CN117514696A - High-pressure compressor with high stability - Google Patents

Abstract

A high pressure compressor of high stability comprising: damping device, fixing device, reset preventing device, dust preventing device, filtering mechanism and shell; the shell is provided with an outer shell which is fixedly arranged on the ground; the fixing device, the reset preventing device and the filtering mechanism are fixedly arranged on the outer shell; a plurality of damping devices are arranged on the fixing device; the fixing device and the reset preventing device are matched with each other and used for fixing the high-pressure compressor; the filtering mechanism is used for filtering outside air; the dustproof device is arranged on the filtering mechanism and is used for conducting dustproof treatment on the high-pressure compressor; the invention can stably install the high-pressure compressor at a fixed position and can absorb shock of the high-pressure compressor during installation.

Description

High-pressure compressor with high stability

Technical Field

The invention relates to the technical field of high-pressure compressors, in particular to a high-pressure compressor with high stability.

Background

The pressure of the high-pressure compressor is classified into a class of compressors, and the exhaust pressure is 100-1000MPa; the types of the compressor are piston type compressors, membrane type compressors, screw type compressors and centrifugal compressors; is generally used as a petroleum gas, natural gas, and oilfield gas compressor in the petrochemical industry;

the high-pressure compressor is placed at a place where the relative humidity of air is low, dust is less, air is clean and well ventilated, flammable and explosive chemical substances and harmful unsafe substances are far away, and dust emission places are avoided being close; however, some workplaces have poorer environments and more dust, the prior art needs a plurality of devices to be matched with the use of the compressor, so that labor and financial resources are very consumed, the high-pressure compressor is installed in a lack of stability, and danger is easy to occur;

therefore, it is necessary to invent a high-pressure compressor with high stability, which can fix the high-pressure compressor at a certain place, can perform self-damping, and can perform automatic dust prevention and filtering, thereby reducing the cost of configuring various devices.

Disclosure of Invention

In order to solve the problems in the background technology, the invention provides a high-pressure compressor with high stability, which comprises the following specific technical scheme:

a high pressure compressor of high stability comprising: damping device, fixing device, reset preventing device, dust preventing device, filtering mechanism, shell and control device; the shell is provided with an outer shell which is fixedly arranged on the ground; the fixing device, the reset preventing device and the filtering mechanism are fixedly arranged on the outer shell; a plurality of damping devices are arranged on the fixing device; the fixing device and the reset preventing device are matched with each other and used for fixing the high-pressure compressor; the filtering mechanism is used for filtering outside air; the dustproof device is arranged on the filtering mechanism and is used for conducting dustproof treatment on the high-pressure compressor; the control device is used for controlling the operation of the whole high-pressure compressor with high stability except the control device.

Further, a top plate and a bottom plate are arranged on the damping device; an inner shell is further arranged on the shell; the high-pressure compressor is fixedly arranged on the inner shell, and is mutually matched and fixed by the damping device and the fixing device; the bottom plate is fixedly arranged on the fixing device; two support rods which are installed together in a crossed and rotating mode are installed between the top plate and the bottom plate in a sliding mode and are elastically connected through a plurality of springs.

Further, the fixing device is provided with a bottom frame, a positioning frame, a second mounting frame, a clamping block and a transmission device; the underframe is fixedly arranged on the outer shell; the two positioning frames are symmetrically arranged on the underframe in a left-right rotation way through a rotating shaft, the lower ends of the positioning frames are elastically connected with the underframe, and the positioning frames are positioned on the left side and the right side of the inner shell; the upper end and the lower end of the positioning frame are correspondingly matched with the outer side of the inner shell; the two locating frames are matched to limit the upper and lower directions and the left and right directions of the inner shell; the second mounting frame is fixedly mounted on the underframe, and clamping blocks are slidably mounted on the front side and the rear side of the upper surface corresponding to the inner shell; the transmission device is arranged on the underframe, one end of the transmission device is in transmission connection with any one of the rotating shafts, and the other end of the transmission device is connected with the two clamping blocks; the rotating shaft rotates and drives the two clamping blocks to slide through the transmission device, so that the inner shell is clamped or loosened, and the front and rear directions of the inner shell are limited.

Further, a first rack, a sliding rod, a first mounting rack, a second connecting rod and a second rack are arranged on the transmission device; one end of the rotating shaft on each positioning frame is fixedly provided with a first gear; the first mounting frame corresponds to any positioning frame and is fixedly arranged on the underframe; the first mounting frame is rotatably provided with a first mounting frame up and down; the first racks are vertically and slidably arranged on the underframe corresponding to the first gears respectively and meshed with the first gears; the lower end of the rack corresponding to the first mounting frame slides and is rotatably mounted on the first mounting frame; the sliding rod is vertically and slidably arranged on the underframe, and the lower end of the sliding rod is slidably and rotatably arranged on the other end of the first mounting frame; the second rack is vertically and slidably arranged on the second mounting frame; one end of the second connecting rod is fixedly connected with the upper end of the sliding rod, and the other end of the second connecting rod is fixedly connected with the upper end of the second rack; the second mounting frame is rotatably provided with a screw rod with two opposite screw threads at two ends; one end of the screw rod is fixedly provided with a second gear which is meshed with the rack; clamping blocks are correspondingly and slidably arranged at two ends of the screw rod.

Further, a second mounting rack is arranged on the reset prevention device; the second mounting frame is fixedly arranged on the outer shell; the third gear and the fourth gear are rotatably arranged on the second mounting frame and meshed with each other; the third gear is fixedly connected with the output end of the first motor fixedly arranged on the second mounting frame; two ends of the second mounting frame are respectively provided with a limiting disc in a rotary mode at positions corresponding to the first racks; the first rack is provided with a groove corresponding to the limiting disc; the two limiting discs are respectively connected with the third gear and the fourth gear in a transmission way through a second transmission device.

Further, a fixed frame, a limiting frame and a winding drum are arranged on the dustproof device; the two fixing frames are symmetrically and fixedly arranged on the filtering device in a left-right mode; the two limiting frames are fixedly arranged on the outer shell body corresponding to the fixing frames respectively; the winding drum is rotatably arranged between the two fixing frames; the dustproof cloth is coiled on the winding drum, and the front end of the dustproof cloth is slidably mounted between the two limiting frames through the round rod.

Further, the filter device is provided with a fixed plate, a filter cartridge, a rolling brush, a connecting hose and an air inlet cylinder; the dustproof device is provided with a third mounting frame; the mounting rack III is fixedly arranged on the inner shell, and the upper end of the mounting rack III is fixedly connected with a fixing rack positioned on the right side; the two fixing plates are symmetrically and fixedly arranged on the outer shell in a left-right mode, and a fixing frame is fixedly arranged on the fixing plates; the two filter cartridges are respectively and fixedly arranged on the fixed plate and are used for filtering the sucked outside air; the air inlet cylinder is fixedly arranged on the high-pressure compressor and is communicated with an air inlet of the high-pressure compressor; the connecting hose is used for sealing and communicating the air outlet of the filter cartridge with the air inlet of the air inlet cartridge; a suction fan is fixedly arranged in the air inlet cylinder, and air filtered by the filter cylinder is sent into the high-pressure compressor through the suction fan; the two fixing plates are provided with rolling brushes in an up-and-down sliding mode and are driven by an electric screw rod device fixedly arranged on the fixing plates, and the rolling brushes correspond to the air inlets of the filter cylinders.

Compared with the prior art, the invention has the advantages that:

(1) The high-pressure compressor can be stably installed at a fixed position through the damping device, the fixing device and the reset preventing device, and the high-pressure compressor can be damped during installation;

(2) The invention can filter the gas in the air through the dust-proof device and the filtering device, so that the gas entering the high-pressure compressor is cleaner, the cost for configuring various dust-removing equipment is reduced, and the service life of the high-pressure compressor is prolonged.

Drawings

FIGS. 1-2 are schematic views of the overall assembly structure of the present invention;

FIG. 3 is a schematic view showing an assembled structure of the damper device, the chassis and the inner housing of the present invention;

FIG. 4 is a schematic view of an assembled structure of the shock absorbing device of the present invention;

FIG. 5 is a schematic view showing an assembled structure of the fixing device and the reset preventing device of the present invention;

FIG. 6 is a schematic view of the structure of the chassis of the present invention;

FIG. 7 is a schematic view of the assembled structure of the fixing device and the inner housing of the present invention;

FIGS. 8-11 are schematic views of the assembled structure of a portion of the fixture of the present invention;

FIG. 12 is an enlarged schematic view of the structure of FIG. 11A according to the present invention;

FIG. 13 is a schematic view of an assembled structure of a portion of the fixing device of the present invention;

FIG. 14 is a schematic view showing an assembly structure of the reset preventing apparatus of the present invention;

FIG. 15 is an enlarged schematic view of the structure of FIG. 14B according to the present invention;

FIG. 16 is an enlarged schematic view of the structure of FIG. 14C in accordance with the present invention;

FIGS. 17-18 are schematic views of the assembled structure of the dust keeper of the present invention;

FIG. 19 is an enlarged schematic view of the structure of FIG. 18D according to the present invention;

FIG. 20 is a schematic view of a third embodiment of the mounting bracket of the present invention;

FIGS. 21-23 are schematic views showing the assembled structure of the filter device of the present invention;

FIG. 24 is an enlarged schematic view of the structure of FIG. 23E according to the present invention;

fig. 25 is a schematic view showing an assembled structure of the outer case and the filtering device of the present invention.

In the figure: 1-a damping device (101-a top plate, 102-a bottom plate, 103-a first spring, 104-a supporting rod, 105-a sliding block); 2-fixing means (201-chassis, 202-positioning frame, 203-connecting rod one, 204-fixing rod, 205-gear one, 206-rack one, 207-mounting frame one, 208-sliding rod, 209-mounting frame one, 210-connecting rod two, 211-rack two, 212-mounting frame two, 213-clamping block, 214-lead screw one, 215-gear two) 3-reset prevention means (301-mounting frame two, 302-motor one, 303-belt one, 304-gear three, 305-belt two, 306-gear four, 307-belt three, 308-limit disk); 4-dustproof device (401-third mounting rack, 402-fixing rack, 403-limit rack, 404-winding drum, 405-round bar); 5-filter device (501-fixed plate, 502-filter cartridge, 503-rolling brush, 504-electric screw device, 505-connecting hose, 506-air inlet cylinder, 507-mounting rod, 508-belt five); 6-housing (601-outer housing, 602-inner housing).

Detailed Description

In order that those skilled in the art will better understand the present invention, a technical solution of the embodiments of the present invention will be clearly and completely described below, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present invention without making any inventive effort, shall fall within the scope of the present invention.

Examples:

as shown in fig. 1-2, a high-pressure compressor of high stability, comprising: damping device 1, fixing device 2, reset preventing device 3, dust preventing device 4, filtering mechanism 5, shell 6 and control device; the shell 6 is provided with an outer shell 601, and the outer shell 601 is fixedly arranged on the ground; the fixing device 2, the reset preventing device 3 and the filtering mechanism 5 are fixedly arranged on the outer shell 601; the two damping devices 1 are symmetrically arranged on the fixing device 2 left and right; the fixing device 2 and the reset preventing device 3 are matched with each other to fix the high-pressure compressor; the filtering mechanism 5 is used for filtering outside air; the dustproof device 4 is arranged on the filtering mechanism 5 and is used for carrying out dustproof treatment on the high-pressure compressor; the control device is used for controlling the operation of the whole high-pressure compressor with high stability except the control device.

Specifically, as shown in fig. 3 to 4, the damper 1 is provided with a top plate 101 and a bottom plate 102; the shell 6 is also provided with an inner shell 602; the inner shell 602 is fixed by the mutual matching of the damping device 1 and the fixing device 2, and a high-pressure compressor is fixedly arranged on the inner shell; the bottom plate 102 is fixedly arranged on the fixing device 2; two sliding blocks 105 are arranged on the top plate 101 and the bottom plate 102 in a sliding way back and forth; the slide blocks 105 of the top plate 101 are respectively and rotatably provided with a support rod 104, and the two support rods 104 are in cross rotation connection; the other ends of the two support rods 104 are respectively and rotatably connected with the corresponding sliding blocks 105 on the bottom plate 102;

the top plate 101 is limited by the support rods 104, so that the top plate 101 can move up and down relative to the bottom plate 102 and cannot move left and right; as a specific implementation of this embodiment, the top plate 101 and the bottom plate 102 are elastically connected by two springs 103; two sections of sliding grooves corresponding to the two sliding blocks 105 are formed in the top plate 101 and the bottom plate 102; the length of the chute is fixed, the sliding distance of the sliding block 105 can be limited through the length of the chute, the vertical shaking distance of the high-pressure compressor is further limited, and unnecessary risks caused by overlarge vertical shaking of the high-pressure compressor in the placing process are avoided.

When the inner shell 602 provided with the high-pressure compressor is placed on the top plate 101, the high-pressure compressor presses the top plate 101 downwards, the top plate 101 moves downwards, and the force of the high-pressure compressor floating up and down is counteracted by the spring 103, so that the damping effect is achieved; the high-pressure compressor is fastened by the fastening device 2 synchronously.

Specifically, as shown in fig. 5-13, the fixing device 2 is provided with a bottom frame 201, a positioning frame 202, a fixing rod 204, a second mounting frame 212, a clamping block 213 and a transmission device; the transmission device is provided with a first rack 206, a sliding rod 208, a first mounting frame 209, a second connecting rod 210 and a second rack 211;

the underframe 201 is fixedly arranged on the outer shell 601, and two connecting rods 203 are symmetrically and fixedly arranged in the front and back at the middle positions of the two positioning frames 202; a rotating shaft is fixedly arranged between the two first connecting rods 203; the 4 fixing rods 204 are symmetrically and fixedly arranged on the underframe 201 in a left-right mode and correspond to the two rotating shafts; the two rotating shafts are respectively rotatably arranged between the two corresponding fixed rods 204; the lower ends of the two positioning frames 202 are elastically connected with the underframe 201 through a second spring; the inner housing 602 is located between the two spacers 202; the corresponding parts of the locating rack 202 and the side surface and the bottom surface of the inner shell 602 are provided with supporting plates in a ball joint manner and are used for fixing the inner shell 602; in addition, a first connecting rod 203 positioned at the rear side is provided with a limit column, the underframe 201 is provided with an annular chute corresponding to the limit column, and the limit column slides in the annular chute; the first connecting rod 203 is limited through the underframe 201, and then the positioning frame 202 is limited;

the inner shell 602 presses down the damping device 1 and presses down onto the support plates at the lower ends of the two positioning frames 202, so that the positioning frames 202 are driven to rotate, the support plates at the side surfaces of the positioning frames 202 squeeze the side surfaces of the inner shell 602, and the inner shell 602 is limited in the up-down and left-right directions; at this time, the inner housing 602 also needs to be limited in the front-rear direction.

As a specific implementation of this embodiment, as shown in fig. 7-10, one ends of the front sides of the two rotating shafts are fixedly connected with a first gear 205 through a first connecting rod 203 and a fixed rod 204; the two racks I206 are vertically and slidably arranged on the underframe 201 corresponding to the gears I205 respectively and meshed with the gears I205; the first mounting frame 209 corresponds to the positioning frame 202 positioned on the right side and is fixedly arranged on the underframe 201; the first mounting frame 209 is rotatably provided with a first mounting frame 207 up and down; the lower end of the rack I206 corresponding to the position of the mounting frame I207 is slidingly and rotatably mounted on the mounting frame I207; the sliding rod 208 is vertically and slidably installed on the chassis 201, and the lower end is slidably and rotatably installed on the other end of the first mounting frame 207; the front side and the rear side of the first mounting frame 207 are elastically connected with the first mounting frame 209 through the third spring, so that the first mounting frame 207 is in a horizontal state under the action of no external force, at the moment, the lower ends of the positioning frames 202 and the positions of the side supporting plates are provided with a certain upward inclination angle, the positioning frames are more easily matched with the inner shell 602, and the inner shell 602 is conveniently placed between the two positioning frames 202;

the positioning frame 202 rotates to drive the corresponding rotating shaft to rotate, so that the first gear 205 is driven to rotate, and the first gear 205 drives the first rack 206 to move upwards; the rack I206 drives the mounting frame I207 to rotate, the rear side of the mounting frame I207 rotates upwards, and the front side rotates downwards, so that the sliding rod 208 is driven to slide downwards;

specifically, the second mounting frame 212 is fixedly mounted on the chassis 201, and two clamping blocks 213 are slidably mounted on the second mounting frame in front and back directions, and the inner housing 602 is located between the two clamping blocks 213; the second rack 211 is vertically and slidably arranged on the second mounting frame 212; one end of the second connecting rod 210 is fixedly connected with the upper end of the sliding rod 208, and the other end of the second connecting rod is fixedly connected with the upper end of the second rack 211; the second mounting frame 212 is rotatably provided with a screw rod 214 with two opposite screw threads at two ends; one end of the screw 214 is fixedly provided with a second gear 215, and the second gear 215 is meshed with the second rack 211; two ends of the screw 214 correspond to the two clamping blocks 213, and the screw 214 rotates to drive the two clamping blocks 213 to move so as to clamp or unclamp the inner shell 602 in the front-rear direction.

The sliding rod 208 slides downwards to drive the second connecting rod 210 to move downwards, so as to drive the screw 214 to rotate; the screw 214 rotates to drive the two clamping blocks 213 to clamp the inner shell 602; at this time, the inner housing 602 is completely fixed, and the high-pressure compressor can be more stably and safely fixed through the damping device 1 and the fixing device 2, and has a certain damping capacity, and the high-pressure compressor is placed to be damaged due to collision in the placing process.

In order to be able to fix the high-pressure compressor more stably, in particular, as shown in fig. 14 to 16, the resetting device 3 is prevented from being provided with a second mounting bracket 301; the second mounting frame 301 is fixedly mounted on the outer shell 601; the second mounting frame 301 is rotatably provided with a third gear 304 and a fourth gear 306 which are meshed with each other; the third gear 304 is fixedly connected with the output end of the first motor 302 fixedly arranged on the second mounting frame 301; two ends of the second mounting frame 301 are respectively provided with a limiting disc 308 in a rotating way at positions corresponding to the first racks 206; the first rack 206 is provided with a groove corresponding to the limiting disc 308; the two limiting discs 308 are respectively connected with the third gear 304 and the fourth gear 306 in a transmission way through a second transmission device;

as a specific implementation manner of the embodiment, a first belt 303, a second belt 305 and a third belt 307 are arranged on the second transmission device; the second mounting frame 301 is provided with a first rotating shaft and a second rotating shaft, and corresponds to the limiting disc 308 respectively; the first rotating shaft is in transmission connection with the third gear 304 through a first belt 303; the limiting disc 308 corresponding to the first rotating shaft is in transmission connection with the first rotating shaft through a fourth belt; the second rotating shaft is in transmission connection with a fourth gear 306 through a second belt 305; the limiting disc 308 corresponding to the second rotating shaft is in transmission connection with the second rotating shaft through a belt III 307;

after the fixing device 2 completes the fixing of the high-pressure compressor, the first motor 302 is started, the first motor drives the two limiting plates 308 to rotate, the limiting plates 308 are clamped in the grooves of the corresponding first racks 206, the first racks 206 are fixed, the first racks 206 are prevented from sliding downwards, and the high-pressure compressor is fixed more stably.

The invention can also carry out dust-proof treatment on the high-pressure compressor, and specifically, as shown in fig. 17-19, a fixed frame 402, a limiting frame 403 and a winding drum 404 are arranged on the dust-proof device 4; the two fixing frames 402 are symmetrically and fixedly arranged on the filtering device 5 in a left-right mode and can be detached; the two limiting frames 403 are fixedly arranged on the outer shell 601 corresponding to the fixing frames 402 respectively; the winding drum 404 is rotatably arranged between the two fixing frames 402; the winding drum 404 is wound with dustproof cloth, and the front end of the dustproof cloth is slidably arranged between the two limiting frames 403 through a round rod 405;

an operator pulls the front end of the dustproof cloth to enable one end of the dustproof cloth to move along the limiting frame 403 and cover the whole high-pressure compressor, so that dust is effectively prevented from falling onto the high-pressure compressor; as a specific implementation manner of this embodiment, a second motor (not shown in the drawing) is mounted on the fixing frame 402, and an output end of the second motor is fixedly connected with one end of the winding drum 404; when the dustproof cloth needs to be collected, the motor II is started to drive the winding drum 404 to rotate, and the dustproof cloth is rewound.

Specifically, as shown in fig. 20 to 25, the filter device 5 is provided with a fixing plate 501, a filter cartridge 502, a roller brush 503, a connection hose 505, an air inlet cylinder 506 and a mounting rod 507; the dustproof device 4 is provided with a third mounting frame 401; the third mounting frame 401 is fixedly arranged on the inner shell 602, and the upper end of the third mounting frame is fixedly connected with the fixing frame 402 positioned on the right side; the two fixing plates 501 are symmetrically and fixedly arranged on the outer shell 601 in a left-right mode, and the fixing frame 402 is fixedly arranged on the fixing plates; the fixing frame 402 is fixedly connected with the third mounting frame 401, so that the filter device 5 can be detached more conveniently, the fixing frame 402 and the fixing plate 501 are detachably mounted, and when the filter device 5 is only required to be detached, the dust-proof device 4 can be fixedly mounted on the outer shell 601 through the third mounting frame 401.

Two filter cartridges 502 are respectively and fixedly installed on the fixed plate 501, and a filter plate is arranged on one side of each filter cartridge 502 and can filter the sucked outside air; the air inlet cylinder 506 is fixedly arranged on the high-pressure compressor and is communicated with an air inlet of the high-pressure compressor; a connection hose 505 connects the air outlet of the filter cartridge 502 with the air inlet of the air inlet cylinder 506 in a sealing manner; a suction fan is fixedly arranged in the air inlet cylinder 506, and air filtered by the filter cartridge 502 is sent into the high-pressure compressor through the suction fan; the two fixing plates 501 are provided with rolling brushes 503 in a sliding manner up and down, and are driven by an electric screw device 504 fixedly arranged on the right fixing plate 501, and the rolling brushes 503 correspond to the air inlets of the filter cartridges 502;

one fixing plate 501 is provided with an electric screw device 504 and a sliding rod, the other fixing plate 501 is provided with a screw three and a sliding rod, and the screw three and the electric screw device 504 are positioned on the same side; two ends of the rolling brush 503 are respectively provided with a second supporting rod in a rotating way, two second supporting rods on the right side are slidably arranged on the electric screw rod device and the sliding rod, and two second supporting rods on the left side are slidably arranged on the third screw rod and the sliding rod;

the mounting rod 507 is fixedly mounted on the mounting frame III 401; two ends of the mounting rod 507 are respectively provided with a third rotating shaft, and the two third rotating shafts are respectively in transmission connection with a screw rod on the corresponding electric screw rod device 504 and a third screw rod tee joint belt five 508; the two rotating shafts III are in transmission connection through a belt six;

the electric screw device 504 is started to drive the rolling brush 503 to move downwards, and when the rolling brush 503 is attached to the filter cartridge 502, the rolling brush 503 rotates to clean dust in the filter plate on the filter cartridge 502; after the rolling brush 503 moves downwards for a certain distance, the rolling brush 503 is positioned below the filter plate, the electric screw device 504 reverses to drive the rolling brush 503 to move upwards, and the filter plate is cleaned for the second time; the electric screw device 504 rotates to drive the belt five 508 to rotate and further drive the belt six to rotate, and the belt six rotates to drive the belt five 508 on the other side to rotate and further drive the screw three to rotate, so that the two rolling brushes 503 move up and down synchronously.

Through cleaning the filter, guarantee the air inlet speed of filter, and through the filtration of filter, make the air that gets into in the high-pressure compressor clean, reduce the dust wherein, improved high-pressure compressor's life to a certain extent.

Although the present embodiment is described in detail in the foregoing description, the scope of the present embodiment is not limited thereto, and any person skilled in the art should be able to substitute or change the technical solution and the inventive concept according to the present embodiment within the scope of the present embodiment.

Claims (7)

1. A high pressure compressor of high stability, comprising: the device comprises a damping device (1), a fixing device (2), a reset prevention device (3), a dustproof device (4), a filtering mechanism (5), a shell (6) and a control device; an outer shell (601) is arranged on the shell (6), and the outer shell (601) is fixedly arranged on the ground; the fixing device (2), the reset prevention device (3) and the filtering mechanism (5) are fixedly arranged on the outer shell (601); a plurality of damping devices (1) are arranged on the fixing device (2); the fixing device (2) and the reset preventing device (3) are matched with each other and used for fixing the high-pressure compressor; the filtering mechanism (5) is used for filtering outside air; the dustproof device (4) is arranged on the filtering mechanism (5) and is used for performing dustproof treatment on the high-pressure compressor; the control device is used for controlling the operation of the whole high-pressure compressor with high stability except the control device.

2. A high-pressure compressor of high stability according to claim 1, wherein: a top plate (101) and a bottom plate (102) are arranged on the damping device (1); an inner shell (602) is further arranged on the shell (6); the high-pressure compressor is fixedly arranged on the inner shell (602), and is mutually matched and fixed by the damping device (1) and the fixing device (2); the bottom plate (102) is fixedly arranged on the fixing device (2); two support rods (104) which are installed together in a crossed and rotating mode are installed between the top plate (101) and the bottom plate (102) in a sliding mode in the front-back mode, and the two support rods are elastically connected through a plurality of springs (103).

3. A high-pressure compressor of high stability according to claim 2, wherein: the fixing device (2) is provided with a bottom frame (201), a positioning frame (202), a second mounting frame (212), a clamping block (213) and a transmission device; the underframe (201) is fixedly arranged on the outer shell (601); the two positioning frames (202) are symmetrically arranged on the underframe (201) in a left-right rotation way through a rotation shaft, the lower ends of the positioning frames are elastically connected with the underframe (201) and are positioned on the left side and the right side of the inner shell (602); the upper end and the lower end of the positioning frame (202) are correspondingly matched with the outer side of the inner shell (602); the two positioning frames (202) are matched to limit the upper and lower directions and the left and right directions of the inner shell (602); the second mounting frame (212) is fixedly mounted on the underframe (201), and clamping blocks (213) are mounted on the front side and the rear side of the upper surface corresponding to the inner shell (602) in a sliding manner; the transmission device is arranged on the underframe (201), one end of the transmission device is in transmission connection with any one rotating shaft, and the other end of the transmission device is connected with two clamping blocks (213); the rotating shaft rotates and drives the two clamping blocks (213) to slide through the transmission device, so that the inner shell (602) is clamped or loosened, and the front and rear directions of the inner shell (602) are limited.

4. A high-pressure compressor of high stability according to claim 3, wherein: the transmission device is provided with a first rack (206), a sliding rod (208), a first mounting rack (209), a second connecting rod (210) and a second rack (211); one end of the rotating shaft on each positioning frame (202) is fixedly provided with a first gear (205); the first mounting frame (209) corresponds to any positioning frame (202) and is fixedly arranged on the underframe (201); the first mounting frame (209) is provided with a first mounting frame (207) in an up-and-down rotation mode; the two racks I (206) are vertically and slidably arranged on the underframe (201) corresponding to the gears I (205) respectively and meshed with the gears I (205); the lower end of the first rack (206) corresponding to the position of the first mounting frame (207) slides and is rotatably mounted on the first mounting frame (207); the sliding rod (208) is vertically and slidably arranged on the underframe (201), and the lower end of the sliding rod is slidably and rotatably arranged on the other end of the first mounting frame (207); the second rack (211) is vertically and slidably arranged on the second mounting frame (212); one end of the second connecting rod (210) is fixedly connected with the upper end of the sliding rod (208), and the other end of the second connecting rod is fixedly connected with the upper end of the second rack (211); a screw rod (214) with two opposite threads is rotatably arranged on the second mounting frame (212); one end of the screw rod (214) is fixedly provided with a second gear (215), and the second gear (215) is meshed with the second rack (211); clamping blocks (213) are correspondingly and slidably arranged at two ends of the screw rod (214).

5. A high-pressure compressor of high stability according to claim 3, wherein: the reset prevention device (3) is provided with a second installation frame (301); the second mounting frame (301) is fixedly arranged on the outer shell (601); a third gear (304) and a fourth gear (306) are rotatably arranged on the second mounting frame (301), and are meshed with each other; the third gear (304) is fixedly connected with the output end of the first motor (302) fixedly arranged on the second mounting frame (301); two ends of the second mounting frame (301) are respectively provided with a limiting disc (308) in a rotating way at positions corresponding to the first rack (206); a groove corresponding to the limiting disc (308) is formed in the first rack (206); the two limiting plates (308) are respectively connected with the third gear (304) and the fourth gear (306) in a transmission way through the second transmission device.

6. A high-pressure compressor of high stability according to claim 3, wherein: the dustproof device (4) is provided with a fixing frame (402), a limiting frame (403) and a winding drum (404); the two fixing frames (402) are symmetrically and fixedly arranged on the filtering device (5) left and right; the two limiting frames (403) are fixedly arranged on the outer shell (601) corresponding to the fixing frames (402) respectively; the winding drum (404) is rotatably arranged between the two fixing frames (402); the dustproof cloth is coiled on the winding drum (404), and the front end of the dustproof cloth is slidably arranged between the two limiting frames (403) through the round rod (405).

7. A high-pressure compressor of high stability according to claim 3, wherein: the filter device (5) is provided with a fixed plate (501), a filter cartridge (502), a rolling brush (503), a connecting hose (505) and an air inlet cylinder (506); a third mounting rack (401) is arranged on the dustproof device (4); the third mounting rack (401) is fixedly arranged on the inner shell (602), and the upper end of the third mounting rack is fixedly connected with the fixing rack (402) positioned on the right side; the two fixing plates (501) are symmetrically and fixedly arranged on the outer shell (601) in a left-right symmetry manner, and a fixing frame (402) is fixedly arranged on the fixing plates; the two filter cartridges (502) are fixedly arranged on the fixed plate (501) respectively and are used for filtering inhaled external air; the air inlet cylinder (506) is fixedly arranged on the high-pressure compressor and is communicated with an air inlet of the high-pressure compressor; the connecting hose (505) is used for sealing and communicating the air outlet of the filter cartridge (502) with the air inlet of the air inlet cartridge (506); a suction fan is fixedly arranged in the air inlet cylinder (506), and air filtered by the filter cylinder (502) is sent into the high-pressure compressor through the suction fan; the two fixing plates (501) are provided with rolling brushes (503) in a sliding mode up and down, the rolling brushes are driven by an electric screw rod device (504) fixedly arranged on the fixing plates (501), and the rolling brushes (503) correspond to air inlets of the filter cylinders (502).