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Heat plate with aluminum silicate nonmetallic fiber felt liquid absorbing cores

A non-metallic fiber and felt liquid-absorbing core technology, which is applied in indirect heat exchangers, lighting and heating equipment, etc., can solve the problems of easily damaged liquid-absorbing core structure, small capillary pressure head, and large liquid return resistance, etc., to achieve increased Large bonding strength and contact area, good capillary force and permeability, and low liquid return resistance

Inactive Publication Date: 2015-01-28
辽宁三维传热技术有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] Wire mesh liquid wick can get high heat transfer performance, but the manufacturing process repeatability is poor
[0005] Groove-type liquid-absorbing core has the advantages of small channel liquid flow resistance, but its capillary pressure head is small, heat transfer is small and other disadvantages, and it has high requirements for groove depth and width, and the directionality of the hot plate is very strong; When the groove has a large bend, the heat transfer performance of the hot plate is greatly reduced, the anti-gravity performance is poor, and its processing technology is complicated
[0006] The powder sintered liquid-absorbent core has the advantages of large capillary suction force and large heat transfer, but there is a contradiction that the capillary pressure increases while the liquid return resistance increases; the powder sintered liquid-absorbent core has low porosity and cannot be controlled. The backflow resistance is large, the structure of the liquid-absorbing core is easily damaged, and the sintered layer is thick, resulting in a large thermal resistance

Method used

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  • Heat plate with aluminum silicate nonmetallic fiber felt liquid absorbing cores
  • Heat plate with aluminum silicate nonmetallic fiber felt liquid absorbing cores
  • Heat plate with aluminum silicate nonmetallic fiber felt liquid absorbing cores

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Embodiment Construction

[0042] Figure 1A It is a schematic diagram of the three-dimensional structure of the hot plate of the non-metallic fiber felt liquid-absorbing core of the present invention; Figure 1B It is a schematic diagram of the overall structure of the hot plate of the non-metallic fiber felt liquid-absorbing core of the present invention; Figure 1C yes Figure 1B E-E direction sectional schematic diagram of ; Figure 1D yes Figure 1BThe schematic diagram of the F-F direction section. As can be seen from the figure, the hot plate of the non-metallic fiber felt liquid-absorbing core of the present invention is in the shape of a long straight plate, mainly including a sealed housing, a first non-metallic fiber felt liquid-absorbing core 5, and a second non-metallic fiber felt liquid-absorbing core 6 , a support frame 4 and a heat-conducting liquid working medium, the support frame 4, the first non-metallic fiber felt liquid-absorbing core 5, and the second non-metallic fiber felt li...

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Abstract

The invention discloses a heat plate with aluminum silicate nonmetallic fiber felt liquid absorbing cores and belongs to the technical field of heat exchange equipment using intermediate heat transfer media or intermediate heat transfer bodies. The heat plate with the aluminum silicate nonmetallic fiber felt liquid absorbing cores provided by the invention comprises a sealed shell, a first nonmetallic fiber felt liquid absorbing core, a second nonmetallic fiber felt liquid absorbing core, a supporting frame and a heat conducting liquid working medium, wherein the supporting frame, the first nonmetallic fiber felt liquid absorbing core and the second nonmetallic fiber felt liquid absorbing core are installed in the sealed shell, and the internal part of the sealed shell is filled with the heat conducting liquid working medium. Compared with the prior art, the heat plate with the aluminum silicate nonmetallic fiber felt liquid absorbing cores has the advantages that the nonmetallic fiber felt liquid absorbing cores have better capillary force and penetration rate, the bonding strength and contact area between fibers are increased, a great amount of three-dimensional reticular porous structures are formed between the fibers, the porosity is high, the specific area is large, and the liquid backflow resistance is small; the backflow speed of the liquid working medium in the heat plate is favorably improved and the heat radiating performance of the heat plate is improved.

Description

technical field [0001] The invention belongs to the technical field of heat exchange equipment using an intermediate heat transfer medium or an intermediate heat transfer body, more specifically, it belongs to a heat plate whose liquid-absorbing core material is aluminum silicate non-metallic fiber felt. Background technique [0002] The flat hot plate in the prior art generally includes a sealed shell, a liquid-absorbing core, and a heat-conducting working medium. The sealed shell is a plate-shaped hollow structure, and the liquid-absorbing core is welded on the inner surface of the sealed shell. Its working principle is: the sealed inner cavity of the sealed shell is filled with heat-conducting working medium, and the heat-conducting working medium is absorbed by the capillary adsorption force of the liquid-absorbing core installed in the inner cavity of the sealed shell. When the heating element connected to the radiator is working , the generated heat is transferred to ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F28D15/04
Inventor 张俊杰
Owner 辽宁三维传热技术有限公司
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