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Ultrathin vapor chamber with composite wick structure and manufacturing method of ultrathin vapor chamber

A technology of vapor chamber and liquid-absorbing core, which is applied to the structural parts of electrical equipment, cooling/ventilation/heating transformation, electrical components, etc., and can solve the problems of small flow resistance, large flow resistance of liquid-absorbing core, and low structural strength , to achieve the effect of strong pressure and heat resistance, short condensing return path, and low installation position requirements

Pending Publication Date: 2020-04-07
GUANGZHOU INTELLIGENT COOLING ENERGY SAVING TECH CO LTD
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] 1. The existing vapor chamber generally retains the steam cavity as a steam diffusion channel. This structure has low strength and is easily deformed, resulting in poor contact, resulting in a sharp drop in heat dissipation performance of the vapor chamber
On the other hand, the existence of the steam chamber structure makes it more difficult to make the vapor chamber ultra-thin, and the processing is more complicated and the cost is higher
[0005] 2. Most of the existing vapor chamber liquid-absorbing cores are formed by porous metal sintering
This kind of liquid-absorbing core has large flow resistance, low permeability, and low heat dissipation efficiency.
[0006] 3. Some of the existing vapor chambers use channel-type liquid-absorbing cores, which have high permeability and small flow resistance, but the capillary suction is small, which cannot provide sufficient reflux power for the working fluid, which will reduce the heat dissipation efficiency of the vapor chamber
On the other hand, the existing channel-type liquid-absorbing core vapor chamber has poor anti-gravity effect and can only be installed horizontally
[0007] 4. The thickness of the existing vapor chamber is large, and if the thickness is reduced or a small stress deformation occurs, the thermal resistance will increase sharply

Method used

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  • Ultrathin vapor chamber with composite wick structure and manufacturing method of ultrathin vapor chamber
  • Ultrathin vapor chamber with composite wick structure and manufacturing method of ultrathin vapor chamber
  • Ultrathin vapor chamber with composite wick structure and manufacturing method of ultrathin vapor chamber

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Embodiment 1

[0041] Such as Figure 1-Figure 5 As shown, an ultra-thin vapor chamber with a composite liquid-absorbing core structure is circular in shape and has an overall height of 0.6mm. It includes an evaporation plate 1 and a condensation plate 2. The inner surface of 1 is provided with a concave cavity, and a first capillary structure 11 and a second capillary structure 12 are arranged in the concave cavity; the first capillary structure 11 is a microchannel structure integrally processed with the evaporation plate 1, and the second capillary structure The second capillary structure 12 is a porous metal structure formed by sintering; a third capillary structure 21 is arranged on the inner surface of the condensation plate 2, and the third capillary structure 21 has a circular array microchannel structure with a radial structure. In this implementation In the example, the lower surface of the condensing plate, that is, the side opposite to the evaporating plate is the inner surface, ...

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Abstract

The invention discloses an ultrathin vapor chamber with a composite wick structure and a manufacturing method of the ultrathin vapor chamber. The ultrathin vapor chamber comprises an evaporation plateand a condensation plate; a cavity is formed in the inner surface of the evaporation plate, and a first capillary structure and a second capillary structure are arranged in the cavity; the first capillary structure is a micro-channel channel structure integrally machined with the evaporation plate, and the second capillary structure is a porous metal structure formed through sintering; a third capillary structure is arranged on the inner surface of the condensation plate, and the third capillary structure is provided with radial circumferential array micro-channels. The manufacturing method comprises the steps of integrated machining of the evaporation plate cavity and the first capillary structure, sintering of the second capillary structure, machining of the condensation plate, cleaningand seal welding, and vacuumizing and liquid injection. The vapor chamber with the composite wick structure has the advantages of being small in thickness, large in permeability, large in supportingstrength, high in heat dissipation efficiency and reversible in gravity.

Description

technical field [0001] The invention relates to the technical field of heat dissipation of microelectronic devices, in particular to an ultra-thin vapor chamber with a composite liquid-absorbing core structure and a manufacturing method thereof. Background technique [0002] With the integration and complex functions of electronic devices, the calorific value per unit area of ​​electronic devices is getting higher and higher. How to realize efficient heat dissipation of high heat flux electronic devices has become the key to the development of electronic device technology. Vapor chamber, through the principle of phase change heat transfer, realizes the rapid diffusion of concentrated heat to a larger condensation surface, thereby effectively reducing the heat flux density of electronic equipment. It is for this reason that vapor chamber technology is favored by researchers in the field of cooling electronics. [0003] Existing vapor chambers are generally in the shape of a ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H05K7/20
CPCH05K7/20336
Inventor 潘敏强黄平南李超陈阳刘庆云李勇
Owner GUANGZHOU INTELLIGENT COOLING ENERGY SAVING TECH CO LTD
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