CN116221062A - Air compressor of horizontal shaft magnetic suspension bearing motor - Google Patents

Abstract

The invention discloses a horizontal shaft magnetic suspension bearing motor air compressor, which comprises a compressor mechanism, wherein the compressor mechanism comprises an air storage tank, a single-cavity block is fixed on the outer wall of the air storage tank, a heat dissipation mechanism is arranged on the outer wall of the compressor mechanism, a protection mechanism is arranged on the surface of the compressor mechanism, the heat dissipation mechanism comprises concave blocks, a plurality of annular grooves are formed in the equidistant distribution of the outer surface of the single-cavity block, two symmetrical U-shaped copper pipes are arranged in each annular groove, sealing plates are arranged at the openings of the concave blocks, L-shaped frames are arranged on the front surface and the rear surface of the single-cavity block, and cavity blocks are fixed at the bottoms of the two L-shaped frames.

Description

Air compressor of horizontal shaft magnetic suspension bearing motor

Technical Field

The invention relates to the technical field of air compressors, in particular to a horizontal shaft magnetic suspension bearing motor air compressor.

Background

Air compressors are devices for compressing gas, and can be divided into three main categories according to the working principle: volumetric, dynamic (speed or turbine), thermodynamic compressors; the performance can be divided into: low noise, variable frequency, explosion-proof and other air compressors; the air compressor can be divided into an oil-free air compressor and an engine oil lubrication air compressor according to a lubrication mode, and the horizontal shaft magnetic suspension bearing motor is the power source of the whole air compressor and is an important component of the air compressor.

When the existing air compressor is used for a long time, a large amount of heat can be generated by the sliding blocks moving up and down and the inner walls of the cavity blocks in the air compression area of the air compressor because of continuous friction, if the air compressor is not subjected to timely cooling treatment, the air compressor can not be timely discharged because of heat so as to influence the operation of air compression, namely, the working effect of the air compression is reduced, and therefore, the service efficiency of the air compressor is reduced, and therefore, the air compressor with the horizontal shaft magnetic suspension bearing motor is provided, and the problem in the prior art is solved.

Disclosure of Invention

The invention aims to provide a horizontal shaft magnetic suspension bearing motor air compressor, when a large amount of heat generated during the operation of a single cavity block is required to be subjected to heat dissipation and cooling operation, a water pump is directly started at the moment, water in the concave block of the started water pump directly enters the inside of a first connecting pipe, then water enters the inside of one cavity block, the water is shunted to the inside of a corresponding U-shaped copper pipe through a corresponding rectangular hole, when cold water enters the inside of the corresponding U-shaped copper pipe, the heat on the single cavity block is directly transferred to the inside of each U-shaped copper pipe under the action of heat conduction silica mud at the moment, then the heat transferred to the U-shaped copper pipe is directly taken away under the action of flowing cold water, then the water carrying the heat is directly collected into the inside of the other cavity block, finally the water directly flows back to the inside of the concave block from a second connecting pipe and a third connecting pipe, meanwhile, all fans are started, and after the arc-shaped copper pipe is contacted with the water with the heat, the heat is directly transferred to the inside of the arc-shaped copper pipe, and then the heat entering the inside of the arc-shaped copper pipe is directly discharged along with flowing gas inside each arc-shaped copper pipe.

In order to achieve the above purpose, the present invention provides the following technical solutions: the air compressor of the horizontal shaft magnetic suspension bearing motor comprises a compressor mechanism, wherein the compressor mechanism comprises an air storage tank, a single-cavity block is fixed on the outer wall of the air storage tank, a heat dissipation mechanism is arranged on the outer wall of the compressor mechanism, and a protection mechanism is arranged on the surface of the compressor mechanism;

the heat dissipation mechanism comprises a concave block, a plurality of annular grooves are distributed at equal intervals on the outer surface of the single-cavity block, two symmetrical U-shaped copper pipes are arranged in the annular grooves, a sealing plate is arranged at the opening of the concave block, L-shaped frames are arranged on the front surface and the rear surface of the single-cavity block, two L-shaped frames are fixed at the bottom, a plurality of rectangular holes are distributed at equal intervals on the outer wall of the cavity block, one of the rectangular holes is fixedly penetrated with a first connecting pipe, the other one of the rectangular holes is fixedly penetrated with a second connecting pipe, a placing groove is formed in one side of the concave block, a water pump is arranged at the bottom of the inner wall of the placing groove, two supporting frames are fixed on the outer wall of the air storage tank, a third connecting pipe is arranged at the output end of the water pump, a plurality of arc-shaped copper pipes are fixedly penetrated with each arc-shaped output end, a fan is arranged at the top of the concave block, and a water inlet pipe cover is fixedly penetrated with the top of the concave block.

Preferably, the bottom of the concave block is fixed with the top of the supporting frame through a first screw, two ends of each U-shaped copper pipe are respectively connected with opposite ends of the two cavity blocks through a second screw, and each two rectangular holes are respectively communicated with two ends of each U-shaped copper pipe.

Preferably, the water inlet end of the first connecting pipe is fixedly penetrated through the outer wall of the concave block, the water outlet end of the second connecting pipe is fixedly penetrated through the top of the concave block, and the water outlet end of the second connecting pipe is fixedly penetrated through the inner wall of the concave block.

Preferably, the water outlet end of the second connecting pipe is connected with the water inlet end of the water pump, and the output end of the third connecting pipe fixedly penetrates through the top of the inner wall of the placing groove.

Preferably, the outer wall of gas holder is fixed with the connecting plate, bearing motor body is installed at the top of connecting plate, the inside through-hole sealed bearing of the back surface through-hole of single chamber piece rotates and is connected with T type pole, the surface of T type pole and the output of bearing motor body all are fixed with the gear, and mesh connection between two gears.

Preferably, the air vent has all been seted up to the both sides of single chamber piece, two the inside of air vent has all fixedly cup jointed the pipe, two the spacing groove has all been seted up to the inner wall of air vent, two the inside of spacing groove has all movably cup jointed the gag lever post.

Preferably, the bottom of two gag lever post all is fixed with the sealing block, two the top of sealing block is fixed mounting has the spring, two the top of spring respectively with the outer wall fixed mounting of two air vents, two the bottom of gag lever post is movable respectively cup joints in the inside of two springs.

Preferably, the inside activity of single chamber piece has cup jointed the slider, the top bonding of slider is connected with the sealing plug, the sealing plug activity cup joints in the inside of single chamber piece, the bottom recess department inside of slider is fixed with first bull stick, the surface rotation of first bull stick is connected with L type piece, the external surface fixed of T type pole has cup jointed the commentaries on classics piece.

Preferably, the front surface of the rotating block is fixed with a second rotating rod, the second rotating rod is rotationally connected in the L-shaped block through a first bearing, a filter screen cover is arranged at the air inlet end of one circular tube, the air outlet end of the other circular tube is connected with the air inlet end of the air storage tank through a hose, and a valve is arranged at the air outlet end of the air storage tank.

Preferably, the protection mechanism comprises two connecting blocks, the two connecting blocks are fixed on the air storage tank, two thread grooves are formed in the tops of the two connecting blocks, a protection plate is arranged at the top of the air storage tank, four cylindrical holes are formed in the tops of the protection plate, support rods are connected in the cylindrical holes in a rotating mode through second bearings, and the bottoms of the support rods are connected in the thread grooves in a threaded mode respectively.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention is characterized in that the heat dissipation mechanism is arranged, when a large amount of heat generated during the operation of the single cavity block is required to be dissipated and cooled, so that the compressor can be ensured to operate for a long time, when the compressor is not in use, heat conduction silicon paste is coated in the interior of each annular groove, then two U-shaped copper pipes are arranged in each annular groove, two ends of each U-shaped copper pipe are respectively connected with two cavity blocks, then a proper amount of cold water is injected into the concave blocks, when the compressor is in use, a large amount of heat is generated during the operation of the inner wall of the single cavity block in an air compression area of the compressor, the water pump is directly started at the moment, the water inlet end of the first connecting pipe can obtain a large suction force, and when the suction force is used, the water in the concave blocks is directly sucked into the first connecting pipe, then water enters the inside of one cavity block, then is shunted to the inside of the corresponding U-shaped copper pipe through the corresponding rectangular hole, when cold water enters the inside, the heat on the single cavity block is directly transferred to the inside of each U-shaped copper pipe under the action of heat conduction silicon mud, then the heat transferred to the U-shaped copper pipe can be directly taken away under the action of flowing cold water, then the water carrying the heat can be directly collected into the inside of the other cavity block, finally flows back to the inside of the concave block from the second connecting pipe and the third connecting pipe, meanwhile, all fans are started, the arc copper pipe directly transfers the heat to the inside of the arc copper pipe after contacting the water with the heat, then the heat entering the inside of the arc copper pipe can be directly discharged along with the flowing gas in the inside of each arc copper pipe, the method can effectively cool the inner wall of the single-cavity block in the air compression area of the compression mechanism, namely, the compressor can be ensured to work for a long time, namely, the service efficiency of the air compressor is effectively improved.

2. The invention is provided with a compressor mechanism and a protection mechanism, when an air compressor is needed, a bearing motor body is directly started at the moment, the started bearing motor directly drives a T-shaped rod to rotate under the action of a gear, when the T-shaped rod rotates, the rotating T-shaped rod directly drives a sliding block to move up and down under the cooperation of a rotating block, a second rotating rod, an L-shaped block, a single cavity block and a first rotating rod, when the sliding block moves down, one sealing block starts to move down under the cooperation of a single groove block and a sealing plug at the moment, the downward moving sealing block directly stretches a corresponding spring under the cooperation of a corresponding limit groove and a limit rod, the downward moving sliding block also sucks outside air into the single cavity block under the cooperation of a corresponding vent hole, a round pipe and a filter screen cover, and when the sliding block starts to move up, under the action of the spring at the moment, when the sealing block moves upwards, the corresponding spring is compressed directly by the upwards moving sealing block under the cooperation of the corresponding limit groove and limit rod, the upwards moving sliding block compresses the gas entering the single cavity block into the other vent hole under the cooperation of the sealing plug, then the gas enters the gas storage tank through the corresponding circular tube and hose to be stored, when the gas in the gas storage tank is needed to be used, the valve is directly opened, when the air compressor mechanism and the heat dissipation mechanism are used, and in order to prevent the damage of the components caused by smashing of objects, the protection plate is directly moved, the four support rods are driven to move by the moved protection plate, and when the protection plate is moved to a proper position, the bottom of each supporting rod is directly connected with the inside of each thread groove in a threaded mode, namely, the protection plate is fixed, namely, the compressor mechanism and the heat dissipation mechanism are protected through the protection plate.

Drawings

FIG. 1 is a perspective view of a horizontal axis magnetic bearing motor air compressor of the present invention;

FIG. 2 is another angular perspective view of a horizontal axis magnetic bearing motor air compressor of the present invention;

FIG. 3 is a partial perspective view of a horizontal axis magnetic bearing motor air compressor of the present invention;

FIG. 4 is a top perspective view of a horizontal axis magnetic bearing motor air compressor of the present invention;

FIG. 5 is a schematic perspective view of a cavity block and rectangular holes of an air compressor of a horizontal shaft magnetic bearing motor according to the present invention;

FIG. 6 is a perspective view, partially in section, of a horizontal axis magnetic bearing motor air compressor of the present invention;

FIG. 7 is an enlarged perspective view of the air compressor of the horizontal shaft magnetic bearing motor of the present invention, which is shown in FIG. 6 as a structure A;

fig. 8 is a schematic perspective view of a first rotating rod, a second rotating rod, an L-shaped block, a rotating block and a T-shaped rod of a horizontal shaft magnetic suspension bearing motor air compressor according to the present invention.

In the figure: 1. a compressor mechanism; 2. a heat dissipation mechanism; 3. a protection mechanism; 101. a gas storage tank; 102. a bearing motor body; 103. a gear; 104. a single cavity block; 105. a vent hole; 106. a limit groove; 107. a limit rod; 108. a spring; 109. a sealing block; 110. a slide block; 111. a sealing plug; 112. a first rotating lever; 113. a T-shaped rod; 114. a rotating block; 115. a second rotating rod; 116. an L-shaped block; 117. a round tube; 118. a filter screen cover; 119. a valve; 120. a connecting plate; 201. a concave block; 202. an annular groove; 203. u-shaped copper pipe; 204. a first connection pipe; 205. a sealing plate; 206. an L-shaped frame; 207. a cavity block; 208. a rectangular hole; 209. a second connection pipe; 210. a water pump; 211. a support frame; 212. a third connection pipe; 213. arc copper pipe; 214. a fan; 215. a water inlet pipe; 216. a tube cover; 217. a placement groove; 301. a connecting block; 302. a thread groove; 303. a protective plate; 304. a cylindrical hole; 305. and (5) supporting the rod.

Description of the embodiments

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 evident 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.

Referring to fig. 1-8, the present invention provides a technical solution: the utility model provides a horizontal axis magnetic suspension bearing motor air compressor, includes compressor mechanism 1, and compressor mechanism 1 includes gas holder 101, and the outer wall of gas holder 101 is fixed with single chamber piece 104, and the outer wall installation of compressor mechanism 1 is provided with cooling mechanism 2, and the surface of compressor mechanism 1 is provided with protection machanism 3;

the heat dissipation mechanism 2 comprises a concave block 201, a plurality of annular grooves 202 are distributed on the outer surface of the single cavity block 104 at equal intervals, two symmetrical U-shaped copper pipes 203 are arranged in each annular groove 202, a sealing plate 205 is arranged at an opening of each concave block 201, L-shaped frames 206 are arranged on the front surface and the rear surface of the single cavity block 104, cavity blocks 207 are fixed at the bottoms of the two L-shaped frames 206, a plurality of rectangular holes 208 are distributed on the outer wall of each cavity block 207 at equal intervals, a first connecting pipe 204 is fixedly penetrated through the outer wall of one cavity block 207, a second connecting pipe 209 is fixedly penetrated through the outer wall of the other cavity block 207, a placing groove 217 is formed in one side of each concave block 201, a water pump 210 is arranged at the bottom of the inner wall of each placing groove 217, two supporting frames 211 are fixedly penetrated through the outer wall of each air storage tank 101, a third connecting pipe 212 is arranged at the output end of each water pump 210, a plurality of arc-shaped copper pipes 213 are fixedly penetrated through the inner surfaces of each concave block 201, a fan 214 is arranged at the output end of each arc-shaped frame 206, a water inlet pipe 215 is fixedly penetrated through the top of each concave block 201, and a water inlet pipe 216 is fixedly penetrated through the water inlet pipe 216 is arranged at the water inlet end of each water inlet pipe 215.

According to fig. 2-5, the bottom of the concave block 201 is fixed to the top of the supporting frame 211 by a first screw, two ends of each U-shaped copper pipe 203 are respectively connected to opposite ends of two cavity blocks 207 by a second screw, and each two rectangular holes 208 are respectively communicated with two ends of each U-shaped copper pipe 203, so that water in the cavity blocks 207 can be conveniently distributed to the inside of each U-shaped copper pipe 203 under the cooperation of the rectangular holes 208.

According to the embodiments shown in fig. 2-4, the water inlet end of the first connecting pipe 204 is fixed to penetrate through the outer wall of the concave block 201, the water outlet end of the second connecting pipe 209 is fixed to penetrate through the top of the concave block 201, and the water outlet end of the second connecting pipe 209 is fixed to penetrate through the inner wall of the concave block 201, so that cold water for cooling the inner wall of the single-cavity block 104 in the air compression area of the compressor mechanism 1 can be stored conveniently under the action of the concave block 201.

According to the embodiments shown in fig. 2-4 and 6, the water outlet end of the second connecting pipe 209 is connected with the water inlet end of the water pump 210, and the output end of the third connecting pipe 212 is fixed to penetrate through the top of the inner wall of the placement groove 217, so that the water with heat delivered from the second connecting pipe 209 can be conveniently guided back into the concave block 201 from the third connecting pipe 212 under the action of the water pump 210.

According to the embodiments shown in fig. 2-4 and fig. 6-8, the outer wall of the air storage tank 101 is fixed with a connecting plate 120, the top of the connecting plate 120 is provided with a bearing motor body 102, an inner through hole sealing bearing of a through hole on the rear surface of the single cavity block 104 is rotatably connected with a T-shaped rod 113, the outer surface of the T-shaped rod 113 and the output end of the bearing motor body 102 are both fixed with gears 103, and the two gears 103 are in meshed connection, so that the T-shaped rod 113 can be driven to rotate under the cooperation of the bearing motor body 102, the gears 103 and a belt.

According to the embodiments shown in fig. 2-4, 6 and 7, the two sides of the single cavity block 104 are respectively provided with the vent holes 105, the inner parts of the two vent holes 105 are respectively fixedly sleeved with the round tube 117, the inner walls of the two vent holes 105 are respectively provided with the limit grooves 106, and the inner parts of the two limit grooves 106 are respectively movably sleeved with the limit rod 107, so that the sealing block 109 can vertically move up and down under the cooperation of the limit rod 107 and the limit grooves 106.

According to the illustration in fig. 7, the bottom of two gag levers 107 is fixed with the sealing block 109, the top of two sealing blocks 109 is fixed with the spring 108, the top of two springs 108 is fixed with the outer wall of two vent holes 105 respectively, the bottom of two gag levers 107 is movably sleeved in the two springs 108 respectively, it is convenient under the effect of springs 108, can let sealing block 109 carry out quick automatic re-setting.

According to the figures 3, 4 and 6-8, the inside of the single cavity block 104 is movably sleeved with a sliding block 110, the top of the sliding block 110 is connected with a sealing plug 111 in an adhering manner, the sealing plug 111 is movably sleeved in the single cavity block 104, a first rotating rod 112 is fixed in a groove at the bottom of the sliding block 110, the outer surface of the first rotating rod 112 is rotatably connected with an L-shaped block 116, and the outer surface of the T-shaped rod 113 is fixedly sleeved with a rotating block 114.

According to the embodiment shown in fig. 2-4, fig. 6 and fig. 8, the second rotating rod 115 is fixed on the front surface of the rotating block 114, the second rotating rod 115 is rotatably connected to the inside of the L-shaped block 116 through the first bearing, the air inlet end of one circular tube 117 is provided with the filter screen cover 118, the air outlet end of the other circular tube 117 is connected with the air inlet end of the air storage tank 101 through a hose, the air outlet end of the air storage tank 101 is provided with the valve 119, and dust filtration can be conveniently performed on air entering the inside of the single cavity block 104 under the action of the filter screen cover 118.

According to the figures 1-4 and 6, the protection mechanism 3 comprises two connecting blocks 301, the two connecting blocks 301 are all fixed on the air storage tank 101, two thread grooves 302 are formed in the tops of the two connecting blocks 301, a protection plate 303 is arranged on the top of the air storage tank 101, four cylindrical holes 304 are formed in the top of the protection plate 303, support rods 305 are connected in a rotary mode through second bearings in the inside of each cylindrical hole 304, the bottom ends of the support rods 305 are connected in the inside of each thread groove 302 in a threaded mode respectively, and therefore the protection of components of the compressor mechanism 1 and components of the heat dissipation mechanism 2 under the action of the protection plate 303 is facilitated, and the service life of the air compressor is prolonged.

The whole mechanism achieves the following effects: when the air compressor is needed, the bearing motor body 102 is directly started at this time, the bearing motor body 102 is started at this time, the other gear 103 which is engaged and connected is directly driven to rotate under the cooperation of the gear 103 connected with the bearing motor body, when the other gear 103 rotates, the rotating gear 103 directly drives the T-shaped rod 113 to rotate under the cooperation of the fixed bearing, when the T-shaped rod 113 rotates, the rotating T-shaped rod 113 drives the rotating block 114 to rotate, the rotating block 114 drives the L-shaped block 116 through the cooperation of the second rotating rod 115, when the L-shaped block 116 moves, at this time, under the cooperation of the single cavity block 104 and the first rotating rod 112, the sliding block 110 is directly driven to move up and down, when the sliding block 110 moves down, under the cooperation of the single cavity block 104 and the sealing plug 111, one sealing block 109 starts to move down, the corresponding spring 108 is directly driven to stretch under the cooperation of the corresponding limiting groove 106 and the limiting rod 107, the sliding block 110 which moves down also moves up and down, when the corresponding vent hole 105, the corresponding sliding block 104 is matched with the other sealing block 106 is driven to move up and down, the other sealing block 109 is driven to move up and down, the sealing block 109 is compressed under the cooperation of the sealing block 107, and the air is compressed under the sealing block which starts to move up and down, when the other sealing block 109 is pushed down, the corresponding to move up and the sealing block is compressed inside the sealing block 106 is pushed up and the sealing block 107, and the sealing block is opened up and the sealing block is opened, and the sealing block is opened up and the sealing block is opened and the sealing block is opened, then the inside of the air storage tank 101 is filled with the soft pipe, when the air in the air storage tank 101 is needed to be used, the valve 119 is directly opened at the moment, when the single cavity block 104 is continuously rubbed with the sliding block 110 and the sealing plug 111, a large amount of heat is generated in the inner wall of the single cavity block 104 at the moment, when the compressor is not used for air compression storage due to the heat, at the moment, when the compressor is not used, heat conduction silicon mud is directly coated in the copper pipe 202, then two U-shaped copper pipes 203 are arranged in the copper pipe 202, then two ends of each U-shaped copper pipe 203 are respectively connected with the two cavity blocks 207, meanwhile, the pipe cover 216 is taken down, a proper amount of cold water is injected into the inside of the concave block 201 from the water inlet pipe 215, then the pipe cover 216 is covered, when the compressor is used, a large amount of heat is generated in the air compression area of the single cavity block 104, at the moment, the water pump 210 is directly started at the moment, the second connecting pipe 209, the cavity block 207, the rectangular hole 208 and the U-shaped copper pipe 203 are matched, so that the water inlet end of the first connecting pipe 204 obtains large water inlet end, directly acts on the copper pipe 203, two U-shaped copper pipes 203 are directly connected to the inner side of the concave block, the heat is directly absorbed in the inner cavity block 203, the inner side of the hollow block 203 is directly, the heat is directly carried by the hollow block 203, and the heat is directly absorbed in the inner cavity block 203, and the inner water is directly acted on the hollow block 203, and directly, and the heat is directly absorbed in the inner cavity of the hollow block 203, and directly connected to the inner cavity 203, and directly connected to the inner hollow block, and directly through the hollow block, and directly under the hollow block, and the heat is directly and the hollow block and directly inside. Finally, the air inside the corresponding arc copper pipe 213 is driven to flow by each fan 214 started at the same time, the arc copper pipe 213 directly transfers heat to the inside of the arc copper pipe 213 after contacting with hot water, the heat entering the inside of the arc copper pipe 213 is directly discharged along with the air flowing inside each arc copper pipe 213, the effect of cooling along with water is greatly achieved, the reciprocating operation can be carried out on the compressor air compression area during operation, the compressor can be used for a long time, when the air compressor mechanism 1 and the heat dissipation mechanism 2 are used, in order to prevent the damage of the components caused during the smashing of objects, the moving protection plate 303 can drive the four support rods 305 to move, and when the protection plate 303 moves to a proper position, the bottom end of each support rod 305 is respectively and threadedly connected to the inside of each thread groove 302, namely, the fixation of the protection plate 303 is realized, namely, the protection plate 303 is realized through the compressor mechanism 1 and the heat dissipation mechanism 2.

The compressor mechanism 1, the bearing motor body 102, the valve 119, the water pump 210 and the fan 214 are all of the prior art, and will not be explained here too much.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (10)

1. The utility model provides a horizontal axis magnetic suspension bearing motor air compressor, includes compressor mechanism (1), its characterized in that: the compressor mechanism (1) comprises an air storage tank (101), a single-cavity block (104) is fixed on the outer wall of the air storage tank (101), a heat dissipation mechanism (2) is arranged on the outer wall of the compressor mechanism (1), and a protection mechanism (3) is arranged on the surface of the compressor mechanism (1);

the heat dissipation mechanism (2) comprises concave blocks (201), a plurality of annular grooves (202) are formed in the outer surface of each single cavity block (207) at equal intervals, two symmetrical U-shaped copper pipes (203) are arranged in each annular groove (202), a sealing plate (205) is arranged at the opening of each concave block (201), L-shaped frames (206) are arranged on the front surface and the rear surface of each single cavity block (104), cavity blocks (207) are fixed at the bottoms of the two L-shaped frames (206), a plurality of rectangular holes (208) are formed in the outer wall of each cavity block (207) at equal intervals, a first connecting pipe (204) is fixedly arranged on the outer wall of one cavity block (207) in a penetrating manner, a second connecting pipe (209) is fixedly arranged on the outer wall of the other cavity block (207), a water pump (210) is arranged at the bottom of the inner wall of each placing groove (217), two supporting frames (211) are fixedly arranged on the outer wall of each air storage tank (101), a plurality of copper pipes (212) are fixedly arranged at the output ends of the copper pipes (213) and each arc-shaped connecting pipe (213) penetrates through the arc-shaped copper pipes (213), the water inlet end of the water inlet pipe (215) is provided with a pipe cover (216).

2. The horizontal axis magnetic bearing motor air compressor of claim 1, wherein: the bottom of the concave block (201) is fixed with the top of the supporting frame (211) through a first screw, two ends of each U-shaped copper pipe (203) are respectively connected with opposite ends of two cavity blocks (207) through a second screw, and each two rectangular holes (208) are respectively communicated with two ends of each U-shaped copper pipe (203).

3. The horizontal axis magnetic bearing motor air compressor of claim 1, wherein: the water inlet end of the first connecting pipe (204) is fixedly penetrated through the outer wall of the concave block (201), the water outlet end of the second connecting pipe (209) is fixedly penetrated through the top of the concave block (201), and the water outlet end of the second connecting pipe (209) is fixedly penetrated through the inner wall of the concave block (201).

4. The horizontal axis magnetic bearing motor air compressor of claim 1, wherein: the water outlet end of the second connecting pipe (209) is connected with the water inlet end of the water pump (210), and the output end of the third connecting pipe (212) is fixedly penetrated through the top of the inner wall of the placing groove (217).

5. The horizontal axis magnetic bearing motor air compressor of claim 1, wherein: the outer wall of gas holder (101) is fixed with connecting plate (120), bearing motor body (102) are installed at the top of connecting plate (120), the inside through-hole sealed bearing of the back surface through-hole of single chamber piece (104) rotates and is connected with T type pole (113), the surface of T type pole (113) and the output of bearing motor body (102) all are fixed with gear (103), and mesh connection between two gears (103).

6. The horizontal axis magnetic bearing motor air compressor of claim 1, wherein: vent holes (105) are formed in two sides of the single-cavity block (104), round tubes (117) are fixedly sleeved in the two vent holes (105), limit grooves (106) are formed in the inner walls of the vent holes (105), and limit rods (107) are movably sleeved in the two limit grooves (106).

7. The horizontal axis magnetic bearing motor air compressor of claim 6, wherein: the bottom of two gag lever post (107) all is fixed with sealing block (109), and two the top of sealing block (109) is all fixed mounting has spring (108), two the top of spring (108) respectively with the outer wall fixed mounting of two air vent (105), two the bottom of gag lever post (107) is movable respectively cup joints in the inside of two springs (108).

8. The horizontal axis magnetic bearing motor air compressor of claim 1, wherein: the inside activity of single chamber piece (104) has cup jointed slider (110), the top bonding of slider (110) is connected with sealing plug (111), sealing plug (111) activity cup joints in the inside of single chamber piece (104), the bottom recess department of slider (110) is inside to be fixed with first bull stick (112), the surface rotation of first bull stick (112) is connected with L type piece (116), the external surface fixed cup joint of T type pole (113) has changeed piece (114).

9. The horizontal axis magnetic bearing motor air compressor of claim 8, wherein: the front surface of the rotating block (114) is fixedly provided with a second rotating rod (115), the second rotating rod (115) is rotationally connected inside the L-shaped block (116) through a first bearing, a filter screen cover (118) is arranged at the air inlet end of one circular tube (117), the air outlet end of the other circular tube (117) is connected with the air inlet end of the air storage tank (101) through a hose, and a valve (119) is arranged at the air outlet end of the air storage tank (101).

10. The horizontal axis magnetic bearing motor air compressor of claim 1, wherein: protection machanism (3) are including two connecting blocks (301), two connecting block (301) are all fixed on gas holder (101), two screw thread groove (302) have all been seted up at the top of connecting block (301), the top of gas holder (101) is provided with protection shield (303), four cylinder holes (304) have been seted up at protection shield (303) top, every the inside in cylinder hole (304) all is connected with bracing piece (305) through the second bearing rotation, every the inside at every screw thread groove (302) is threaded connection respectively to the bottom of bracing piece (305).

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