KR20130077271A - Polarizing plate and liquid crystal display having the polarizing plate - Google Patents

Abstract

PURPOSE: A polarizing plate and a liquid crystal display device including the same are provided to prevent a liquid crystal panel from being bended by lowering power bending the liquid crystal panel in a long axis direction relatively to power bending the liquid crystal panel in a short axis direction. CONSTITUTION: An upper polarizing plate (61) and a lower polarizing plate (63) respectively comprise polarizing films (4, 12), inner covers (6, 14), and outer protection layers (2, 10). The polarizing film controls the transmitting light intensity of incident light and a polarization state. An internal protective layer and an external protective layer protect and support the polarizing film. The absorption axis of the upper polarizing plate and the absorption axis of the lower polarizing plate are perpendicularly arranged. The material of the external and internal protective layers comprised at the upper polarizing plate and the material of the external and internal protective layers comprised at the lower polarizing plate are different. [Reference numerals] (2,10) Outer protection layers; (4,12) Polarizing films; (50) Liquid crystal panel; (6,14) Inner covers; (8,16) Adhesion layers

Description

POLARIZING PLATE AND LIQUID CRYSTAL DISPLAY HAVING THE POLARIZING PLATE}

The present invention relates to a polarizing plate capable of reducing warpage of a liquid crystal panel and a liquid crystal display device having the same.

In general, a liquid crystal display device displays an image by adjusting the light transmittance of a liquid crystal having dielectric anisotropy using an electric field. Such a liquid crystal display device displays an image by adjusting the light transmittance of the liquid crystal using an electric field.

The liquid crystal display includes a thin film transistor substrate and a color filter substrate bonded to each other, a spacer for maintaining a constant cell gap between the two substrates, and a liquid crystal panel including a liquid crystal filled in the cell gap.

An upper polarizer is disposed on an outer surface of the color filter substrate, and a lower polarizer is disposed on an outer surface of the thin film transistor substrate. Each of the upper and lower polarizing plates has a polarizing film, and protective layers are formed on the upper and lower parts to protect the polarizing film.

However, in the conventional liquid crystal display device, the upper and lower polarizing plates shrink as moisture vaporized in the protective layers of the upper and lower polarizing plates is evaporated by heat generated during driving. The shrinkage of the upper and lower polarizers acts as a stress on the liquid crystal panel, resulting in warpage of the liquid crystal panel, resulting in poor light leakage and a decrease in mechanical strength.

The present invention has been made to solve the above problems, and an object thereof is to provide a polarizing plate and a liquid crystal display device having the same, which can reduce the warpage of the liquid crystal panel.

Polarizer according to an embodiment of the present invention to achieve the above object is a polarizing film; An outer protective layer attached to an upper surface of the polarizing film; An upper polarizer and a lower polarizer including an inner protective layer attached to a rear surface of the polarizer; An absorption axis of the upper polarizer and an absorption axis of the lower polarizer are disposed perpendicular to each other; The material of the outer protective layer and the inner protective layer provided on the upper polarizing plate and the material of the outer protective layer and the inner protective layer provided on the lower polarizing plate are different from each other.

The outer protective layer and the inner protective layer provided on the upper polarizing plate are composed of an acrylic film, and the outer protective layer and the inner protective layer provided on the lower polarizing plate are characterized in that the TAC (Triacetyl cellulose) film.

The outer protective layer and the inner protective layer provided on the upper polarizing plate are composed of a TAC (Triacetyl cellulose) film, the outer protective layer and the inner protective layer provided on the lower polarizing plate is characterized in that composed of an acrylic film.

The acrylic film is made of PMMA (Poly methy methacrylate) or photo acrylic.

In addition, in order to achieve the above object, the liquid crystal display according to the exemplary embodiment of the present invention includes a liquid crystal layer including first and second substrates bonded to each other and a liquid crystal layer filled between the first and second substrates. A panel; An upper polarizer disposed on an upper surface of the liquid crystal panel; A lower polarizer disposed on a rear surface of the liquid crystal panel; Each of the upper polarizer and the lower polarizer includes a polarizer; An outer protective layer attached to an upper surface of the polarizing film; An upper polarizer and a lower polarizer including an inner protective layer attached to a rear surface of the polarizer; An absorption axis of the upper polarizer and an absorption axis of the lower polarizer are disposed perpendicular to each other; The material of the outer protective layer and the inner protective layer provided on the upper polarizing plate and the material of the outer protective layer and the inner protective layer provided on the lower polarizing plate are different from each other.

The liquid crystal layer is oriented in the first direction; An absorption axis of the upper polarizer is disposed in a second direction perpendicular to the first direction; The absorption axis of the lower polarizer is characterized in that disposed in the first direction.

The liquid crystal layer is initially oriented in the vertical direction; The outer protective layer and the inner protective layer provided on the upper polarizing plate are composed of an acrylic film, and the outer protective layer and the inner protective layer provided on the lower polarizing plate are characterized in that the TAC (Triacetyl cellulose) film.

The liquid crystal layer is initially oriented in a horizontal direction; The outer protective layer and the inner protective layer provided on the upper polarizing plate are composed of a TAC (Triacetyl cellulose) film, the outer protective layer and the inner protective layer provided on the lower polarizing plate is characterized in that composed of an acrylic film.

The acrylic film is made of PMMA (Poly methy methacrylate) or photo acrylic.

The present invention is different from the material of the outer protective layer and the inner protective layer provided on the upper polarizing plate and the material of the outer protective layer and the inner protective layer provided on the lower polarizing plate. Accordingly, the present invention can reduce the warpage of the liquid crystal panel by making the force that the liquid crystal panel bends in the major axis direction relatively smaller than the force that the liquid crystal panel bends in the minor axis direction.

1 is a perspective view schematically illustrating a liquid crystal display according to an exemplary embodiment.
2 is a configuration diagram of the upper and lower polarizing plates 61 and 63 according to the embodiment.
3 is a configuration diagram of the upper and lower polarizing plates 61 and 63 according to the first embodiment.
4 is a configuration diagram of the upper and lower polarizers 61 and 63 according to the second embodiment.

Hereinafter, a polarizing plate and a liquid crystal display having the same according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to an IPS type liquid crystal display that uses a nematic phase liquid crystal and implements a wide viewing angle.

1 is a perspective view schematically illustrating a liquid crystal display according to an exemplary embodiment.

The liquid crystal display shown in FIG. 1 includes a liquid crystal panel 50 in which first and second substrates 51 and 71 face each other, and a liquid crystal cell including liquid crystal molecules 81 is interposed therebetween. .

In the first substrate 51, black matrices 53 defining pixels are formed in a matrix at positions corresponding to the scan lines 73 and the data lines 75 of the second substrate 71. In addition, color filters 55 for implementing colors are formed in each pixel, and R, G, and B color filters 55 are sequentially formed.

The scan line 73 and the data line 75 are orthogonal to the second substrate 71 to define pixels, and a plurality of pixels are arranged in a matrix. The TFT 77 for driving the liquid crystal molecules 81 is formed at the intersection of the scan line 73 and the data line 75. The TFT 77 is connected to the pixel electrode 79 for applying a positive voltage for driving the liquid crystal molecules 81. The common electrode 57 is formed on the second substrate 71 in parallel with the pixel electrode 79 to apply a horizontal electric field to the liquid crystal molecules 81.

An upper polarizing plate 61 and a lower polarizing plate 63 are formed on an upper surface of the first substrate 51 and a rear surface of the second substrate 71, respectively. In order to realize perfect black, the upper polarizer 61 and the lower polarizer 63 are arranged such that their absorption axes are perpendicular to each other. The liquid crystal molecules 81 are arranged to maintain an initial alignment state parallel to either direction between the first and second substrates 51 and 71. In the following description, it is assumed that the initial alignment state of the liquid crystal molecules 81 is set in a direction parallel to the absorption axis of the lower polarizer 63.

On the other hand, the liquid crystal panel 50 having the above-described configuration has a shape in which the pixel electrode 79 and the common electrode 57 are bent and arranged in parallel to each other in the vertical direction of the S (super) -IPS method. It may be a liquid crystal panel. In addition, the liquid crystal panel 50 may be a H-horizontal (IPS) type liquid crystal panel having a structure in which the pixel electrode 79 and the common electrode 57 are bent and arranged side by side in the horizontal direction.

The S-IPS type liquid crystal panel and the H-IPS type liquid crystal panel have different rubbing directions in the process of rubbing the alignment layer due to the above-described structural differences. That is, in the liquid crystal panel of the S-IPS method, the liquid crystal molecules 81 are initially aligned in the vertical direction, and in the H-IPS method of the liquid crystal panel, the liquid crystal molecules 81 are initially aligned in the horizontal direction. It is not limited.

Hereinafter, the upper polarizing plate 61 and the lower polarizing plate 63 according to the embodiment will be described in detail.

2 is a configuration diagram of the upper and lower polarizing plates 61 and 63 according to the embodiment.

Each of the upper and lower polarizers 61 and 63 shown in FIG. 2 has an interior for protecting and supporting the polarizing films 4 and 12 and the polarizing films 4 and 12 that control the amount of transmitted light and the polarization state with respect to incident light. Protective layers 6, 14 and outer protective layers 2, 10.

The polarizing films 4 and 12 are formed by stretching while heating a thin film of poly vinyl alcohol (PVA) to deposit iodic acid in a dichroic dye solution. The upper and lower polarizing plates 61 and 63 having such polarizing films 4 and 12 have an absorption axis in a direction in which the polarizing films 4 and 12 are stretched and a transmission axis perpendicular to the absorption axis. At this time, the absorption axes of the upper and lower polarizing plates 61 and 63 are orthogonal to each other as described above.

In particular, the embodiment has the following configuration in order to prevent the bending of the upper and lower polarizing plates (61, 63). That is, the embodiment is made of the material of the outer protective layer 2 and the inner protective layer 6 provided in the upper polarizing plate 61, the outer protective layer 10 and the inner protective layer 14 provided in the lower polarizing plate 63. ) Has different characteristics of the material. Accordingly, in the embodiment, the bending of the liquid crystal panel 50 can be reduced by reducing the force of the liquid crystal panel 50 to be bent in the major axis direction relative to the force of the liquid crystal panel 50 to be bent in the minor axis direction. This will be described in detail for each embodiment.

First Embodiment

Referring to FIG. 3, the liquid crystal panel 50 according to the first embodiment is an S-IPS liquid crystal panel 50. Thus, the liquid crystal molecules 81 are initially oriented in the vertical direction. Accordingly, the absorption axis of the lower polarizing plate 63 is disposed in a vertical direction parallel to the alignment direction of the liquid crystal molecules 81, and the absorption axis of the upper polarizing plate 61 is horizontal to the vertical direction of the alignment direction of the liquid crystal molecules 81. Are arranged in the direction.

Meanwhile, the protective layers 2 and 6 of the upper polarizing plate 61 are composed of an acrylic film having a relatively low moisture absorption rate, and the protective layers 10 and 14 of the lower polarizing plate 63 have a relatively high moisture absorption rate. It consists of Triacetyl cellulose (TAC) film.

For reference, the contraction of the polarizing plate 61 is in the absorption axis direction in which the polarizing films 4 and 12 are stretched. The long axis direction of the S-IPS type liquid crystal panel 50 as in the first embodiment is the upper polarizing plate ( It is parallel to the absorption axis direction (shrinkage direction) of 61, and the short axis direction of the liquid crystal panel 50 is parallel to the absorption axis direction (shrinkage direction) of the lower polarizing plate 63. As shown in FIG. Therefore, the deflection of the liquid crystal panel 50 is more affected by the contraction of the upper polarizer 61 than the contraction of the lower polarizer 63.

According to the first exemplary embodiment, the materials of the protective layers 2 and 6 of the upper polarizing plate 61 are formed of an acrylic film having a relatively low water absorption, thereby preventing bending of the liquid crystal panel 50 due to shrinkage of the upper polarizing plate 61. can do.

In addition, the first embodiment may further reduce the warpage of the liquid crystal panel 50 by configuring the materials of the protective layers 10 and 14 of the lower polarizer 63 with a relatively high water absorption Triacetyl cellulose (TAC) film. . That is, even when a force that causes the liquid crystal panel 50 to be bent in the long axis direction due to the upper polarizing plate 61 is generated, a force in the uniaxial direction is applied to the liquid crystal panel 50 due to the contraction of the lower polarizing plate 63. The amount of warpage of 50 is greatly reduced. This effect is maximized by configuring the materials of the protective layers 10 and 14 of the lower polarizing plate 63 with a relatively high water absorption TAC (Triacetyl cellulose) film, and consequently, the liquid crystal panel 50. The amount of warpage can be further reduced.

On the other hand, the material of the acrylic film may be a poly methy methacrylate (PMMA) or photo acrylic (Photo acrylic).

Second Embodiment

Referring to FIG. 4, the liquid crystal panel 50 according to the second embodiment is the H-IPS type liquid crystal panel 50. Thus, the liquid crystal molecules 81 are initially oriented in the horizontal direction. Accordingly, the absorption axis of the lower polarizer 63 is disposed in a horizontal direction horizontal to the direction of alignment of the liquid crystal molecules 81, and the absorption axis of the upper polarizer 61 is perpendicular to the alignment direction of the liquid crystal molecules 81. Are arranged in the direction.

Meanwhile, the protective layers 2 and 6 of the upper polarizing plate 61 are composed of a triacetyl cellulose (TAC) film having a relatively high water absorption rate, and the protective layers 10 and 14 of the lower polarizing plate 63 are relatively It consists of an acryl-type film with a small water absorption rate.

The long axis direction of the H-IPS type liquid crystal panel 50 as in the second embodiment is parallel to the absorption axis direction (contraction direction) of the lower polarizing plate 61, and the short axis direction of the liquid crystal panel 50 is the upper polarizing plate 63. Is parallel to the absorption axis direction (contraction direction). Therefore, the bending of the liquid crystal panel 50 is more affected by the shrinkage of the lower polarizer 63 than the shrinkage of the upper polarizer 61.

In the second exemplary embodiment, the materials of the protective layers 10 and 14 of the lower polarizing plate 63 are formed of an acrylic film having a relatively low water absorption rate, thereby preventing bending of the liquid crystal panel 50 due to shrinkage of the lower polarizing plate 63. can do.

In addition, according to the second embodiment, the material of the protective layers 2 and 6 of the upper polarizing plate 63 may be formed of a triacetyl cellulose (TAC) film having a relatively high water absorption, thereby further reducing warpage of the liquid crystal panel 50. . That is, even if a force that causes the liquid crystal panel 50 to be bent in the long axis direction due to the lower polarizing plate 63 is generated, a force in the short-axis direction is applied to the liquid crystal panel 50 due to the contraction of the upper polarizing plate 61, thereby realizing the liquid crystal panel. The amount of warpage of 50 is greatly reduced. This effect is the same as the effect mentioned in the first embodiment.

On the other hand, the material of the acrylic film may be a poly methy methacrylate (PMMA) or photo acrylic (Photo acrylic).

As described above, the present invention is the material of the outer protective layer 2 and the inner protective layer 6 provided on the upper polarizing plate 61, the outer protective layer 10 and the inner protective provided on the lower polarizing plate 63 The materials of layer 14 are different. Accordingly, according to the present invention, the bending of the liquid crystal panel 50 can be reduced by reducing the force that the liquid crystal panel 50 bends in the major axis direction to be smaller than the force that the liquid crystal panel 50 bends in the minor axis direction.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the general inventive concept as defined by the appended claims and their equivalents. Will be clear to those who have knowledge of.

50: liquid crystal panel 61: upper polarizing plate
63: lower polarizer

Claims (9)

A polarizing film; An outer protective layer attached to an upper surface of the polarizing film; An upper polarizer and a lower polarizer including an inner protective layer attached to a rear surface of the polarizer;
An absorption axis of the upper polarizer and an absorption axis of the lower polarizer are disposed perpendicular to each other;
The material of the outer protective layer and the inner protective layer provided on the upper polarizing plate and the material of the outer protective layer and the inner protective layer provided on the lower polarizing plate are different from each other. The method of claim 1,
The outer protective layer and the inner protective layer provided on the upper polarizing plate is composed of an acrylic film,
The outer protective layer and the inner protective layer provided on the lower polarizing plate is a polarizing plate, characterized in that consisting of TAC (Triacetyl cellulose) film. The method of claim 1,
The outer protective layer and the inner protective layer provided on the upper polarizing plate is composed of a TAC (Triacetyl cellulose) film,
The outer protective layer and the inner protective layer provided on the lower polarizing plate is a polarizing plate, characterized in that composed of an acrylic film. The method according to claim 2 or 3,
The material of the acrylic film is
Polarizing plate, characterized in that the PMMA (Poly methy methacrylate) or photo acrylic (Photo acrylic). A liquid crystal panel comprising first and second substrates bonded to each other and a liquid crystal layer filled between the first and second substrates;
An upper polarizer disposed on an upper surface of the liquid crystal panel;
A lower polarizer disposed on a rear surface of the liquid crystal panel;
Each of the upper polarizer and the lower polarizer includes a polarizer; An outer protective layer attached to an upper surface of the polarizing film; An upper polarizer and a lower polarizer including an inner protective layer attached to a rear surface of the polarizer;
An absorption axis of the upper polarizer and an absorption axis of the lower polarizer are disposed perpendicular to each other;
The material of the outer protective layer and the inner protective layer provided on the upper polarizing plate and the material of the outer protective layer and the inner protective layer provided on the lower polarizing plate are different from each other. The method of claim 5, wherein
The liquid crystal layer is oriented in the first direction;
An absorption axis of the upper polarizer is disposed in a second direction perpendicular to the first direction;
The absorption axis of the lower polarizer is disposed in the first direction. The method according to claim 6,
The liquid crystal layer is initially oriented in the vertical direction;
The outer protective layer and the inner protective layer provided on the upper polarizing plate is composed of an acrylic film,
The outer protective layer and the inner protective layer provided on the lower polarizing plate is a liquid crystal display, characterized in that composed of a triacetyl cellulose (TAC) film. The method according to claim 6,
The liquid crystal layer is initially oriented in a horizontal direction;
The outer protective layer and the inner protective layer provided on the upper polarizing plate is composed of a TAC (Triacetyl cellulose) film,
The outer protective layer and the inner protective layer provided on the lower polarizing plate is composed of an acrylic film. 9. The method according to claim 7 or 8,
The material of the acrylic film is
Liquid crystal display, characterized in that the PMMA (Poly methy methacrylate) or photo acrylic (Photo acrylic).

Images