KR20000040379A - Liquid crystal display device - Google Patents

Abstract

PURPOSE: A liquid crystal display device is provided to enlarge the laser angle and to increase the rate of transparency. CONSTITUTION: A liquid crystal display device includes a first substrate(10), a second substrate(20), a liquid crystal layer(30) and a polarization plate(24). The first substrate(10) is formed as a base substrate of the liquid crystal display. The second substrate(20) faces the first substrate and includes a color filter(23) formed thereon. The liquid crystal layer(30) is injected between the first and the second substrates. The polarization plate(24) is formed between the liquid crystal layer and the color filter layer. A diffraction layer is further applied between the polarization plate and the second substrate.

Description

Liquid crystal display

The present invention relates to a liquid crystal display device.

The liquid crystal display device injects a liquid crystal material between a lower substrate on which a thin film transistor and the like are formed and a lower substrate on which a color filter and a black matrix are formed, and includes pixel electrodes and a common electrode formed on the upper and lower substrates or one substrate, respectively. It is a device that expresses an image by changing the arrangement of liquid crystals by changing the voltage applied between them to adjust the transmittance of light.

In general, a polarizer is attached to the outside of the upper and lower substrates in the liquid crystal display, and the polarizer generally reduces the transmittance to 30 to 40%.

In addition, the liquid crystal material has birefringence in which the refractive indices in the major and minor axes of the molecules are different from each other. The birefringence causes a difference in the refractive index felt by light depending on the position of the liquid crystal display. Therefore, a difference occurs in the rate at which the polarization state is changed while the linearly polarized light passes through the liquid crystal, and thus the amount and color characteristics of the light when viewed from a position away from the front face are different from those seen from the front face. As a result, a liquid crystal display having a twisted nematic structure has a problem that the viewing angle is narrowed due to a change in contrast ratio, color shift, gray inversion, etc. according to the viewing angle. .

An object of the present invention is to provide a liquid crystal display device having an extended wide viewing angle and high transmittance.

1 is a configuration diagram schematically illustrating a structure of a liquid crystal display according to an exemplary embodiment of the present invention.

In the liquid crystal display of the present invention for solving this problem, a polarizing film is formed between two substrates, and the polarizing film is positioned on the color filter of the first substrate on which the color filter is formed.

In this case, the polarizing film of the second substrate may be formed between the two substrates or outside the two substrates.

Such a polarizing film passes only light in a direction parallel to the molecular axis of the molecules forming the polarizing film.

Here, the molecular structure of the polarizing film may be uniaxial to orient the liquid crystal molecules through interaction with the liquid crystal molecules of the liquid crystal material layer between the two substrates.

In addition, the liquid crystal display according to the present invention includes a scattering layer formed between the first substrate and the color filter.

This scattering layer scatters the polarized light passing through the color filter.

In the liquid crystal display according to the present invention, light passing through the polarizing film passes through the color filter and the scattering layer.

DETAILED DESCRIPTION Hereinafter, embodiments of the liquid crystal display according to the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

1 is a configuration diagram schematically illustrating a structure of a liquid crystal display according to an exemplary embodiment of the present invention.

As shown in FIG. 1, the liquid crystal display according to the exemplary embodiment of the present invention is a liquid crystal material layer 30 injected between the lower and upper substrates 10 and 20 and the two substrates 10 and 20 facing each other. consist of.

On the lower substrate 10 inside the two substrates 10 and 20, a plurality of pixel electrodes performing display operations, gate lines and data lines defining unit pixel regions crossing each other, and a scan signal from the gate lines are transmitted to the pixel electrodes. A thin film layer 11 including a thin film transistor or the like for controlling an image signal from a data line is formed, and a polarizing plate 12 is attached to the lower substrate 10 outside the two substrates 10 and 20.

In addition, on the upper substrate 20 inside the two substrates 10 and 20, a black matrix 21, a scattering layer 22, a color filter 23 of red, green, and blue, and a polarizing material capable of polarizing light passing therethrough. A polarizing film 24 made up of a common electrode 25 made of indium tin oxide (ITO), which is a transparent conductive film, is sequentially formed.

Here, the polarizing film 24 has a polarizing function of passing only light in a direction parallel to the molecular axis of the molecules constituting the polarizing film 24, similar to the polarizing plate 12, and the molecular structure of the polarizing film 24 has two It may have an alignment function to orient the liquid crystal molecules through interaction with the liquid crystal molecules of the liquid crystal material layer 30 between the substrates. Here, the transmission axes of the polarizing plate 12 and the polarizing film 24 may be arranged in parallel or perpendicular to each other, the polarizing plate 12 may be formed as a polarizing film in the same manner as the polarizing film 24 of the upper substrate 20. have.

In the liquid crystal display according to the exemplary embodiment of the present invention, unlike the conventional technology of fabricating a polarizing plate and attaching it to the outside of the upper and lower substrates 20, the upper part inside the two substrates 10 and 20 with the polarizing film 24. Alternatively, since it is formed on the lower substrate 20, the polarizing film 24 does not act as a factor of reducing the transmittance. Therefore, the transmittance can be maximized.

Here, the scattering layer 22 may have a scattering function of scattering light, and may be formed of an organic film in which a polymer dispersed liquid crystal material layer or a curved surface is formed.

In the absence of the scattering layer 22, a non-uniform curve for scattering light may be formed on the upper substrate 22 to replace the function of the scattering layer 22, and to scatter light on the color filter 23. In order to be able to add fine particles of 1,000 ~ 10,000Å size, to form a bend for scattering light on the surface of the color filter 23, it is also possible to form a color filter 23 mixed with the scattering material. .

Here, the polarized light passing through the polarizing plate 12 attached to the lower substrate 10 passes through the liquid crystal material layer 30, passes through the polarizing film 24, and then the color filter 23 and the scattering layer 22. ), The liquid crystal display according to the exemplary embodiment of the present invention widens the viewing angle. That is, since the polarized light is scattered in all directions while passing through the color filter 23 or the scattering layer 22, the light quantity and the color characteristic do not change even if the angle of the viewing position changes. Changes in contrast ratio, color shift, gray inversion, and the like do not occur. This is similar to the case where light is scattered through a light emitter (phosphor) in a display device displaying an image using a cathode ray tube.

In addition, as in the embodiment of the present invention, the polarizing film 24 is placed between the liquid crystal material layer 30 and the color filter, so that light passes through the polarizing film 24 and then the color filter 23 or the scattering layer ( In the case of passing through 22, the contrast ratio can be improved as compared with the prior art. That is, in the prior art, since light is scattered through the color filter and then passed through the polarizing plate, the amount of light passing through the color filter and the polarizing plate is reduced due to scattering, thereby reducing the contrast ratio. However, as in the present invention, when light first passes through the polarizing film 24 and then passes through the color filter 23, the scattering generated inside the color filter 23 may be reduced by the polarization film 24 and the color. The amount of light passing through the filter 23 is not changed.

As described above, the liquid crystal display according to the exemplary embodiment of the present invention having the scattering layer 22 or the polarizing layer 24 includes two substrates 10 having liquid crystal molecules of two liquid crystal molecules of the liquid crystal material layer 30. 20 and twisted in a spiral with a constant pitch, it can be applied to a twisted nematic method having a twisted structure in which the long-axis alignment direction of the liquid crystal molecules is continuously changed. In addition, the liquid crystal molecules of the liquid crystal material layer 30 may be applied to a vertical alignment method in which the two substrates 10 and 20 are arranged perpendicularly, and two electrodes for forming a voltage for driving the liquid crystal molecules may include The same applies to the structure formed on the substrate. In general, one of two electrodes is a pixel electrode for applying a different data signal for each unit pixel, and the other is a common electrode for applying a signal common to all unit pixels.

In particular, when applied to a liquid crystal display having a vertically aligned mode of a normally block mode having a high contrast ratio and displaying a dark state without applying a voltage, the contrast ratio can be maximized.

Also, if the product of the refractive index anisotropy Δn of the liquid crystal material layer and the distance d between the two substrates is about 0.3 to 0.4 in order to minimize the viscosity of the liquid crystal, the video has a response speed of about 20 msec. Can be produced a liquid crystal display device.

Therefore, in the liquid crystal display according to the present invention, the transmittance may be improved by forming polarizing layers inside the two substrates. In addition, by providing a polarizing film between the liquid crystal material layer and the color filter, the contrast ratio may be improved, and a wide viewing angle may be obtained by scattering light passing through the polarizing film through a substrate, a color filter, or a scattering layer.

Claims (9)

First substrate, A second substrate facing the first substrate and having a color filter formed thereon; A liquid crystal material layer injected between the first and second substrates, And a polarizing film formed between the liquid crystal material layer and the color filter. In claim 1, And a scattering layer for scattering light between the polarizing film and the second substrate. In claim 2, The scattering layer is a liquid crystal display device made of a polymer dispersed liquid crystal material layer to scatter light. In claim 2, And the scattering layer is formed of an organic layer having a curved surface to scatter light. The method of claim 1 or 2, And a non-uniform curve for scattering light is formed on the second substrate. The method of claim 1 or 2, The color filter is a liquid crystal display device in which fine particles of 1,000 to 10,000 1 size are formed to scatter light. The method of claim 1 or 2, The color filter is a liquid crystal display device which is bent to scatter light. The method of claim 1 or 2, And a twisted structure in which the liquid crystal molecules of the liquid crystal material layer are parallel to the two substrates and twisted in a spiral with a constant pitch so that the long-axis alignment orientation of the liquid crystal molecules is continuously changed. The method of claim 1 or 2, The liquid crystal molecules of the liquid crystal material layer are aligned in one region perpendicular to the two substrates.