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Heat pipe cooling system and its heat transfer connector

Through the heat pipe cooling system and the heat transfer connector, the heat of the heating element is transferred to the object condenser. The natural or forced convection method is used to solve the space and energy limitations of traditional heat dissipation technology at high temperatures, achieving high efficiency and low cost. Heat removal effect.

Inactive Publication Date: 2006-08-23
ADVANCED THERMAL DEVICES
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, when the heating element is placed inside a closed housing with limited space, increasing the surface area of ​​the heat dissipation fins will increase the space occupied by the heat dissipation fins, making this method difficult to implement
Although the method of increasing the fan speed can increase the efficiency of forced convection, it will be accompanied by the generation of vibration and noise and the increase of energy consumption.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment Construction

[0022] figure 1 It is a schematic cross-sectional view of a heat pipe cooling system according to an embodiment of the present invention. Please refer to figure 1 , the heat pipe cooling system 100 includes an evaporator 110 (evaporator), a connecting pipeline 120 , a working medium 130 and a heat transfer connector 140 . The evaporator 110 is connected to the heating element 150 , and the connecting pipeline 120 is connected to the evaporator 110 , and the working fluid 130 is poured into the closed loop formed by the evaporator 110 and the connecting pipeline 120 . The evaporator 110 further includes an evaporator wall 112, a capillary structure 114 (wick) and a vapor groove 116 (vapor groove). Strip vapor channel 116.

[0023] Please continue to refer to figure 1 When the heat Q generated by the heating element 150 is transferred to the evaporator 110, the heat Q is transferred to the capillary structure through the evaporator wall 112, and the liquid working medium 130...

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PUM

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Abstract

The heat pipe cooling system includes an evaporator, a connecting pipeline, work medium and a heat transfer connector. The evaporator is connected to the heating element, the connecting pipeline is connected to the evaporator, and work medium is filled into the closed loop comprising the evaporator and the connecting pipeline. The heat transfer connector includes one first heat conducting block and one second heat conducting block. The first heat conducting block has several first embedding parts and one contact surface suitable for attaching to one object or one surface; and the second heat conducting block has several second embedding parts suitable for embedding to the said first embedding parts separately, so as to form one pipe passage inside the heat transfer connector for holding or serving as one section of the connecting pipeline.

Description

technical field [0001] The invention relates to a heat dissipation system and its heat dissipation element, and in particular to a heat pipe cooling system and its heat transfer connector. Background technique [0002] In order to quickly remove the heat generated by the heating element during operation, so as to avoid the problem of overheating of the heating element due to heat accumulation. The known heat dissipation technology usually arranges a plurality of heat sinks on the heating element and uses a fan to quickly remove the heat from the heat sink by means of forced convection, so as to avoid heat accumulation on the heating element. [0003] However, when the calorific value of the heating element increases, the known heat dissipation technology faces a bottleneck. In order to cope with the increase in the heat generated by the heating element and maintain the temperature of the heating element within a normal operating temperature range, the known heat dissipation...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F28D15/04
CPCF28D15/0266G06F2200/201G06F1/20H01L23/427H01L2924/0002F28D15/0275
Owner ADVANCED THERMAL DEVICES