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Ultra-thin notebook computer

A notebook computer, ultra-thin technology, applied in the direction of electrical digital data processing, instruments, digital data processing components, etc., can solve the problems of gear structure center distance limitation, complicated production and installation, and inability to adjust freely, so as to achieve simple structure installation, The effect of low cost and few parts

Inactive Publication Date: 2019-12-31
KUNSHAN KERSEN SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Two-in-one with a tablet, and a notebook computer that can realize 360-degree rotation has become a new demand of people. However, in the existing technology, gear structures are often used for the rotating shafts to achieve 360-degree rotation. However, the center distance between the two shafts of the gear structure is limited. , cannot be freely adjusted according to the size of the notebook computer, the center distance needs to be determined by calculating the gear matching, the production and installation are complicated, and the required parts are many, the cost is high

Method used

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Examples

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Embodiment 1

[0032] Embodiment 1: An ultra-thin notebook computer, including a display surface 31, a base surface 32, and a shaft mechanism 33 for connecting the display surface 31 and the base surface 32, and the shaft mechanism 33 further includes a first shaft 1, a second Two rotating shafts 2, a support plate 3 connecting the first rotating shaft 1 and the second rotating shaft 2, an elastic component 4, several friction plates 5 and stoppers 6, the support plate 3, elastic components 4 and friction plates 5 are respectively set on the second rotating shaft in sequence. On the first rotating shaft 1 and the second rotating shaft 2, they are squeezed and fixed by the stopper 6;

[0033] Both the first rotating shaft 1 and the second rotating shaft 2 include a power storage part 11 at one end, a connection part 12 at the other end, and a polished rod part 13 between the power storage part 11 and the connection part 12. The power storage part The support plate 3, the elastic assembly 4 an...

Embodiment 2

[0040] Embodiment 2: An ultra-thin notebook computer, including a display surface 31, a base surface 32, and a rotating shaft mechanism 33 for connecting the display surface 31 and the base surface 32, and the rotating shaft mechanism 33 further includes a first rotating shaft 1, a second rotating shaft Two rotating shafts 2, a support plate 3 connecting the first rotating shaft 1 and the second rotating shaft 2, an elastic component 4, several friction plates 5 and stoppers 6, the support plate 3, elastic components 4 and friction plates 5 are respectively set on the second rotating shaft in sequence. On the first rotating shaft 1 and the second rotating shaft 2, they are squeezed and fixed by the stopper 6;

[0041] Both the first rotating shaft 1 and the second rotating shaft 2 include a power storage part 11 at one end, a connection part 12 at the other end, and a polished rod part 13 between the power storage part 11 and the connection part 12. The power storage part The ...

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Abstract

The invention discloses an ultra-thin notebook computer. The ultra-thin notebook computer comprises a display surface, a base surface and a rotating shaft mechanism, wherein the rotating shaft mechanism is used for connecting the display surface and the base surface; the rotating shaft mechanism further comprises a first rotating shaft, a second rotating shaft, a supporting plate connecting the first rotating shaft and the second rotating shaft, an elastic component, a plurality of friction sheets and blocks, wherein the supporting plate, the elastic component and friction sheets sequentiallysleeve the first rotating shaft and the second rotating shaft and are pressed and fixed by the blocks; and a first connecting plate is connected to the connecting portion of the first rotating shaft,a second connecting plate is connected to the connecting portion of the second rotating shaft, the first connecting plate is connected with the display surface, and the second connecting plate is connected with the base surface. According to the ultra-thin notebook computer, 360-degree rotation positioning between the display surface and the base surface can be realized, and adjustment of the center distance between the rotating shafts is achieved by adjusting the length of a sliding top block, thus being suitable for notebook computers of different specifications and sizes, and meanwhile thelightness and thinness of the notebook computers can be kept.

Description

technical field [0001] The invention relates to an ultra-thin notebook computer and belongs to the technical field of notebook computers. Background technique [0002] With the continuous development of computer technology, people have higher and higher requirements for the use of notebook computers, and more people tend to use notebook computers with larger flip angles and thinner and lighter. A notebook computer usually consists of two parts, namely a host part including a keyboard and a display part including a display screen, and these two parts are usually connected together through a hinge structure to realize relative rotation between the host part and the display part. [0003] Two-in-one with a tablet, and a notebook computer that can realize 360-degree rotation has become a new demand of people. However, in the existing technology, gear structures are often used for the rotating shafts to achieve 360-degree rotation. However, the center distance between the two sha...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F16C11/04F16C11/12G06F1/16
CPCF16C11/04F16C11/12G06F1/1633
Inventor 董小慧万鹏程陳威仲
Owner KUNSHAN KERSEN SCI & TECH
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