KR100357956B1 - Color filter of Reflctive Color LCD and manufacturing methode thereof - Google Patents

Abstract

PURPOSE: To provide a color filter and a manufacturing method of a reflective color liquid crystal display device having a function of scattering and reflecting light by mixing the polymer dispersed liquid crystal with the color filter of the reflective color liquid crystal display device. It is done.

Configuration: The color filter of the reflective color liquid crystal display device according to the present invention comprises a polymer dispersed liquid crystal having different refractive indices.

Effect: The reflection efficiency can be enhanced because the color filter itself has a diffusion function without installing a separate diffusion film, a diffusion layer, or a reflecting plate having irregularities on the surface. In addition, it is possible to adjust the scattering degree and reflectance through the mixing ratio of the liquid crystal and the color photoresist, ultraviolet intensity and time, temperature control, etc., thereby manufacturing various color filters.

Description

Color filter and manufacturing method of reflective color liquid crystal display device

The present invention relates to a color filter and a manufacturing method of a reflective color liquid crystal display device, and more particularly, to a color filter and a manufacturing method of a reflective color liquid crystal display device having a diffusing function using a polymer dispersed liquid crystal. It is about a method.

The liquid crystal display device has a regular molecular arrangement and optical anisotropy such as a solid crystal along with liquidity of liquid, and when the voltage is applied, the liquid crystal display device changes the arrangement of molecules along the direction of the electric field. Refers to a device for displaying.

The liquid crystal display device has a merit of being able to drive low power and making it light and simple, and is widely used as a portable display device such as a portable electronic calculator, a portable telephone or a wrist watch, etc. In recent years, notebook computers have been developed due to the development of color liquid crystal display devices. It is used in large monitors as well as camcorders and is replacing existing cathode ray tubes.

The color liquid crystal display device implements a color screen by installing a color filter on the liquid crystal display device as described above.

The color filter refers to a substrate in which pixels having red, green, and blue colors are arranged in a predetermined order to make a color liquid crystal display device. 3 shows an example of a conventional color filter 2.

The screen of the liquid crystal display is composed of three pixels 4 having colors of red (R), green (G), and blue (B), and the color filter (2) consisting of the pixels (4) comprises a substrate (6). ) Fluorescent material is coated on. A black matrix 8 is provided between each pixel 6 to block leakage light. The color filter 2 is manufactured by a dyeing method or a pigment dispersion method by applying a photosensitizer, and a transparent electrode 10 is coated thereon. The color filter 2 is mounted on the lower or upper plate of the liquid crystal display element. The three pixels 4 of each color are driven independently, and these colors are combined with each other and displayed as one color in the liquid crystal cell.

The liquid crystal display may be classified into a transmissive type and a reflective type according to a screen implementation method. The transmissive type has a backlight installed on a rear surface of the liquid crystal display so that light emitted from the backlight passes through the liquid crystal layer and is recognized by the user's eyes. However, since the transmissive liquid crystal display device must always rely on the light of the backlight, the luminance is good but power consumption is high.

In order to overcome the above disadvantages, a reflective liquid crystal display device is disclosed.

The reflective liquid crystal display device has a structure in which a reflection plate is disposed on a lower substrate so that incident natural light is reflected by the reflection plate and recognized by the user.

4 is a cross-sectional view of a conventional reflective color liquid crystal display device 12.

The liquid crystal 16 is injected between the upper substrate 14a and the lower substrate 14b made of glass or plastic film, and at least the transparent electrode 18a is oriented on the surface of the upper substrate 14a in contact with the liquid crystal 16. Layer 20a is formed. On the surface of the lower substrate 14b that contacts the liquid crystal 16, a diffuse reflector 22 and a color filter 24 are sequentially stacked, and then a transparent electrode 18b and an alignment layer 20b are formed. The retardation film 26 and the polarizing plate 28 which compensate for a phase difference are provided in the outer side surface of 14a). The above-described diffuse reflector 22 has fine irregularities formed on its surface to scatter light.

In the reflective color liquid crystal display device 12 shown in the drawing, the portion shown on the left side is naturally twisted because the voltage is not applied, and the voltage is applied on the right side so that the liquid crystals 16 are arranged in the electric field direction. It is.

The incident natural light passes through the polarizing plate 28, the retardation film 26, and the liquid crystal cell, and hits the diffuse reflecting plate 22 to be reflected to the user.

The above-described structure shows an example of a reflective color liquid crystal display element, and in addition, a reflective plate integrated color filter, a reflective plate integrated color filter having irregularities on its surface, and the like are disclosed.

However, the reflection type color liquid crystal display device as described above has a problem in that a reflection plate having a diffusion function is added, thereby complicating the process and adding a film, thereby decreasing light efficiency and increasing production cost.

The present invention newly proposed to solve the problems of the prior art described above is a reflection type color which has a function of scattering and reflecting light by mixing a polymer dispersed liquid crystal with a color filter of a reflection type color liquid crystal display device. An object of the present invention is to provide a color filter and a manufacturing method of a liquid crystal display device.

In order to achieve the above object, the color filter of the reflective color liquid crystal display device according to the present invention comprises a polymer dispersed liquid crystal having a different refractive index and a different refractive index from the photosensitive agent.

The method for manufacturing a color filter of a reflective color liquid crystal display device according to the present invention comprises the steps of mixing a pigment, a liquid crystal and a polymer as a filter composition in a predetermined ratio, applying a photosensitive agent (PR) with the mixture, and ultraviolet light Irradiating and curing.

The reflectance and scattering rate of the light by the color filter can be adjusted by at least one of the mixing ratio of the liquid crystal and the photosensitive agent (PR), the ultraviolet irradiation intensity and time, and the temperature.

When the reflective color liquid crystal display device is manufactured in the above-described configuration, the reflection efficiency can be improved since the color filter itself has a diffusion function without installing a separate diffusion film, a diffusion layer or a reflection plate having irregularities on the surface. In addition, it is possible to adjust the scattering degree and reflectance through the mixing ratio of the liquid crystal and the color photoresist, ultraviolet intensity and time, temperature control, etc., thereby manufacturing various color filters.

1 is a cross-sectional view showing a reflective color liquid crystal display device provided with a color filter according to the present invention;

Figure 2 is an enlarged cross-sectional view of a polymer dispersed liquid crystal layer applied to the present invention.

3 is a cross-sectional view showing an example of a conventional color filter.

4 is a cross-sectional view showing a conventional reflective color liquid crystal display device.

** Explanation of symbols for main parts of drawings **

4: pixel 14a, 14b: upper and lower substrates

16: liquid crystal 18a, 18b, 18c, 18d: transparent electrode

20a, 20b: alignment layer 22: diffuse reflection plate

24, 50: color filter 26: retardation film

28: polarizer 30: reflective color liquid crystal display device

50: polymer dispersed liquid crystal color filter

52: polymer dispersed liquid crystal 54: polymer

EMBODIMENT OF THE INVENTION The structure of this invention is demonstrated in detail with reference to attached drawing. For reference, prior to describing the present invention for the configuration that is consistent with the parts cited in the prior art will be referred to the prior reference numerals as it is.

FIG. 1 is a cross-sectional view of a reflective color liquid crystal display device 30 in which the color filter is installed to help understand the color filter according to the present invention.

The upper substrate 14a and the lower substrate 14b defining the injection space of the liquid crystal 16 are usually made of glass or plastic film, and the transparent electrode 18a and the upper substrate 14a are in contact with the liquid crystal 16. The alignment layer 20a is formed. A polarizing plate 28 is provided on the outer surface of the upper substrate 14a to direct the incident light, and the retardation film 26 is additionally attached as shown in the drawing to compensate for the phase difference.

A polymer dispersed liquid crystal color filter 50 according to the present invention is installed at a portion where the lower substrate 14b contacts the liquid crystal 16, and a transparent electrode 18b and an alignment layer 20b are formed on the color filter 50. It is.

Polymer dispersed liquid crystal is a liquid crystal capable of displaying information in the form of scattering or absorption in response to a voltage applied from the outside by forming fine liquid crystal droplets in the matrix of the polymer material. It is produced by mixing. The characteristic of the polymer dispersed liquid crystal is that the liquid crystals in the droplets are arranged in an arbitrary direction when no external voltage is applied, and light is scattered irregularly and when a voltage is applied from the outside, the liquid crystals in the droplets are oriented along the direction of the voltage. do.

2 is an enlarged cross-sectional view of the color filter 50 coated with the polymer dispersed liquid crystal 52.

Referring to the drawings, after the ultraviolet rays are irradiated around each pixel 4, the liquid crystals 52 in which the phase separation is formed in the polymer 54 are distributed, and the liquid crystals 52 in the polymer 54 have a uniform directionality. It is largely chaotic without. A black matrix 8 is formed between the pixels 4 to block leakage light.

When light is incident on the polymer dispersed liquid crystal 52, since the effective refractive indices of the liquid crystal are different and the refractive indices of the polymer 54 are different, the incident light is randomly refracted and scattered. Is transmitted and some are reflected.

Increasing the ratio of the liquid crystal 52 increases the scattering of light, thereby increasing the reflectance. On the contrary, when the ratio of the liquid crystal 52 is lowered, the scattering effect decreases, thereby decreasing the reflectance.

When the electric field is applied to the above-described polymer dispersed liquid crystal 52, the liquid crystals 52 have a property of aligning along the direction of the electric field so that all incident light may be transmitted. In view of these properties, when transparent electrodes are formed on both sides of the color filter 50 to apply an electric field to the polymer dispersed liquid crystal color filter 50 of the present invention, a clear image quality can be realized even in a transmission mode using a backlight. The transflective liquid crystal display device may be manufactured.

Hereinafter, a method of manufacturing the polymer dispersed liquid crystal color filter 50 will be described.

The liquid crystal to be mixed is mixed with the polymer with a pigment which is a color filter composition. The liquid crystal uses a nematic liquid crystal that can be commercially mixed with UV CURABLE MONOMER or PREPOLYMER. The mixed liquid crystal and the pigment are applied together with the photosensitive agent by the photoresist method.

After application, ultraviolet rays are irradiated as a means for curing. As the MONOMER or PREPOLYMER is polymerized by the ultraviolet rays, phase separation of the liquid crystal and the polymer starts. In this process, the liquid crystal has an arbitrary arrangement and has a refractive index different from that of the polymer and the PR (PHOTO RESIST). When light is incident on the liquid crystal, light is scattered and reflected by an uneven refractive index while passing through the liquid crystal.

As a method of determining the desired reflectance in the above-described manufacturing process, the ratio of the liquid crystals to be mixed can be basically adjusted, and the factors such as the intensity, time, and temperature of the ultraviolet light can be determined.

Also T T_ni It is also possible to manufacture a color filter or a liquid crystal display device in which the scattering function varies depending on the temperature through adjustment.

When the color filter of the reflective color liquid crystal display device is manufactured in the above-described configuration, the reflection efficiency can be improved since the color filter itself has a diffusion function without installing a separate diffusion film, a diffusion layer or a reflection plate having irregularities on the surface. . In addition, it is possible to adjust the scattering degree and reflectance through the mixing ratio of the liquid crystal and the photosensitizer, ultraviolet intensity and time, temperature control, etc., thereby manufacturing color filters in various modes.

When the reflective color liquid crystal display device is manufactured in the above-described configuration, the reflection efficiency can be improved since the color filter itself has a diffusion function without installing a separate diffusion film, a diffusion layer or a reflection plate having irregularities on the surface.

In addition, it is possible to adjust the scattering degree and reflectance through the mixing ratio of the liquid crystal and the color PR, ultraviolet intensity and time, temperature control, etc., thereby manufacturing a color filter in various modes.

Claims (4)

In the color filter of the reflective color liquid crystal display device, Liquid crystals that are phase-separated by ultraviolet curing in the pixel of the color filter include polymer dispersed liquid crystals distributed in a polymer, and may scatter or reflect light incident through the reflective color liquid crystal display device. Color filter of a reflective color liquid crystal display device. delete Preparation of a reflective color liquid crystal display device color filter comprising mixing a pigment, a liquid crystal and a polymer as a filter composition in a predetermined ratio, applying the mixture with a photosensitive agent (PR), and curing by irradiating ultraviolet rays As a method, In manufacturing the color filter of the reflective color liquid crystal display device, the reflectance of light can be controlled by adjusting the mixing ratio of the liquid crystal and the photosensitive agent, ultraviolet irradiation intensity, ultraviolet irradiation time and temperature at least. Color filter manufacturing method. delete