CN220982008U - Radiator composed of high-efficiency heat-dissipation heat pipes - Google Patents

Abstract

The utility model discloses a radiator composed of high-efficiency heat-dissipation heat pipes, which is characterized in that: the heat dissipation device comprises an outer side heat dissipation cavity, an inner heat dissipation fin and a base, wherein the outer side heat dissipation cavity is formed by connecting a front heat dissipation cavity with a rear heat dissipation cavity, the inner heat dissipation fin comprises a plurality of efficient heat dissipation pipes, the efficient heat dissipation pipes are closely arranged, and the outer side heat dissipation cavity and the inner heat dissipation fin are arranged on the base. The overall heat dissipation efficiency of the radiator is improved through the outer heat dissipation cavity; through the internal radiating fins, efficient heat dissipation is realized; through the base, the overall stability of the radiator is improved.

Description

Radiator composed of high-efficiency heat-dissipation heat pipes

Technical Field

The utility model relates to the field of industrial tools, in particular to a radiator consisting of efficient heat dissipation heat pipes.

Background

The existing radiator generally consists of a plurality of common heat pipes, but as the application range of the radiator is wider and wider, the radiator using the common heat pipes under partial radiating scenes can not meet the high-efficiency radiating requirement, and as the service time of the radiator is prolonged, calcification accumulation can be generated in the heat pipes, so that the radiating efficiency is reduced, and the use cost of a user can be increased by replacing the whole radiating fins.

Disclosure of utility model

The utility model aims to solve the problems that the radiating efficiency of the radiating fin in the prior art is low, and the radiating fin ages with the increase of the service time of the radiating fin, and provides the radiator composed of the high-efficiency radiating heat pipe, so that the radiating efficiency of the radiator is effectively improved, the aging condition of the radiating fin can be conveniently checked, and the aging device is convenient to replace.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

The utility model provides a radiator that high-efficient heat dissipation heat pipe was constituteed, includes outside heat dissipation cavity, inside fin and base, outside heat dissipation cavity comprises preceding heat dissipation cavity and back heat dissipation cavity connection, inside fin includes a plurality of high-efficient heat dissipation heat pipes, each high-efficient heat dissipation heat pipe closely arranges, outside heat dissipation cavity and inside fin set up in on the base.

Preferably, the front heat dissipation cavity and the upper side of the rear heat dissipation cavity are respectively provided with a front heat dissipation cavity side water outlet and a rear heat dissipation cavity side water outlet.

Preferably, a groove is formed in the base, and the groove is used for fixing the outer radiating cavity and the inner radiating fins.

Preferably, the high-efficiency heat dissipation heat pipe comprises a heat pipe body and a heat pipe shell, and a hollow cavity is arranged between the heat pipe shell and the heat pipe body.

Preferably, thermocouples are respectively arranged in the front radiating cavity and the rear radiating cavity, the thermocouples on the front radiating cavity side are connected with a temperature display instrument on the front radiating cavity side, the thermocouples on the rear radiating cavity side are connected with a temperature display instrument on the rear radiating cavity side, and the temperature display instrument on the front radiating cavity side and the temperature display instrument on the rear radiating cavity side are arranged outside the outer radiating cavity.

Preferably, the outside of the outer radiating cavity is respectively provided with a front radiating cavity side audible and visual alarm device and a rear radiating cavity side audible and visual alarm device, the front radiating cavity side audible and visual alarm device is connected with a front radiating cavity side temperature display, and the rear radiating cavity side audible and visual alarm device is connected with a rear radiating cavity side temperature display.

Preferably, blue thermochromic paint is sprayed on the surface of the outer radiating cavity, and white thermochromic paint is sprayed on the surface of the inner radiating fin.

Therefore, the utility model has the following beneficial effects:

1. the heat dissipation efficiency of the inner radiating fins can be improved through the inner radiating fins formed by the high-efficiency heat dissipation heat pipes;

2. The overall heat dissipation efficiency of the radiator is improved through the outer heat dissipation cavity;

3. The high-efficiency heat dissipation heat pipe is fixed through the base, so that the high-efficiency heat dissipation heat pipe can be replaced conveniently;

4. by arranging the thermocouple, the temperature display instrument and the audible and visual alarm device, the radiator can be conveniently found and solved in time when the radiating condition of the radiator is poor;

5. Through spraying thermochromic paint, the position with poor heat dissipation can be accurately positioned, and the problem components can be conveniently replaced.

Drawings

Fig. 1 is a schematic view of the structure of the device of the present embodiment.

Fig. 2 is a schematic view of another device structure of the present embodiment.

Fig. 3 is a schematic view of another device structure of the present embodiment.

In the figure: 1. the heat radiation device comprises an outer heat radiation cavity 2, an inner heat radiation fin 3, a base 11, a front heat radiation cavity 12, a rear heat radiation cavity 111, a thermocouple 112, a front heat radiation cavity side temperature display 113, a front heat radiation cavity side audible and visual alarm 114, a front heat radiation cavity water inlet and outlet 121, a rear heat radiation cavity side temperature display 122, a rear heat radiation cavity side audible and visual alarm 123, a rear heat radiation cavity water inlet and outlet 21, a high-efficiency heat radiation heat pipe 211, a heat pipe body 212, a heat pipe shell 31 and a groove.

Detailed Description

The utility model is further described below with reference to the drawings and detailed description.

As shown in fig. 1, a radiator composed of high-efficiency heat-dissipating heat pipes 21 includes an outer heat-dissipating cavity 1, an inner heat-dissipating fin 2 and a base 3, wherein the outer heat-dissipating cavity 1 is formed by connecting a front heat-dissipating cavity 11 with a rear heat-dissipating cavity 12, the inner heat-dissipating fin 2 includes a plurality of high-efficiency heat-dissipating heat pipes 21, the high-efficiency heat-dissipating heat pipes 21 are closely arranged, and the outer heat-dissipating cavity 1 and the inner heat-dissipating fin 2 are disposed on the base 3.

Optionally, the front heat dissipation cavity 11, the rear heat dissipation cavity 12 and the high-efficiency heat dissipation heat pipe 21 can be detached from the base 3, so that replacement is performed when the replacement condition is met.

Optionally, the inside fin 2 is fixed by outside heat dissipation cavity 1 and the base 3 of closely laminating, has effectively improved the stability of fin.

Optionally, the front heat dissipation cavity 11 and the rear heat dissipation cavity 12 may be filled with cooling liquid, and the heat dissipation efficiency of the inner heat dissipation fin 2 can be improved by the front heat dissipation cavity 11 and the rear heat dissipation cavity 12 filled with cooling liquid.

Fig. 2 is a schematic view of another device structure provided in this embodiment, as shown in fig. 2, a groove 31 is provided on the base 3, and the groove 31 is used for fixing the outer heat dissipation cavity 1 and the inner heat dissipation fins 2.

Fig. 3 is a schematic view of another device structure provided in this embodiment, as shown in fig. 3, the radiator composed of the high-efficiency heat-dissipating heat pipes 21 includes an outer heat-dissipating cavity 1, the outer heat-dissipating cavity 1 is composed of a front heat-dissipating cavity 11 and a rear heat-dissipating cavity 12, the front heat-dissipating cavity 11 is provided with a side water outlet of the front heat-dissipating cavity 11 and a thermocouple 111, the thermocouple 111 is connected with a side temperature indicator 112 of the front heat-dissipating cavity, the side temperature indicator 112 of the front heat-dissipating cavity is arranged outside the front heat-dissipating cavity 11, the side temperature indicator 112 of the front heat-dissipating cavity is connected with a side acousto-optic alarm 113 of the front heat-dissipating cavity arranged outside the front heat-dissipating cavity, the temperature indicator 121 of the rear heat-dissipating cavity is connected with the thermocouple 111, the thermocouple 111 is disposed inside the rear heat dissipation cavity 12, not shown in fig. 3 due to the view angle, but the manner of disposition is the same as that of the thermocouple 111 on the front heat dissipation cavity 11 side, the rear heat dissipation cavity temperature indicator 121 is disposed outside the rear heat dissipation cavity 12, and the rear heat dissipation cavity temperature indicator 121 is connected with the rear heat dissipation cavity side audible and visual alarm device 122 disposed outside the rear side cavity, the internal heat dissipation fins 2 are formed by closely arranging 8 high-efficiency heat dissipation heat pipes 21, each high-efficiency heat dissipation heat pipe 21 is composed of a heat pipe body 211 and a heat pipe housing 212, a hollow cavity is formed between the heat pipe body 211 and the heat pipe housing 212, and a groove 31 is disposed in the base 3.

Optionally, the upper sides of the front heat dissipation cavity 11 and the rear heat dissipation cavity 12 are respectively provided with a front heat dissipation cavity 11 side water outlet and a rear heat dissipation cavity 12 side water outlet, and the front heat dissipation cavity water inlet and outlet 114 and the rear heat dissipation cavity water inlet and outlet 123 are respectively used for filling the front heat dissipation cavity 11 and the rear heat dissipation cavity 12 with cooling liquid.

Optionally, the high-efficiency heat dissipation heat pipe 21 includes a heat pipe body 211 and a heat pipe housing 212, and a hollow cavity is disposed between the heat pipe housing 212 and the heat pipe body 211.

Optionally, the hollow cavity of the efficient heat dissipation heat pipe 21 may be filled with a cooling liquid, so as to improve the heat dissipation efficiency of the heat pipe.

The thermocouple 111 on the front radiating cavity 11 side is connected with the temperature display instrument 112 on the front radiating cavity side, the thermocouple 111 on the rear radiating cavity 12 side is connected with the temperature display instrument 121 on the rear radiating cavity side, and the temperature display instrument 112 on the front radiating cavity side and the temperature display instrument 121 on the rear radiating cavity side are arranged outside the outer radiating cavity 1.

Alternatively, the front heat dissipation chamber side temperature display 112 and the rear heat dissipation chamber temperature display 121 may display real-time temperatures measured by the thermocouples 111, respectively, in real time.

Optionally, after the radiator is installed, under a usage scenario of a radiator, an operating temperature of the radiator during heat dissipation is generally kept within a certain temperature interval, but in the case of device aging or calcification accumulation in a heat pipe, etc., heat dissipation efficiency of the radiator may be affected, and at this time, an internal temperature of the radiator may rise and exceed a heat dissipation temperature interval under normal operation conditions.

Optionally, a front heat dissipation cavity side acousto-optic alarm device 113 and a rear heat dissipation cavity side acousto-optic alarm device 122 are respectively arranged outside the outer heat dissipation cavity 1, the front heat dissipation cavity side acousto-optic alarm device 113 is connected with the front heat dissipation cavity side temperature display instrument 112, and the rear heat dissipation cavity side acousto-optic alarm device 122 is connected with the rear heat dissipation cavity temperature display instrument 121.

Optionally, a temperature threshold may be preset in the audible and visual alarm device, and after the current heat dissipation cavity side audible and visual alarm device 113 or the rear heat dissipation cavity side audible and visual alarm device 122 detects that the temperature display meter reading corresponding to the current heat dissipation cavity side audible and visual alarm device has exceeded the temperature threshold, the audible and visual alarm device may perform audible and visual alarm to prompt the user that the current heat dissipation effect of the radiator is poor.

Optionally, blue thermochromic paint is sprayed on the surface of the outer radiating cavity 1, and white thermochromic paint is sprayed on the surface of the inner radiating fin 2.

Optionally, the thermochromic paint can change color according to different degrees of temperature, and the thermochromic paint of different colours is sprayed respectively on the surface of outside heat dissipation cavity 1 and the surface of inside fin 2, is convenient for user's record and distinguish, and through the different degree colour changes of thermochromic paint, the not good partial device of radiating effect can be confirmed to change.

The foregoing embodiments are provided for further explanation of the present utility model and are not to be construed as limiting the scope of the present utility model, and some insubstantial modifications and variations of the present utility model, which are within the scope of the utility model, will be suggested to those skilled in the art in light of the foregoing teachings.

Claims (7)

1. A radiator composed of high-efficiency heat dissipation heat pipes is characterized in that: the novel heat dissipation device comprises an outer side heat dissipation cavity (1), an inner heat dissipation fin (2) and a base (3), wherein the outer side heat dissipation cavity (1) is formed by connecting a front heat dissipation cavity (11) and a rear heat dissipation cavity (12), the inner heat dissipation fin (2) comprises a plurality of efficient heat dissipation pipes (21), the efficient heat dissipation pipes (21) are closely arranged, and the outer side heat dissipation cavity (1) and the inner heat dissipation fin (2) are arranged on the base (3).

2. The radiator composed of the efficient heat dissipation heat pipes according to claim 1, wherein the front heat dissipation cavity (11) and the rear heat dissipation cavity (12) are respectively provided with a front heat dissipation cavity side water outlet (114) and a rear heat dissipation cavity side water outlet (123).

3. A radiator comprising a high-efficiency heat pipe according to claim 2, wherein the base (3) is provided with a groove (31), the groove (31) being used for fixing the outer heat dissipation cavity (1) and the inner heat dissipation fins (2).

4. The heat sink comprising a heat pipe according to claim 1, wherein the heat pipe (21) comprises a heat pipe body (211) and a heat pipe housing (212), and a hollow cavity is provided between the heat pipe housing (212) and the heat pipe body (211).

5. The radiator composed of the efficient heat dissipation heat pipes according to claim 1, wherein thermocouples (111) are respectively arranged inside the front heat dissipation cavity (11) and inside the rear heat dissipation cavity (12), the thermocouples (111) on the front heat dissipation cavity (11) side are connected with the front heat dissipation cavity side temperature display instrument (112), the thermocouples (111) on the rear heat dissipation cavity (12) side are connected with the rear heat dissipation cavity side temperature display instrument (121), and the front heat dissipation cavity side temperature display instrument (112) and the rear heat dissipation cavity side temperature display instrument (121) are arranged outside the outer heat dissipation cavity (1).

6. The radiator composed of the efficient heat dissipation heat pipes according to claim 5, wherein a front heat dissipation cavity side sound-light alarm device (113) and a rear heat dissipation cavity side sound-light alarm device (122) are respectively arranged outside the outer heat dissipation cavity (1), the front heat dissipation cavity side sound-light alarm device (113) is connected with a front heat dissipation cavity side temperature display instrument (112), and the rear heat dissipation cavity side sound-light alarm device (122) is connected with a rear heat dissipation cavity side temperature display instrument (121).

7. The radiator composed of the efficient heat dissipation heat pipes according to claim 1 is characterized in that blue thermochromic paint is sprayed on the surface of the outer heat dissipation cavity (1), and white thermochromic paint is sprayed on the surface of the inner heat dissipation fins (2).