow the outer casing 01 to move. The outer casing 01 supports the air tank 101, which in turn supports the base frame 103. The base frame 103 supports the control console 104. The operator uses the control console 104 to start the air compressor 105. The air compressor 105 begins to draw in air and compresses the drawn-in air into the air tank 101. The air compressor body 1 operates, and air enters the casing 2 through the mesh openings of the mesh cover 3. The mesh cover 3 filters out large dust particles in the air. Simultaneously, the control console 104 starts the motor 4. The output shaft of the motor 4 begins to rotate slowly in the forward direction. The output shaft of the motor 4 drives the round rod 5 to rotate in the forward direction. The round rod 5 rotates in the forward direction within the casing 2, driving the gear disc 6 to rotate in the forward direction. The gear disc 6 drives the filter element column 7 to rotate in the forward direction. During the rotation of the filter element column 7... The filter column 7 comes into large contact with the intake air, filtering out dust, lint, and other impurities. At the same time, the teeth of the toothed disc 6 drive the gear 10 to reverse, which in turn drives the long rod 9 to reverse. The long rod 9 reverses within the U-shaped frame 8, and then drives the chamfer plate 11 to reverse. During this reversal, the chamfer plate 11 rotates and scrapes away impurities from the surface of the filter column 7. When stubborn impurities accumulate on the surface of the filter column 7, the force from the rotation of the chamfer plate 11 is applied to the accumulation point, scraping the impurities off the surface of the filter column 7. This avoids the problem of impurities adhering firmly to the surface of the filter column 7 during the air compressor's intake and compression process, which would otherwise require frequent shutdowns and manual disassembly and cleaning of the filter element. This effectively improves the operating efficiency of the air compressor and extends the service life of the filter column 7.
[0068] A drying device 12 is provided on one side of the two toothed discs 6 that are far apart from each other. The drying device 12 is used to dry the inside of the dryer housing 2. A vibration device 13 is provided on the outer wall of the drying device 12. The vibration device 13 is used to vibrate the filter column 7 so that impurities do not accumulate on the surface of the filter column 7.
[0069] Working principle:
[0070] When the air compressor body 1 is running, air enters the casing 2 through the mesh gaps of the mesh cover 3. The output shaft of the motor 4 slowly rotates forward, which drives the round rod 5 to rotate forward. The round rod 5 drives the gear disc 6 to rotate forward, and the gear disc 6 drives the filter column 7 to rotate forward. The filter column 7 filters dust, lint, and other impurities in the air. The tooth gaps of the gear disc 6 drive the gear 10 to rotate in reverse, which drives the long rod 9 to rotate in reverse. The long rod 9 drives the chamfer plate 11 to rotate in reverse. The force of the chamfer plate 11 when it rotates is applied to the place where impurities accumulate, scraping the impurities from the surface of the filter column 7.
[0071] like Figure 1-11 As shown, based on the above embodiments, in another embodiment of the present invention, the drying device 12 includes: two ring frames 121, which are respectively fixed on the sides of the two toothed discs 6 that are far apart from each other;
[0072] Two ring frames 122 are fixed to the opposite sides of two ring frames 121.
[0073] Two disc shells 123 are fixed to the opposite sides of the two ring frames 122.
[0074] Several calcium chloride blocks 124 are fixed to the inner walls of two disc shells 123 respectively;
[0075] Two ring nets 125 are respectively set between the outer wall of the two sets of ring frames 122 and the inner wall of the disk shell 123;
[0076] Ring frame 121 is respectively fitted on both sides of the round rod 5, ring frame 22 is respectively fitted on both sides of the round rod 5, the two disc shells 123 are respectively in sliding contact with the left and right sides of the inner wall of the machine shell 2 on the opposite sides, and several calcium chloride blocks 124 are used to dry the moisture inside the machine shell 2.
[0077] While the toothed disc 6 drives the filter element column 7 to rotate forward, the toothed disc 6 drives the ring frame 121 to rotate forward, the ring frame 121 drives the ring frame 122 to rotate forward, the ring frame 122 drives the disc shell 123 to rotate forward, the disc shell 123 drives the calcium chloride block 124 to rotate forward, and the disc shell 123 drives the ring mesh 125 to rotate forward. During the rotation, the ring mesh 125 blocks dust, lint and other impurities. During the rotation, the calcium chloride block 124 comes into large contact with the air and absorbs moisture in the air. This prevents moisture in the air from entering the air compressor during the air intake and compression process, which could lead to corrosion and damage to the internal parts of the casing 2.
[0078] A ring plate 126 is fixed to the outer wall of each of the two ring frames 122. A vertical plate 127 is fixed to the outer wall of each of the two ring plates 126. A sponge block 128 is installed on the side of the two vertical plates 127 that are close to each other. The two sponge blocks 128 are filled with lubricating oil and contact the side of the two toothed discs 6 that are far apart from each other.
[0079] While the first ring frame 121 drives the second ring frame 122 to rotate forward, the first ring frame 121 drives the ring plate 126 to rotate forward, the ring plate 126 drives the vertical plate 127 to rotate forward, the vertical plate 127 drives the sponge block 128 to rotate forward, and the sponge block 128 rotates forward along with the gear disc 6. During the rotation, the sponge block 128 intermittently wipes the lubricating oil onto the surface of the gear 10, thereby avoiding the problem of the air compressor's self-cleaning not being smooth due to the jamming of the transmission gear 10 of the disc housing 123 during the air intake and compression process.
[0080] The vibration device 13 includes two supports 131, which are respectively fixed to the outer walls of two ring frames 122;
[0081] Two strip shells 132 are respectively fixed to the ends of the two sets of supports 131 away from the ring frame 122;
[0082] Four spring clips 133 are fixed in pairs to the inner walls of the two strip shells 132;
[0083] Two spheres 134 are respectively disposed inside the two strip shells 132;
[0084] Two supports 131 are located between the two sets of toothed discs 6 and the ring net 125 respectively, two strip shells 132 are located on the side of the two toothed discs 6 that are far apart from each other, and the ball 134 is used to strike the spring 133 to generate vibration;
[0085] While the ring plate 126 drives the vertical plate 127 to rotate clockwise, the ring plate 126 drives the support frame 131 to rotate clockwise, the support frame 131 drives the strip shell 132 to rotate clockwise, the strip shell 132 drives the spring piece 133 to rotate clockwise, and at the same time, the ball 134 rolls in the strip shell 132 and hits the spring piece 133. The spring piece 133 transmits the vibration to the strip shell 132, the strip shell 132 transmits the vibration to the toothed disc 6, and the toothed disc 6 transmits the vibration to the filter element column 7. During the rotation, the filter element column 7 shakes off the loose impurities, thereby avoiding the problem that the chamfered plate 11 has a poor cleaning effect on the filter element column 7 due to the loose accumulation of impurities on the surface of the filter element column 7 during the air compressor's intake and compression process.
[0086] While the strip shell 132 drives the spring 133 to rotate clockwise, the strip shell 132 drives the square plate 135 to rotate clockwise, the square plate 135 drives the spring 136 to rotate clockwise, the spring 136 drives the round plate 137 to rotate clockwise, and the round plate 137 follows the ring mesh 125 to rotate clockwise. The strip shell 132 transmits the vibration to the square plate 135, and the round plate 137 transmits the vibration to the ring mesh 125, thereby avoiding the problem that the mesh gaps of the ring mesh 125 are blocked with impurities during the air compressor's intake and compression process, which causes poor moisture absorption of the calcium chloride block 124.
[0087] A square plate 135 is fixed in the middle of the two strip shells 132 on the side away from each other. A spring 136 is fixed in the side of the two square plates 135 on the side away from each other. A round plate 137 is fixed in the end of the two springs 136 away from the two square plates 135. The side of the two round plates 137 away from each other is in contact with the surface of the two ring nets 125.
[0088] Working principle: The toothed disc 6 drives the ring frame 121 to rotate forward, the ring frame 121 drives the ring frame 2 to rotate forward, the ring frame 2 to rotate forward, the disc shell 123 to rotate forward, the disc shell 123 drives the calcium chloride block 124 to rotate forward, the disc shell 123 drives the ring mesh 125 to rotate forward. The ring mesh 125 blocks dust, lint and other impurities, while the calcium chloride block 124 has a large contact area with the air and absorbs moisture from the air.
[0089] Ring frame 121 drives ring plate 126 to rotate forward, ring plate 126 drives vertical plate 127 to rotate forward, vertical plate 127 drives sponge block 128 to rotate forward, sponge block 128 follows gear plate 6 to rotate forward, sponge block 128 intermittently wipes lubricating oil onto the surface of gear 10.
[0090] The ring plate 126 drives the support frame 131 to rotate clockwise, the support frame 131 drives the strip shell 132 to rotate clockwise, the strip shell 132 drives the spring piece 133 to rotate clockwise, the ball 134 rolls in the strip shell 132, the ball 134 hits the spring piece 133, the spring piece 133 transmits the vibration to the strip shell 132, the strip shell 132 transmits the vibration to the filter element column 7, and the filter element column 7 shakes off the loose impurities during the rotation process;
[0091] The strip shell 132 drives the square plate 135 to rotate clockwise, the square plate 135 drives the spring 136 to rotate clockwise, the spring 136 drives the round plate 137 to rotate clockwise, and the round plate 137 follows the ring mesh 125 to rotate clockwise. The strip shell 132 transmits the vibration to the square plate 135, and the round plate 137 transmits the vibration to the ring mesh 125.
[0092] It will be apparent to those skilled in the art that the present invention is not limited to the details of the exemplary embodiments described above, and that the invention can be implemented in other specific forms without departing from its spirit or essential characteristics. Therefore, the embodiments should be considered in all respects as exemplary and non-limiting, and the scope of the invention is defined by the appended claims rather than the foregoing description. Thus, all variations falling within the meaning and scope of equivalents of the claims are intended to be included within the present invention. No reference numerals in the claims should be construed as limiting the scope of the claims.
[0093] Furthermore, it should be understood that although this specification describes embodiments, not every embodiment contains only one independent technical solution. This narrative style is merely for clarity. Those skilled in the art should consider the specification as a whole, and the technical solutions in each embodiment can also be appropriately combined to form other embodiments that can be understood by those skilled in the art.
Claims
1. A novel air compressor with a filter cleaning system, characterized in that, include: The outer casing (01) has four wheels (102) mounted on the inner wall of its bottom. Air compressor body (1), the air compressor body (1) is installed on the inner wall of the outer shell (01), and the front of the air compressor body (1) is provided with a shell (2). The mesh cover (3) is fixedly installed on the front of the housing (2); Motor (4), which is fixedly installed on the right side of the housing (2); A round rod (5) is installed through and rotatably on the left and right sides of the inner wall of the housing (2). The right end of the round rod (5) is fixedly connected to the left end of the output shaft of the motor (4). Two toothed discs (6) are fixed to the outer wall of the round rod (5); Filter column (7), the filter column (7) is fixed on one side of the two toothed discs (6) that are close to each other; U-shaped frame (8), the U-shaped frame (8) is fixed to the top of the inside of the housing (2); A long rod (9) is installed through and rotatably on the left and right sides of the inner wall of the U-shaped frame (8); Two gears (10) are fixed to the outer wall of the long rod (9), and the outer walls of the two gears (10) mesh with the outer walls of the two gear discs (6); Several chamfer plates (11) are fixed to the outer wall of the long rod (9) respectively, and the chamfer plates (11) are located inside the U-shaped frame (8); Several of the chamfered plates (11) rotate to scrape away impurities from the surface of the filter element column (7); A drying device (12) is provided on one side of the two toothed discs (6) that are far apart from each other. The drying device (12) is used to dry the inside of the machine casing (2). The outer wall of the drying device (12) is provided with a vibration device (13), which is used to vibrate the filter column (7) so that impurities do not accumulate on the surface of the filter column (7); The drying device (12) includes: two ring frames (121), which are respectively fixed on the opposite sides of the two toothed discs (6); Two ring frames (122) are fixed to the two ring frames (121) on opposite sides of each other; Two disc shells (123) are respectively fixed on opposite sides of two ring frames (122); Several calcium chloride blocks (124) are fixed to the inner walls of two disc shells (123); Two ring nets (125) are respectively disposed between the outer wall of the two sets of ring frames (122) and the inner wall of the disk shell (123); Several of the calcium chloride blocks (124) are used to dry the moisture inside the housing (2).
2. A novel air compressor with a filter cleaning system according to claim 1, characterized in that, The air compressor body (1) includes: an air tank (101), a base frame (103), a control console (104), and four air pumps (105). The air tank (101) has an air outlet on its left side. The base frame (103) is fixed to the top surface of the air tank (101). The control console (104) is fixedly installed on the right side of the top surface of the base frame (103). The four air pumps (105) are fixedly installed on the top surface of the base frame (103). Each of the four air pumps (105) has an air inlet on its front side. Each of the four air pumps (105) has an air outlet pipe on its bottom surface. The air outlet pipes of the four air pumps (105) pass through and are fixed to the top surface of the air tank (101).
3. A novel air compressor with a filter cleaning system according to claim 2, characterized in that, The back of the housing (2) is fixedly connected to the front of the base frame (103). The housing (2) is nested on the outer wall of the air inlet of the four air compressors (105). The air inlets of the four air compressors (105) are located behind the filter column (7).
4. A novel air compressor with a filter cleaning system according to claim 3, characterized in that, The first ring frame (121) is respectively fitted on both sides of the round rod (5), and the second ring frame (122) is respectively fitted on both sides of the round rod (5). The two disc shells (123) are respectively in sliding contact with the left and right sides of the inner wall of the machine shell (2) on opposite sides.
5. A novel air compressor with a filter cleaning system according to claim 4, characterized in that, A ring plate (126) is fixed to the outer wall of each of the two ring frames (122), and a vertical plate (127) is fixed to the outer wall of each of the two ring plates (126). A sponge block (128) is installed on the side of each of the two vertical plates (127) that is close to each other. The two sponge blocks (128) are filled with lubricating oil, and the two sponge blocks (128) are in contact with the side of each of the two toothed discs (6) that is far away from each other.
6. A novel air compressor with a filter cleaning system according to claim 5, characterized in that, The vibration device (13) includes: two supports (131), which are respectively fixed to the outer walls of two ring frames (122); Two strip shells (132) are respectively fixed to one end of the two sets of supports (131) away from the second ring frame (122); Four spring clips (133) are fixed in pairs to the inner walls of the two strip shells (132); Two spheres (134) are respectively disposed inside the two shells (132); The sphere (134) is used to strike the shrapnel (133) to generate vibration.
7. A novel air compressor with a filter cleaning system according to claim 6, characterized in that, The two supports (131) are located between the two sets of toothed discs (6) and the ring network (125), respectively, and the two strip shells (132) are located on the side of the two toothed discs (6) that are far apart from each other.
8. A novel air compressor with a filter cleaning system according to claim 7, characterized in that, A square plate (135) is fixed in the middle of the two strip shells (132) on the side away from each other. A spring (136) is fixed in the side of the two square plates (135) on the side away from each other. A round plate (137) is fixed in the end of the two springs (136) away from the two square plates (135). The side of the two round plates (137) away from each other is in contact with the surface of the two ring nets (125).