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Heat pipe heat transfer system at low-temperature end of low-temperature refrigerator

A low-temperature refrigerator and heat transfer system technology, applied in the field of heat pipe heat transfer system, can solve the problems of fan motor bearing oil lubrication failure, large heat leakage of low-temperature refrigerator box, complex structure, etc., to eliminate the risk of clogging, reduce weight, The effect of efficient heat transfer

Active Publication Date: 2014-12-03
QINGDAO HAIER BIOMEDICAL CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

For the method of using the combination of fan and radiator to enhance the heat transfer efficiency of the cold end of the refrigerator through forced convection, because the internal temperature of the ultra-low temperature refrigerator is too low (generally below -70°C), it is easy to cause the bearing oil lubrication failure of the fan motor
If the fan motor is installed externally and the blades in the box are driven to rotate through the transmission shaft, the structure is too complicated, and at the same time, it is easy to cause large heat leakage from the low-temperature refrigerator box, resulting in increased load and power consumption.

Method used

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  • Heat pipe heat transfer system at low-temperature end of low-temperature refrigerator
  • Heat pipe heat transfer system at low-temperature end of low-temperature refrigerator
  • Heat pipe heat transfer system at low-temperature end of low-temperature refrigerator

Examples

Experimental program
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Effect test

Embodiment 1

[0045] Such as figure 1 As shown, the heat exchange block 2 in this embodiment is connected to two heat pipes 3, and the two heat pipes 3 are evenly distributed on the inner container 4 of the low-temperature refrigerator. The condensation section 5 of each heat pipe 3 is connected to the heat exchange block 2, and each The evaporating section 6 of the heat pipe 3 is connected with the liner 4 of the low-temperature refrigerator.

Embodiment 2

[0047] In this embodiment, the heat exchange block 2 is connected to four heat pipes 3, and the four heat pipes 3 are evenly distributed on the inner container 4 of the low-temperature refrigerator, that is, one heat pipe 3 is arranged on each side of the inner container of the low-temperature refrigerator, and each heat pipe 3 The condensing section 5 of each heat pipe 3 is connected with the heat exchange block 2, and the evaporating section 6 of each heat pipe 3 is connected with the inner container 4 of the low-temperature refrigerator. In this way, the 90-degree corners of the heat pipe 3 can be reduced, and the processing technology is simple.

Embodiment 3

[0049] In this embodiment, the inner tank of the low-temperature refrigerator has a larger size, and the number of heat pipes 3 will be more. However, the density between the heat pipes should be controlled. Generally, the distance should be around 60mm or 100mm or 120mm. It is preferable to set them symmetrically to ensure heat exchange efficiency and balance heat exchange in all directions.

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Abstract

The invention relates to a heat pipe heat transfer system at a low-temperature end of a low-temperature refrigerator. The heat pipe heat transfer system comprises a cold source and a heat pipe heat transfer module, wherein the cold source is used for supplying cold, and the heat pipe heat transfer module is used for transferring the cold into the low-temperature refrigerator; the heat pipe heat transfer module comprises a heat exchange block connected with the cold source; the heat exchange block is also connected with at least one heat pipe; the at least one heat pipe is arranged on a low-temperature refrigerator liner, and low-temperature cycle working fluid fills the at least one heat pipe. The structure size of the heat transfer system is reduced, and the weight of the heat transfer system is reduced; by adopting a modular design mode, the quality consistency in volume production is guaranteed; the large-scale production of an ultra-low temperature refrigerator adopting a novel low-temperature refrigerating machine is favorably realized; the efficient heat transfer bottleneck problem between the compact refrigerating end of the novel low-temperature refrigerating machine and the high-volume refrigerating space of the low-temperature refrigerator is solved; the cold of the novel low-temperature refrigerating machine is rapidly and efficiently transferred to the low-temperature refrigerator; compared with the traditional refrigerating system, the heat pipe heat transfer system has the advantages that the problem lubricating oil is hard to return at low temperature is eliminated, and the phenomenon that the refrigerating system is blocked due to the fact that the lubricating oil condenses is avoided.

Description

technical field [0001] The invention relates to the field of refrigeration equipment, in particular to a heat pipe heat transfer system at the low temperature end of a low temperature refrigerator. Background technique [0002] With the rapid development of the biological and medical industries, the long-term storage of relevant biological and medical samples, reagents and other biological materials requires more and more ultra-low temperature refrigerators. Such ultra-low temperature refrigerators generally require storage temperatures below -70°C and a stable refrigeration system to achieve long-term reliable storage of biological materials. [0003] New types of refrigerators (including Stirling refrigerators, pulse tube refrigerators, and G-M refrigerators) have relatively high refrigeration efficiency under large temperature difference refrigeration conditions (when the refrigeration temperature difference is greater than 60°C). Especially in the refrigeration system o...

Claims

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Application Information

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IPC IPC(8): F25D19/00F28D15/04
CPCF28D15/0275F28D15/0266
Inventor 陈海涛张江涛张国帆袁顺涛王毅
Owner QINGDAO HAIER BIOMEDICAL CO LTD
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