KR20170058474A - Liquid crystal display panel and curved display device using the same - Google Patents

Abstract

The present invention relates to a liquid crystal display panel capable of improving light leakage and a curved display device using the same.
The liquid crystal display panel according to the present invention includes a first polarizer disposed on the front side of the color filter substrate and a second polarizer disposed on the rear side of the thin film transistor substrate and has a structure in which the thickness of the first polarizer is thicker than the thickness of the second polarizer . With this structure, the relatively thick first polarizer receives a sufficient long-side shrinkage stress and the relatively thin second polarizer can receive short-side short shrinkage stress, thereby preventing the stress concentration of the curved liquid crystal display panel and the uniform coating of the curved liquid crystal display panel , It is possible to provide a curved display device capable of improving the light leakage phenomenon.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display panel,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a curved display device, and more particularly, to a liquid crystal display panel capable of reducing a light leakage phenomenon and a curved display device using the same.

As the display technology is developed, flat panel display devices are widely used. Examples of flat panel display devices include a liquid crystal display (OLED) device and an organic light emitting diode (OLED) display device. Of these, liquid crystal display devices are widely used in TVs, monitors, notebooks, and mobile phones because of their advantages of miniaturization, light weight, thinness, and low power driving.

Flat panel display devices typically have a planar screen. In this case, however, the distance from the main viewing area to the central area of the screen differs from the distance from the viewing area to both side areas of the screen, resulting in a variation in distance feeling. To solve this problem, a curved display device has been developed.

1 illustrates a general curved liquid crystal display manufacturing process.

Referring to FIG. 1, a curved liquid crystal display device is manufactured by manufacturing a curved liquid crystal display panel 20 having a predetermined curvature by bending a flat liquid crystal display panel 10 through a bending process, And fastened to the member (30).

2 is a schematic view of a conventional curved liquid crystal display panel.

2, a conventional curved liquid crystal display panel 10 includes a first substrate 110 having a color filter (CF), a second substrate 110 having a thin film transistor (TFT) A liquid crystal layer 130 interposed between the first substrate 110 and the second substrate 120, a first polarizer 115 disposed on the upper surface of the first substrate 110, And a second polarizing plate 125 disposed thereon. As described above, the curved liquid crystal display panel 20 is manufactured by bending the flat liquid crystal display panel 10.

The first polarizing plate 115 and the second polarizing plate 125 mainly include a base film made of triacetylcellulose (TAC), a polarizing film made of polyvinyl alcohol (PVA), and an adhesive layer. In order to make the stresses of the first polarizing plate 115 and the second polarizing plate 125 the same when the curved liquid crystal display panel is manufactured by a bending process at a high temperature in the conventional case, the first polarizing plate 115 and the second polarizing plate 125 are the same in structure and thickness.

3 schematically shows the stresses of the first polarizing plate and the second polarizing plate during the bending process.

Referring to FIG. 3, in the bending process, the first polarizing plate 115 is subjected to shrinkage stress in the long-side direction (x-axis direction). On the other hand, the second polarizer 125 is subjected to shrinkage stress in the short side direction (y-axis direction).

However, in the case of the conventional curved liquid crystal display device, there is a problem of light leakage. The light leakage phenomenon is defined as a phenomenon in which when black is printed on the entire screen, it is not completely colored. Such a light leakage phenomenon may be caused by a problem of assembly. However, as shown in FIG. 4, when a substrate is shifted due to a stress concentrated region in a curved liquid crystal display panel, a torsional stress is generated, have. To solve this problem, there is a need to disperse the stress in the curved liquid crystal display panel.

In addition, in the case of the conventional curved liquid crystal display panel, the first polarizing plate 115 often comes to be unfolded due to moisture, Such a phenomenon of unfolding also causes a light leakage phenomenon of the curved liquid crystal display panel. In order to solve this problem, it is necessary to impart sufficient shrinkage stress to the first polarizing plate 115 and block moisture.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a liquid crystal display panel in which stress can be dispersed in a curved liquid crystal display panel formed by a bending process by adjusting a relative thickness of an upper polarizer and a lower polarizer, And to provide a liquid crystal display panel that can be used as a liquid crystal display device.

It is another object of the present invention to provide a curved display device capable of improving the light leakage phenomenon caused by concentration of stress on a curved display panel and a uniform coating in a curved display device.

According to an aspect of the present invention, there is provided a liquid crystal display panel including a first substrate having a color filter, a second substrate having a thin film transistor, a liquid crystal layer disposed between the first substrate and the second substrate, A first polarizer disposed on the first substrate, and a second polarizer disposed on the bottom of the second substrate. At this time, when the thickness of the first polarizing plate is T1 and the thickness of the second polarizing plate is T2, the thickness of the first polarizing plate is larger than T1> T2, that is, the thickness of the second polarizing plate.

As described above, in the bending process for realizing the curved liquid crystal display panel, the thickness of the first polarizing plate on the color filter side is made thicker than the thickness of the second polarizing plate on the side of the thin film transistor, the first polarizing plate is subjected to sufficient long- And the second polarizer plate having a relatively small thickness can receive a short-side shrinkage stress less. The first polarizing plate can receive sufficient long-side shrinkage stress, so that the curvature imparted upon bending can be maintained even after bending, and stress concentration can be improved by reducing the short-side shrinkage stress of the second polarizer.

Accordingly, it is possible to reduce the rotation of the liquid crystal array in a state in which the curved surface is implemented, and also to reduce the unwinding phenomenon. As a result, it is possible to improve the light leakage phenomenon which is a problem in the conventional curved display liquid crystal panel.

At this time, the ratio of the thickness T1 of the first polarizing plate to the thickness T2 of the second polarizing plate is preferably 1.2: 1 or more, such as 1.2: 1, 1.4: 1, 1.7: 1, 2.2: That is, the effect of improving the light leakage phenomenon is remarkable when the thickness of the first polarizing plate is 1.2 times or more the thickness of the second polarizing plate.

Therefore, the light leakage phenomenon of the curved display device can be remarkably improved through the thickness ratio of the first polarizing plate and the second polarizing plate.

The first polarizing plate may include a first base film adhered to the first substrate, a polarizing film formed on the first base film, and a second base film formed on the polarizing film. At this time, the second base film, that is, the outermost base film may be a material having a moisture permeability of 50 g · m ^-2 · day ^-1 or less and a moisture content of 1.0% or less.

It is possible to reduce changes in the stress of the polarizing film due to moisture by making the outer base film of the first polarizing plate to have a low moisture permeability and a low moisture permeability so as to reduce the curvature state change of the curved liquid crystal display panel can do.

More specifically, the second base film may be an acrylic or PET material. In the case of acrylic or PET, it is suitable for application to the second base film, corresponding to the above-mentioned film satisfying the moisture permeability and hermeticity conditions.

On the other hand, when the second base film of the first polarizing plate is made of acrylic material, the thickness of the first polarizing plate is preferably at most twice the thickness of the second polarizing plate, and more preferably 1.2 to 1.7 times.

When the second base film of the first polarizing plate is made of PET, the thickness of the first polarizing plate is preferably 1.4 times or more, more preferably 1.4 to 2.6 times the thickness of the second polarizing plate.

Further, the first base film may be a material having a moisture permeability of 50 g · m ^-2 · day ^-1 or less and a moisture content of 1.0% or less. Through this, penetration of moisture into the polarizing film through the first base film can also be reduced.

According to another aspect of the present invention, there is provided a display apparatus including a center panel for providing an image, a first plate positioned on a front side of the center panel, and a second plate positioned on a rear side of the center panel, And a support for supporting the display panel. At this time, when the thickness of the first plate is T1 and the thickness of the second plate is T2, T1 > T2.

As described above, by making the thickness of the first plate located on the front side of the curved display panel larger than the thickness of the second plate located on the rear side, the first plate can be subjected to sufficient long-side shrinkage stress during the bending process, The sheet material can receive short-side shrinkage stress with a small amount. Accordingly, it is possible to prevent warpage of liquid crystal alignment due to stress concentration and deformation of the original coat in a state in which the curved surface is implemented, and the light leakage phenomenon of the curved display device can be improved.

Here, the curved display panel may be a curved surface liquid crystal display panel, the first and second plates may be a polarizing plate, the curved display may be disposed behind the curved display panel, and may further include an optical sheet and a lamp .

The curved display panel to which the present invention is applied may be applied to a liquid crystal display panel, an OLED display panel, and the like. In particular, a liquid crystal display panel requiring two polarizing layers of a front polarizing layer and a rear polarizing layer on the basis of a liquid crystal layer can be advantageously applied to the present invention.

In this case, the first plate may include a first base film adhered to the first substrate, a polarizing film formed on the first base film, and a second base film formed on the polarizing film. At this time, the second base film, that is, the outermost base film may be a material having a moisture permeability of 50 g · m ^-2 · day ^-1 or less and a moisture content of 1.0% or less.

The change in the stress of the polarizing film due to moisture can be reduced by making the first substrate, that is, the substrate film on the outer side of the first polarizing plate in the liquid crystal display panel to have a low moisture permeability and a low moisture- The change in the curvature state of the curved liquid crystal display panel can be reduced.

Further, it is preferable that the ratio of T1, which is the thickness of the first plate, and T2, which is the thickness of the second plate, is 1.2: 1 or more. That is, when the thickness of the first plate is 1.2 times or more the thickness of the second plate, the effect of improving the light leakage phenomenon is remarkable.

Therefore, the light leakage phenomenon of the curved display device can be remarkably improved through the thickness ratio of the first plate and the second plate.

The liquid crystal display panel according to the present invention includes a first polarizer disposed on the front side of the color filter substrate and a second polarizer disposed on the rear side of the thin film transistor substrate. The first polarizer has a thicker thickness than the second polarizer, , And more preferably the thickness of the first polarizing plate is 1.2 times or more as large as that of the second polarizing plate.

Through the control of the thicknesses of the first and second polarizing plates, the first polarizing plate positioned on the front surface in the curved surface forming process can receive sufficient long-side shrinkage stress, and as a result, deformation can be prevented in a state in which the curved surface is implemented. In addition, the second polarizer plate having a relatively thin thickness can receive less short-side shrinkage stress, thereby relieving stress concentration. As a result, it is possible to provide a curved display device capable of improving the light leakage phenomenon.

In addition, since the outer base film of the first polarizing plate is made of a material having a low moisture permeability and a low moisture permeability, it is possible to reduce changes in the stress of the polarizing film due to moisture, Can be reduced, and the light leakage phenomenon can be improved.

When the outer base film of the first polarizing plate is made of an acrylic material, the thickness of the first polarizing plate is set to be 2 times or less, more preferably 1.2 to 1.7 times the thickness of the second polarizing plate, and the outer base film of the first polarizing plate is made of PET The thickness of the first polarizing plate and the thickness of the conventional first polarizing plate and the material of the outer base film of the first polarizing plate are applied by applying the thickness of the first polarizing plate to be 1.4 times or more, more preferably 1.4 to 2.6 times the thickness of the second polarizing plate , The light leakage phenomenon was improved.

1 illustrates a general curved liquid crystal display manufacturing process.
2 is a schematic view of a conventional curved liquid crystal display panel.
3 schematically shows the stresses of the first polarizing plate and the second polarizing plate during the bending process.
FIG. 4 shows an example in which the liquid crystal array is twisted due to stress concentration in the liquid crystal display panel.
5 schematically shows a liquid crystal display panel according to the present invention.
6 shows an example of the first polarizing plate.
Fig. 7 shows the phenomenon that the polarizing film rubs off due to moisture penetration.
8 schematically shows a liquid crystal display device according to the present invention.

Hereinafter, various embodiments of a liquid crystal display panel and a display device using the same according to the present invention will be described with reference to the drawings.

The terms including ordinals such as first, second, etc. in the following can be used to describe various elements, but the constituent elements are not limited by such terms. These terms are used only to distinguish one component from another.

Also, in the present invention, the expression " is in a state of being in contact with another part "means not only" in which part is in contact with another part, On top of other parts in the state of being further formed in the middle ".

5 schematically shows a liquid crystal display panel according to the present invention.

5, a liquid crystal display panel according to the present invention includes a first substrate 510, a first polarizer 515, a second substrate 520, a second polarizer 525, and a liquid crystal layer 530 .

The first substrate 510 has a color filter. The second substrate 520 includes a thin film transistor. More specifically, the color filter of the first substrate 510 and the thin film transistor of the second substrate 520 are opposed to each other. The liquid crystal layer 530 is disposed between the first substrate 510 and the second substrate 520. The first polarizing plate 515 is disposed on the upper portion of the first substrate 510 and the second polarizing plate 525 is disposed on the lower portion of the second substrate. The structures and materials of the first substrate 510, the second substrate 520, the first polarizing plate 515, the second polarizing plate 525, and the liquid crystal layer 530 can be known ones. A detailed description thereof will be omitted.

However, in the present invention, when the thickness of the first polarizing plate 515 is T1 and the thickness of the second polarizing plate 525 is T2, T1> T2, that is, the thickness of the first polarizing plate is larger than the thickness of the second polarizing plate It is thicker. This can be realized by various methods such as a method of increasing the thickness of the first polarizer, a method of reducing the thickness of the second polarizer, and the like.

For example, in the case of the first polarizing plate 515, the thickness of the polarizing film may be 15 to 30 μm, and the total thickness including the base film and the pressure-sensitive adhesive layer may be 150 to 230 μm. On the other hand, in the case of the second polarizing plate 525, the thickness of the polarizing film may be 5 to 7 μm and the total thickness may be 80 to 120 μm.

As described above, when the thicknesses of the first polarizing plate and the second polarizing plate are the same, stress is concentrated on a specific portion, and the liquid crystal alignment is distorted thereby causing a light leakage phenomenon often.

However, when the thickness of the first polarizing plate 515 on the color filter side is made larger than the thickness of the second polarizing plate 525 on the side of the thin film transistor as in the present invention, in the bending process for realizing the curved liquid crystal display panel , The first polarizing plate 515 can receive sufficient long-side shrinkage stress, and the second polarizing plate 525 having a relatively thin thickness can receive less contraction stress on the short side. The first polarizing plate 515 can receive sufficient long-side shrinkage stress, so that the curvature imparted upon bending can be maintained even after bending. Further, since the second polarizing plate 525 receives less short-side shrinkage stress, stress concentration at a specific portion can be reduced.

In addition, the first polarizing plate 515 can receive sufficient long-side shrinkage stress, and the unwinding phenomenon can be reduced.

Such reduction of stress concentration and reduction in the development of the original coating can improve the light leakage phenomenon which is a problem in the conventional curved display liquid crystal panel.

On the other hand, the thickness T1 of the first polarizing plate 115 is preferably 1.2 times or more the thickness T2 of the second polarizing plate 125.

When the thickness of the first polarizing plate 115 is less than 1.2 times the thickness of the second polarizing plate 125, the first polarizing plate 115 does not receive sufficient long-side shrinkage stress, and the second polarizing plate 125 has a large short- The light leakage improvement effect may be insufficient.

The light leakage phenomenon of the curved display device can be remarkably improved through the thickness ratio of the first polarizing plate and the second polarizing plate.

6 shows an example of the first polarizing plate.

As shown in the illustrated example, the first polarizing plate 515 includes a first base film 612, a polarizing film 613, and a second base film 614.

The first base film 613 may be adhered to the first substrate 510 and the adhesive layer 611 may be disposed on the lower surface of the first base film 612 for adhesion of the first base film 612 .

The polarizing film 613 functions to polarize the incident light, and a polymer film such as polyvinyl alcohol (PVA) is used.

The second base film 614 serves to protect the polarizing film 613.

On the other hand, the first base film 612 and the second base film 614 are generally made of triacetyl cellulose (TAC) film. However, this TAC film has a moisture permeability of about 330 g · m ^-2 · day ^-1 and a moisture permeability of about 2%, which is vulnerable to moisture penetration. Therefore, when the TAC film is applied to the outer second base film 614, moisture penetrates into the polarizing film 613 as in the example shown in Fig. 7, and the polarizing film is deformed by such moisture, .

For this reason, it is preferable to use the outer second base film 614 having a low moisture permeability and a low moisture permeability. Therefore, in the present invention, the second base film 614 is made of a material having a moisture permeability of 50 g · m ^-2 · day ^-1 or less and a moisture content of 1.0% or less.

Acrylic and polyethylene terephthalate (PET) can be typically used as a material satisfying this requirement. In the case of water acrylic moisture permeability is about 47 g · m ^-2 · day ^- is about ^1, and also the seupyul 0.97%, in the case of the PET moisture moisture permeability of approximately 9 g · m ^-2 · day ^{- 1,} and also the seupyul 0.48%, all of which can exhibit low moisture permeability and moisture permeability.

The change in the stress of the polarizing film due to moisture can be reduced by making the second base film 614, which is the outer base film of the first polarizing plate 515, a material having a low moisture permeability and a low moisture permeability, The change in the curvature state of the curved liquid crystal display panel can be reduced.

On the other hand, when the outer base film of the first polarizing plate 115, that is, the second base film 614 is made of acrylic material, the thickness of the first polarizing plate 115 can not be more than twice the thickness of the second polarizing plate 125 The thickness of the first polarizing plate 115 is preferably not more than twice the thickness of the second polarizing plate 125, and more preferably 1.2 to 1.7 times.

On the other hand, when the outside base film of the first polarizing plate 115 is made of PET, since the PET film itself has a certain thickness to some extent, the thickness of the first polarizing plate 115 is 1.4 Less than double the implementation is not easy. Therefore, it is preferable that the thickness of the first polarizing plate 115 is 1.4 times or more the thickness of the second polarizing plate 125. However, if the thickness of the first polarizing plate 115 exceeds 2.6 times the thickness of the second polarizing plate 125, the thickness of the first polarizing plate 115 can be increased without further light leakage improvement. Therefore, when the outer base film of the first polarizing plate 115 is made of PET, it is more preferable that the thickness of the first polarizing plate 115 is 1.4 to 2.6 times the thickness of the second polarizing plate 125.

Similarly to the second base film 614, the first base film 612, which is the inner base film of the first polarizing plate 515, also has a moisture permeability of 50 g · m ^-2 · day ^-1 or less and a moisture content 1.0% or less, and more preferably the same material as the first polarizing plate. Through this, penetration of moisture into the polarizing film through the first base film can also be reduced. Further, similarly to the outer base film of the first polarizing plate 515, the outer base film of the second polarizing plate 525 can also be made of a material having a low moisture permeability and a low moisture permeability.

8 schematically shows a liquid crystal display device according to the present invention.

8, the illustrated liquid crystal display device includes a curved liquid crystal display panel 810, a backlight 820, and a support 830. [

The curved liquid crystal display panel 810 includes a thin film transistor, a liquid crystal layer, and a color filter, and functions to provide an image.

As described above, in the case of the flat display panel, in the case of the curved display panel in which the distance from the main viewing area to the central area of the screen and the distance from the viewing area to the both side areas of the screen are different from each other, , This can be alleviated.

The backlight 820 functions to supply light to the liquid crystal display panel 810. The backlight 820 may include an optical sheet 821 for condensing and diffusing light, and a lamp unit 822 such as an LED lamp or a cold cathode fluorescent lamp.

The support portion 830 is for supporting the curved liquid crystal display panel 810 and the backlight 820. Such a supporting portion may be a case top 831, a guide panel 832, a bottom cover 833, and the like.

The example shown in Fig. 8 relates to a curved surface liquid crystal display device, and the present invention is not limited to a curved surface liquid crystal display device, but can be applied to other curved surface display devices such as a curved OLED display device. On the other hand, in the case of a curved OLED display device, the backlight can be omitted, and the polarizing plate can be replaced with a protective film.

In any display device, the curved display panel according to the present invention includes a center panel for providing images, a first plate located on the front side of the center panel, and a second plate located on the rear side of the center panel . When the thickness of the first plate is T1 and the thickness of the second plate is T2, T1 > T2.

As described above, by making the thickness of the first plate located on the front side of the curved display panel larger than the thickness of the second plate located on the rear side, the first plate, which is relatively thick during the bending process, And the relatively thin second plate can be subjected to short-side shrinkage stress. Accordingly, it is possible to prevent warpage of the liquid crystal array, deformation of the original, etc. in a state in which the curved surface is implemented, and the light leakage phenomenon of the curved display device can be improved.

6, the first plate includes a first base film adhered to the first substrate, a polarizing film formed on the first base film, and a second base film formed on the polarizing film, . ≪ / RTI > At this time, the second base film, that is, the outermost base film may be a material having a moisture permeability of 50 g · m ^-2 · day ^-1 or less and a moisture content of 1.0% or less.

Further, it is preferable that the ratio of T1, which is the thickness of the first plate, and T2, which is the thickness of the second plate, is 1.2: 1 or more. In the above range, the effect of improving the light leakage phenomenon is remarkable when the thickness of the first plate is 1.2 to 2 times the thickness of the second plate. The light leakage phenomenon of the curved display device can be remarkably improved through the thickness ratio of the first plate and the second plate.

In addition, when the curved display device is a curved liquid crystal display device, different thickness ratios can be applied according to the material of the first plate, that is, the second base film of the first polarizer, as described above.

That is, when the second base film of the first polarizing plate is made of acrylic material, the thickness of the first polarizing plate is preferably 2 times or less the thickness of the second polarizing plate, and more preferably 1.2 to 1.7 times. On the other hand, when the outer substrate film of the first polarizing plate is PET, the thickness of the first polarizing plate is preferably 1.4 times or more, more preferably 1.4 to 2.6 times the thickness of the second polarizing plate.

Example

Hereinafter, the configuration and operation of the present invention will be described in more detail with reference to preferred embodiments of the present invention. It is to be understood, however, that the same is by way of illustration and example only and is not to be construed in a limiting sense.

The contents not described here are sufficiently technically inferior to those skilled in the art, and a description thereof will be omitted.

Table 1 and Table 2 show the light leakage measurement results of the curved liquid crystal display panel according to the kind of the second base film of the first polarizing plate and the thickness ratio of the first polarizing plate and the second polarizing plate. Each curved liquid crystal display panel had a structure of a first polarizing plate, a first glass substrate (including a color filter), a liquid crystal layer, a second glass substrate (including a thin film transistor), and a second polarizing plate from the top, Except that the first base film and the second base film of the first polarizing plate described above and the thickness ratio of the first polarizing plate and the second polarizing plate were the same.

After the lamp was driven from the dark room to the black screen, the level of light leakage was visually evaluated, and the light leakage level was checked from the level 1 to the level 3. Level 1 is the case where there is no light leakage, and Level 3 is the case where the light leakage is noticeable. The lower the value of the light leakage level, the better the light leakage, and the lower the light leakage level, the better.

[Table 1] (Unit: Light Amps Level)

[Table 2] (Unit: Light Amps Level)

Referring to Tables 1 and 2, initially, the degree of light leakage of specimens 1 to 10 was similar regardless of the thickness ratio of the first polarizing plate and the second polarizing plate or the type of the second base film of the first polarizing plate. However, in the case of the specimen 1 and the specimen 10 in which the thickness ratio of the first polarizing plate and the second polarizing plate is 1.1: 1 and the TAC is applied to the second base film of the first polarizing plate, Can be seen.

Particularly, when the specimen 1 and the specimen 2 were compared, it was found that both the first base film and the second base film of the first polarizing plate were made of acrylic material. However, regardless of the thickness of the first polarizing plate and the second polarizing plate, Can be seen. Comparing the specimens 2 to 5 and the specimens 6 to 9, it can be seen that the light-shielding level is good regardless of whether the first base film of the first polarizing plate is acrylic or TAC.

Therefore, in order to apply the curved liquid crystal display panel, it is preferable that the thickness ratio of the first polarizing plate and the second polarizing plate is 1.2: 1 or more and the material of the second base film of the first polarizing plate is made of PET, It is most desirable to make the material.

More specifically, when considering the results of Tables 1 and 2, when the material of the second base film of the first polarizing plate is made of PET, the thickness ratio of the first polarizing plate and the second polarizing plate is preferably 1.4: 1 or more, Is preferably 1.4 to 2.6 times, and when the material of the second base film of the first polarizing plate is made of acrylic, it is most preferable that the thickness ratio of the first polarizing plate and the second polarizing plate is 2: 1 or less, more preferably 1.2 to 1.7 .

While the present invention has been particularly shown and described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is therefore to be understood that such changes and modifications are intended to be included within the scope of the present invention unless they depart from the scope of the present invention.

510: first substrate 515: first polarizer
520: second substrate 525: second polarizer plate
530: liquid crystal layer 611: pressure-sensitive adhesive layer
612: first base film 613: polarizing film
614: second base film 810: display panel
820: backlight 830:

Claims (16)

A first substrate having a color filter;
A second substrate including a thin film transistor;
A liquid crystal layer disposed between the first substrate and the second substrate;
A first polarizer disposed on the first substrate; And
And a second polarizer disposed under the second substrate,
Wherein the thickness of the first polarizing plate is T1 and the thickness of the second polarizing plate is T2.
The method according to claim 1,
Wherein the ratio of T1 to T2 is 1.2: 1 or more.
The method according to claim 1,
Wherein the first polarizer plate comprises:
A first base film adhered to the first substrate;
A polarizing film formed on the first base film,
And a second base film formed on the polarizing film,
The second base film a water moisture ^{permeability: 50 g · m -2 · day} -1 or less, and also seupyul 1.0% or less of the material, the liquid crystal display panel.
The method of claim 3,
The second base film
Acrylic material, and the ratio of T1 to T2 is 2: 1 or less.
5. The method of claim 4,
Wherein the ratio of T1 to T2 is 1.2: 1 to 1.7: 1.
The method of claim 3,
The second base film
PET material, wherein the ratio of T1 to T2 is 2: 1 or more.
The method according to claim 6,
Wherein a ratio of T1 to T2 is 2.2: 1 to 2.6: 1.
The method of claim 3,
Wherein the first base film is made of a material having a moisture permeability of 50 g · m ^-2 · day ^-1 or less and a moisture content of 1.0% or less.
1. A curved display panel comprising: a center panel for providing an image; a first plate located on a front side of the center panel; and a second plate located on a rear side of the center panel; And
And a support for supporting the display panel,
Wherein a thickness of the first plate is T1 and a thickness of the second plate is T2.
10. The method of claim 9,
Wherein the curved display panel is a curved liquid crystal display panel,
The first plate and the second plate are polarizing plates,
Wherein the curved display device is disposed behind the curved display panel and further comprises an optical sheet and a lamp.
10. The method of claim 9,
Wherein the ratio of T1 to T2 is 1.2 or more.
11. The method of claim 10,
Wherein the first plate comprises:
A first base film adhered to the first substrate;
A polarizing film formed on the first base film,
And a second base film formed on the polarizing film,
The second base film a water moisture ^{permeability: 50 g · m -2 · day} -1 or less, and also seupyul 0.97% or less of the material, a curved surface display device.
13. The method of claim 12,
The second base film
Acrylic material, wherein the ratio of T1 to T2 is 1.2: 1 to 2: 1.
14. The method of claim 13,
Wherein a ratio of T1 to T2 is 1.2: 1 to 1.7: 1.
13. The method of claim 12,
The second base film
PET material, wherein the ratio of T1 to T2 is 1.4: 1 or more.
16. The method of claim 15,
Wherein the ratio of T1 to T2 is 1.4: 1 to 2.6: 1.

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