CN115596721A

CN115596721A - Air inlet filtering device for air compressor

Info

Publication number: CN115596721A
Application number: CN202211458891.6A
Authority: CN
Inventors: 黄贤友; 李林燕
Original assignee: Yilang Intelligent Technology Nantong Co ltd
Current assignee: Yilang Intelligent Technology Nantong Co ltd
Priority date: 2022-11-18
Filing date: 2022-11-18
Publication date: 2023-01-13
Anticipated expiration: 2042-11-18
Also published as: CN115596721B

Abstract

The invention discloses an inlet air filtering device for an air compressor, which belongs to the technical field of air compressors and comprises an air compressor body, an air inlet box, an impurity cleaning mechanism, a particle rotating and filtering mechanism, a multistage filtering mechanism and an inlet air adjusting mechanism of a filtering and vibrating mechanism, wherein the air outlet end of the air inlet box is positioned on the air compressor body, a mesh-shaped air inlet window is arranged on the air inlet box, a cleaning and moving mechanism is arranged in the air inlet window, the impurity cleaning mechanism is positioned on the cleaning and moving mechanism, the particle rotating and filtering mechanism is arranged in the air inlet box and is rotationally connected with the air inlet box, the multistage filtering mechanism is positioned in the air inlet box, the filtering and vibrating mechanism is positioned in the air inlet box and is connected with the multistage filtering mechanism, a gas collecting hood is arranged in the air inlet box, an air outlet pipe is arranged on the gas collecting hood, and the inlet air adjusting mechanism is positioned on the air outlet pipe. The invention can realize the filtration of air entering the air compressor body.

Description

Air inlet filtering device for air compressor

Technical Field

The invention belongs to the technical field of air compressors, and particularly relates to an intake air filtering device for an air compressor.

Background

An air compressor is a device for compressing gas. The air compressor is constructed similarly to a water pump. Most air compressors are reciprocating piston type, rotating vane or rotating screw. Centrifugal compressors are very large applications. In the actual industrial production process, most factories are built near industrial centralized areas and highways, and in addition, in the building engineering, power plants and the like, the air quality of the industrial areas is poor, and more dust is generated. The harm of particle impurity to high-speed moving air compressor machine in the air is very big, must set up air filter at the air suction inlet, and the filter equipment of current air compressor unit from the area, generally all direct mount is on the admission line of air compressor machine, because can not self-cleaning, and the admission port of admission line is towards the top, and this can make air cleaner pressure differential rise fast, need frequently to change filter core, filter screen, otherwise, lead to the air compressor machine very easily and in service the air input to appear and reduce, impeller laying dust scheduling problem.

Chinese patent as publication No. CN112253430B discloses an air inlet filtering device for an air compressor, relates to the technical field of air compressors, and comprises an air compressor, wherein the top ends of two sides of the air compressor are respectively provided with an air inlet and an air outlet, one side of the air inlet is provided with an air duct, the insides of two ends of the air duct are both provided with clamping mechanisms, two sides of the air duct are respectively provided with an air inlet mechanism and a rubber sleeve, and the inside of the air inlet mechanism is provided with a filtering mechanism. According to the invention, through the arrangement of the air inlet mechanism, the filtering mechanism and the clamping mechanism, the air inlet mechanism comprises the internal thread and the air inlet cover, the filtering mechanism comprises the rotating handle and the filtering net, the clamping mechanism comprises the telescopic groove, the telescopic spring, the spherical clamping block, the limiting groove, the spherical clamping groove and the telescopic block, the external thread matched with the internal thread is arranged on the outer wall of the filtering net, so that the filtering net can be fixed in the air inlet cover by rotating the rotating handle, and the mounting and dismounting of the filtering net can be facilitated.

However, the following problems still exist in the prior art, firstly, when air entering the air compressor is filtered, the filtering effect is not good and the air filter screen cannot be cleaned during filtering, so that the air filter screen is blocked after long-time filtering, the subsequent air filtering effect is affected, secondly, the temperature of the gas entering the air compressor body cannot be adjusted, and the air compressor body is easily worn and damaged when the air compressor is used in different temperature environments.

Disclosure of Invention

The embodiment of the invention provides an intake air filtering device for an air compressor, which aims to solve the problems in the prior art.

The embodiment of the invention adopts the following technical scheme: the utility model provides a filter equipment admits air for air compressor machine, includes the air compressor machine body, still includes inlet box, debris clearance mechanism, granule rotation filter mechanism, multistage filter mechanism, filters vibrations mechanism inlet adjustment mechanism, the end of giving vent to anger of inlet box is located the air compressor machine body, be equipped with netted air inlet window on the inlet box, be equipped with the clearance moving mechanism in the air inlet window, debris clearance mechanism is located clearance moving mechanism and debris clearance mechanism and inlet window sliding fit, granule rotation filter mechanism sets up in the inlet box and granule rotation filter mechanism rotates with the inlet box and is connected, multistage filter mechanism is located the inlet box and multistage filter mechanism and inlet box sliding fit, it is located the inlet box and filters vibrations mechanism and is connected with multistage filter mechanism to filter vibrations mechanism, be equipped with the gas collecting channel in the inlet box, be equipped with the outlet duct on the gas collecting channel, inlet adjustment mechanism is located the outlet duct.

Further, clearance moving mechanism includes moving motor, movable plate, two removal belts and four removal wheels, four remove the wheel and rotate respectively and connect in the both ends of air inlet window, two remove the belt cover respectively and establish on four removal wheels, moving motor is located air inlet window and moving motor's main shaft is connected rather than one removal wheel transmission, the both ends of movable plate are connected with two removal belts respectively, the both ends of movable plate and the inner wall sliding fit of air inlet window.

Furthermore, debris clearance mechanism includes biax motor, sliding plate, driving motor, drive shaft, two eccentric wheels, two slide bars and a plurality of clearance brushes, two the slide bar symmetry sets up on the sliding plate and two slide bars and movable plate sliding fit, biax motor is located the movable plate, two the eccentric wheels respectively eccentric settings is on biax motor's main shaft, be equipped with on the sliding plate with two sliding plate conflict complex two touch panel, the drive shaft rotates to be connected on the sliding plate, driving motor is located the sliding plate and driving motor's main shaft is connected with the drive shaft transmission, a plurality of clearance brushes equidistant setting and the clearance brushes correspond with netted air inlet window in the drive shaft, air inlet window is located the below of sliding plate and is equipped with the collection box.

Furthermore, the particle rotating and filtering mechanism comprises a rotating filtering component and a dust moving component, the rotating filtering component is positioned in the air inlet box and is rotationally connected with the air inlet box, the dust moving component is arranged on the rotating filtering component and is in sliding fit with the rotating filtering component, and a dust collecting box is arranged below the air inlet box, which is positioned below the rotating filtering component.

Furthermore, it includes rotation motor, first rotor plate, rotating turret, installing frame, two axis of rotation, two second rotor plates and two rotation filter plates to rotate filtering component, it is located the top of air inlet box to rotate the motor, the installing frame is located the interior top of air inlet box, first rotor plate is connected with the main shaft that rotates the motor, two the top of axis of rotation rotates respectively and connects on the installing frame, two the second rotor plate sets up respectively at the top of two axis of rotation, the one end of rotating turret rotates with first rotor plate and is connected, the other end and the two second rotor plates of rotating turret rotate and are connected, two it sets up respectively in two axis of rotation to rotate the filter plate.

Furthermore, the dust moving assembly comprises a moving cleaning brush and two moving sliding tables, the two moving sliding tables are symmetrically arranged at one end of the rotating filter plate and penetrate through the rotating shaft, and two ends of the moving cleaning brush are connected with moving ends of the two moving sliding tables respectively.

Furthermore, the multistage filtering mechanism comprises a first-stage filtering screen plate, a second-stage filtering screen plate and a third-stage filtering screen plate, wherein the first-stage filtering screen plate, the second-stage filtering screen plate and the third-stage filtering screen plate are arranged in the air inlet box at equal intervals, a mounting seat for mounting the first-stage filtering screen plate, the second-stage filtering screen plate and the third-stage filtering screen plate is arranged in the air inlet box, and meshes of the first-stage filtering screen plate, the second-stage filtering screen plate and the third-stage filtering screen plate are gradually reduced.

Furthermore, the first-stage filter screen plate, the second-stage filter screen plate and the third-stage filter screen plate are in sliding fit with the corresponding mounting seats.

Further, it includes work motor, loading board, work axle, connecting plate and a plurality of vibrations spring to filter vibrations mechanism, be equipped with the mounting groove in the inlet box, the both ends of loading board set up respectively on the mount pad that is located one-level filter screen board department, and the one end symmetry of a plurality of vibrations springs sets up on the mount pad, and the other end of a plurality of vibrations springs is connected with the lateral wall of mounting groove, the both ends of work axle are rotated and are connected on the inlet box, and the intermediate position of work axle is the knee, the one end and the knee fixed connection of connecting plate, the other end and the loading board of connecting plate are rotated and are connected, the work motor is located on the outer wall of inlet box and the work motor is connected with the work axle transmission.

Furthermore, the air inlet adjusting mechanism comprises a refrigerating fan and a heating fan, and the refrigerating fan and the heating fan are symmetrically arranged on the side walls of the two ends of the air inlet pipe.

The embodiment of the invention adopts at least one technical scheme to achieve the following beneficial effects:

when the air compressor is required to clean impurities in the air inlet window, the movable motor works to drive the movable wheel to rotate on the air inlet window, so that the movable belt is driven to rotate on the other movable wheel, the movable wheel rotates to drive the movable plate to move up and down, the movable plate moves up and down to drive the cleaning brushes to move to the latticed positions of the air inlet window, at the moment, the double-shaft motor works to drive the two eccentric wheels to rotate on the two abutting plates, the positions of the abutting plates are moved to drive the sliding plate to move on the movable plate through the two sliding rods, the positions of the cleaning brushes are moved to the gaps of the air inlet window, the driving shaft is driven to rotate on the sliding plate through the driving motor, so that the cleaning brushes are driven to clean the impurities on the air inlet window into the collecting box, the cleaning brushes are driven to move up and down through the operation of the movable motor when cleaning is performed, the operation of the cleaning brushes can prevent the impurities on the air inlet window from entering the air compressor to block, and the air compressor can prevent the impurities on the air compressor from entering the air compressor when the air compressor.

Secondly, in the prior art, after long-time use, a filter screen can be blocked, and the subsequent air filtering effect is influenced.

Third, the temperature of the gas entering the air compressor body can not be adjusted in the prior art, and the air compressor body is easily abraded and damaged when the air compressor is used.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a partial cross-sectional view of the present invention;

FIG. 4 is a first schematic perspective view of the sundries cleaning mechanism and the cleaning moving mechanism of the invention;

FIG. 5 is a schematic perspective view of the sundries cleaning mechanism and the cleaning moving mechanism of the invention;

FIG. 6 is an enlarged view at A in FIG. 5;

FIG. 7 is a schematic perspective view of a particle rotating filter mechanism according to the present invention;

FIG. 8 is a perspective view of a rotary filter assembly according to the present invention;

FIG. 9 is a schematic perspective view of the filtering and vibrating mechanism of the present invention;

FIG. 10 is a partial perspective view of the present invention;

reference numerals

The air inlet box 1, the air inlet window 11, the air collecting hood 12, the air outlet pipe 13, the sundries cleaning mechanism 2, the double-shaft motor 21, the sliding plate 22, the driving motor 23, the driving shaft 24, the eccentric wheel 25, the sliding rod 26, the cleaning brush 27, the abutting plate 28, the particle rotating and filtering mechanism 3, the rotating and filtering component 31, the rotating motor 311, the first rotating plate 312, the rotating frame 313, the mounting frame 314, the rotating shaft 315, the second rotating plate 316, the rotating and filtering plate 317, the dust moving component 32, the moving and cleaning brush 321, the moving sliding table 322, the multi-stage filtering mechanism 4, the first-stage filtering screen plate 41, the second-stage filtering screen plate 42, the third-stage filtering screen plate 43, the mounting seat 44, the filtering and vibrating mechanism 5, the working motor 51, the bearing plate 52, the working shaft 53, the connecting shaft 54, the connecting plate 55, the vibrating spring 56, the bent rod 57, the air inlet adjusting mechanism 6, the refrigerating fan 61, the heating fan 62, the cleaning and moving mechanism 7, the moving motor 71, the moving plate 72, the moving belt 73, the moving wheel 74, the collecting box 8 and the dust collecting box 9.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

Referring to fig. 1 to 10, an embodiment of the present invention provides an intake air filtering device for an air compressor, including an air compressor body, further including an intake box 1, an impurity cleaning mechanism 2, a particle rotation filtering mechanism 3, a multi-stage filtering mechanism 4, and a filtering vibration mechanism 5, where an air outlet end of the intake box 1 is located on the air compressor body, the intake box 1 is provided with a mesh-shaped intake window 11, the intake window 11 is provided with a cleaning moving mechanism 7, the impurity cleaning mechanism 2 is located on the cleaning moving mechanism 7, the impurity cleaning mechanism 2 is in sliding fit with the intake window 11, the particle rotation filtering mechanism 3 is disposed in the intake box 1, the particle rotation filtering mechanism 3 is rotatably connected with the intake box 1, the multi-stage filtering mechanism 4 is located in the intake box 1, the multi-stage filtering mechanism 4 is in sliding fit with the intake box 1, the filtering vibration mechanism 5 is located in the intake box 1, the filtering vibration mechanism 5 is connected with the multi-stage filtering mechanism 4, the intake box 1 is provided with a gas collecting hood 12, the air outlet 13 is located on the intake hood 12, and the air outlet adjusting mechanism 6 is located on the multi-stage filtering mechanism 13. When air is fed into the air compressor body, external air enters the air inlet box 1 through the air inlet window 11, when the air enters the air inlet window 11, the mesh-type air inlet window 11 can intercept flocculent sundries and strip-shaped sundries in the air, the sundries are placed in the air inlet window 11, the sundries are moved up and down on the air inlet window 11 through the cleaning and moving mechanism 7, the sundries on the air inlet window 11 are cleaned, the air inlet window 11 is prevented from being blocked by large sundries, the air entering the air compressor body is influenced, the large sundries can also be intercepted, the large particle impurities in the air are filtered through the dust rotating and filtering component 31, the filtered and intercepted particle impurities can be cleaned, the impurities and dust in the air can be further cleaned through the multistage filtering mechanism 4, the air entering the air compressor body does not contain dust and impurities, the damage to the air compressor body cannot be caused, the temperature of the air entering the air compressor body can be adjusted by the air inlet adjusting mechanism 6, and the air compressor body can be used in different temperature environments.

Specifically, the cleaning moving mechanism 7 includes a moving motor 71, a moving plate 72, two moving belts 73 and four moving wheels 74, the four moving wheels 74 are respectively rotatably connected in two ends of the air inlet window 11, the two moving belts 73 are respectively sleeved on the four moving wheels 74, the moving motor 71 is located on the air inlet window 11, a main shaft of the moving motor 71 is in transmission connection with one of the moving wheels 74, two ends of the moving plate 72 are respectively connected with the two moving belts 73, and two ends of the moving plate 72 are in sliding fit with an inner wall of the air inlet window 11; the sundries cleaning mechanism 2 comprises a double-shaft motor 21, a sliding plate 22, a driving motor 23, a driving shaft 24, two eccentric wheels 25, two sliding rods 26 and a plurality of cleaning brushes 27, wherein the two sliding rods 26 are symmetrically arranged on the sliding plate 22, the two sliding rods 26 are in sliding fit with a moving plate 72, the double-shaft motor 21 is positioned on the moving plate 72, the two eccentric wheels 25 are respectively and eccentrically arranged on a main shaft of the double-shaft motor 21, the sliding plate 22 is provided with two contact plates 28 which are in contact fit with the two sliding plates 22, the driving shaft 24 is rotatably connected to the sliding plate 22, the driving motor 23 is positioned on the sliding plate 22, the main shaft of the driving motor 23 is in transmission connection with the driving shaft 24, the cleaning brushes 27 are equidistantly arranged on the driving shaft 24, the cleaning brushes 27 correspond to mesh-shaped air inlet windows 11, and the air inlet windows 11 are positioned below the collecting box 8 of the sliding plate 22. When sundries in the air inlet window 11 need to be cleaned, the movable motor 71 works to drive the movable wheel 74 to rotate on the air inlet window 11, so as to drive the movable belt 73 to rotate on the other movable wheel 74, the movable wheel 74 rotates to drive the movable plate 72 to move up and down, the movable plate 72 moves up and down to drive the cleaning brushes 27 to move to the grid-shaped part of the air inlet window 11, at the moment, the double-shaft motor 21 works to drive the two eccentric wheels 25 to rotate on the two touch plates 28, so that the positions of the touch plates 28 are moved to drive the sliding plate 22 to move on the movable plate 72 through the two sliding rods 26, the positions of the cleaning brushes 27 are moved to the gap of the air inlet window 11, the driving shaft 24 is driven to rotate on the sliding plate 22 through the work of the driving motor 23, so as to drive the cleaning brushes 27 to clean the sundries on the air inlet window 11 into the air collecting box 8, the cleaning brushes 27 are driven through the work of the movable motor 71 to move up and down during cleaning, the cleaning operation can be performed on different positions on the air inlet window 11, and the air compressor can be prevented from entering the air compressor 11, and the air compressor can also prevent the air compressor from blocking caused by the air from entering the air compressor.

Specifically, the particle rotating and filtering mechanism 3 comprises a rotating and filtering component 31 and a dust moving component 32, the rotating and filtering component 31 is located in the air inlet box 1, the rotating and filtering component 31 is rotatably connected with the air inlet box 1, the dust moving component 32 is arranged on the rotating and filtering component 31, the rotating and filtering component 31 is in sliding fit with the dust moving component 32, and the dust collecting box 9 is arranged below the rotating and filtering component 31 of the air inlet box 1. The work of the rotary filtering component 31 can filter large particle impurities in the air, and the dust intercepted on the rotary filtering component 31 is cleaned to the dust collecting box 9 through the work of the dust moving component 32, so that the filtering and cleaning work of the large particle impurities in the air is realized.

Specifically, the rotary filter assembly 31 includes a rotary motor 311, a first rotary plate 312, a rotary frame 313, a mounting frame 314, two rotary shafts 315, two second rotary plates 316 and two rotary filter plates 317, the rotary motor 311 is located at the top of the air intake box 1, the mounting frame 314 is located at the inner top of the air intake box 1, the first rotary plate 312 is connected to a main shaft of the rotary motor 311, the tops of the two rotary shafts 315 are respectively rotatably connected to the mounting frame 314, the two second rotary plates 316 are respectively disposed at the tops of the two rotary shafts 315, one end of the rotary frame 313 is rotatably connected to the first rotary plate 312, the other end of the rotary frame 313 is rotatably connected to the two second rotary plates 316, and the two rotary filter plates are respectively disposed on the two rotary shafts 315. When large-particle impurities in the air are filtered, the rotating motor 311 works to drive the first rotating plate 312 to rotate so as to drive the rotating frame 313 to rotate, the rotating frame 313 rotates to drive the two second rotating plates 316 to rotate simultaneously, the two second rotating plates 316 rotate to drive the two rotating shafts 315 to rotate in the same direction on the installation frame 314, the two rotating shafts 315 rotate to drive the two rotating filter plates 317 to rotate to filter large-particle impurities in the air passing through the air inlet box 1, the large-particle impurities are intercepted in meshes of the rotating filter plates 317, and the air rotates to generate convolution due to the rotation of the rotating filter plates 317, so that when dust in the air is filtered, the dust in the air can move on the rotating filter plates 317 for multiple times, the rotating filter plates 317 can filter the large-particle impurities in the air for multiple times, and the large-particle impurities in the air can be filtered completely.

Specifically, the dust moving assembly 32 includes a moving cleaning brush 321 and two moving sliding tables 322, the two moving sliding tables 322 are symmetrically disposed at one end of the rotating filter plate 317 and are disposed through the rotating shaft 315, and two ends of the moving cleaning brush 321 are respectively connected to moving ends of the two moving sliding tables 322. When rotating filter 317 and filtering big particulate matter in to the air, big particulate matter can cause the jam that rotates filter 317, so need clean the mesh on rotating filter 317, two removal slip table 322 simultaneous workings drive and remove about the cleaning brush 321 and remove this moment, remove cleaning brush 321 and remove and clear up to collecting in the box 8 big particulate matter on will rotating filter 317, big particulate matter on rotating filter 317 clears up the back, can ensure follow-up when filtering the big particulate matter of air, can not take place to block up the filterable effect of influence.

Specifically, the multistage filtering mechanism 4 comprises a first-stage filtering screen plate 41, a second-stage filtering screen plate 42 and a third-stage filtering screen plate 43, wherein the first-stage filtering screen plate 41, the second-stage filtering screen plate 42 and the third-stage filtering screen plate 43 are arranged in the air inlet box 1 at equal intervals, a mounting seat 44 for mounting the first-stage filtering screen plate 41, the second-stage filtering screen plate 42 and the third-stage filtering screen plate 43 is arranged in the air inlet box 1, and meshes of the first-stage filtering screen plate 41, the second-stage filtering screen plate 42 and the third-stage filtering screen plate 43 are gradually reduced; the impurities in the air can be filtered for a plurality of times through the first-stage filter screen plate 41, the second-stage filter screen plate 42 and the third-stage filter screen plate 43, and the impurities in the air are filtered completely, so that the air is conveyed to the air compressor body for use.

Specifically, the first-stage filter screen plate 41, the second-stage filter screen plate 42 and the third-stage filter screen plate 43 are in sliding fit with the corresponding mounting seats 44; after long-time use, the first-stage filter screen plate 41, the second-stage filter screen plate 42 and the third-stage filter screen plate 43 are blocked, abraded and damaged, and at the moment, the first-stage filter screen plate 41, the second-stage filter screen plate 42 and the third-stage filter screen plate 43 can be detached from the air inlet box 1 for replacement.

Specifically, filter vibrations mechanism 5 and include work motor 51, loading board 52, working shaft 53, connecting axle 54, connecting plate 55 and a plurality of vibrations spring 56, be equipped with the mounting groove in the air inlet box 1, the both ends of loading board 52 set up respectively on the mount pad 44 that is located one-level filter screen plate 41 department, and the one end symmetry of a plurality of vibrations springs 56 sets up on mount pad 44, and the other end of a plurality of vibrations springs 56 is connected with the lateral wall of mounting groove, the both ends of working shaft 53 are rotated and are connected on air inlet box 1, and the intermediate position of air inlet shaft is knee 57, the one end and the knee 57 fixed connection of connecting plate 55, the other end and the loading board 52 of connecting plate 55 rotate to be connected, work motor 51 is located air inlet box 1's outer wall and work motor 51 is connected with working shaft 53 transmission. Because the impurities filtered by the primary filter screen plate 41 are large, the dust on the primary filter screen plate 41 needs to be cleaned, at the moment, the working motor 51 works to drive the working shaft 53 to rotate in the air inlet box 1, the working shaft 53 rotates to drive the bent rod 57 to rotate so as to enable the connecting plate 55 to rotate, the connecting plate 55 rotates to drive the bearing plate 52 to move left and right so as to enable the two mounting seats 44 to drive the primary filter screen plate 41 to shake left and right through the plurality of shaking springs 56 to shake and vibrate, the impurities in the meshes of the primary filter screen plate 41 are shaken out, the blockage of the primary filter screen plate 41 is prevented from being caused, the air inflow of air entering the air compressor body is reduced, and the use of the air compressor is influenced.

Specifically, the air inlet adjusting mechanism 6 includes a cooling fan 61 and a heating fan 62, and the cooling fan 61 and the heating fan 62 are symmetrically disposed on the side walls of the two ends of the air inlet pipe 13. Air conditioning can take place for refrigeration fan 61, and air conditioning is made in the work of refrigeration fan 61 when summer and is carried to this internal air compressor machine, can dispel the heat to the air compressor machine body and prevent air compressor machine body high temperature, and steam can take place for the work of heating fan 62, and air conditioning 62 works when winter and makes steam and carry to this internal air compressor machine for in the better start-up of winter air compressor machine body and work, can not cause the damage of air compressor machine body because the temperature is low.

The above description is only an example of the present invention and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims

1. An inlet air filtering device for an air compressor comprises an air compressor body and is characterized by further comprising an inlet air box (1), an impurity cleaning mechanism (2), a particle rotating and filtering mechanism (3), a multi-stage filtering mechanism (4) and a filtering and vibrating mechanism (5), and an inlet air adjusting mechanism (6), the air outlet end of the air inlet box (1) is positioned on the air compressor body, the air inlet box (1) is provided with a reticular air inlet window (11), a cleaning moving mechanism (7) is arranged in the air inlet window (11), the sundries cleaning mechanism (2) is positioned on the cleaning moving mechanism (7) and the sundries cleaning mechanism (2) is in sliding fit with the air inlet window (11), the particle rotating and filtering mechanism (3) is arranged in the air inlet box (1), the particle rotating and filtering mechanism (3) is rotationally connected with the air inlet box (1), the multi-stage filtering mechanism (4) is positioned in the air inlet box (1), the multi-stage filtering mechanism (4) is in sliding fit with the air inlet box (1), the filtering vibration mechanism (5) is positioned in the air inlet box (1), the filtering vibration mechanism (5) is connected with the multi-stage filtering mechanism (4), a gas-collecting hood (12) is arranged in the gas inlet box (1), a gas outlet pipe (13) is arranged on the gas-collecting hood (12), the air inlet adjusting mechanism (6) is positioned on the air outlet pipe (13).

2. The intake air filtering device for the air compressor as claimed in claim 1, wherein: clearance moving mechanism (7) are including moving motor (71), movable plate (72), two removal belts (73) and four removal wheels (74), four remove wheel (74) and rotate respectively and connect in the both ends of air inlet window (11), two remove belt (73) and overlap respectively and establish on four removal wheels (74), moving motor (71) are located air inlet window (11) and the main shaft of moving motor (71) is connected with one of them removal wheel (74) transmission, the both ends of movable plate (72) are connected with two removal belts (73) respectively, the both ends of movable plate (72) and the inner wall sliding fit of air inlet window (11).

3. The intake air filtering device for the air compressor as claimed in claim 2, wherein: the sundries cleaning mechanism (2) comprises a double-shaft motor (21), a sliding plate (22), a driving motor (23), a driving shaft (24), two eccentric wheels (25), two sliding rods (26) and a plurality of cleaning brushes (27), the two sliding rods (26) are symmetrically arranged on the sliding plate (22), the two sliding rods (26) are in sliding fit with the moving plate (72), the double-shaft motor (21) is located on the moving plate (72), the two eccentric wheels (25) are eccentrically arranged on a main shaft of the double-shaft motor (21) respectively, the sliding plate (22) is provided with two touch plates (28) in touch fit with the two sliding plates (22), the driving shaft (24) is rotatably connected to the sliding plate (22), the driving motor (23) is located on the sliding plate (22), the main shaft of the driving motor (23) is in transmission connection with the driving shaft (24), the cleaning brushes (27) are equidistantly arranged on the driving shaft (24) and correspond to the air inlet windows (11), and the air inlet windows (11) are located below the collecting box (8) of the sliding plate (22).

4. The intake air filtering device for the air compressor as claimed in claim 1, wherein: the particle rotating and filtering mechanism (3) comprises a rotating filtering component (31) and a dust moving component (32), the rotating filtering component (31) is located in the air inlet box (1) and is rotationally connected with the air inlet box (1), the dust moving component (32) is arranged on the rotating filtering component (31) and is in sliding fit with the rotating filtering component (31) and the dust moving component (32), and a dust collecting box (9) is arranged below the air inlet box (1) and is located on the rotating filtering component (31).

5. The intake air filtering device for the air compressor as claimed in claim 4, wherein: the rotary filtering component (31) comprises a rotary motor (311), a first rotary plate (312), a rotary frame (313), a mounting frame (314), two rotary shafts (315), two second rotary plates (316) and two rotary filtering plates (317), wherein the rotary motor (311) is located at the top of the air inlet box (1), the mounting frame (314) is located at the inner top of the air inlet box (1), the first rotary plate (312) is connected with a main shaft of the rotary motor (311), the tops of the two rotary shafts (315) are respectively connected to the mounting frame (314) in a rotating mode, the two second rotary plates (316) are respectively arranged at the tops of the two rotary shafts (315), one end of the rotary frame (313) is rotatably connected with the first rotary plate (312), the other end of the rotary frame (313) is rotatably connected with the two second rotary plates (316), and the two rotary filtering plates (317) are respectively arranged on the two rotary shafts (315).

6. The intake air filtering device for an air compressor as claimed in claim 5, wherein: the dust moving assembly (32) comprises a moving cleaning brush (321) and two moving sliding tables (322), the two moving sliding tables (322) are symmetrically arranged at one end of the rotating filter plate (317) and penetrate through the rotating shaft (315), and two ends of the moving cleaning brush (321) are connected with moving ends of the two moving sliding tables (322) respectively.

7. The intake air filtering device for the air compressor as claimed in claim 1, wherein: the multistage filter mechanism (4) comprises a first-stage filter screen plate (41), a second-stage filter screen plate (42) and a third-stage filter screen plate (43), wherein the first-stage filter screen plate (41), the second-stage filter screen plate (42) and the third-stage filter screen plate (43) are arranged in the air inlet box (1) at equal intervals, a mounting seat (44) for mounting the first-stage filter screen plate (41), the second-stage filter screen plate (42) and the third-stage filter screen plate (43) is arranged in the air inlet box (1), and meshes of the first-stage filter screen plate (41), the second-stage filter screen plate (42) and the third-stage filter screen plate (43) are gradually reduced.

8. The intake air filtering device for the air compressor as claimed in claim 7, wherein: the first-stage filter screen plate (41), the second-stage filter screen plate (42) and the third-stage filter screen plate (43) are in sliding fit with the corresponding mounting seats (44).

9. The intake air filtering device for an air compressor as claimed in claim 7, wherein: filter vibrations mechanism (5) including work motor (51), loading board (52), working shaft (53), connecting axle (54), connecting plate (55) and a plurality of vibrations spring (56), be equipped with the mounting groove in air inlet box (1), the both ends of loading board (52) set up respectively on mount pad (44) that are located one-level filter screen board (41) department, and the one end symmetry of a plurality of vibrations spring (56) sets up on mount pad (44), and the other end and the lateral wall of mounting groove of a plurality of vibrations spring (56) are connected, the both ends of working shaft (53) are rotated and are connected on air inlet box (1), and the intermediate position of air inlet shaft is knee (57), the one end and the knee (57) fixed connection of connecting plate (55), the other end and the loading board (52) of connecting plate (55) rotate and are connected, work motor (51) are located the outer wall of air inlet box (1) and work motor (51) are connected with working shaft (53) transmission.

10. The intake air filtering device for the air compressor as claimed in claim 1, wherein: and the air inlet adjusting mechanism (6) comprises a refrigerating fan (61) and a heating fan (62), wherein the refrigerating fan (61) and the heating fan (62) are symmetrically arranged on the side walls of the two ends of the air inlet pipe (13).