CN215633637U - High-efficient heat abstractor of air compressor machine - Google Patents

High-efficient heat abstractor of air compressor machine Download PDF

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Publication number
CN215633637U
CN215633637U CN202121744846.8U CN202121744846U CN215633637U CN 215633637 U CN215633637 U CN 215633637U CN 202121744846 U CN202121744846 U CN 202121744846U CN 215633637 U CN215633637 U CN 215633637U
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pipe
air compressor
heat dissipation
wall
plate
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CN202121744846.8U
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何福成
王旭平
丁江坤
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Hubei Qilanban Energy Saving Technology Co ltd
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Hubei Qilanban Energy Saving Technology Co ltd
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Abstract

The utility model relates to the technical field of heat dissipation of air compressors and discloses a high-efficiency heat dissipation device of an air compressor, which comprises an air compressor device, wherein a heat dissipation device is fixedly connected to one side of the outer surface of the air compressor device, the heat dissipation device comprises a device pipe, a placing groove is formed in one side of the outer surface of the device pipe, a liquid nitrogen tank is arranged inside the placing groove, a connecting base is arranged on the upper side of the inner bottom wall of the placing groove, a T-shaped pipe is arranged inside the connecting base, a rotary disc is arranged inside the device pipe, a movable groove plate is arranged on the front side of the outer surface of the rotary disc, and an inclined plate is arranged on one side of the outer surface of the movable groove plate. This high-efficient heat abstractor of air compressor machine through the liquid nitrogen container that sets up in heat abstractor, when the liquid nitrogen container passes through the T venturi tube and carries the liquid nitrogen in to the sealed tube for the carousel rotates, thereby makes the piston circle move in the sealed tube, carries the liquid nitrogen in the cooling tube, and because cooling tube surface and air compressor machine surface overlap joint, thereby played the effect of heat dissipation cooling to the air compressor machine device.

Description

High-efficient heat abstractor of air compressor machine
Technical Field
The utility model relates to the technical field of heat dissipation of air compressors, in particular to a high-efficiency heat dissipation device of an air compressor.
Background
An air compressor is a device for compressing gas. The air compressor is constructed similarly to a water pump. Most air compressors are reciprocating piston type, rotating vane or rotating screw.
Along with the continuous change of people's life, people also become more and more common to the use of air compressor machine, but traditional air compressor machine when using, can make and produce high temperature in the device to influence the use of device, so when using at every turn, can be because high temperature stops using, come to the device cooling, so the high-efficient heat abstractor of an air compressor machine is urgently needed in the market now, solves the problem that above-mentioned traditional air compressor machine does not have the heat dissipation function.
SUMMERY OF THE UTILITY MODEL
Technical problem to be solved
Aiming at the defects of the prior art, the utility model provides the efficient heat dissipation device of the air compressor, which has the advantages of cooling and heat dissipation and the like, and solves the problem that the traditional air compressor does not have the cooling and heat dissipation function in the background art.
(II) technical scheme
In order to achieve the purpose that the air compressor mentioned in the background technology has the functions of heat dissipation and temperature reduction, the utility model provides the following technical scheme: a high-efficiency heat dissipation device of an air compressor comprises an air compressor device, wherein one side of the outer surface of the air compressor device is fixedly connected with a heat dissipation device;
the heat dissipation device comprises a device pipe, a placing groove is formed in one side of the outer surface of the device pipe, a liquid nitrogen tank is arranged inside the placing groove, a connecting base is arranged on the upper side of the inner bottom wall of the placing groove, a T-shaped pipe is arranged inside the connecting base, a rotary disc is arranged inside the device pipe, a movable groove plate is arranged on the front side of the outer surface of the rotary disc, an inclined plate is arranged on one side of the outer surface of the movable groove plate, a telescopic pipe is arranged on one side of the outer surface of the inclined plate, a push rod is fixedly connected to the lower side of the outer surface of the telescopic pipe, a piston ring is fixedly connected to the lower end of the push rod, a sealing pipe is arranged on the outer surface of the piston ring, and a cooling pipe is arranged on one side of the outer surface of the device pipe.
Preferably, one side of the outer surface of the placing groove is overlapped with one side of the outer surface of the device pipe, and penetrates through one side of the outer surface of the device pipe to the inside of the device pipe.
Preferably, a rotating rod is arranged on one side of the outer surface of the rotating disc, one end of the rotating rod is in lap joint with one side of the outer surface of the rotating disc, penetrates through one side of the outer surface of the rotating disc, reaches the other side of the outer surface of the rotating disc, extends to one side of the inner wall of the device pipe, is in lap joint with one side of the inner wall of the device pipe, penetrates through one side of the inner wall of the device pipe, reaches one side of the outer surface of the device pipe, extends to one side of the outer surface of the rotating motor, and is fixedly connected with one side of the outer surface of the rotating motor.
Preferably, the outer surface of the movable groove plate is provided with a hole groove, one side of the outer surface of the hole groove is in lap joint with one side of the outer surface of the movable groove plate and penetrates through one side of the outer surface of the movable groove plate to the other side of the outer surface of the movable groove plate, a sliding rod is lapped on the inner wall of the hole groove, and one end of the sliding rod is fixedly connected with one side of the outer surface of the rotary table.
Preferably, one end of the cooling pipe is lapped with one side of the outer surface of the device pipe, penetrates through one side of the outer surface of the device pipe, extends to one side of the inner wall of the device pipe, extends to one side of the outer surface of the sealing pipe, is lapped with one side of the outer surface of the sealing pipe, penetrates through one side of the outer surface of the sealing pipe and penetrates through one side of the inner wall of the sealing pipe.
A limiting rod is arranged on one side of the outer surface of the movable groove plate, and one end, away from the outer surface of the movable groove plate, of the limiting rod is in lap joint with the inclined surface of the inclined plate, so that when the movable groove plate moves under the driving of the turntable, the limiting rod drives the inclined plate to move, and one side, away from the limiting rod, of the outer surface of the inclined plate is fixedly connected with one side of the outer surface of the telescopic pipe, so that the limiting rod drives the telescopic pipe to move;
the T venturi tube sets up in connecting the base, and in T venturi tube one end through connection base to spread groove, other end through connection base to standing groove inner wall one side, and with standing groove inner wall one side overlap joint, and run through standing groove inner wall one side, to standing groove surface one side, and extend to sealed tube surface one side, with sealed tube surface one side overlap joint, and run through sealed tube surface one side, to sealed tube inner wall one side, thereby make the liquid nitrogen enter into in the sealed tube through the T venturi tube.
Preferably, the air compressor device comprises an air tank, an operating device is arranged on one side of the outer surface of the air tank, and a connecting plate is fixedly connected to the lower side of the outer surface of the air tank.
Compared with the prior art, the utility model provides the efficient heat dissipation device of the air compressor, which has the following beneficial effects:
1. this high-efficient heat abstractor of air compressor machine, through the liquid nitrogen container that sets up in heat abstractor, when the liquid nitrogen container passes through the T venturi tube and carries the liquid nitrogen in to the sealed tube, the rethread makes the carousel rotate to make the piston circle move in the sealed tube, carry the liquid nitrogen in the cooling tube, and because cooling tube surface and air compressor machine surface overlap joint, thereby played the effect of heat dissipation cooling to the air compressor machine device.
2. This high-efficient heat abstractor of air compressor machine, through setting up the standing groove in heat abstractor, and the bottom wall upside is provided with the connection base in the standing groove, and connects base surface upside and be provided with the spread groove to when making liquid nitrogen container and spread groove threaded connection, make the device can work, thereby realized carrying out the effect of changing to the liquid nitrogen container.
Drawings
FIG. 1 is a schematic sectional elevation view of the structure of the present invention;
FIG. 2 is a schematic front sectional view of a heat dissipation device with a structure of the present invention;
fig. 3 is a front cross-sectional view of the structural air compressor device of the present invention.
Wherein: 1. an air compressor device; 2. a heat sink; 101. a gas tank; 102. an operating device; 103. a connecting plate; 201. a device tube; 202. a placement groove; 203. a liquid nitrogen tank; 204. connecting a base; 205. a T-shaped pipe; 206. a turntable; 207. a movable slot plate; 208. an inclined plate; 209. a telescopic pipe; 210. a push rod; 211. a piston ring; 212. a sealing tube; 213. a cooling pipe.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-3, a high-efficiency heat dissipation device for an air compressor includes an air compressor device 1;
as shown in fig. 1, a heat sink 2 is fixedly connected to one side of the outer surface of the air compressor device 1;
as shown in fig. 2, the heat dissipation device 2 includes a device tube 201, a placement groove 202 is disposed on one side of an outer surface of the device tube 201, a liquid nitrogen tank 203 is disposed inside the placement groove 202, a connection base 204 is disposed on an upper side of a bottom wall of the placement groove 202, a T-shaped tube 205 is disposed inside the connection base 204, a rotary table 206 is disposed inside the device tube 201, a movable groove plate 207 is disposed on a front side of an outer surface of the rotary table 206, an inclined plate 208 is disposed on one side of an outer surface of the movable groove plate 207, an extension tube 209 is disposed on one side of an outer surface of the inclined plate 208, a push rod 210 is fixedly connected to a lower side of an outer surface of the extension tube 209, a piston ring 211 is fixedly connected to a lower end of the push rod 210, a sealing tube 212 is disposed on an outer surface of the device tube 201, and a cooling tube 213 is disposed on one side of the outer surface of the device tube 201.
Specifically, as shown in fig. 2, the outer surface side of the placement groove 202 overlaps the outer surface side of the device tube 201, and penetrates the outer surface side of the device tube 201 into the device tube 201.
Specifically, as shown in fig. 2, a rotating rod is disposed on one side of the outer surface of the rotating disc 206, one end of the rotating rod is in lap joint with one side of the outer surface of the rotating disc 206, penetrates through one side of the outer surface of the rotating disc 206, reaches the other side of the outer surface of the rotating disc 206, extends to one side of the inner wall of the device pipe 201, is in lap joint with one side of the inner wall of the device pipe 201, penetrates through one side of the inner wall of the device pipe 201, reaches one side of the outer surface of the device pipe 201, extends to one side of the outer surface of the rotating motor, and is fixedly connected with one side of the outer surface of the rotating motor.
Specifically, as shown in fig. 2, a hole is formed in one side of the outer surface of the movable slot plate 207, and one side of the outer surface of the hole is overlapped with one side of the outer surface of the movable slot plate 207 and penetrates through one side of the outer surface of the movable slot plate 207 to the other side of the outer surface of the movable slot plate 207, a sliding rod is overlapped on the inner wall of the hole, and one end of the sliding rod is fixedly connected with one side of the outer surface of the turntable 206.
Specifically, as shown in fig. 2, one end of the cooling tube 213 is overlapped with one side of the outer surface of the device tube 201, penetrates through one side of the outer surface of the device tube 201, reaches one side of the inner wall of the device tube 201, extends to one side of the outer surface of the sealing tube 212, is overlapped with one side of the outer surface of the sealing tube 212, penetrates one side of the outer surface of the sealing tube 212, and reaches one side of the inner wall of the sealing tube 212.
Through the technical scheme, one side of the outer surface of the movable groove plate 207 is provided with the limiting rod, and one end of the limiting rod, which is far away from the outer surface of the movable groove plate 207, is in lap joint with the inclined surface of the inclined plate 208, so that when the movable groove plate 207 moves under the driving of the turntable 206, the limiting rod drives the inclined plate 208 to move, and one side of the outer surface of the inclined plate 208, which is far away from the limiting rod, is fixedly connected with one side of the outer surface of the telescopic pipe 209, so that the limiting rod drives the telescopic pipe 209 to move;
the T venturi tube sets up in connecting the base 204, and T venturi tube one end through connection base 204 to the spread groove in, the other end through connection base 204 to standing groove 202 inner wall one side, and with standing groove 202 inner wall one side overlap joint, and run through standing groove 202 inner wall one side, to standing groove 202 surface one side, and extend to sealed tube 212 surface one side, overlap joint with sealed tube 212 surface one side, and run through sealed tube 212 surface one side, to sealed tube 212 inner wall one side, thereby make the liquid nitrogen enter into in the sealed tube 212 through the T venturi tube.
Specifically, as shown in fig. 3, the air compressor device 1 includes an air tank 101, an operation device 102 is provided on an outer surface side of the air tank 101, and a connection plate 103 is fixedly connected to a lower side of the outer surface of the air tank 101.
When using, this high-efficient heat abstractor of air compressor machine, through making air compressor machine device 1 and heat abstractor 2 fixed connection, then again through placing liquid nitrogen container 203 in standing groove 202, then make the liquid nitrogen enter into the stand pipe 212 through T venturi tube 205, then again through starter motor, make carousel 206 drive activity frid 207 motion, thereby make hang plate 208 drive flexible pipe 209 motion, thereby make piston ring 211 move in stand pipe 212, compress the liquid nitrogen in the stand pipe 212 to in the cooling tube 213, thereby realized the effect to the device heat dissipation cooling.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a high-efficient heat abstractor of air compressor machine, includes air compressor machine device (1), its characterized in that: one side of the outer surface of the air compressor device (1) is fixedly connected with a heat dissipation device (2);
the heat dissipation device (2) comprises a device pipe (201), a placing groove (202) is formed in one side of the outer surface of the device pipe (201), a liquid nitrogen tank (203) is arranged inside the placing groove (202), a connecting base (204) is arranged on the upper side of the inner bottom wall of the placing groove (202), a T-shaped pipe (205) is arranged inside the connecting base (204), a turntable (206) is arranged inside the device pipe (201), a movable groove plate (207) is arranged on the front side of the outer surface of the turntable (206), an inclined plate (208) is arranged on one side of the outer surface of the movable groove plate (207), an extension pipe (209) is arranged on one side of the outer surface of the inclined plate (208), a push rod (210) is fixedly connected to the lower side of the outer surface of the extension pipe (209), a piston ring (211) is fixedly connected to the lower end of the push rod (210), and a sealing pipe (212) is arranged on the outer surface of the piston ring (211), and a cooling pipe (213) is arranged on one side of the outer surface of the device pipe (201).
2. The efficient heat dissipation device of the air compressor as claimed in claim 1, wherein: one side of the outer surface of the placing groove (202) is overlapped with one side of the outer surface of the device pipe (201), and penetrates through one side of the outer surface of the device pipe (201) to the inside of the device pipe (201).
3. The efficient heat dissipation device of the air compressor as claimed in claim 1, wherein: carousel (206) surface one side is provided with the bull stick, just bull stick one end and carousel (206) surface one side overlap joint to run through carousel (206) surface one side, to carousel (206) surface opposite side, and extend to device pipe (201) inner wall one side, with device pipe (201) inner wall one side overlap joint, and run through device pipe (201) inner wall one side, to device pipe (201) surface one side, and extend to rotation motor surface one side, with rotation motor surface one side fixed connection.
4. The efficient heat dissipation device of the air compressor as claimed in claim 1, wherein: the movable groove plate is characterized in that a hole groove is formed in one side of the outer surface of the movable groove plate (207), one side of the outer surface of the hole groove is in lap joint with one side of the outer surface of the movable groove plate (207), the hole groove penetrates through one side of the outer surface of the movable groove plate (207) and the other side of the outer surface of the movable groove plate (207), a sliding rod is lapped on the inner wall of the hole groove, and one end of the sliding rod is fixedly connected with one side of the outer surface of the rotary table (206).
5. The efficient heat dissipation device of the air compressor as claimed in claim 1, wherein: cooling tube (213) one end and device pipe (201) surface one side overlap joint to run through device pipe (201) surface one side, to device pipe (201) inner wall one side, and extend to sealed tube (212) surface one side, with sealed tube (212) surface one side overlap joint, and run through sealed tube (212) surface one side, to sealed tube (212) inner wall one side.
6. The efficient heat dissipation device of the air compressor as claimed in claim 1, wherein: the air compressor device (1) comprises an air tank (101), an operating device (102) is arranged on one side of the outer surface of the air tank (101), and a connecting plate (103) is fixedly connected to the lower side of the outer surface of the air tank (101).
CN202121744846.8U 2021-07-29 2021-07-29 High-efficient heat abstractor of air compressor machine Active CN215633637U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202121744846.8U CN215633637U (en) 2021-07-29 2021-07-29 High-efficient heat abstractor of air compressor machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202121744846.8U CN215633637U (en) 2021-07-29 2021-07-29 High-efficient heat abstractor of air compressor machine

Publications (1)

Publication Number Publication Date
CN215633637U true CN215633637U (en) 2022-01-25

Family

ID=79893237

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202121744846.8U Active CN215633637U (en) 2021-07-29 2021-07-29 High-efficient heat abstractor of air compressor machine

Country Status (1)

Country Link
CN (1) CN215633637U (en)

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