CN112435801A - Power cord cooling device - Google Patents

Abstract

The invention discloses a power line cooling device, belongs to the technical field of cooling equipment, solves the problem that the existing power line cannot be rapidly cooled, and has the technical key points that: including coolant tank, be equipped with in the coolant tank and send a passageway, send a passageway setting in the radiator, radiator outside cover is equipped with a metal section of thick bamboo, be equipped with the cooling tube in the coolant tank, the cooling tube is the spiral around establishing on the radiator or be the heliciform and inlay in the radiator, be equipped with the hydrophobic groove in the outside coolant tank of a metal section of thick bamboo, coolant tank upper portion connects the cooling tube coupling, coolant tank sub-unit connection backflow pipe connects, adopt radiator and metal section of thick bamboo to carry out the heat conduction and carry out the mode of bilayer cooling through cooling tube and water delivery inslot cooling water and cool off fast, can absorb and take away the heat better and improve the cooling effect, the cooling efficiency is high, and is pollution.

Description

Power cord cooling device

Technical Field

The invention relates to the technical field of cooling equipment, in particular to a power line cooling device.

Background

With the development of economy and the advancement of technology, people have more and more use of electronic devices, and the use of power lines of the electronic devices is also increased. The power cord is transmission current's electric wire, and after the power cord was extruded or the wire drawing, the temperature of copper line can be higher, if not timely cooling, not only causes the damage to take-up easily, also leads to the copper line phenomenon such as crackle, deformation to appear easily, consequently, needs to set up cooling device and carries out cooling treatment to its surface.

Traditional cooling method is the forced air cooling, but the air-cooled machine causes the power cord surface to melt excessively easily, seriously influences the quality and the outward appearance of power cord, and current power cord water cooling plant carries out the heat absorption to the power cord of extruding through the water pipe and handles, but the heat absorption effect is poor and need just can reduce the temperature of power cord through fairly long distance's heat absorption, and power cord water cooling plant need constantly pass through water pump extraction cold water, cold water can't recycle after the heat absorption, has seriously wasted the water resource.

Therefore, it is desirable to provide a power cord cooling device, which aims to solve the above problems.

Disclosure of Invention

In view of the shortcomings in the prior art, an object of the present invention is to provide a power line cooling device to solve the above problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a power cord cooling device, includes coolant tank, is equipped with a passageway in the coolant tank, send a passageway setting in the radiator, radiator outside cover is equipped with a metal section of thick bamboo, is equipped with the cooling tube in the coolant tank, and the cooling tube is the spiral and inlays in the radiator around establishing on the radiator or being the heliciform, is equipped with the hydrophobic groove in the outside coolant tank of metal section of thick bamboo, and coolant tank upper portion connects the cooling tube coupling, and coolant tank sub-unit connection backflow pipe connects.

As a further scheme of the invention, the wire feeding channel is arranged between the wire inlet wheel and the wire outlet wheel, one end of the cooling water tank is provided with the wire inlet wheel, and the other end of the cooling water tank is provided with the wire outlet wheel.

As a further scheme of the invention, the wire inlet wheel and the wire outlet wheel are both a pair of symmetrically arranged rollers, and the rollers of the wire inlet wheel are rotatably arranged at one end of the cooling water tank.

As a further scheme of the invention, one wheel shaft of the pair of rollers of the wire outlet wheel is connected with a driving shaft, and the driving shaft is connected with a motor shaft of a servo motor.

As a further scheme of the invention, a sealing plug is arranged at the wire outlet end of the wire feeding channel, and a wire feeding hole is arranged in the middle of the sealing plug.

As a further scheme of the invention, the cooling pipe is spirally wound on the wire feeding channel, the wire feeding channel is communicated with the cooling cavity, the cooling pipe is arranged in the cooling cavity, and the cooling cavity is arranged in the cooling water tank.

As a further scheme of the invention, the cooling pipe is spirally embedded in the heat radiator, the metal cylinder is sleeved outside the heat radiator, the outer side wall of the metal cylinder is provided with heat conducting blocks which are distributed at intervals, and the side wall of the metal cylinder between the heat conducting blocks is provided with a plurality of heat radiating holes.

As a further scheme of the invention, the wire feeding channel in the heat radiator is not communicated with the cooling cavity.

As a further scheme of the invention, the cooling pipe joint and the return pipe joint are connected with the refrigeration box through water pipes, and a circulating pump is arranged on the water pipe between the cooling pipe joint and the refrigeration box.

As a further proposal of the invention, the wire feeding channels are distributed in an S shape.

In summary, compared with the prior art, the embodiment of the invention has the following beneficial effects:

according to the power line cooling device, the heat is conducted by the heat radiator and the metal cylinder, and the power line is rapidly cooled in a double-layer cooling mode through the cooling water in the cooling pipe and the water delivery tank, so that the heat can be better absorbed and taken away, the cooling effect is improved, the cooling efficiency is high, and no pollution is caused.

To more clearly illustrate the structural features and effects of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a schematic structural diagram of a power cord cooling device according to the present invention.

Fig. 2 is a schematic structural diagram of a wire outgoing wheel in the power cord cooling device provided by the invention.

Fig. 3 is a schematic structural diagram of a metal cylinder in the power cord cooling device provided by the present invention.

Fig. 4 is a structural diagram of the cooling pipe insert installation of the power cord cooling device provided by the invention.

Fig. 5 is a structural diagram of a cooling pipe of a power cord cooling device according to the present invention.

Reference numerals: 1-cooling water tank, 2-wire inlet wheel, 3-wire outlet wheel, 4-sealing plug, 5-wire feeding channel, 6-heat radiation body, 7-metal cylinder, 8-heat conduction block, 9-heat dissipation hole, 10-cooling pipe, 11-drainage groove, 12-cooling cavity, 13-cooling pipe joint, 14-reflux pipe joint, 15-refrigeration box, 16-circulation pump, 17-driving shaft and 18-servo motor.

Detailed Description

To facilitate an understanding of the present application, the present application will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present application are shown in the drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

The technical solution of the present invention is further described with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1, a power cord cooling device includes a cooling water tank 1, wherein one end of the cooling water tank 1 is provided with a wire inlet wheel 2, and the other end of the cooling water tank 1 is provided with a wire outlet wheel 3, in the embodiment of the present invention, the wire inlet wheel 2 and the wire outlet wheel 3 are both a pair of symmetrically arranged rollers, the rollers of the wire inlet wheel 2 are rotatably arranged at one end of the cooling water tank 1, referring to fig. 2, one of the pair of rollers of the wire outlet wheel 3 is connected with a driving shaft 17, the driving shaft 17 is connected with a motor shaft of a servo motor 18, and the rollers of the wire outlet wheel 3 are driven to rotate by the driving shaft 17 under the driving of the servo motor 18; the wire feeding channel 5 is arranged in the cooling water tank 1 between the wire inlet wheel 2 and the wire outlet wheel 3, when the power wire is cooled, the power wire enters the wire feeding channel 5 from the position between the roller wheels of the wire inlet wheel 2 and is output from the position between the roller wheels of the wire outlet wheel 3, and the power wire is conveniently penetrated into and out of the wire under the driving of the servo motor 18.

Referring to fig. 1, a sealing plug 4 is arranged at a wire outlet end of the wire feeding channel 5, a wire feeding hole for a power line to penetrate through is arranged in the middle of the sealing plug 4, and the sealing plug 4 is used for increasing the sealing performance of the wire feeding channel 5 at the wire outlet end, so that the phenomenon that cooling liquid or cooling gas in the wire feeding channel 5 overflows from the wire outlet end when the power line penetrates out is avoided;

in an embodiment of the present invention, referring to fig. 5, a cooling cavity 12 is disposed in the cooling water tank 1, and a cooling tube 10 is disposed in the cooling cavity 12, in the embodiment of the present invention, the cooling tube 10 is spirally wound on the wire feeding channel 5, the wire feeding channel 5 is communicated with the cooling cavity 12, a low-temperature cooling medium is input into the cooling tube 10, the low-temperature cooling medium in the cooling tube 10 absorbs heat in the cooling cavity 12 and cools the power line, and the low-temperature cooling cavity 12 directly cools the power line passing through the wire feeding channel 5, thereby cooling the power line.

As a preferred embodiment of the present invention, referring to fig. 4, the wire feeding channel 5 is disposed in the heat sink 6, the heat sink 6 is made of copper or aluminum block with high thermal conductivity, the wire feeding channel 5 is not communicated with the cooling cavity 12 under the isolation of the heat sink 6, and preferably, the cooling tube 10 is spirally wound on the heat sink 6 or spirally embedded in the heat sink 6, so as to facilitate cooling of the heat sink 6 by a cryogenic cooling medium, and cool the power line passing through the wire feeding channel 5 in the heat sink 6.

Referring to fig. 1, in order to further improve the cooling effect and cooling reliability of the power line in the wire feeding channel 5, the cooling pipe 10 is spirally embedded in the heat sink 6, the outer side of the heat sink 6 is sleeved with a metal cylinder 7, the outer side wall of the metal cylinder 7 is provided with heat conducting blocks 8, the heat conducting blocks 8 are distributed at intervals, the side wall of the metal cylinder 7 between the heat conducting blocks 8 is provided with a plurality of heat dissipation holes 9, and a drain groove 11 is arranged in the cooling water tank 1 outside the metal cylinder 7;

the upper portion of the cooling water tank 1 is connected with a cooling pipe joint 13, the lower portion of the cooling water tank 1 is connected with a return pipe joint 14, the cooling pipe joint 13 and the return pipe joint 14 are connected with a refrigeration box 15 through water pipes, and a circulating pump 16 is installed on a water pipe between the cooling pipe joint 13 and the refrigeration box 15.

When the power line is cooled, the power line conducts heat to the heat radiator 6, and the heat radiator 6 conducts the heat to the metal cylinder 7 and the heat conducting block 8; when the circulating pump 16 is started to work, the circulating pump 16 injects cooling water in the refrigerating tank 15 into the drain tank 11 of the cooling water tank 1 through the cooling pipe joint 13, a part of the cooling water enters the metal cylinder 7 along the heat dissipation holes 9 and contacts with the heat dissipation body 6 to be directly cooled, absorbs heat conducted to the metal cylinder 7 and the heat conduction block 8 together, and flows the cooled and cooled water back to the refrigerating tank 15 along the return pipe joint 14 to be cooled; meanwhile, the low-temperature medium flowing in the cooling pipe 10 also directly cools the radiator 6, so that the heat of the power line in the wire feeding channel 5 can be directly absorbed conveniently, and the power line in the wire feeding channel 5 can be rapidly cooled.

In order to increase the cooling path of the power cord in the cooling water tank 1, it is preferable that the wire feeding channels 5 are distributed in an S shape, and the path of the wire feeding channels 5 is increased, so as to increase the time for cooling the power cord and improve the cooling effect.

The technical principle of the present invention has been described above with reference to specific embodiments, which are merely preferred embodiments of the present invention. The protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. Other embodiments of the invention will occur to those skilled in the art without the exercise of inventive faculty, and such will fall within the scope of the invention.

Claims (10)

1. The utility model provides a power cord cooling device, includes cooling water tank (1), is equipped with in cooling water tank (1) and send a passageway (5), its characterized in that, send a passageway (5) to set up in radiator (6), and radiator (6) outside cover is equipped with canister (7), is equipped with cooling tube (10) in cooling water tank (1), and cooling tube (10) are the spiral around establishing on radiator (6) or are the heliciform and inlay in radiator (6), establish in cooling water tank (1) of canister (7) outside and be hydrophobic groove (11), cooling water tank (1) upper portion connection cooling tube coupling (13), cooling water tank (1) sub-unit connection backflow pipe coupling (14).

2. The power cord cooling device as claimed in claim 1, wherein the wire feeding channel (5) is arranged between the wire feeding wheel (2) and the wire outlet wheel (3), the wire feeding wheel (2) is installed at one end of the cooling water tank (1), and the wire outlet wheel (3) is installed at the other end of the cooling water tank (1).

3. The power cord cooling device as claimed in claim 2, wherein the wire inlet wheel (2) and the wire outlet wheel (3) are both a pair of symmetrically arranged rollers, and the rollers of the wire inlet wheel (2) are rotatably arranged at one end of the cooling water tank (1).

4. The power cord cooling device as claimed in claim 3, wherein one of the wheel shafts of the pair of rollers of the outlet pulley (3) is connected to a drive shaft (17), and the drive shaft (17) is connected to a motor shaft of a servo motor (18).

5. The power cord cooling device as claimed in claim 1, wherein the wire outlet end of the wire feeding channel (5) is provided with a sealing plug (4), and the middle part of the sealing plug (4) is provided with a wire routing hole.

6. The power cord cooling device as claimed in claim 5, wherein the cooling tube (10) is spirally wound on the wire feeding channel (5), the wire feeding channel (5) is communicated with the cooling cavity (12), the cooling tube (10) is installed in the cooling cavity (12), and the cooling cavity (12) is arranged in the cooling water tank (1).

7. The power cord cooling device as claimed in claim 6, wherein the cooling tube (10) is spirally embedded in the heat sink (6), the metal cylinder (7) is sleeved outside the heat sink (6), the outer side wall of the metal cylinder (7) is provided with heat conducting blocks (8), the heat conducting blocks (8) are distributed at intervals, and the side wall of the metal cylinder (7) between the heat conducting blocks (8) is provided with a plurality of heat dissipation holes (9).

8. The power cord cooling device as claimed in claim 6, wherein the wire feeding channel (5) in the heat radiator (6) is not communicated with the cooling cavity (12).

9. The power cord cooling device as claimed in claim 1, characterized in that the cooling pipe joint (13) and the return pipe joint (14) are connected to the refrigeration box (15) through a water pipe, and a circulation pump (16) is mounted on the water pipe between the cooling pipe joint (13) and the refrigeration box (15).

10. The power cord cooling arrangement as claimed in claim 1, characterized in that the wire feed channel (5) is S-shaped.

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