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Portable radiator arranged outside rotating shaft of ultrathin notebook computer

A technology for notebooks and heat sinks, applied in instruments, electronic digital data processing, and digital data processing components, etc., can solve problems such as low heat dissipation, small heat dissipation area, and damage to computers, so as to ensure stability and continuity, Effect of increased air flow, easy replacement and maintenance

Active Publication Date: 2019-08-20
佳威科技(海安)有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] Notebooks have become a common office and study assistant for students and offices. As people have higher and higher requirements for the portable functions of notebooks, notebooks have become thinner and thinner, but ultra-thin notebooks are running large When designing software and games, it will cause serious heat generation. Because the body is too thin, the heat in the internal space cannot be discharged in time.
At present, ultra-thin notebooks usually use the bottom surface to set the air intake, and the hinge connecting the screen and the body to set the air outlet to solve the problem of three ultra-thin notebooks, but limited to the size, the cooling area is too small, and the small cooling fan is not strong enough. As a result, the heat dissipation of this type of ultra-thin notebook cannot achieve the expected effect, especially when using large-scale graphics software and playing games, the surface temperature of the fuselage can reach more than 60 degrees, high temperature will affect the life of the computer hardware, and even damage the computer
[0003] As for the heat dissipation problem of ultra-thin notebooks, there is no good internal solution for the time being. Among the external radiators, the air supply chassis is placed under the fuselage to increase the air supply and heat dissipation. The degree of heat dissipation is not high, and this type The radiator is too large, comparable to or larger than a laptop, and cannot be carried as easily as a laptop

Method used

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  • Portable radiator arranged outside rotating shaft of ultrathin notebook computer
  • Portable radiator arranged outside rotating shaft of ultrathin notebook computer
  • Portable radiator arranged outside rotating shaft of ultrathin notebook computer

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] refer to Figure 1-6 , an external portable radiator at the shaft of an ultra-thin notebook, comprising an exhaust device 1, a screen 5 and a body 6, a hose 4 is installed on the exhaust device 1, an exhaust device 2 is installed on the hose 4, and the hose 4. One end is thick and the other end is thinner, and the thicker end of the hose 4 is installed on the exhaust device 1, and the thinner end of the hose 4 is installed on the exhaust device 2, and the screen 5 is equipped with a rotating shaft, and the screen 5 and The body 6 is rotatably connected by a rotating shaft, and the body 6 is provided with cooling holes. The cooling holes are located at the rotating shaft where the screen 5 and the body 6 are connected. Set on the heat dissipation hole.

[0028] Exhaust device 1 comprises fan cover 11 and support 12, and the fan 13 that is used to discharge the heat in the exhaust device is installed on support 12, and fan 13 is installed on the support 12, and the upper...

Embodiment 2

[0032] refer to Figure 7 , this embodiment is basically the same as Embodiment 1, a portable heat sink placed outside the shaft of an ultra-thin notebook, the difference is:

[0033] Two support devices 3 are installed symmetrically on the side of the exhaust device 1, and each support device 3 is equipped with a spring rotating shaft 31, and each spring rotating shaft 31 is wrapped with a limit band 32, and each limit band 31 is installed Block 33 is arranged, and limit band 31 passes the strip hole on the support device 3 to connect block 33 on the outside, and the width of block 33 is greater than the aperture of strip hole, and promptly stop block 33 is limited on the outside of support device 3, The two supporting devices 3 make the volume of the radiator smaller, and the use area of ​​the limiting band 32 is reduced, which reduces the cost.

[0034]In this embodiment, the ultra-thin notebook computer is opened, and then the exhaust end 21 of the exhaust device 2 is ins...

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Abstract

The invention discloses a portable radiator arranged outside a rotating shaft of an ultrathin notebook computer. The portable radiator comprises an exhaust device, a screen and a machine body, a hoseis installed on the exhaust device, an air draft device is installed on the hose, a rotating shaft is installed on the screen, the screen and the machine body are rotationally connected through the rotating shaft, heat dissipation holes are formed in the machine body at the position of the rotating shaft, the air draft device is inserted between the rotating shaft and the machine body, and the airdraft device is arranged on the heat dissipation hole in a covering mode. The device is ingenious in structural design, heat in the machine body is pumped out from the heat dissipation holes throughthe air draft device; the heat in the air draft device is diffused to the outside through the air exhaust device and the hose, the machine body is lifted through the supporting device and the air exhaust device, the air mobility of the bottom face of the machine body is improved, namely, the air inlet amount of an air inlet of the machine body is increased, the heat dissipation capacity of the device on an ultrathin notebook computer is improved, and the portable radiator occupies a far smaller space and is easy to carry.

Description

technical field [0001] The invention relates to the field of cooling of ultra-thin notebook computers, in particular to an external portable heat sink at the rotating shaft of the ultra-thin notebook. Background technique [0002] Notebooks have become a common office and study assistant for students and offices. As people have higher and higher requirements for the portable functions of notebooks, notebooks have become thinner and thinner, but ultra-thin notebooks are running large When designing software and games, it will cause serious heat generation. Because the body is too thin, the heat in the internal space cannot be discharged in time. At present, ultra-thin notebooks usually use the bottom surface to set the air intake, and the hinge connecting the screen and the body to set the air outlet to solve the problem of three ultra-thin notebooks, but limited to the size, the cooling area is too small, and the small cooling fan is not strong enough. As a result, the heat...

Claims

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Application Information

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IPC IPC(8): G06F1/20
CPCG06F1/203
Inventor 牛建
Owner 佳威科技(海安)有限公司
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