KR101478823B1 - Slimming method of liquid crystal display and curved liquid crystal display manufactured using this - Google Patents

Abstract

Disclosed is an invention relating to a slimming method of a liquid crystal display and a curved liquid crystal display manufactured using the same. The disclosed slimming method of a liquid crystal display includes: an airtight sealing step of sealing an edge of the liquid crystal display inserted in a flat type; and an etching step of dipping the liquid crystal display after the airtight sealing step into an etchant, or spraying the etchant to both sides of the liquid crystal display after the airtight sealing step. The airtight sealing step includes: a sealing step of coating an etching-resistant side sealant on a side of the liquid crystal display; and a non-slimming step of bonding an etching-resistant film on the edge of the liquid crystal display after the sealing step in order for a non-etched slimming area to be formed on both sides of the liquid crystal display. The non-slimming area is formed in at least three areas among four edge areas on both sides of the liquid crystal display.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a slimming method for a liquid crystal display, and a slimmed liquid crystal display using the slimming method.

The present invention relates to a slimming method of a curved liquid crystal display and a curved surface liquid crystal display manufactured thereby. More particularly, the present invention relates to a curved surface liquid crystal display in which a slimming process is simplified in etching a slimming area in a flat panel type liquid crystal display, And to a curved surface liquid crystal display manufactured by the method.

As display technology has developed, various kinds of display devices have been developed and used. Among them, there is a liquid crystal display device which implements an image by using a liquid crystal.

A liquid crystal panel of a general liquid crystal display (LCD) includes two substrates and a liquid crystal layer having a dielectric anisotropy therebetween. A desired image is obtained by applying an electric field to the liquid crystal layer and adjusting the intensity of the electric field to adjust the transmittance of light passing through the liquid crystal layer. Such a liquid crystal display is a representative example of a flat panel display (FPD) that is easy to carry, and a TFT-LCD using a thin film transistor (TFT) as a switching element is mainly used.

A plurality of display signal lines, that is, gate lines and data lines, a plurality of thin film transistors and pixel electrodes, and the like are formed on the lower substrate of the two substrates of the liquid crystal panel arranged to face each other. A color filter Is formed. At this time, the common electrode may be formed on the lower substrate or the upper substrate according to the driving method.

When such a flat panel liquid crystal display is processed into a curved liquid crystal display, both sides of the flat panel type liquid crystal display can be etched to form a slimming area.

When a flat liquid crystal display is processed into a curved liquid crystal display, a non-slimming area is formed in the straight line area of the four flat areas of the liquid crystal display, The slimming area can be formed.

However, as the flat panel type liquid crystal display becomes larger, it is difficult to form predetermined curvature in the curved region facing each other, and the curvature in the curved region can be varied. In addition, in the curved area facing each other, microcracks may grow or propagate due to bending of the enlarged liquid crystal display, and breakage may occur.

Related arts are disclosed in Korean Patent Laid-Open Publication No. 10-2013-0067609 (published on Mar. 03, 2013, entitled " Etching apparatus, apparatus for manufacturing a curved display panel including the same, method for manufacturing a curved display panel using the same, , And a curved display panel manufactured thereby).

It is an object of the present invention to provide a slimming method of a liquid crystal display capable of simplifying a slimming process and protecting a driving electrode wiring printed in a non-slimming area in etching a slimming area in a flat panel type liquid crystal display, And to provide a liquid crystal display.

A slimming method of a liquid crystal display according to the present invention comprises: a sealing step of sealing an edge of a liquid crystal display which is put in a flat plate shape; And an etching step of immersing the liquid crystal display having been subjected to the sealing step in an etching solution or spraying the etching solution onto both surfaces of the liquid crystal display after the sealing step; Wherein the sealing step comprises: a sealing step of applying a corrosion-resistant side sealant to the side surface of the liquid crystal display; And a non-slimming step of attaching a corrosion-resistant film to an edge of the liquid crystal display through the sealing step so as to form a non-slimming area on both sides of the liquid crystal display; And the non-slimming area is formed in at least three of four edges of both sides of the liquid crystal display.

Here, the non-slimming step is characterized in that the film encapsulates and encapsulates the circuit board provided at the edge of the liquid crystal display.

Here, the sealing step includes a taping step of sealing between the film and the liquid crystal display on both sides of the liquid crystal display; And further comprising:

Here, before the sealing step, a preparation step of removing the polarizing film in the flat panel type liquid crystal display; And further comprising:

Removing the at least film from the film and the side sealant in the liquid crystal display after the etching step; And further comprising:

A curved surface liquid crystal display according to the present invention comprises a pair of substrate portions formed on both surfaces of a flat plate type liquid crystal display and each having a slimming region recessed by etching and a non slimming region not etched along the edge of the slimming region; A liquid crystal layer injected between the pair of substrate portions; A liquid crystal sealing part sealing the liquid crystal layer between the pair of substrate parts; A drive electrode wiring printed on at least one of the pair of substrate portions along an edge of the liquid crystal display; A circuit board electrically connected to the driving electrode wiring in at least one of the non-slimming areas; And the non-slimming region is formed in at least three of the four edge regions on both sides of the liquid crystal display.

Herein, the non-slimming regions other than the pair of non-slimming regions facing each other among the non-slimming regions are bent corresponding to predetermined curvatures.

Here, the slimming area and the non-slimming area are formed by the slimming method of the liquid crystal display described above.

The slimming method of the liquid crystal display according to the present invention and the curved surface liquid crystal display manufactured thereby can simplify the slimming process in forming the slimming area by the etchant in the flat plate type liquid crystal display, Lt; / RTI >

In addition, the present invention can stably maintain the connection state of the driving electrode wiring and the circuit board of the liquid crystal display, since the separation and recombination of the circuit board in the liquid crystal display is eliminated in forming the slimming area by the etching liquid.

In addition, the present invention can stably protect the circuit board in the process of etching the slimming area, stably protect the connection area between the driving electrode wiring and the circuit board, and prevent the etchant from contacting the circuit board.

In addition, the present invention can increase the adhesion in the non-slimming area and prevent the etchant from penetrating into the driving electrode wiring or the circuit board.

Further, the present invention can stably process a flat plate type liquid crystal display of an off-the-shelf product, and can easily bend a flat plate type liquid crystal display into a curved liquid crystal display.

Further, the present invention can easily separate a film of corrosion-resisting property from a liquid crystal display, and can stably protect the non-slimming area through the film.

Further, the present invention can prevent the flat liquid crystal display from being broken by the bending force and curvature of the curved liquid crystal display when the non-slimming area is bent.

Further, the present invention can prevent or prevent micro cracks from occurring at the edges of the liquid crystal display according to the etching, and stably bend the liquid crystal display after the slimming process.

1 is a perspective view showing a planar state of a curved liquid crystal display manufactured according to a slimming method of a liquid crystal display according to an embodiment of the present invention.
2 is a cross-sectional view taken along the line AA 'in FIG.
3 is a cross-sectional view taken along line BB 'of FIG.
4 is a flowchart illustrating a slimming method of a liquid crystal display according to an embodiment of the present invention.
FIG. 5 is a cross-sectional view taken along line AA 'of FIG. 1 with respect to a sealing state of a non-slimming region in a slimming method of a liquid crystal display according to an embodiment of the present invention.
FIG. 6 is a cross-sectional view taken along line BB 'of FIG. 1 with respect to a sealing state of a non-slimming region in a slimming method of a liquid crystal display according to an embodiment of the present invention.

Hereinafter, a method of slimming a liquid crystal display according to the present invention and an embodiment of a curved surface liquid crystal display manufactured thereby will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a perspective view showing a planar state of a curved liquid crystal display manufactured according to a slimming method of a liquid crystal display according to an embodiment of the present invention, FIG. 2 is a cross-sectional view taken along line AA ' Sectional view taken along the line BB 'in Fig.

1 to 3, a curved surface liquid crystal display according to an embodiment of the present invention can reduce the width of a bezel, reinforce the strength of a liquid crystal display, It is possible to prevent the slimming area 13 from being cracked or broken, and to maintain the curvature at the bent part in a stable manner.

The curved surface liquid crystal display according to an embodiment of the present invention may be manufactured by a slimming method of a liquid crystal display according to an embodiment of the present invention to be described later and bent according to a preset curvature.

A curved liquid crystal display according to an embodiment of the present invention includes a pair of substrate portions 10, a liquid crystal layer 20, a liquid crystal sealing portion 30, a driving electrode wiring 40, a circuit substrate 50, .

Slip regions 13 are formed by etching on both surfaces of a flat panel type liquid crystal display and a pair of the substrate portions 10 are formed on the both sides of the non-slimming region 11, which is not etched along the edge of the slimming region 13, .

Here, the slimming region 13 may have a thickness of 50 micrometers to 500 micrometers and may have a substantially uniformly slimming structure.

At this time, the non-slimming region 11 is formed in at least three of the four regions of the flat panel-type liquid crystal display edge. 1, the non-slimming area 11 is formed in three of the four edge regions of the liquid crystal display, as shown in FIG. 1. However, the flat liquid crystal display The non-slimming region 11 can be formed in all four regions.

Here, the non-slimming area 11 excluding the pair of non-slimming areas 11 facing each other in the non-slimming area 11 is bent in correspondence with a predetermined curvature to form a flat liquid crystal display as a curved liquid crystal display can do.

The slimming area 13 and the non-slimming area 11 can be stably formed according to the slimming method of the liquid crystal display according to the embodiment of the present invention.

The liquid crystal layer 20 is injected between the pair of substrate portions 10. The liquid crystal layer 20 is driven according to an applied power source to adjust the transmittance of light to obtain a desired image. At this time, since the liquid crystal layer 20 is included in the slimming area 13, all the images obtained by driving the liquid crystal layer 20 in the curved liquid crystal display can be displayed.

The liquid crystal sealing portion 30 seals the liquid crystal layer 20 between the pair of substrate portions 10. The liquid crystal sealing portion 30 can stably maintain a state in which the pair of substrate portions 10 are spaced apart from each other. The liquid crystal sealing portion 30 is formed in the four edge portions between the pair of substrate portions 10 to prevent the liquid crystal layer 20 from leaking. The liquid crystal sealing portion 30 may be formed along the boundary between the slimming region 13 and the non-slimming region 11. [

The driving electrode wiring 40 is printed on at least one of the pair of substrate portions 10 along the edge of the flat panel type liquid crystal display. The driving electrode wiring 40 is connected to the gate line and the data line, which are the display signal lines, as well as to the common electrode, and supplies power to the necessary pixel electrodes, thereby driving the liquid crystal layer 20.

The driving electrode wiring 40 can be printed in the non-slimming area 11. [

The circuit board 50 is electrically connected to the driving electrode wiring 40 in at least one of the non-slimming areas 11. The circuit board 50 can be electrically connected to the driving electrode wiring 40 in at least one of the four regions of the flat plate-shaped liquid crystal display edge. In one embodiment of the present invention, the circuit board 50 is electrically connected to the driving electrode wiring 40 in the non-slimming region 11 formed corresponding to the bent portion.

The power supply is applied to the display signal line and the common electrode connected to the driving electrode wiring 40 and the power supply is applied to the necessary pixel electrode so that the liquid crystal layer 20 can be driven.

Since the circuit board 50 is sealed in a connected state with the driving electrode wiring 40 in the slimming method of the liquid crystal display according to the embodiment of the present invention, the separate roll circuit board 50 is not detached and attached, 50 can be simplified.

Further, the circuit board 50 is constituted by a flexible circuit board, and when the pair of board portions 10 are bent, the circuit board 50 can be stably bent in correspondence with a preset curvature.

Hereinafter, a method of slimming a liquid crystal display according to an embodiment of the present invention will be described.

FIG. 4 is a flowchart illustrating a slimming method of a liquid crystal display according to an embodiment of the present invention. FIG. 5 is a flowchart illustrating a method of slimming a liquid crystal display according to an exemplary embodiment of the present invention, FIG. 6 is a cross-sectional view taken along line BB 'of FIG. 1 with respect to the sealing state of the non-slimming area in the slimming method of the liquid crystal display according to the embodiment of the present invention.

4 to 6, a method of slimming a liquid crystal display according to an exemplary embodiment of the present invention includes a slimming area 13 and a non-slimming area 11 in a flat plate-shaped liquid crystal display, The strength of the flat panel type liquid crystal display can be maintained or preserved.

In addition, the slimming method of the liquid crystal display according to an embodiment of the present invention can stably maintain a preset curvature when bending a flat liquid crystal display, and a crack is generated in the slimming area 13 of the bent part And it is possible to prevent the liquid crystal display from being broken.

The slimming method of the liquid crystal display according to an embodiment of the present invention includes a sealing step S3 and an etching step S4 and includes a preparing step S2, a removing step S5, a curving step S6, Or the like. Here, in the case of further including the curving step S6, the removing step S5 must be performed before the curving step S6.

The sealing step S3 seals the edge of the liquid crystal display which is put in the form of a flat plate. The slimming region 13 and the non-slimming region 11 can be distinguished from each other on both sides of the liquid crystal display, which is put in a flat plate shape through the sealing step S3.

The sealing step S3 may include a sealing step S31 and a non-slimming step S32, and may further include a tapping step S33.

In the sealing step S31, a corrosion-resistant side sealant S is applied to the side of the flat panel type liquid crystal display. Sealing of the space separated between the pair of substrate portions 10 as the side sealant S of corrosion-resisting arousal is applied, thereby preventing the etching solution from penetrating into the spaces separated between the pair of substrate portions 10 , It is possible to primarily prevent the etching liquid from contacting the driving electrode wiring 40.

Here, the application amount or composition of the side sealant (S) of corrosion-resisting austenite is not limited, and the amount of the side sealant (S) applied or the composition thereof through the various forms known in the art to prevent penetration of the etchant Can be applied on the side surface.

The sealing step S31 is performed by applying the driving electrode wirings 40 or the circuit board 50 printed on the pair of base plates 10 and the driving electrodes 40 printed on the side surfaces in at least three of the four regions of the flat liquid- The connection portion of the wiring 40 can be stably protected.

The sealing step S31 may seal the space between the pair of substrate portions 10 corresponding to the non-slimming region 11 formed according to an embodiment of the present invention.

The sealing step S31 according to an embodiment of the present invention is to be applied to all the side surfaces in the four regions of the flat panel type liquid crystal display.

In the non-slimming step S32, a film F of corrosion-resisting property is attached to the edges on both sides of the flat liquid crystal display so that the non-slimming area 11 in which the both sides of the flat liquid crystal display are not etched is formed.

In the non-slimming step S32, after the sealing step S31, the anti-corrosive film F is wrapped around the side surface of the flat panel type liquid crystal display, and both ends of the corrosion- It is possible to primarily prevent the etching solution from contacting the corrosion-resistant side sealant S, and to prevent the etching solution from contacting the driving electrode wiring 40 in a secondary manner.

In the non-slimming step S32, the film of the corrosion-resisting film is wrapped around the circuit board 50 provided on the edge of the flat panel type liquid crystal display. The driving electrode wiring 40 and the circuit board 50 can be stably protected without separating the circuit board 50 connected to the driving electrode wiring 40 from the liquid crystal display of the flat plate type.

In this case, the non-slimming area 11 is formed in at least three of the four edges of both sides of the flat panel-type liquid crystal display, so that even if the slimming area 13 is recessed in the flattened flat liquid crystal display, Can be maintained or preserved.

In the non-slimming step S32, the boundary between the corrosion-resistant film F and the flat plate-shaped liquid crystal display coincides with the liquid crystal sealing portion 30 sealing the liquid crystal layer 20 between the pair of substrate portions 10 So that the entire liquid crystal layer 20 can be included in the slimming area 13. [

The taping step S33 seals between the film F of corrosion-resisting property and the liquid crystal display of the flat plate shape on both sides of the flat panel type liquid crystal display. The taping step S33 completely seals the film F of the corrosion-resisting film and the liquid crystal display of the plate-like shape through the tape T of the corrosion-evoking sense so that the etching solution comes into contact with the side- And the contact between the etching liquid and the driving electrode wiring 40 can be completely blocked by thirdly blocking the etching liquid from contacting the driving electrode wiring 40. [

Similarly, in the taping step S33, the boundary between the corrosion-resistant tape T and the flat plate-like liquid crystal display coincides with the liquid crystal sealing portion 30 which seals the liquid crystal layer 20 between the pair of substrate portions 10 So that the entire liquid crystal layer 20 can be included in the slimming area 13. [

It is possible to completely block the penetration of the etching liquid into the spaces separated between the pair of substrate portions 10 by the sealing step S3 and to prevent the etching solution from damaging or destroying all or a part of the driving electrode wiring 40 Can be prevented.

The etching step S4 is a step of immersing the liquid crystal display in the form of a flat plate through the sealing step S3 described above or spraying the etching solution on both sides of the flat panel type liquid crystal display.

The non-slimming area 11 can be sealed with the side sealant S or the corrosion-resisting film F or the corrosion-resistant tape T to protect the pair of base plates 10 And the slimming region 13 can be etched to a substantially uniform thickness by etching the surface of the pair of substrate portions 10 by the etching solution.

The preparation step S2 removes the polarizing film (not shown) from the flat liquid crystal display prior to the sealing step S31 of the sealing step S3. By removing the polarizing film (not shown) attached to the flat panel type liquid crystal display, the slimming area 13 formed on both sides of the flat panel type liquid crystal display can be reduced to a substantially uniform thickness, So that the substrate portion 10 can be uniformly etched.

Here, prior to the preparation step (S2), an input step (S1) for inputting a flat liquid crystal display may be preceded.

The removing step S5 separates at least the corrosion-resisting film F among the corrosion-resistant film F and the corrosion-resistant side sealant S in the flat panel type liquid crystal display after the etching step S4.

When the sealing step S3 further includes the taping step S33, the removing step S5 is preferably carried out in such a manner that at least the corrosion-resistant tape T, the corrosion-resistant film F and the corrosion-resistant side sealant S, The awakening tape T and the corrosion-resisting film F are separated from each other in a flat plate-like liquid crystal display.

As described above, in the slimming method of the liquid crystal display according to the present invention and the curved surface liquid crystal display manufactured by this method, in forming the slimming area 13 by the etching liquid in the flat plate type liquid crystal display, the slimming process is simplified, 11 can be protected.

Further, since the separation and recombination of the circuit board 50 in the liquid crystal display disappear when the slimming area 13 is formed by the etching liquid, the driving electrode wiring 40 of the liquid crystal display and the circuit board 50 The connection state can be stably maintained.

In addition, the present invention stably protects the circuit board 50 during the process of etching the slimming area 13, stably protects the connection area between the driving electrode wiring 40 and the circuit board 50, It is possible to prevent the etching solution from contacting the substrate 50.

In addition, the present invention can prevent the etching liquid from penetrating into the driving electrode wiring 40 or the circuit board 50 by increasing the adhesion in the non-slimming area 11. [

Further, the present invention can stably process a flat plate type liquid crystal display of an off-the-shelf product, and can easily bend a flat plate type liquid crystal display into a curved liquid crystal display.

Further, the present invention can easily separate the film (F) of corrosion-resisting property from the liquid crystal display, and can stably protect the non-slimming area (11) through the film (F) of corrosion-

Further, the present invention can prevent the flat liquid crystal display from being broken by the bending force and curvature of the curved liquid crystal display when the non-slimming area 11 is bent.

Further, the present invention can prevent or prevent micro cracks from occurring at the edges of the liquid crystal display according to the etching, and stably bend the liquid crystal display after the slimming process.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand.

Accordingly, the true scope of protection of the present invention should be defined by the claims.

10: substrate portion 11: non-slimming region
13: slimming region 20: liquid crystal layer
30: liquid crystal sealing part 40: driving electrode wiring
50: circuit board S: side sealant
F: film T: tape
S1: input step S2: preparatory step
S3: Sealing step S31: Sealing step
S32: non-slimming step S33: taping step
S4: etching step S5: removal step

Claims (8)

A sealing step of sealing an edge of the liquid crystal display which is put in a flat plate shape; And
An etching step of immersing the liquid crystal display having undergone the sealing step in an etching solution or spraying the etching solution onto both surfaces of the liquid crystal display after the sealing step; Lt; / RTI >
Wherein the sealing step comprises:
A sealing step of applying a corrosion-resistant side sealant to the side surface of the liquid crystal display; And
A non-slimming step of attaching a corrosion-resistant film to the edge of the liquid crystal display through the sealing step so that a non-slimming area is formed on both sides of the liquid crystal display; / RTI >
Wherein the non-slimming step comprises:
Wherein the film is wrapped around the circuit board provided at the edge of the liquid crystal display.
The method according to claim 1,
The non-
Wherein the liquid crystal display is formed on at least three areas of the four sides of the liquid crystal display.
The method according to claim 1,
Wherein the sealing step comprises:
A taping step of sealing between the film and the liquid crystal display on both sides of the liquid crystal display; Wherein the slimming method further comprises:
The method according to claim 1,
Preparing a polarizing film in the flat plate type liquid crystal display before the sealing step; Wherein the slimming method further comprises:
The method according to claim 1,
A removing step of, after the etching step, separating at least the film of the film and the side sealant from the liquid crystal display; Wherein the slimming method further comprises:
3. The method of claim 2,
The non-
Wherein the liquid crystal display is formed on all four sides of the liquid crystal display on both sides thereof.
A pair of substrate portions on both sides of a flat plate-type liquid crystal display, wherein the slimming region is recessed by etching, and a non-slimming region is formed along the edges of the slimming region;
A liquid crystal layer injected between the pair of substrate portions;
A liquid crystal sealing part sealing the liquid crystal layer between the pair of substrate parts;
A drive electrode wiring printed on at least one of the pair of substrate portions along an edge of the liquid crystal display; And
A circuit board electrically connected to the driving electrode wiring in at least one of the non-slimming areas; / RTI >
Wherein the slimming area and the non-
A curved liquid crystal display formed by the slimming method of the liquid crystal display according to any one of claims 1 to 6.
8. The method of claim 7,
Wherein the non-slimming region is formed in at least three of four edges on both sides of the liquid crystal display,
Wherein the non-slimming area except for a pair of non-slimming areas facing each other is bent corresponding to a preset curvature.

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