CN2458665Y - Cooling module - Google Patents

Abstract

The utility model relates to a heat dissipation module, which is composed of a heat conduction superconducting tube, a heat dissipation fin group and a heat conduction fixing group. The heat conduction superconducting tube is mainly a freely bendable tube body, and a high-temperature superconducting compound material with high-speed heat conduction is arranged in the tube body. The end of the heat conduction superconducting tube is clamped and fixed by a heat conduction fixing seat, and finally the heat conduction fixing seat clamped with the heat conduction superconducting tube is covered at the center by the heat dissipation fin group. A plurality of heat dissipation modules can also be stacked together to quickly and effectively conduct the heat source to each stacked heat dissipation module.

Description

Cooling module

The utility model belongs to the field of radiator structure design, in particular to a heat dissipation module composed of a heat conduction superconductor, a heat dissipation fin group and a heat conduction fixing seat group.

At present, most of the cooling devices used by the industry for the computer central processing unit (CPU) use a metal sheet with high conductivity to connect the heat source, so as to export the heat and then use the fan to dissipate the heat. The effect of heat dissipation cannot be achieved effectively and quickly, because the metal heat sink with limited area can only dissipate the heat locally. When the heat accumulates for a long time, the heat will fill the heat sink and be directed back to the heat-generating parts or their surroundings. At this time, the electronic parts are easy to be damaged due to overheating. Therefore, if there is a new heat dissipation device that can overcome the shortcomings of the traditional heat sink device and strengthen the overall heat dissipation effect, the electronic parts will be greatly improved. life.

The purpose of this utility model is to propose a heat dissipation module composed of a heat conduction superconducting pipe, a heat sink group and a heat conduction fixed group, which can quickly and effectively remove the heat generated by the heat source, thereby solving the problems existing in the prior art. The problem.

The technical solution adopted by the utility model is that it includes a heat conduction superconductor, a heat sink group and a heat conduction fixing seat group, wherein the heat conduction superconductor is mainly a freely bendable tube body, and a high-speed heat conduction tube is arranged in the tube body. The high-temperature superconducting compound material, and the end of the heat conduction superconducting tube is sandwiched and fixed by a heat conduction fixing seat, and finally the heat conduction fixing seat clamped with the heat conduction superconducting guide is covered in the center by the heat sink group.

The utility model has the advantages of:

1. With the implementation of the utility model, the heat generated by the heat source can be effectively and quickly

Disperse.

2. Since the heat dissipation module of the present invention can be implemented by stacking a plurality of them together, it can effectively

The heat level of the heat source is the best match for implementation.

3. In addition to the implementation of the utility model in a zero-stack manner, the configuration of the heat source and the limitation of the space may also be considered.

The system directly connects the thermal conduction superconducting tube to the heat source, which can greatly improve the convenience of its application.

Fig. 1 is a perspective view of the utility model.

Fig. 2 is a three-dimensional exploded view of the utility model.

Figure 3 is Figure 1 of the embodiment of the utility model.

Fig. 4 is the second embodiment of the utility model.

Fig. 5 is the third embodiment of the utility model.

Fig. 6 is the fourth embodiment of the utility model.

Fig. 7 is the fifth embodiment of the utility model.

Fig. 8 is Fig. 6 of the embodiment of the utility model.

Now further illustrate preferred specific embodiments of the present utility model in conjunction with above-mentioned each accompanying drawing, as shown in Fig. 1 and Fig. 2 is the stereoscopic view and the stereoscopic exploded view of the present utility model, discloses a kind of heat dissipation of the present utility model among the figure Module 1, which is mainly composed of a heat conduction superconductor 11, a heat sink group 12 and a heat conduction fixing seat group 13, wherein the heat conduction superconductor 11 is mainly a freely bendable tube body, and the heat conduction superconductor 11 refers to copper, aluminum or other metal tubes, and the inside of the tube contains high-temperature superconducting compound materials with high-speed heat conduction, such as yttrium barium copper oxide (YBCO) superconducting materials, thallium barium calcium copper oxide (TBCCO) superconducting material, mercury barium calcium copper oxide compound (HBCCO) superconducting material, bismuth strontium calcium copper oxide compound (BSCCO) superconducting material or other superconducting materials, and the heat conduction fixing seat group 13 is mainly a concave-like A letter-shaped base 131 and a cover plate 132 are combined, and a plurality of heat conduction superconducting conduits 11 are sandwiched and fixed between the base 131 and the cover plate 132 of the heat conduction fixing seat group 13, and finally they are clamped together. The heat conduction fixing seat group 13 of the heat conduction superconducting catheter 11 is clamped between the two cooling fins 121 clamping holes 1211 of the heat sink group 12, and makes the bottom edge of the heat conducting superconducting catheter 11 and the upper and lower side edges of the heat conducting fixing seat group 13 protrude On the outside of the heat sink group 12 (the heat conduction superconducting pipe 11 can also be completely covered between the heat sink group 12, and does not protrude outside the heat sink group 12), so as to quickly and effectively transfer its heat source through the heat conduction superconducting pipe 11 or heat conduction The fixed seat group 13 guides its heat into the upper and lower two heat sinks 121 of the heat sink group 12 to achieve the effect of heat dissipation, while the aforementioned heat conduction superconductor 11 mainly utilizes the high-speed vibration friction generated when the molecules in the tube are heated, so that Heat energy is transferred quickly in a fluctuating manner. Because of its fast heat transfer, it is called heat conduction superconductor, body, and because of heat conduction superconductor, the transmission time of body energy from its hot end to its cold end is very short, so the distance between the hot end and the cold end The temperature difference is also large, so as to achieve the best heat conduction effect.

As shown in Figures 3 to 5 are Figures 1, 2 and 3 of the embodiments of the present utility model, in which the figure reveals that the heat dissipation block 1 of the present utility model mainly uses a heat-conducting fixing seat group 13 to connect its multiple heat-conducting superconducting tubes 11 clamped together (the number of the heat conduction superconductor can be single or multiple depending on its space and its needs), and finally the heat conduction fixing seat group 13 and the heat conduction superconductor 11 are clamped and coated on the heat sink group 12 Wherein, except that the heat sink group 12 can be composed of two heat sinks 121, the heat sink group 12 can also be implemented as a single piece or the high temperature superconducting compound material can be directly placed in the heat sink group 12 of sealed molding. Combined with the heat-conducting fixing seat group 13, the heat-conducting fixing seat group 13 and the heat-conducting superconducting pipe 11 are covered therein, and the heat dissipation module 1 can be implemented as a single one, or multiple identical heat dissipation modules 1 can be stacked together , and each stacked heat dissipation module 1 mainly achieves its heat conduction effect through the contact of the upper and lower side edges of the heat conduction fixing seat group 13 .

As shown in Fig. 6 and Fig. 7, Fig. 4 and Fig. 5 of the embodiment of the present utility model reveal that for a specific high source, the heat sink 121 on the outside of the heat dissipation module 1 of the present utility model can also be provided with a Fan clamping hole 1212, through the setting of this fan clamping hole 1212, its fan 2 can be installed on the heat sink 121, thereby the heat on its heat conduction superconducting pipe 11 and the heat sink group 12 is dissipated quickly, and moreover when the cooling mold When the groups 1 are stacked together, their fans 2 can be installed on the side edges of the heat dissipation modules 1 that are stacked together, so that the heat can be dissipated more effectively and quickly.

As shown in Figure 8 is Figure 6, an embodiment of the utility model, which shows that the heat dissipation module 1 of the utility model can be stacked on the upper edge of the heat source (such as CPU3), so as to export the heat of the heat source Furthermore, for some places where the heat dissipation module 1 cannot be directly stacked on the heat source, the tube body of the heat conduction superconducting tube 11 in the middle of the heat dissipation module 1 can be extended and connected to the heat source to achieve heat dissipation Effect.

Claims (5)

1, a kind of radiating module, it is characterized in that, it comprises heat-transfer superconductive pipe, groups of fins and heat conduction holder group, wherein this heat-transfer superconductive pipe is mainly a body that can freely bend, be provided with in its body and have the heat conducting high-temperature superconductor compound-material of high speed, the end of this heat-transfer superconductive pipe is established its folder by a heat conduction holder fixing, has the heat conduction holder of heat-transfer superconductive pipe to be coated on its central authorities its clamping by groups of fins more at last.

2, by the described radiating module of claim 1, it is characterized in that it can be stacked each other on described radiating module required a plurality of heat radiation modules together.

3,, it is characterized in that visual its space of the quantity of described heat-transfer superconductive pipe and need be for single or multiple by the described radiating module of claim 1.

4, by the described radiating module of claim 1, it is characterized in that, described groups of fins is except that can being made up of two heat radiator, and this heat radiator also can be the mode of one sealing moulding the high-temperature superconductor compound-material is directly inserted wherein, and combines composition with heat conduction holder group.

5, by the described radiating module of claim 1, it is characterized in that the outside of described radiating module can install fan additional.

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