CN114458574B - High temperature and corrosion resistant compressor - Google Patents

Abstract

The invention discloses a high temperature and corrosion resistant compressor, which comprises a driving device, a cooling device, a compression device and a connecting device, wherein the connecting device is arranged on one side of the compression device, the driving device is arranged on one side of the compression device, which is far away from the connecting device, and the cooling device is arranged above the driving device.

Description

High temperature and corrosion resistant compressor

Technical Field

The invention relates to the technical field of compressors, in particular to a high-temperature and corrosion resistant compressor.

Background

The compressor is a mechanical device for converting low-pressure gas into high-pressure gas, and is widely used in refrigeration systems at present, and the working principle of the compressor is that a series of driving components such as a motor are used for driving a piston to move, then the low-pressure gas is compressed through the piston, and finally the low-pressure gas is converted into the high-pressure gas.

The prior compressor can generate a large amount of heat during operation, meanwhile, if the gas to be compressed has corrosiveness or contains substances such as water which are easy to rust, the compressor is easy to break down, when the gas is compressed each time, valve sleeves and valve cores of an air inlet valve and an air outlet valve can generate high-frequency friction, the prior compressor generally aims to improve the sealing performance of the air inlet valve and the air outlet valve in order to ensure the working capacity, but the sealing performance of the air inlet valve and the air outlet valve is inevitably reduced along with the working, at the moment, the air pressure of the compressed gas output by the compressor can be obviously reduced, thereby greatly influencing the subsequent working, in addition, various driving parts can generate abrasion phenomena due to mutual collision friction during the working of the compressor, a large amount of fragments can be dropped, if the fragments are continuously stored in the positions of the driving parts, the abrasion of the driving parts can be quickened, the prior compressor generally needs to manually clean the fragments at intervals, so that the working efficiency is reduced, and finally, the temperature of the lubricating liquid in the compressor can not be changed according to the working state of the compressor and the overload working condition, and the cooling speed of the lubricating liquid in the prior compressor can not be adjusted according to the working state of the compressor.

Disclosure of Invention

The present invention is directed to a high temperature and corrosion resistant compressor to solve the above problems set forth in the background art.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a high temperature resistant and corrosion resistant's compressor, the compressor includes drive arrangement, cooling device, compression device and connecting device, one side of compression device is provided with connecting device, one side that connecting device was kept away from to compression device is provided with drive arrangement, drive arrangement's top is provided with cooling device, drive arrangement includes the driver shell, the inside of driver shell is provided with the cam, the cam is connected with external motor, compression device includes the compressor shell, the inside of compressor shell is provided with the piston, the cam is connected with the piston through the connecting rod, the one end that the driver shell was kept away from to the inside of compressor shell is provided with the baffle, the one end that the piston was kept away from to the baffle is provided with mechanism and air inlet mechanism, connecting device includes the connector shell, the connector shell is connected with the compressor shell through flange, the one end that the connector shell is close to air inlet mechanism is provided with the intake pipe, the one end that the connector shell is close to mechanism is provided with the outlet duct, the inside of connector shell is provided with the compensator, air inlet mechanism is connected with the compensator.

The invention relates to a compressor, which comprises a compressor, a driving device, a gas outlet mechanism, a gas inlet mechanism, a gas outlet mechanism, a compensator, a cooling device and a cooling device.

Further, cooling device includes the cooling tank, the inside of cooling tank is provided with circulating pump and cooling chamber, the one end that the cooling tank is close to the circulating pump is provided with the feed liquor pipe, the one end that the cooling tank is close to the cooling chamber is provided with the drain pipe, the inside of cooling tank is provided with filtrate ware and refrigeration piece, the feed liquor pipe is connected with circulating pump water pumping end, the filtrate ware is connected with the circulating pump water outlet end, the inside of filtrate ware is provided with acceleration rate groove and holds miscellaneous room, the acceleration rate groove sets up the one end that is close to the circulating pump at the filtrate ware, the one end that holds miscellaneous room and keep away from the acceleration rate groove at the filtrate ware is provided with the filter screen, the inside of acceleration rate groove is provided with first flabellum, the both sides of acceleration rate groove are provided with the energy storage chamber, the inside of energy storage chamber is provided with the coil, the both sides of coil are provided with the permanent magnet, the one end of coil is connected with first flabellum through the transfer line and accumulator, the other end of coil is connected with refrigeration piece.

The circulating pump and the liquid inlet pipe are used for sucking lubricating liquid in the driving device into the cooling chamber, the liquid outlet pipe is used for discharging the lubricating liquid after cooling into the driving device again, the circulating pump can drive the first fan blade to rotate when discharging the lubricating liquid, the coil can rotate between two groups of permanent magnets to conduct cutting magnetic induction line movement so as to generate induction current on the one hand through the first fan blade, the induction current can be transmitted to the refrigerating plate through the lead and the accumulator, the purpose of cooling the lubricating liquid is achieved through the refrigerating plate, on the other hand, the purpose of turbulent flow can be achieved through the first fan blade, the cooling speed is increased, meanwhile, cooling uniformity is guaranteed, various parts in the driving device can generate a large amount of chips due to abrasion and other factors after long-time working, if the chips continue to exist in the driving device, the abrasion of the parts in the driving device can be quickened, the chips in the lubricating liquid can be retained through the impurity storage chamber, and the purpose of purifying is achieved.

Further, one side of acceleration rate groove is provided with filtrate groove and lift chamber, the opposite side of acceleration rate groove is provided with the seal groove, the diameter in filtrate groove is less than the diameter in acceleration rate groove and hold miscellaneous room, one side that the circulating pump was kept away from to the filtrate ware is provided with the storing miscellaneous pipe, set up the filtration pore on the storing miscellaneous pipe and be linked together with acceleration rate groove and hold miscellaneous room through the filtrate groove, the one end that the filtrate groove is close to the acceleration rate groove is provided with the fly leaf, the inside of lift chamber is provided with the lifter, the lifter has magnetism and is connected with the fly leaf through stay cord and fixed pulley, the inside of seal groove is provided with first magnetic field generator and closing plate, the closing plate is close to the one end of lift chamber and has magnetism and with lifter looks mutual attraction, the closing plate is close to the one end of first magnetic field generator and is mutually exclusive with first magnetic field generator after the circular telegram, first magnetic field generator is connected with the accumulator.

When the accumulated chips in the impurity storage chamber are too much, the first magnetic field generator can generate a group of magnetic fields which repel the sealing plate, the air cylinder can move towards the filtrate tank along the top plate, when the sealing plate stretches out of the sealing groove and is close to the lifting chamber, lubricating liquid cannot flow into the impurity storage chamber, under the attraction of magnetic force, the lifting block can move towards the sealing plate, at the moment, the movable plate moves towards the sealing plate, the lubricating liquid flows into the cooling chamber through the filtrate tank, the diameter of the filtrate tank is smaller than that of the speed increasing tank and the impurity storage chamber, so that the pressure of the filtrate tank is smaller than that of the impurity storage chamber according to Bernoulli principle, the chips in the impurity storage chamber can rise into the filtrate tank under the action of the pressure and enter the impurity storage tube along the lubricating liquid, and are accumulated in the impurity storage tube.

Further, the one end that filtrate ware was kept away from to the inside of cooling chamber is provided with steady voltage board, through spring coupling between steady voltage board and the cooler bin, one side that filtrate ware was kept away from to the steady voltage board is provided with the guide arm, be provided with two sets of first conducting blocks on the guide arm, one of them set of first conducting block fixed mounting is in the one end of guide arm, another set of first conducting block slidable mounting is on the guide arm and with steady voltage board fixed connection, two sets of first conducting blocks all are connected with external power supply and accumulator, the one end that the steady voltage board is close to the drain pipe is provided with the stationary flow piece, be provided with the through-hole on the stationary flow piece.

When the compressor works normally, the flow of the liquid inlet pipe and the flow of the liquid outlet pipe are the same, the pressure in the cooling chamber is always at a certain value, the overlapping area of the through hole arranged on the current stabilizing block and the liquid outlet pipe is the largest, when the temperature in the compressor is too high, the temperature of the lubricating liquid in the cooling chamber can be increased, compared with the normal state, the volume of the lubricating liquid in the cooling chamber can be obviously increased according to the principle of thermal expansion and cold contraction, the pressure stabilizing plate can move in the direction far away from the filtrate device, because a group of first conductive blocks on the guide rod are fixedly connected with the pressure stabilizing plate, the first conductive blocks can be driven to move on the guide rod when the pressure stabilizing plate moves, if the first conductive blocks are connected with an external ammeter, the temperature increase degree in the compressor can be indirectly judged through detecting the change of the ammeter, the refrigerating effect of the refrigerating plate can be adjusted through the accumulator, the temperature of the lubricating liquid is guaranteed to be constant, in addition, when the pressure stabilizing plate moves, the pressure stabilizing plate is close to the steady flow of the lubricating liquid arranged at one end of the liquid outlet pipe, the through hole arranged on the pressure stabilizing block and the liquid outlet pipe can be obviously increased, the overlapping area of the pressure stabilizing plate can be reduced, and the flow of the lubricating liquid in the cooling chamber can be guaranteed to be fully cooled when the lubricating liquid in the unit time.

Further, the air inlet mechanism comprises an air inlet sealing plug and a second supporting seat, a first cavity is formed in the second supporting seat, one end of the air inlet sealing plug stretches into the first cavity and is connected with the second supporting seat through a spring, a second cavity is formed in the outer side of the first cavity, insulating liquid is filled in the first cavity and the second cavity and is communicated with the first cavity, two groups of second conductive blocks are arranged in the second cavity, one group of second conductive blocks are fixedly mounted in the second cavity, the other group of second conductive blocks are movably mounted in the second cavity, gaseous conductive media are filled between the two groups of second conductive blocks, one end, close to a partition plate, of the second supporting seat is provided with a second fan blade, one side, close to the second cavity, of the second fan blade is provided with a control chamber, the inner side of the control chamber is provided with a coil, two sides of the coil are provided with permanent magnets, one end of the coil is connected with the second fan blade through a transmission rod, and the other end of the coil is connected with an external motor through a wire.

When external gas enters the compressor shell, the air inlet sealing plug is separated from the air inlet arranged on the partition plate, when compressed external gas comes out of the compressor shell, the air inlet sealing plug is folded with the air inlet arranged on the partition plate, if the tightness between the air inlet sealing plug and the air inlet arranged on the partition plate is wrong, part of high-pressure gas in the compression process flows out of a gap between the air inlet sealing plug and the air inlet, and then the second fan blade is blown to rotate, the coil inside the control room can rotate between two groups of permanent magnets to make a cutting magnetic induction line move so as to generate induction current, and the rotation speed of the second fan blade is proportional to the gas leakage amount, so that the problem of how much degree of tightness between the air inlet sealing plug and the air inlet arranged on the partition plate can be judged by detecting the induction current on the coil inside the control room.

Further, the inside of compensator is provided with compensation room and telescopic link, the inside of compensation room is provided with movable stopper, the one end that the telescopic link was kept away from to the compensation room is provided with the check valve, the end of giving vent to anger of check valve is located the direction of outlet duct, movable stopper is connected with the telescopic link, the one end of movable stopper is provided with the pneumatic valve, the through-hole has been seted up to the one end that the compensation room is close to the intake pipe and keeps away from the check valve, the inside coil that is provided with of control room is connected with the telescopic link.

Through the technical scheme, when high-pressure gas leaks from the gap between the air inlet sealing plug and the air inlet hole, the telescopic rod can control the movable plug and the air valve to move in the direction of the one-way valve in the compensation chamber according to the induced current change on the coil in the control chamber, and the gas in the compensation chamber can be fed into the air outlet pipe through the movable plug and the air valve, so that the air leakage caused by the gap occurs between the air inlet sealing plug and the air inlet hole in the compensation chamber is compensated, when the air in the compensation chamber is reduced, the telescopic rod can control the movable plug and the air valve to move in the direction away from the one-way valve in the compensation chamber, and at the moment, the external air can enter the compensation chamber through the through hole so as to achieve the purpose of supplementing the air.

Further, the mechanism of giving vent to anger includes sealing plug and first supporting seat, the one end of sealing plug of giving vent to anger stretches into the inside of first supporting seat, be connected through the spring between sealing plug and the first supporting seat of giving vent to anger, the inside of first supporting seat is provided with the movable pin, the one end that the inside of flange is close to the mechanism of giving vent to anger is provided with the third cavity, the inside of third cavity is provided with the baffle, be connected through the spring between third cavity and the baffle, the one end that the movable pin is close to the baffle has magnetism, the bottom of baffle has magnetism, the movable pin is mutually exclusive with the bottom of baffle.

When external gas enters the compressor shell, the air outlet holes formed in the air outlet sealing plug and the partition plate are closed, when compressed external gas comes out of the compressor shell, the air outlet sealing plug is separated from the air outlet holes formed in the partition plate, if the tightness between the air outlet holes formed in the air outlet sealing plug and the partition plate is wrong, in the process of sucking the piston, part of compressed gas in the air outlet pipe flows back into the compressor shell from a gap between the air outlet holes formed in the air outlet sealing plug and the partition plate, and then the production capacity of the compressor is reduced.

Further, two groups of flexible plates are arranged at the middle position of the baffle, two groups of third conductive blocks are arranged between the flexible plates and filled with gaseous conductive media, and the two groups of third conductive blocks are connected with an external motor.

Through above-mentioned technical scheme, when the piston is at the inspiration, the baffle is close to the pressure that the baffle is close to air outlet seal plug one side and is greater than the baffle, because the pressure of both sides is unequal, two sets of flexible boards can take place to bend, when two sets of third conducting pieces are connected with external power source and ampere meter, the pressure differential of baffle both sides can be judged through detecting the change of electric current, and then the indirect judgement air outlet gap size between the venthole of seting up on sealing plug and the baffle, when the gap is too big, external motor stops working, avoid the baffle to bear and take place to damage even fracture, when the gap is less, the compressor can continue normal work, in order to reduce maintenance frequency, guarantee work efficiency.

Furthermore, the inner wall of the compressor shell is provided with a solid lubricating plate, and the outer surfaces of the air outlet sealing plug, the air inlet sealing plug and the partition plate are coated with an abrasion-resistant and wear-resistant coating.

The solid lubricating plate is arranged on the inner wall of the compressor shell, so that the piston can smoothly move in the compressor shell, lubricating liquid in the driving device can be prevented from flowing into the compression device, further lubricating oil is prevented from being adhered in compressed gas, the subsequent use of the compressed gas is influenced, and the abrasion-resistant and wear-resistant coatings are coated on the outer surfaces of the air outlet sealing plug, the air inlet sealing plug and the partition plate due to the fact that the variety of the compressed gas is many, the abrasion-resistant and wear-resistant coatings can be improved, and the service life of the compressor is prolonged.

Compared with the prior art, the invention has the following beneficial effects: compared with the existing compressor, the compensator is additionally arranged, if the tightness between the air inlet sealing plug and the air inlet hole arranged on the partition plate is problematic, the second fan blade can rotate to further cause the coil in the control chamber to generate induced current, the rotation speed of the second fan blade is in direct proportion to the leakage amount of the air, so that the size of the gap between the air inlet sealing plug and the air inlet hole arranged on the partition plate can be judged by detecting the size of the induced current on the coil in the control chamber, the telescopic rod in the compensator controls the movable plug and the air valve to move in the compensation chamber towards the direction of the one-way valve by the change of the induced current on the coil in the control chamber, the air in the compensation chamber can be fed into the air outlet pipe by the movable plug and the air valve, the leakage of the air inlet sealing plug and the air inlet hole due to the occurrence of the gap is compensated, the constant pressure of the compressed air output by the compressor is ensured, in addition, the invention sets a baffle inside the connecting flange to play the double sealing purpose through the baffle and the compensator, if the tightness between the air outlet sealing plug and the air outlet hole on the baffle is bad, the two groups of flexible boards on the baffle will bend, when the two groups of third conductive blocks are connected with the external power supply and the ammeter, the gap between the air outlet sealing plug and the air outlet hole on the baffle can be known through detecting the change of the current, if the gap is smaller, the compressor can continue to work normally, so as to reduce the maintenance frequency, ensure the work efficiency, if the gap is larger, the compressor can stop working in time, the invention can prevent the compressed gas discharged by the compressor from being disqualified, finally, the invention sets a cooling device on the driving device, can drive the first fan blade to rotate through the circulating pump and the lubricating liquid, the coil in the energy storage chamber can generate induction current so that the refrigerating sheet works as lubricating liquid to cool down, the working efficiency is prevented from being influenced by overhigh temperature of the lubricating liquid, the high temperature tolerance of the compressor is further improved, the chips in the lubricating liquid can be trapped through the impurity storage chamber so as to achieve the purpose of purifying the lubricating liquid, the flow direction of the lubricating liquid in the speed increasing groove can be changed through the first magnetic field generator and the sealing plate, the chips in the impurity storage chamber can be further lifted into the filtrate groove and enter the impurity storage pipe along the lubricating liquid, the purpose of automatically collecting the chips can be achieved through the impurity storage pipe, the influence of the flowing cooling effect of the lubricating liquid is avoided, meanwhile, the frequency of cleaning scraps by workers is reduced, a pressure stabilizing plate is further arranged in the cooling chamber, the refrigerating effect of the refrigerating sheet can be controlled through the pressure stabilizing plate, the constant temperature of lubricating liquid is further guaranteed, the flow of the lubricating liquid flowing out of the cooling chamber in unit time can be regulated through a flow stabilizing block arranged at one end, close to the liquid outlet pipe, of the pressure stabilizing plate, and the lubricating liquid in the cooling chamber is guaranteed to have sufficient cooling time.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

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

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic view showing the internal structure of the cooling device of the present invention;

FIG. 4 is a schematic view of the structure of portion A in FIG. 3 according to the present invention;

FIG. 5 is a schematic view of the structure of portion B of FIG. 4 in accordance with the present invention;

FIG. 6 is a schematic diagram of the filtrate vessel in the automatic removal of debris from the interior of the chamber in accordance with the present invention;

FIG. 7 is a schematic view of the structure of the connecting device of the present invention;

FIG. 8 is a schematic view of the structure of portion C of FIG. 7 in accordance with the present invention;

FIG. 9 is a schematic view of the structure of portion D of FIG. 7 in accordance with the present invention;

FIG. 10 is a schematic view of the structure of the air outlet mechanism and the air inlet mechanism of the compressor of the present invention when the compressor is discharging;

FIG. 11 is a schematic diagram of a baffle structure when the sealing plug of the invention seals well with the vent holes formed in the baffle plate;

fig. 12 is a schematic view of a baffle structure when the sealing between the air outlet sealing plug and the air outlet hole arranged on the baffle plate is in a problem.

In the figure: 1-drive, 11-drive housing, 12-cam, 2-cooling device, 21-cooling tank, 22-circulation pump, 23-filtrate vessel, 231-speed increasing tank, 2311-first fan blade, 232-energy storage chamber, 233-filtrate tank, 2331-movable plate, 234-impurity storage tube, 235-impurity storage chamber, 236-sealing groove, 2361-first magnetic field generator, 2362-sealing plate, 237-accumulator, 24-cooling chamber, 25-steady voltage plate, 251-guide bar, 252-first conductive block, 26-liquid outlet tube, 27-liquid inlet tube, 238-lifting chamber, 2381-lifting block, 3-compression device, 31-compressor housing 32-solid state lubrication plate, 33-air outlet mechanism, 331-air outlet sealing plug, 332-first supporting seat, 3321-movable pin, 34-air inlet mechanism, 341-air inlet sealing plug, 342-second supporting seat, 3421-second fan blade, 3422-control chamber, 3423-first cavity, 3424-second cavity, 34241-second conductive block, 35-baffle plate, 36-piston, 4-connecting device, 41-air outlet pipe, 42-connector shell, 421-compensator, 4211-compensation chamber, 43-air inlet pipe, 44-connecting flange, 441-third cavity, 4411-baffle plate, 44111-flexible plate, 44112-third conductive block.

Detailed Description

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

As shown in fig. 1 to 12, a compressor resistant to high temperature and corrosion comprises a driving device 1, a cooling device 2, a compressing device 3 and a connecting device 4, wherein the connecting device 4 is arranged on one side of the compressing device 3, the driving device 1 is arranged on one side of the compressing device 3 far away from the connecting device 4, the cooling device 2 is arranged above the driving device 1, the driving device 1 comprises a driver shell 11, a cam 12 is arranged in the driver shell 11, the cam 12 is connected with an external motor, the compressing device 3 comprises a compressor shell 31, a piston 36 is arranged in the compressor shell 31, the cam 12 is connected with the piston 36 through a connecting rod, a partition 35 is arranged at one end of the interior of the compressor shell 31 far away from the driver shell 11, an air outlet mechanism 33 and an air inlet mechanism 34 are arranged at one end of the partition 35 far away from the piston 36, the connecting device 4 comprises a connector shell 42, the connector shell 42 is connected with the compressor shell 31 through a connecting flange 44, an air inlet pipe 43 is arranged at one end of the connector shell 42 near the air outlet mechanism 33, an air outlet pipe 41 is arranged at one end of the connector shell 42 near the air outlet mechanism 33, the inside the connector shell 42 is provided with a compensator 421, and the compensator 421 is connected with the compensator 421.

The driving device 1 is a power source of the invention, when the compressor works, the external motor drives the cam 12 to rotate, the cam 12 and the connecting rod can drive the piston 36 to move in the compressor shell 31, external gas enters the compressor shell 31 through the air inlet pipe 43 and the air inlet mechanism 34, and then flows out of the compressor shell 31 through the air outlet mechanism 33 and the air outlet pipe 41 after being compressed by the piston 36.

As shown in fig. 1 to 12, the cooling device 2 includes a cooling tank 21, a circulation pump 22 and a cooling chamber 24 are provided in the cooling tank 21, a liquid inlet pipe 27 is provided at one end of the cooling tank 21 close to the circulation pump 22, a liquid outlet pipe 26 is provided at one end of the cooling tank 21 close to the cooling chamber 24, a filtrate tank 23 and a refrigerating plate are provided in the cooling tank 21, the liquid inlet pipe 27 is connected to a water pumping end of the circulation pump 22, the filtrate tank 23 is connected to a water outlet end of the circulation pump 22, a speed increasing tank 231 and a impurity accumulating chamber 235 are provided in the filtrate tank 23 at one end close to the circulation pump 22, a filter screen is provided at one end of the filtrate tank 23 far from the circulation pump 22 and at one end of the impurity accumulating chamber 235 far from the speed increasing tank 231, a first fan blade 2311 is provided at both sides of the speed increasing tank 231, a coil is provided in the interior of the energy accumulating chamber 232, both sides of the coil are provided with permanent magnets, one end of the coil is connected to the first fan blade 2311 through a transmission rod, and the other end of the coil is connected to the electric storage plate through a wire and the wire 237.

The circulation pump 22 and the liquid inlet pipe 27 are used for sucking the lubricating liquid in the driving device 1 into the cooling chamber 24, the liquid outlet pipe 26 is used for discharging the cooled lubricating liquid into the driving device 1 again, the circulation pump 22 drives the first fan blade 2311 to rotate when the lubricating liquid is discharged, on one hand, the coil can rotate between two groups of permanent magnets to conduct cutting magnetic induction line motion so as to generate induction current, the induction current can be transmitted to the refrigerating plate through the lead wire and the accumulator 237, the purpose of cooling the lubricating liquid is achieved through the refrigerating plate, on the other hand, the purpose of turbulence can be achieved through the first fan blade 2311, the cooling speed is increased, meanwhile, the cooling uniformity is guaranteed, various parts in the driving device 1 can generate a large amount of chips due to factors such as abrasion after long-time working, if the chips continue to exist in the driving device 1, the parts in the driving device 1 are worn, the chips in the driving device 1 can be quickened, the chips in the lubricating liquid can be retained through the impurity storage chamber 235, and the purpose of purifying is achieved.

As shown in fig. 1 to 12, a filtrate tank 233 and a lifting chamber 238 are provided on one side of the speed increasing tank 231, a seal groove 236 is provided on the other side of the speed increasing tank 231, the diameter of the filtrate tank 233 is smaller than the diameters of the speed increasing tank 231 and the impurity storage chamber 235, an impurity storage pipe 234 is provided on one side of the filtrate tank 23 far away from the circulation pump 22, a filter hole is provided on the impurity storage pipe 234 and is communicated with the speed increasing tank 231 and the impurity storage chamber 235 through the filtrate tank 233, a top plate is provided inside the impurity storage chamber 235, an air cylinder is provided below the top plate, a movable plate 2331 is provided on one end of the filtrate tank 233 near the speed increasing tank 231, a lifting block 2381 is provided inside the lifting chamber 238, the lifting block 2381 is magnetic and is connected with the movable plate 2331 through a pull rope and a fixed pulley, a first magnetic field generator 2361 and a sealing plate 2362 are provided on one end of the sealing plate 2362 near the lifting chamber 238 and are attracted mutually, one end of the sealing plate 2362 near the first magnetic field generator 2361 is magnetic and is mutually repelled with the first magnetic field generator 2361 after power is electrified, and the first magnetic field generator 2361 is connected with the electric accumulator 2361.

When the accumulation of the scraps in the impurity storage chamber 235 is excessive, the first magnetic field generator 2361 generates a group of magnetic fields which repel the sealing plate 2362, and meanwhile, the air cylinder can move towards the filtrate tank 233 along the top plate, when the sealing plate 2362 extends out of the sealing groove 236 and is close to the lifting chamber 238, lubricating liquid cannot flow into the impurity storage chamber 235, under the attraction of magnetic force, the lifting block 2381 can move towards the sealing plate 2362, at the moment, the movable plate 2331 moves towards the sealing plate 2362, the lubricating liquid flows into the cooling chamber 24 through the filtering liquid tank 233, and because the diameter of the filtering liquid tank 233 is smaller than the diameters of the speed increasing tank 231 and the impurity storage chamber 235, the pressure of the filtering liquid tank 233 is smaller than the pressure of the impurity storage chamber 235 according to the Bernoulli principle, the scraps in the impurity storage chamber 235 can rise into the filtrate tank 233 under the action of the pressure, and can be accumulated in the impurity storage pipe 234 along the lubricating liquid.

As shown in fig. 1-12, a voltage stabilizing plate 25 is disposed at one end of the cooling chamber 24 far away from the filtrate device 23, the voltage stabilizing plate 25 is connected with the cooling tank 21 through a spring, a guide rod 251 is disposed at one side of the voltage stabilizing plate 25 far away from the filtrate device 23, two groups of first conductive blocks 252 are disposed on the guide rod 251, one group of first conductive blocks 252 is fixedly mounted at one end of the guide rod 251, the other group of first conductive blocks 252 are slidably mounted on the guide rod 251 and fixedly connected with the voltage stabilizing plate 25, the two groups of first conductive blocks 252 are connected with an external power supply and an accumulator 237, a current stabilizing block is disposed at one end of the voltage stabilizing plate 25 near the liquid outlet pipe 26, and through holes are disposed on the current stabilizing block.

When the compressor works normally, the flow rates of the liquid inlet pipe 27 and the liquid outlet pipe 26 are the same, the pressure in the cooling chamber 24 is always at a certain value, the overlapping area of the through hole arranged on the steady flow block and the liquid outlet pipe 26 is the largest, when the temperature in the compressor is too high, the temperature of lubricating liquid in the cooling chamber 24 can be increased, according to the principle of thermal expansion and cold contraction, compared with the normal state, the volume of the lubricating liquid in the cooling chamber 24 can be obviously increased, the steady flow plate 25 can move in the direction far away from the filtrate device 23 at the moment, because the first conductive block 252 on the guide rod 251 is fixedly connected with the steady flow plate 25, when the steady flow plate 25 moves, the first conductive block 252 can be driven to move on the guide rod 251, if the first conductive block 252 is connected with an external ammeter, the temperature increase degree in the compressor can be indirectly judged through detecting the change of the ammeter, the refrigerating effect of the refrigerating plate can be adjusted, the temperature of the lubricating liquid can be further ensured to be constant, when the steady flow plate 25 moves, the steady flow plate 25 is close to one end of the liquid outlet pipe 26, the steady flow block arranged at the moment can move, the through hole arranged on the steady flow block 25 can be fully moved in the cooling chamber 24, the cooling chamber 24 can be ensured, and the cooling time can be reduced, and the cooling time in the cooling chamber can be fully ensured.

As shown in fig. 1-12, the air intake mechanism 34 includes an air intake sealing plug 341 and a second supporting seat 342, a first cavity 3423 is provided in the second supporting seat 342, one end of the air intake sealing plug 341 extends into the first cavity 3423 and is connected with the second supporting seat 342 through a spring, a second cavity 3424 is provided at the outer side of the first cavity 3423, insulating liquid is filled in the first cavity 3423 and the second cavity 3424 and is communicated with the first cavity, two groups of second conductive blocks 34241 are provided in the second cavity 3424, one group of second conductive blocks 34241 is fixedly installed in the second cavity 3424, the other group of second conductive blocks 34241 is movably installed in the second cavity 3424, gaseous conductive medium is filled between the two groups of second conductive blocks 34241, one end of the second supporting seat 342 close to the partition 35 is provided with a second permanent magnet 3421, one side of the second fan blade 3424 close to the second cavity 3422 is provided with a control chamber 3422, two sides of the coil are provided with a permanent magnet, one end of the coil is connected with the coil through a transmission rod and the other end of the motor fan blade 21 is connected with the outside through a wire.

When external gas enters the compressor shell 31, the air inlet sealing plug 341 is separated from the air inlet hole formed in the partition plate 35, when compressed external gas comes out of the compressor shell 31, the air inlet sealing plug 341 is folded with the air inlet hole formed in the partition plate 35, if the tightness between the air inlet sealing plug 341 and the air inlet hole formed in the partition plate 35 is wrong, part of high-pressure gas in the compression process flows out of a gap between the air inlet sealing plug 341 and the air inlet hole, then the second fan blades 3421 are blown to rotate, the coil inside the control chamber 3422 can rotate between two groups of permanent magnets through the second fan blades 3421 to perform cutting magnetic induction movement so as to generate induction current, and as the rotation speed of the second fan blades 3421 is in direct proportion to the amount of gas leakage, the problem of how much tightness between the air inlet sealing plug 341 and the air inlet hole formed in the partition plate 35 can be judged through detecting the induction current on the inner coil of the control chamber 3422 can be solved, when the degree of the problem is small, the leakage gas in the compressor can be compensated through the compensator 421, when the degree of the problem is too big, and the motor can stop working in time, so that the compressor can not work, and the compressor can be prevented from being influenced.

As shown in fig. 1-12, a compensation chamber 4211 and a telescopic rod are arranged in the compensator 421, a movable plug is arranged in the compensation chamber 4211, a one-way valve is arranged at one end of the compensation chamber 4211 far away from the telescopic rod, the air outlet end of the one-way valve is positioned in the direction of the air outlet pipe 41, the movable plug is connected with the telescopic rod, an air valve is arranged at one end of the movable plug, a through hole is formed in one end, close to the air inlet pipe 43, of the compensation chamber 4211 far away from the one-way valve, and a coil arranged in the control chamber 3422 is connected with the telescopic rod.

Through the above technical scheme, when high-pressure gas leaks from the gap between the air inlet sealing plug 341 and the air inlet hole, the telescopic rod can control the movable plug and the air valve to move towards the direction of the one-way valve in the compensation chamber 4211 according to the induced current change on the coil in the control chamber 3422, and the gas in the compensation chamber 4211 can be fed into the air outlet pipe 41 through the movable plug and the air valve, so that the gas leaking from the gap between the air inlet sealing plug 341 and the air inlet hole is compensated, when the gas in the compensation chamber 4211 is reduced, the telescopic rod can control the movable plug and the air valve to move towards the direction far away from the one-way valve in the compensation chamber 4211, and at the moment, the external gas can enter the compensation chamber 4211 through the through hole so as to achieve the purpose of supplementing the gas.

As shown in fig. 1-12, the air outlet mechanism 33 includes an air outlet sealing plug 331 and a first supporting seat 332, one end of the air outlet sealing plug 331 extends into the first supporting seat 332, the air outlet sealing plug 331 is connected with the first supporting seat 332 through a spring, a movable pin 3321 is disposed in the first supporting seat 332, a third cavity 441 is disposed in one end, close to the air outlet mechanism 33, of the connecting flange 44, a baffle 4411 is disposed in the third cavity 441, the third cavity 441 is connected with the baffle 4411 through a spring, one end, close to the baffle 4411, of the movable pin 3321 is magnetic, the bottom end of the baffle 4411 is magnetic, and the movable pin 3321 and the bottom end of the baffle 4411 repel each other.

When external gas enters the compressor shell 31, the air outlet holes formed in the air outlet sealing plug 331 and the partition plate 35 are closed, when compressed external gas comes out of the compressor shell 31, the air outlet holes formed in the air outlet sealing plug 331 and the partition plate 35 are separated, if the tightness between the air outlet holes formed in the air outlet sealing plug 331 and the partition plate 35 is wrong, in the process of sucking air by the piston 36, part of compressed gas in the air outlet pipe 41 flows back into the compressor shell 31 from a gap between the air outlet holes formed in the air outlet sealing plug 331 and the partition plate 35, and then the production capacity of the compressor is reduced, by the technical scheme, the piston 36 is in close contact with the compensator 421 under the action of the spring in the air suction process, the purpose of double sealing is achieved, the compressed gas in the air outlet pipe 41 is prevented from flowing back into the compressor shell 31, when the piston 36 is in the air suction process, one end of the air outlet sealing plug 331 extending into the first supporting seat 332 can push the movable pin 3321 to the direction of the baffle 4411, when the magnetic end of the movable pin 3321 extends into the third cavity 441, the magnetic end of the movable pin 3321 can flow into the third cavity 441, the air outlet pipe can be repelled by the effect of the air in the air outlet pipe 4411, and the air can flow into the third cavity 441 conveniently compressed air by the air inlet hole 4411, and the air can flow into the air cavity 4441 conveniently and the air compressor through the technical scheme.

As shown in fig. 1-12, two sets of flexible boards 44111 are disposed in the middle of the baffle 4411, two sets of third conductive blocks 44112 are disposed between the two sets of flexible boards 44111 and filled with a gaseous conductive medium, and the two sets of third conductive blocks 44112 are connected with an external motor.

Through the above technical scheme, when the piston 36 is inhaling, the pressure on one side of the baffle 4411 close to the air outlet pipe 41 is greater than the pressure on one side of the baffle 4411 close to the air outlet sealing plug 331, because the pressures on two sides are unequal, two groups of flexible plates 44111 can bend, when two groups of third conductive blocks 44112 are connected with an external power supply and an ammeter, the pressure difference on two sides of the baffle 4411 can be judged through detecting the change of current, and then the gap between the air outlet sealing plug 331 and the air outlet holes formed in the partition plate 35 can be indirectly judged, when the gap is too large, the external motor stops working, the baffle 4411 is prevented from being bearable to be damaged or even broken, and when the gap is smaller, the compressor can continue to work normally, so that the maintenance frequency is reduced, and the working efficiency is ensured.

As shown in fig. 1 to 12, the inner wall of the compressor housing 31 is provided with a solid lubricant plate 32, and the outer surfaces of the outlet seal plug 331, the inlet seal plug 341 and the partition 35 are coated with an abrasion-resistant and wear-resistant coating.

The solid lubricating plate 32 arranged on the inner wall of the compressor shell 31 plays roles in lubrication and rust prevention, so that the piston 36 can smoothly move in the compressor shell 31, and lubricating liquid in the driving device 1 can be prevented from flowing into the compression device 3, further lubricating oil is prevented from being adhered to compressed gas, the subsequent use of the compressed gas is influenced, and the abrasion and wear resistant coatings are coated on the outer surfaces of the air outlet sealing plug 331, the air inlet sealing plug 341 and the partition plate 35 due to the fact that the compressed gas is various, so that the abrasion resistance of the compressor can be improved, and the service life of the compressor is prolonged.

The working principle of the invention is as follows: when the compressor works, the external motor drives the cam 12 to rotate, the cam 12 and the connecting rod drive the piston 36 to move in the compressor shell 31, so that the purposes of air suction and air discharge are achieved, when external air enters the compressor shell 31, the air inlet sealing plug 341 is separated from the air inlet hole formed in the partition plate 35, the air outlet sealing plug 331 is folded with the air outlet hole formed in the partition plate 35, at the moment, under the action of the spring, the baffle 4411 is tightly contacted with the compensator 421, so that the purpose of double sealing is achieved, if the tightness between the air outlet sealing plug 331 and the air outlet hole formed in the partition plate 35 is problematic, two groups of flexible plates 44111 on the baffle 4411 are bent, when two groups of third conducting blocks 44112 are connected with an external power supply and an ammeter, the size of a gap between the air outlet sealing plug 331 and the air outlet hole formed in the partition plate 35 can be known through detecting the change of current, if the gap is too large, the external motor stops working, if the gap is smaller, the compressor continues to work normally, when the compressed gas comes out from the compressor shell 31, the air inlet sealing plug 341 is folded with the air inlet hole formed on the partition plate 35, the air outlet sealing plug 331 is separated from the air outlet hole formed on the partition plate 35, the baffle 4411 can be retracted into the third cavity 441 through the movable pin 3321 in the separation process of the air outlet sealing plug 331, so that compressed gas is convenient to flow into the air outlet pipe 41, if the tightness between the air inlet sealing plug 341 and the air inlet hole formed on the partition plate 35 is problematic, the second fan blade 3421 can rotate to cause the coil inside the control chamber 3422 to generate induced current, the size of the gap between the air inlet sealing plug and the air inlet hole formed on the partition plate 35 can be judged by detecting the size of the induced current on the coil inside the control chamber 3422, according to the invention, the cooling device 2 is arranged on the driving device 1, the lubricating liquid in the driving device 1 is sucked into the cooling chamber 24 through the circulating pump 22 and the liquid inlet pipe 27, the circulating pump 22 drives the first fan blade 2311 to rotate when the lubricating liquid is discharged, so that the coil in the energy storage chamber 232 generates induction current, the refrigerating plate works as lubricating liquid to cool down, the impurity storage chamber 235 can trap chips in the lubricating liquid to achieve the purpose of purifying the lubricating liquid, the flow direction of the lubricating liquid in the speed increasing groove 231 can be changed through the first magnetic field generator 2361 and the sealing plate 2362, when the lubricating liquid flows into the cooling chamber 24 through the filtering liquid groove 233, the pressure of the filtering liquid groove 233 is smaller than the pressure of the impurity storage chamber 235, the chips in the impurity storage chamber 235 can rise into the filtrate groove 233 under the action of the pressure, the chips enter the impurity storage pipe 234 along the lubricating liquid, the chips can be automatically collected through the impurity storage pipe 234, and meanwhile, the cooling effect of the chips can be prevented from being influenced by the flowing frequency of the lubricating liquid can be reduced, and the cooling effect of workers can be avoided.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A high temperature and rust resistant compressor, characterized by: the compressor comprises a driving device (1), a cooling device (2), a compressing device (3) and a connecting device (4), wherein the connecting device (4) is arranged on one side of the compressing device (3), the driving device (1) is arranged on one side of the compressing device (3) away from the connecting device (4), the cooling device (2) is arranged above the driving device (1), the driving device (1) comprises a driver shell (11), a cam (12) is arranged in the driver shell (11), the cam (12) is connected with an external motor, the compressing device (3) comprises a compressor shell (31), a piston (36) is arranged in the compressor shell (31), the cam (12) is connected with the piston (36) through a connecting rod, a partition plate (35) is arranged at one end of the compressor shell (31) away from the driver shell (11), an air outlet mechanism (33) and an air inlet mechanism (34) are arranged at one end of the partition plate (35) away from the piston (36), the connecting device (4) comprises a connector shell (42) and the connector shell (42) is connected with the connector (42) through a flange (44), an air inlet pipe (43) is arranged at one end, close to the air inlet mechanism (34), of the connector shell (42), an air outlet pipe (41) is arranged at one end, close to the air outlet mechanism (33), of the connector shell (42), a compensator (421) is arranged in the connector shell (42), and the air inlet mechanism (34) is connected with the compensator (421);

The cooling device (2) comprises a cooling box (21), a circulating pump (22) and a cooling chamber (24) are arranged in the cooling box (21), a liquid inlet pipe (27) is arranged at one end, close to the circulating pump (22), of the cooling box (21), a liquid outlet pipe (26) is arranged at one end, close to the cooling chamber (24), of the cooling box (21), a filtrate tank (23) and a refrigerating sheet are arranged in the cooling box (21), the liquid inlet pipe (27) is connected with a pumping end of the circulating pump (22), the filtrate tank (23) is connected with a water outlet end of the circulating pump (22), a speed increasing groove (231) and a sundry chamber (235) are arranged in the cooling box (21), the speed increasing groove (231) is arranged at one end, close to the circulating pump (22), far from the speed increasing groove (23), of the sundry chamber (235) is provided with a filter screen (231), the first fan blade (231) is arranged at two sides of the first fan blade (231) and the first fan blade (231) are connected with a permanent magnet (232) through a first fan blade (232), the other end of the coil is connected with the refrigerating sheet through a lead and an accumulator (237).

2. A high temperature and corrosion resistant compressor as set forth in claim 1, wherein: one side of acceleration tank (231) is provided with filtrate tank (233) and lift room (238), the opposite side of acceleration tank (231) is provided with seal groove (236), the diameter in filtrate tank (233) is less than the diameter in acceleration tank (231) and hold miscellaneous room (235), the one side that circulating pump (22) was kept away from to filtrate ware (23) is provided with miscellaneous pipe (234), it is linked together with acceleration tank (231) and miscellaneous room (235) through filtrate tank (233) to have seted up the filtration pore on miscellaneous pipe (234), the one end that filtrate tank (231) is close to acceleration tank (231) is provided with fly leaf 2331, the inside of lift room (238) is provided with lifting block (2381), lifting block (2381) have magnetism and are connected with fly leaf 2331 through stay cord and fixed pulley, the inside of seal groove (236) is provided with first magnetic field generator (2361) and closing plate (2362), one end that closing plate (2362) are close to lift room (238) has magnetism and is close to one end that magnetic field generator (2361) and magnetic field generator (2361) are close to each other, and magnetic field generator (2361) are close to each other.

3. A high temperature and corrosion resistant compressor as set forth in claim 2, wherein: one end that filtrate ware (23) was kept away from to inside of cooling chamber (24) is provided with steady voltage board (25), pass through spring coupling between steady voltage board (25) and cooling tank (21), one side that filtrate ware (23) was kept away from to steady voltage board (25) is provided with guide arm (251), be provided with two sets of first conducting block (252) on guide arm (251), one of them set of first conducting block (252) fixed mounting is in the one end of guide arm (251), another set of first conducting block (252) slidable mounting just with steady voltage board (25) fixed connection on guide arm (251), two sets of first conducting block (252) are all connected with external power source and electric accumulator (237), one end that steady voltage board (25) are close to drain pipe (26) is provided with the stationary flow piece, be provided with the through-hole on the stationary flow piece.

4. A high temperature and corrosion resistant compressor as set forth in claim 3, wherein: the air inlet mechanism (34) comprises an air inlet sealing plug (341) and a second supporting seat (342), a first cavity (3423) is arranged in the second supporting seat (342), one end of the air inlet sealing plug (341) stretches into the first cavity (3423) and is connected with the second supporting seat (342) through a spring, a second cavity (3424) is arranged on the outer side of the first cavity (3423), insulating liquid is filled in the first cavity (3423) and the second cavity (3424) and is communicated with the first cavity, two groups of second conductive blocks (34241) are arranged in the second cavity (3424), one group of second conductive blocks (34241) are fixedly arranged in the second cavity (3424), the other group of second conducting blocks (34241) are movably arranged in a second cavity (3424), gaseous conducting media are filled between the two groups of second conducting blocks (34241), one end, close to a partition plate (35), of a second supporting seat (342) is provided with a second fan blade (3421), one side, close to the second cavity (3424), of the second fan blade (3421) is provided with a control chamber (3422), a coil is arranged in the control chamber (3422), permanent magnets are arranged on two sides of the coil, one end of the coil is connected with the second fan blade (3421) through a transmission rod, and the other end of the coil is connected with an external motor through a wire.

5. A high temperature and corrosion resistant compressor as set forth in claim 4, wherein: the inside of compensator (421) is provided with compensation room (4211) and telescopic link, the inside of compensation room (4211) is provided with movable stopper, the one end that the telescopic link was kept away from to compensation room (4211) is provided with the check valve, the end of giving vent to anger of check valve is located the direction of outlet duct (41), movable stopper is connected with the telescopic link, the one end of movable stopper is provided with the pneumatic valve, the through-hole has been seted up to the one end that compensation room (4211) is close to intake pipe (43) and keeps away from the check valve, the inside coil that is provided with of control room (3422) is connected with the telescopic link.

6. A high temperature and corrosion resistant compressor as set forth in claim 5, wherein: the utility model provides a mechanism of giving vent to anger (33) is including sealing plug (331) and first supporting seat (332) give vent to anger, the inside of first supporting seat (332) is stretched into to the one end of sealing plug (331) of giving vent to anger, be connected through the spring between sealing plug (331) and the first supporting seat (332), the inside of first supporting seat (332) is provided with movable pin (3321), the inside of flange (44) is provided with third cavity (441) near the one end of mechanism of giving vent to anger (33), the inside of third cavity (441) is provided with baffle (4411), be connected through the spring between third cavity (441) and the baffle (4411), the one end that movable pin (3321) is close to baffle (4411) has magnetism, the bottom of movable pin (3321) and baffle (4411) is mutually exclusive.

7. A high temperature and corrosion resistant compressor as set forth in claim 6, wherein: two groups of flexible plates (44111) are arranged at the middle position of the baffle (4411), two groups of third conductive blocks (44112) are arranged between the two groups of flexible plates (44111) and filled with gaseous conductive media, and the two groups of third conductive blocks (44112) are connected with an external motor.

8. A high temperature and corrosion resistant compressor as set forth in claim 7, wherein: the inner wall of the compressor shell (31) is provided with a solid lubricating plate (32), and the outer surfaces of the air outlet sealing plug (331), the air inlet sealing plug (341) and the partition plate (35) are coated with an abrasion-resistant and wear-resistant coating.