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Manufacturing method of flexible liquid crystal display device

A technology of flexible liquid crystal display and manufacturing method, which is applied in the directions of identification devices, nonlinear optics, instruments, etc., and can solve problems affecting the thickness uniformity, residue, and fragility of liquid crystal cells

Active Publication Date: 2019-09-03
SHENZHEN AV DISPLAY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] The current LCD display devices basically use glass substrates as substrates. Display devices based on glass substrates cannot meet the designer's requirements for product shape in many cases due to their inability to bend. Moreover, glass substrates are generally thick, and are subject to pressure or impact. easy to break after
[0003] The traditional flexible LCD production process uses double-sided adhesive to attach the flexible conductive film to the glass substrate. However, the double-sided adhesive is generally only attached to the edge area of ​​the flexible conductive film, so that the middle area of ​​the flexible conductive adhesive cannot be completely attached to the glass substrate. When they are bonded together, there will be moisture remaining between the flexible conductive adhesive and the glass substrate after contact with the liquid, and because the deformation ratio of the glass substrate and the flexible conductive film is different, it will cause the middle of the flexible conductive film to bulge after heating, affecting the combination. The thickness uniformity of the liquid crystal cell
In addition, traditional flexible LCD production uses ordinary spacer particles, which can easily cause spacer particles to move and affect cell thickness uniformity during bending or twisting of flexible LCD products.

Method used

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  • Manufacturing method of flexible liquid crystal display device
  • Manufacturing method of flexible liquid crystal display device
  • Manufacturing method of flexible liquid crystal display device

Examples

Experimental program
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Effect test

Embodiment 1

[0072] see Figure 2A to Figure 9 , the embodiment 1 provides a method for manufacturing a flexible liquid crystal display device, comprising:

[0073] Step 1, such as Figure 1A and Figure 1B As shown, a first flexible conductive film 11 , a second flexible conductive film 21 , a first rigid substrate 81 , a second rigid substrate 82 , a first UV peelable adhesive film 83 and a second UV peelable adhesive film 84 are provided.

[0074] The first flexible conductive film 11 includes a first flexible substrate 111 and a first conductive layer 112 disposed on the first flexible substrate 111, and the second flexible conductive film 21 includes a second flexible substrate 211 and The second conductive layer 212 is disposed on the second flexible substrate 211 .

[0075] The first UV peelable adhesive film 83 and the second UV peelable adhesive film 84 all have double-sided adhesiveness, and the first UV peelable adhesive film 83 and the second UV peelable adhesive film 84 all ...

Embodiment 2

[0133] see Figure 10A to Figure 10D , see also Figure 2A to Figure 9 , the embodiment 2 provides a method for manufacturing a flexible liquid crystal display device, comprising:

[0134] Step 1', such as Figure 10A , Figure 10B , Figure 10C as well as Figure 10D As shown, a first flexible conductive film 11 and a second flexible conductive film 21 are provided, and the first flexible conductive film 11 includes a first flexible substrate 111 and a first conductive layer disposed on the first flexible substrate 111 112 , the second flexible conductive film 21 includes a second flexible substrate 211 and a second conductive layer 212 disposed on the second flexible substrate 211 .

[0135] The first conductive layer 112 and the second conductive layer 212 are patterned respectively to obtain the first electrode 113 and the second electrode 213 .

[0136] The step 1' is completed on the reel production line, which is provided with an unwinding shaft and a rewinding sh...

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Abstract

A method for fabricating a flexible liquid crystal display apparatus; by means of using a UV peelable adhesive film (83, 84) to paste the entire surface of a flexible conductive film (11, 12) onto a hard substrate (81, 82) before lamination processing, a liquid is prevented from entering between the flexible conductive film (11, 12) and the hard substrate (81, 82) during a process of contacting a liquid, and bulging in the middle of the flexible conductive film (11, 21) during a heating process causing the thickness of a liquid crystal cell to be uneven may be prevented; by means of disposing sticky spacer particles (50) between upper and lower substrates, the problem in flexible liquid crystal display apparatuses that occurs when being bent or twisted wherein the thickness of cells is uneven due to the spacer particles (50) moving may be avoided, thus increasing the quality and service life of a flexible liquid crystal display apparatus.

Description

technical field [0001] The invention relates to the field of display technology, in particular to a method for manufacturing a flexible liquid crystal display device. Background technique [0002] The current LCD display devices basically use glass substrates as substrates. Display devices based on glass substrates cannot meet the designer's requirements for product shape in many cases due to their inability to bend. Moreover, glass substrates are generally thick, and are subject to pressure or impact. easy to break after. [0003] The traditional flexible LCD production process uses double-sided adhesive to attach the flexible conductive film to the glass substrate. However, the double-sided adhesive is generally only attached to the edge area of ​​the flexible conductive film, so that the middle area of ​​the flexible conductive adhesive cannot be completely attached to the glass substrate. When they are bonded together, there will be moisture remaining between the flexib...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G09F9/30G02F1/1339
CPCG02F1/13392G09F9/301
Inventor 吴梓荣王秋生杜华邹志明陈从心
Owner SHENZHEN AV DISPLAY
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