CN113286486B - Heat dissipation auxiliary device for communication equipment receiver and heat dissipation method thereof - Google Patents

Abstract

The invention discloses a heat radiation auxiliary device for a communication equipment receiver and a heat radiation method thereof, and relates to the technical field of heat radiation auxiliary devices of communication equipment. The application also discloses a communication equipment receiver heat dissipation method. According to the heat dissipation auxiliary device for the communication equipment receiver and the heat dissipation method thereof, the circulating heat dissipation part is arranged, so that heat generated by the receiver can be conducted onto the heat dissipation cylinder faster, the heat dissipation cylinder cannot remain inside the receiver, cold water is circularly discharged and sucked into the heat dissipation cylinder, the heat dissipation speed of the heat dissipation cylinder and the heat dissipation speed of the receiver are accelerated, the receiver cannot be affected by high temperature, the service life of the receiver is longer, normal use can be continued, and the heat dissipation auxiliary device has a better auxiliary heat dissipation effect.

Description

Heat dissipation auxiliary device for communication equipment receiver and heat dissipation method thereof

Technical Field

The present invention relates to the technical field of a heat dissipation auxiliary device for a communication device, and in particular, to a heat dissipation auxiliary device for a receiver of a communication device and a heat dissipation method thereof.

Background

The communication equipment is a general term of communication equipment which is arranged on a certain region and used for transmitting electric wave information, and is mainly divided into wired communication equipment and wireless communication equipment, wherein the wired communication equipment mainly introduces serial port communication for solving industrial sites, professional bus type communication, industrial Ethernet communication and conversion equipment among various communication protocols, the wireless communication equipment mainly comprises equipment such as wireless AP, wireless network bridge, wireless network card, wireless lightning arrester, antenna and the like, and when the communication equipment is used, a large amount of heat is generated, heat dissipation is needed, so that the communication equipment can be normally used.

When the existing communication equipment receiver is used, the heat is continuously stored in the receiver and is not easy to dissipate due to the fact that the receiver only dissipates heat, or the heat is dissipated through wind blowing, so that the heat dissipation speed of the receiver is too slow, the temperature of the receiver is too high and is easy to damage, and the service life of the receiver is reduced.

Disclosure of Invention

An objective of the present invention is to provide a heat dissipation auxiliary device for a receiver of a communication device and a heat dissipation method thereof, so as to solve the problems set forth in the background art.

In order to achieve the above purpose, the present application provides the following technical solutions: the utility model provides a communication equipment receiver is with heat dissipation auxiliary device and heat dissipation method thereof, includes the back shaped plate, locates the receiver at back shaped plate top, back shaped plate's bottom fixed mounting has motor, four connecting blocks, four the bottom fixed mounting of connecting block has same water tank, install circulation radiating portion on the water tank, the output drive of water tank installs the carousel, auxiliary heat dissipation power portion is installed to the bottom of carousel, auxiliary heat dissipation power portion with circulation radiating portion contacts, back shaped plate's top fixed mounting has four sliding blocks of evenly setting, four be provided with on the sliding block and press from both sides tight regulating unit, press from both sides tight regulating unit with the receiver adaptation is installed, circulation radiating portion with the receiver contacts.

By means of the structure, the circulating radiating part is controlled through the auxiliary radiating power part, so that heat generated by the receiver can be conducted away faster, the heat can not remain in the receiver, the radiating auxiliary device is used for discharging and sucking cold water circularly, so that the radiating speed of the receiver is accelerated, the influence of high temperature can be avoided, the service life of the receiver is longer, the receiver can be used continuously and normally, and the radiating auxiliary device has a better auxiliary radiating effect.

Preferably, the auxiliary heat dissipation power part comprises a fixed shaft rotatably mounted at the bottom of the turntable, a rotating rod is fixedly sleeved on the fixed shaft, a connecting rod is rotatably mounted at the bottom of the rotating rod through a rotating shaft, a mounting groove is formed in one end of the connecting rod, rollers are rotatably mounted on two opposite inner walls of the mounting groove through rollers, and the rollers are in contact with the circulating heat dissipation part.

Further, through supplementary heat dissipation power portion, make the carousel take place to rotate, make the connecting rod drive gyro wheel control circulation heat dissipation portion, make heat dissipation auxiliary device heat dissipation speed accelerate, have better supplementary radiating effect.

Preferably, the bottom fixed mounting of water tank has the fixed plate, the spacing hole has been seted up on the lateral wall of fixed plate, connecting rod slidable mounting in on the inner wall in spacing hole.

Further, through spacing hole, make the reciprocating motion that the connecting rod can be stable, stability is better when making heat dissipation auxiliary device use, can reach better supplementary radiating effect, makes heat dissipation auxiliary device be difficult for taking place to damage, makes heat dissipation auxiliary device's life longer.

Preferably, the circulation radiating part comprises a sliding hole formed in the bottom of the water tank and a plurality of uniformly arranged telescopic holes formed in the top of the water tank, wherein a trapezoidal block is slidably arranged on the inner wall of the sliding hole, a plurality of radiating cylinders are fixedly arranged on the inner wall of the telescopic holes, a chassis is fixedly arranged at the top end of the trapezoidal block, a plurality of uniformly arranged telescopic blocks are fixedly arranged at the top end of the chassis, the telescopic blocks are slidably arranged on the inner wall of the radiating cylinders respectively, the trapezoidal block is in contact with the roller, and the top ends of the radiating cylinders are in contact with the bottom of the receiver.

Further, through circulation radiating part, make the heat that the receiver produced can more quick conduct to the cooling cylinder on, can not remain inside the receiver, cooling cylinder circulation discharge and inhale cold water make cooling cylinder and receiver radiating rate accelerate, make the receiver can not receive high temperature influence, make the life of receiver longer, can last normal use, make heat dissipation auxiliary device have better auxiliary heat dissipation effect.

Preferably, a plurality of connecting holes are formed in two opposite side walls of the radiating cylinder, a plurality of connecting pipes are correspondingly and fixedly installed on the inner walls of the connecting holes, a plurality of water guide pipes are fixedly installed at the bottoms of the connecting pipes, a plurality of uniformly arranged water guide holes are formed in the top of the water tank, and a plurality of water guide pipes are fixedly installed on the inner walls of the water guide holes respectively.

Further, through aqueduct and connecting pipe, make the cooling cylinder discharge and inhale cold water through the circulation of aqueduct and connecting pipe more fast more stable, make cooling cylinder radiating rate faster, make cooling auxiliary device have better supplementary radiating effect.

Preferably, the lateral wall of chassis is last fixed mounting has two limiting plates that the symmetry set up, corresponding fixed mounting has two slip posts on the bottom and the top inner wall of water tank, two the limiting plate slides respectively and cup joints two on the slip post, two the equal fixed mounting in top of limiting plate has compression spring, two compression spring respectively with two the coaxial heart setting of slip post.

Further, through the sliding column, the limiting plate can drive the chassis to move up and down more stably in a reciprocating manner, so that the heat dissipation auxiliary device is better in stability during use, better auxiliary heat dissipation effect can be achieved, the heat dissipation auxiliary device is not easy to damage, and the service life of the heat dissipation auxiliary device is longer.

Preferably, the clamping adjusting unit comprises a convex groove arranged at the top of each sliding block, sliding rods are fixedly arranged on the inner walls of the four convex grooves, convex sliding blocks are sleeved on the four sliding rods in a sliding manner, L-shaped clamping blocks are fixedly arranged at the tops of the four convex sliding blocks, inclined planes are arranged on one sides, close to each other, of the four L-shaped clamping blocks, and the receiver is adaptively arranged on one sides, close to each other, of the four L-shaped clamping blocks.

Further, when the receiver is installed through the clamping and adjusting unit, the receiver is contacted with the radiating cylinder, so that the radiating auxiliary device can fix the receivers with different sizes, the receiver is more stable when in use, and the radiating auxiliary device can radiate the receiver better.

Preferably, the handles are fixedly installed on the sides, away from each other, of the four L-shaped clamping blocks, the extrusion springs are fixedly installed on the sides, away from each other, of the four convex sliding blocks, the extrusion springs are respectively arranged coaxially with the four sliding rods, the four convex sliding blocks are respectively and slidably installed on the inner walls of the four convex grooves, and the bottoms of the four L-shaped clamping blocks are respectively contacted with the tops of the four sliding blocks.

Further, through the handle, the L-shaped clamping blocks can move more smoothly, and the heat dissipation auxiliary device is simpler and more labor-saving when in use.

Preferably, the bottom of the return-shaped plate is fixedly provided with four support columns, the four support columns are square, the side wall of the water tank is fixedly provided with a water outlet pipe and a water inlet pipe, the water outlet pipe is provided with a water outlet valve, and the water inlet pipe is provided with a water inlet valve.

Through setting up outlet pipe, inlet tube, control outlet valve and water intaking valve, can add clean cold water in the water tank, make heat dissipation auxiliary device operation simpler convenient, have better auxiliary heat dissipation effect.

The application also discloses a communication equipment receiver heat dissipation method, which is characterized by comprising the following steps:

s1, mounting and fixing: pulling the handle to enable the four L-shaped clamping blocks to be far away from each other, placing the receiver between the four L-shaped clamping blocks, loosening the handle, and fixing the receiver under the elastic deformation action of the extrusion spring;

s2, adding materials: controlling a water outlet valve and a water inlet valve, cleaning the inside of the water tank through the water outlet pipe and the water inlet pipe, and replacing cold water;

s3, auxiliary heat dissipation: the motor is started, the rollers push the trapezoid blocks back and forth, the telescopic blocks move up and down in the radiating cylinders in a reciprocating mode, cold water is enabled to pass through the water guide pipe to enter and exit the radiating cylinders in a reciprocating mode, and the radiating cylinders can take away heat on the receiver more quickly.

In summary, the invention has the technical effects and advantages that:

1. the invention has reasonable structure, after the receiver is fixed, the motor is started to enable the turntable to rotate, the connecting rod drives the roller to extrude back and forth to push the trapezoid block, the trapezoid block is enabled to reciprocate up and down, the chassis drives the telescopic block to reciprocate up and down, the radiating cylinder is contacted with the receiver, the heat generated by the receiver is enabled to be more quickly conducted to the radiating cylinder, the inside of the receiver can not be reserved, the radiating cylinder circularly discharges and sucks cold water through the water guide pipe and the connecting pipe, the radiating speed of the radiating cylinder is enabled to be higher, the radiating speed of the receiver is enabled to be accelerated, the receiver can not be influenced by high temperature, the service life of the receiver is enabled to be longer, the radiating auxiliary device can be continuously and normally used, and the radiating auxiliary device has better auxiliary radiating effect;

2. in the invention, the cooling speed of the heat dissipation auxiliary device can be increased by cold water, the heat dissipation cylinder and the receiver are in contact with each other, so that the heat conduction speed can be higher, the receiver can emit generated heat more quickly, the chassis moves up and down in a reciprocating manner, the cold water in the water tank can flow quickly, the temperature of the cold water can be reduced quickly through the water tank, the cold water can be continuously used, the heat dissipation auxiliary device is more practical, and a better heat dissipation effect can be achieved;

3. according to the invention, when the receiver with smaller volume is installed, the receiver is pressed downwards through the inclined plane, so that the extrusion spring is compressed, when the receiver is contacted with the radiating cylinder, the pressing of the receiver is stopped, the receiver is installed under the elastic deformation restoring force of the extrusion spring, when the receiver is larger in volume, the handle is pulled, the L-shaped clamping blocks are mutually far away, the receiver is easier to install, the radiating auxiliary device can fix the receivers with different sizes, the receiver is more stable when in use, and the radiating auxiliary device can radiate the receiver better;

4. according to the invention, the limiting holes on the fixing plate enable the connecting rod to stably reciprocate, the sliding columns enable the limiting plate to drive the chassis to more stably reciprocate up and down, so that the heat dissipation auxiliary device is better in stability when in use, a better auxiliary heat dissipation effect can be achieved, the heat dissipation auxiliary device is not easy to damage, and the service life of the heat dissipation auxiliary device is longer;

5. according to the invention, after the heat dissipation auxiliary device is used for a long time, the water outlet valve is opened, water in the water tank is discharged through the water outlet pipe, the water inlet valve is opened, clean cold water is added into the water tank through the water inlet pipe, so that the heat dissipation auxiliary device is simpler and more convenient to operate, a better auxiliary heat dissipation effect is achieved, a gap is reserved between the receiver and the return plate due to the sliding block and the L-shaped clamping block, a gap is reserved between the return plate and the water tank due to the connecting block, heat generated on the receiver can be better dissipated, and the heat dissipation auxiliary device is higher in practicability.

Based on the method, the heat generated by the receiver can be conducted to the radiating cylinder faster, the heat can not remain in the receiver, the radiating cylinder circularly discharges and sucks cold water through the water guide pipe and the connecting pipe, so that the radiating speed of the radiating cylinder is faster, the radiating speed of the receiver is accelerated, the receiver can not be influenced by high temperature, the service life of the receiver is longer, the receiver can be continuously and normally used, and the radiating auxiliary device has better auxiliary radiating effect.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic perspective view of a heat dissipation auxiliary device for a receiver of a communication device, and the receiver is matched with a first view angle;

fig. 2 is a schematic perspective view of a heat dissipation auxiliary device for a receiver of a communication device, and the receiver is matched with a second view angle;

fig. 3 is a schematic perspective view of a heat dissipation auxiliary device for a receiver of a communication device;

FIG. 4 is an enlarged perspective view of the clamping adjustment unit;

fig. 5 is a schematic view of a first perspective internal perspective structure of a heat dissipation auxiliary device for a receiver of a communication device;

fig. 6 is a schematic view of a second perspective internal perspective structure of the heat dissipation auxiliary device for a receiver of the communication device;

FIG. 7 is an enlarged perspective view of the auxiliary heat dissipating power unit;

fig. 8 is an enlarged perspective view of the circulation radiator.

In the figure: 1. a return plate; 2. a support column; 3. a turntable; 4. a motor; 5. a connecting rod; 6. a fixing plate; 7. a water tank; 8. a water outlet pipe; 9. a water inlet pipe; 10. a sliding block; 11. l-shaped clamping blocks; 12. a heat dissipation cylinder; 13. a receiver; 14. a trapezoid block; 15. a roller; 16. an inclined plane; 17. a slide bar; 18. a convex slide block; 19. a handle; 20. extruding a spring; 21. a sliding column; 22. a chassis; 23. a telescopic block; 24. a rotating lever; 25. a connecting pipe; 26. a connecting block; 27. a fixed shaft; 28. a rotating shaft; 29. a roller; 30. a limiting plate; 31. a water conduit; 32. compressing the spring.

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.

Examples: referring to fig. 1-8, a heat dissipation auxiliary device for a receiver of a communication device and a heat dissipation method thereof, the heat dissipation auxiliary device comprises a square plate 1 and a receiver 13 arranged at the top of the square plate 1, wherein a motor 4 and four connecting blocks 26 are fixedly arranged at the bottom of the square plate 1, the motor 4 can be any driving motor in the prior art, for example, a driving motor with the model number of 5IK120RGN, and the motor is welded and fixed with the bottom of the square plate 1. The connection block 26 may be any metal block in the prior art, and is welded to the bottom of the return plate 1 for fixing. The bottom of the four connecting blocks 26 is fixedly provided with the same water tank 7, and the water tank 7 can be any metal tank in the prior art and is welded and fixed with the bottom of the connecting blocks 26. The water tank 7 is provided with a circulating heat dissipation part, the output end of the water tank 7 is driven and provided with a rotary table 3, the bottom of the rotary table 3 is provided with an auxiliary heat dissipation power part, the auxiliary heat dissipation power part is in contact with the circulating heat dissipation part, the top of the return plate 1 is fixedly provided with four uniformly arranged sliding blocks 10, and the sliding blocks 10 can be any metal blocks in the prior art and are welded and fixed with the top of the return plate 1. The four sliding blocks 10 are provided with clamping and adjusting units which are installed in a matched mode with the receiver 13, and the circulating radiating parts are in contact with the receiver 13. Through the setting of supplementary heat dissipation power portion, control circulation heat dissipation portion makes the heat that receiver 13 produced can more quick conduction walk, can not remain inside receiver 13, and heat dissipation auxiliary device makes receiver 13 radiating rate accelerate through circulation discharge and suction cold water, can not receive high temperature influence, makes the life of receiver 13 longer, can last normal use, makes heat dissipation auxiliary device have better supplementary radiating effect.

As a preferred implementation manner of this embodiment, the auxiliary heat dissipation power portion includes a fixed shaft 27 rotatably mounted at the bottom of the turntable 3, a rotating rod 24 is fixedly sleeved on the fixed shaft 27, the bottom of the rotating rod 24 is rotatably mounted with a connecting rod 5 through a rotating shaft 28, one end of the connecting rod 5 is provided with a mounting groove, two opposite inner walls of the mounting groove are rotatably mounted with rollers 15 through rollers 29, and the rollers 15 are in contact with the circulating heat dissipation portion. Through the setting of supplementary heat dissipation power portion, make carousel 3 take place to rotate, make connecting rod 5 drive gyro wheel 15 control circulation heat dissipation portion, make heat dissipation auxiliary device heat dissipation speed accelerate, have better supplementary radiating effect.

In this embodiment, the bottom of the water tank 7 is fixedly provided with a fixing plate 6, the side wall of the fixing plate 6 is provided with a limiting hole, and the connecting rod 5 is slidably mounted on the inner wall of the limiting hole. Through the setting of spacing hole, make the reciprocating motion that connecting rod 5 can be stable, stability is better when making heat dissipation auxiliary device use, can reach better supplementary radiating effect, makes heat dissipation auxiliary device be difficult for taking place to damage, makes heat dissipation auxiliary device's life longer.

In this embodiment, the circulation radiating portion includes a sliding hole formed in the bottom of the water tank 7, a plurality of uniformly arranged telescopic holes formed in the top of the water tank 7, a trapezoidal block 14 is slidably mounted on the inner wall of the sliding hole, a radiating cylinder 12 is fixedly mounted on the inner walls of the plurality of telescopic holes, a chassis 22 is fixedly mounted on the top end of the trapezoidal block 14, a plurality of uniformly arranged telescopic blocks 23 are fixedly mounted on the top end of the chassis 22, the plurality of telescopic blocks 23 are slidably mounted on the inner walls of the plurality of radiating cylinders 12 respectively, the trapezoidal block 14 is in contact with the roller 15, and the top ends of the plurality of radiating cylinders 12 are in contact with the bottom of the receiver 13. Through the setting of circulation radiating part, make the heat that receiver 13 produced can more quick conduction to the cooling cylinder 12, can not remain inside the receiver 13, cooling cylinder 12 circulation discharge and inhale cold water make cooling cylinder 12 and receiver 13 radiating rate accelerate, make receiver 13 can not receive high temperature influence, make the life of receiver 13 longer, can last normal use, make heat dissipation auxiliary device have better auxiliary heat dissipation effect.

In this embodiment, the two opposite side walls of the plurality of heat dissipation cylinders 12 are provided with connecting holes, the inner walls of the plurality of pairs of connecting holes are provided with connecting pipes 25 correspondingly and fixedly, the bottoms of the plurality of connecting pipes 25 are provided with water guide pipes 31 fixedly, the top of the water tank 7 is provided with a plurality of uniformly arranged water guide holes, and the plurality of water guide pipes 31 are respectively and fixedly arranged on the inner walls of the plurality of water guide holes. Through the arrangement of the water guide pipe 31 and the connecting pipe 25, the cooling cylinder 12 can discharge and suck cold water in a faster and more stable cycle through the water guide pipe 31 and the connecting pipe 25, so that the cooling cylinder 12 has a faster cooling speed, and the cooling auxiliary device has a better auxiliary cooling effect.

In this embodiment, two symmetrically arranged limiting plates 30 are fixedly mounted on the side wall of the chassis 22, two sliding columns 21 are correspondingly and fixedly mounted on the bottom and top inner walls of the water tank 7, the two limiting plates 30 are respectively and slidably sleeved on the two sliding columns 21, compression springs 32 are fixedly mounted on the tops of the two limiting plates 30, and the two compression springs 32 are respectively and coaxially arranged with the two sliding columns 21. Through the setting of sliding column 21, make limiting plate 30 can drive the reciprocal reciprocating up-and-down movement that chassis 22 is more stable, stability is better when making heat dissipation auxiliary device use, can reach better supplementary radiating effect, makes heat dissipation auxiliary device be difficult for taking place to damage, makes heat dissipation auxiliary device's life longer.

As a preferred implementation manner of this embodiment, the clamping adjustment unit includes a convex groove formed at the top of the four sliding blocks 10, sliding rods 17 are fixedly mounted on the inner walls of the four convex grooves, convex sliding blocks 18 are sleeved on the four sliding rods 17 in a sliding manner, L-shaped clamping blocks 11 are fixedly mounted at the top of the four convex sliding blocks 18, inclined planes 16 are formed at one sides of the four L-shaped clamping blocks 11, which are close to each other, and the receiver 13 is adapted to be mounted at one side of the four L-shaped clamping blocks 11, which are close to each other. Through the setting of pressing from both sides tight adjustment unit, when installing receiver 13, make receiver 13 and heat dissipation section of thick bamboo 12 contact, make the receiver 13 of the equidimension that can fix of auxiliary device that dispels the heat, make the receiver 13 more stable when using, make auxiliary device that dispels the heat to receiver 13 that can be better dispel the heat.

In this embodiment, the handles 19 are fixedly mounted on the sides of the four L-shaped clamping blocks 11, which are far away from each other, the compression springs 20 are fixedly mounted on the sides of the four convex sliding blocks 18, which are far away from each other, the four compression springs 20 are respectively arranged coaxially with the four sliding rods 17, the four convex sliding blocks 18 are respectively slidably mounted on the inner walls of the four convex grooves, and the bottoms of the four L-shaped clamping blocks 11 are respectively contacted with the tops of the four sliding blocks 10. Through the arrangement of the handle 19, the L-shaped clamping block 11 can move more smoothly, and the heat dissipation auxiliary device is simpler and more labor-saving when in use.

As a preferred implementation manner of this embodiment, four support columns 2 are fixedly installed at the bottom of the rectangular plate 1, the four support columns 2 are square, a water outlet pipe 8 and a water inlet pipe 9 are fixedly installed on the side wall of the water tank 7, a water outlet valve is arranged on the water outlet pipe 8, and a water inlet valve is arranged on the water inlet pipe 9. Through the arrangement of the water outlet pipe 8 and the water inlet pipe 9, the water outlet valve and the water inlet valve are controlled, clean cold water can be added into the water tank 7, so that the operation of the heat dissipation auxiliary device is simpler and more convenient, and the heat dissipation auxiliary device has better auxiliary heat dissipation effect.

The application also discloses a communication equipment receiver heat dissipation method, which comprises the following steps:

s1, mounting and fixing: pulling the handle 19 to separate the four L-shaped clamping blocks 11 from each other, placing the receiver 13 between the four L-shaped clamping blocks 11, loosening the handle 19, and fixing the receiver 13 under the elastic deformation action of the compression spring 20;

s2, adding materials: the water outlet valve and the water inlet valve are controlled, and the inside of the water tank 7 is cleaned well and replaced with cold water through the water outlet pipe 8 and the water inlet pipe 9;

s3, auxiliary heat dissipation: the motor 4 is started, the roller 15 drives the trapezoid block 14 back and forth, the telescopic block 23 moves up and down in the heat dissipation barrel 12 in a reciprocating mode, cold water enters and exits the heat dissipation barrel 12 in a reciprocating mode through the water guide pipe 31, and the heat dissipation barrel 12 can take away heat on the receiver 13 more quickly.

The working principle of the invention is as follows:

after the receiver 13 is fixed, the receiver 13 starts to work, the motor 4 is started, the turntable 3 rotates, the fixed shaft 27 drives the rotating rod 24 to rotate, the rotating shaft 28 pulls the connecting rod 5 to reciprocate, the roller 15 extrudes and pushes the trapezoid block 14 back and forth, the trapezoid block 14 reciprocates up and down, the chassis 22 drives the telescopic block 23 to reciprocate up and down, water in the heat dissipation cylinder 12 can be circularly discharged and sucked through the water guide pipe 31 and the connecting pipe 25, heat generated by the receiver 13 can be quickly transmitted to the heat dissipation cylinder 12 due to the fact that the heat dissipation cylinder 12 is contacted with the receiver 13, the heat dissipation speed of the heat dissipation cylinder 12 is higher through cold water circulating in the heat dissipation cylinder 12, the heat dissipation speed of the receiver 13 is further accelerated, the receiver 13 is not easily affected by high temperature, the receiver 13 can be continuously and normally used, the service life of the receiver 13 is longer, and the heat dissipation auxiliary device has better auxiliary heat dissipation effect.

Through the cooling rate that cold water quickened heat dissipation auxiliary device, through cooling cylinder 12 and receiver 13 mutual contact, reach faster heat conduction speed, make receiver 13 can be faster give off the heat that produces, and reciprocate from top to bottom through chassis 22, make the inside cold water of water tank 7 also can flow fast, make cold water can pass through water tank 7 rapid cooling, make cold water can last the use, make heat dissipation auxiliary device more practical, can reach better radiating effect.

When the receiver 13 with smaller installation volume is installed, the receiver 13 is pressed downwards through the setting of the inclined plane 16, the L-shaped clamping blocks 11 drive the convex sliding blocks 18 to move, and then the extrusion springs 20 are compressed, when the receiver 13 is contacted with the radiating cylinders 12, the pressing of the receiver 13 can be stopped, under the elastic deformation restoring force of the extrusion springs 20, the receiver 13 is clamped by the four L-shaped clamping blocks 11, when the volume of the receiver 13 is relatively large, the L-shaped clamping blocks 11 can be mutually far away through pulling the handles 19, the receiver 13 is more easily installed and fixed, the radiating auxiliary device can fix the receivers 13 with different sizes, the receiver 13 is more stable when in use, and the radiating auxiliary device can better radiate the receiver 13.

Through the spacing hole on the fixed plate 6, make the reciprocating motion that connecting rod 5 can be stable, the slip post 21 makes limiting plate 30 can drive the more stable reciprocating up-and-down movement of chassis 22, and stability is better when making heat dissipation auxiliary device use, can reach better supplementary radiating effect, makes heat dissipation auxiliary device be difficult for taking place to damage, makes heat dissipation auxiliary device's life longer.

After the heat dissipation auxiliary device is used for a long time, the water outlet valve can be opened, water in the water tank 7 is discharged through the water outlet pipe 8, the water outlet valve is closed, the water inlet valve is opened, clean cold water can be added into the water tank 7 through the water inlet pipe 9, the heat dissipation auxiliary device is simpler and more convenient to operate, a better auxiliary heat dissipation effect is achieved, a gap is reserved between the receiver 13 and the return plate 1 through the sliding block 10 and the L-shaped clamping block 11, a gap is reserved between the return plate 1 and the water tank 7 through the connecting block 26, heat generated on the receiver 13 can be better dissipated, and the heat dissipation auxiliary device is stronger in practicability.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present invention, and although the present invention has been described in detail 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 or changes may be made without departing from the spirit and principles of the present invention.

Claims (5)

1. The utility model provides a communication equipment receiver is with heat dissipation auxiliary device, includes return plate (1), locates receiver (13) at return plate (1) top, its characterized in that: the motor (4) and four connecting blocks (26) are fixedly arranged at the bottom of the return-type plate (1), the same water tank (7) is fixedly arranged at the bottom of each connecting block (26), a circulating heat dissipation part is arranged on each water tank (7), a rotary table (3) is arranged at the output end of each motor (4) in a driving mode, an auxiliary heat dissipation power part is arranged at the bottom of each rotary table (3) and is in contact with each circulating heat dissipation part, four uniformly arranged sliding blocks (10) are fixedly arranged at the top of the return-type plate (1), clamping and adjusting units are arranged on the four sliding blocks (10) and are adaptively arranged on the corresponding receiver (13), and each circulating heat dissipation part is in contact with the corresponding receiver (13);

the auxiliary heat dissipation power part comprises a fixed shaft (27) rotatably mounted at the bottom of the turntable (3), a rotating rod (24) is fixedly sleeved on the fixed shaft (27), a connecting rod (5) is rotatably mounted at the bottom of the rotating rod (24) through a rotating shaft (28), a mounting groove is formed in one end of the connecting rod (5), rollers (15) are rotatably mounted on two opposite inner walls of the mounting groove through rollers (29), and the rollers (15) are in contact with the circulating heat dissipation part; the circulating heat dissipation part comprises a sliding hole formed in the bottom of the water tank (7), and a plurality of uniformly arranged telescopic holes formed in the top of the water tank (7), wherein trapezoidal blocks (14) are slidably arranged on the inner walls of the sliding holes, heat dissipation cylinders (12) are fixedly arranged on the inner walls of the plurality of telescopic holes, a chassis (22) is fixedly arranged at the top ends of the trapezoidal blocks (14), a plurality of uniformly arranged telescopic blocks (23) are fixedly arranged at the top ends of the chassis (22), the telescopic blocks (23) are slidably arranged on the inner walls of the plurality of heat dissipation cylinders (12) respectively, the trapezoidal blocks (14) are in contact with the rollers (15), and the top ends of the plurality of heat dissipation cylinders (12) are in contact with the bottom of the receiver (13);

the clamping adjusting unit comprises convex grooves formed in the tops of the four sliding blocks (10), sliding rods (17) are fixedly arranged on the inner walls of the four convex grooves, convex sliding blocks (18) are sleeved on the four sliding rods (17) in a sliding mode, L-shaped clamping blocks (11) are fixedly arranged on the tops of the four convex sliding blocks (18), inclined planes (16) are formed in one sides, close to each other, of the four L-shaped clamping blocks (11), and the receiver (13) is adaptively arranged on one sides, close to each other, of the four L-shaped clamping blocks (11); the handles (19) are fixedly arranged on the sides, away from each other, of the four L-shaped clamping blocks (11), the extrusion springs (20) are fixedly arranged on the sides, away from each other, of the four convex sliding blocks (18), the four extrusion springs (20) are respectively arranged on the same axis as the four sliding rods (17), the four convex sliding blocks (18) are respectively and slidably arranged on the inner walls of the four convex grooves, and the bottoms of the four L-shaped clamping blocks (11) are respectively contacted with the tops of the four sliding blocks (10); the water tank is characterized in that four support columns (2) are fixedly arranged at the bottom of the return-shaped plate (1), the four support columns (2) are square, a water outlet pipe (8) and a water inlet pipe (9) are fixedly arranged on the side wall of the water tank (7), a water outlet valve is arranged on the water outlet pipe (8), and a water inlet valve is arranged on the water inlet pipe (9).

2. A heat dissipation assistance apparatus for a receiver of a communication device according to claim 1, wherein: the bottom of the water tank (7) is fixedly provided with a fixed plate (6), a limit hole is formed in the side wall of the fixed plate (6), and the connecting rod (5) is slidably arranged on the inner wall of the limit hole.

3. A heat dissipation assistance apparatus for a receiver of a communication device according to claim 1, wherein: a plurality of connecting holes are formed in two opposite side walls of the radiating cylinder (12), a plurality of pairs of connecting pipes (25) are correspondingly and fixedly installed on the inner walls of the connecting holes, a plurality of water guide pipes (31) are fixedly installed at the bottoms of the connecting pipes (25), a plurality of uniformly arranged water guide holes are formed in the top of the water tank (7), and a plurality of water guide pipes (31) are fixedly installed on the inner walls of the water guide holes respectively.

4. A heat dissipation assistance apparatus for a receiver of a communication device according to claim 3, wherein: two limiting plates (30) which are symmetrically arranged are fixedly arranged on the side wall of the chassis (22), two sliding columns (21) are correspondingly and fixedly arranged on the bottom and the top inner wall of the water tank (7), the two limiting plates (30) are respectively sleeved on the two sliding columns (21) in a sliding manner, compression springs (32) are fixedly arranged on the tops of the limiting plates (30), and the two compression springs (32) are respectively arranged with the two sliding columns (21) in a coaxial manner.

5. A heat dissipation method of a heat dissipation assisting device for a receiver of a communication device according to any one of claims 1 to 4, characterized in that the method comprises:

s1, mounting and fixing: pulling the handle (19) to enable the four L-shaped clamping blocks (11) to be far away from each other, placing the receiver (13) between the four L-shaped clamping blocks (11), loosening the handle (19), and fixing the receiver (13) under the elastic deformation action of the extrusion spring (20);

s2, adding materials: controlling a water outlet valve and a water inlet valve, cleaning the inside of the water tank (7) through the water outlet pipe (8) and the water inlet pipe (9), and replacing cold water;

s3, auxiliary heat dissipation: the motor (4) is started, the roller (15) drives the trapezoid block (14) back and forth, the telescopic block (23) moves up and down in the radiating cylinder (12) in a reciprocating mode, cold water enters and exits the radiating cylinder (12) in a reciprocating mode through the water guide pipe (31), and the radiating cylinder (12) can take away heat on the receiver (13) more quickly.

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