KR19980060823A - Color liquid crystal display device - Google Patents

Abstract

A liquid crystal display device employing a color filter is disclosed. According to the characteristics of the disclosed color liquid crystal display device, the brightness of the color image can be improved by interposing a hologram layer between the color filter layer and the electrode layer in order to increase the linearity of the diagonal light in the cell of the device. It is.

Description

Color liquid crystal display device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device employing a color filter, and more particularly to a reflective color liquid crystal display device having a high light reflection efficiency using a hologram layer.

In general, a color display method of a liquid crystal display device may include an electrically controlled birefringence mode (ECB mode), a mono color mode, a multicolor mode, and the like.

In general, an indirect color type liquid crystal display device has a DAP (formation of vertically aligned phase) type in which liquid crystal molecules are vertically aligned on a substrate surface, and a homogeneous type and liquid crystal molecules in which liquid crystal molecules are parallel aligned on a substrate surface. One side is vertically processed, and the other side is hybridized.

In addition, the mono color method uses a scattering effect of light appearing when an electric field is applied to the liquid crystal molecules, and includes a DSM method, a GH mode, a guest host mode, and a twist nematic mode.

In addition, the multi-color method includes a three-color GH cell stacking method, a micro color filter method, a projection method, and a field sequential method. Here, the micro color filter method is a method of displaying a color by attaching a micro filter of red, green, blue, magenta, cyan or yellow light having a single layer or multilayer structure to a liquid crystal display device. The conventional micro color filter can be formed in a multilayer structure and a single layer structure according to a manufacturing method, and the single layer structure has a continuous type and a separate type.

1 is a vertical cross-sectional structural view schematically showing an example of a reflective liquid crystal display device employing a conventional simple structure-separated micro color filter. Referring to this, the front substrate is spaced apart at regular intervals so as to face each other. Polarizing plates 120 and 220 are disposed on the outward surfaces of the 110 and rear substrate 210, respectively, and the color formed by exposing red, green, and blue three-colored light to regions on the inward surface of the rear substrate 210. The filter 230 is disposed. In addition, a stripe electrode 140 is disposed on an inward surface of the front substrate 110, and is arranged to be orthogonal to the electrode 140 to correspond to three colors of light on the color filter 230 so as to form an XY matrix. The stripe-shaped electrode 240 formed is provided. Each of the electrodes 140 and 240 may include a liquid crystal layer 100 that is covered by the alignment layers 150 and 250 and is injected to be sealed by the seal member 101 therebetween. Reference numeral 260 denotes a reflecting plate disposed in the reflective liquid crystal display element, unlike the transmissive liquid crystal display element.

In the conventional color liquid crystal display device having the above structure, the pixels are separated into red (R), green (G), and blue (B), and in particular, the resolution of the reflection is low due to the low degree of reflection of the diagonal light.

The technical problem to be achieved by the present invention is to improve the conventional problems as described above, the present invention is to provide a color liquid crystal display device that can be improved to bend the image by increasing the reflection efficiency for the diagonal light have.

1 is a schematic vertical cross-sectional view showing an example of a liquid crystal display device employing a conventional color filter;

2 is a schematic vertical cross-sectional view showing a liquid crystal display device employing a color filter according to the present invention; and

3 is an explanatory diagram shown for explaining the operation of the hologram layer employed in the liquid crystal display device according to the present invention.

Explanation of symbols for main parts of the drawings

100. Liquid crystal 101 Seal member

110. Front substrate 120. Polarizing plate

140. First electrode 150. Orientation film

220..Rear substrate 230..Color filter

240. Second electrode 250. Alignment film

260..Reflective plate 300..Hologram layer

In order to achieve the above object, a color liquid crystal display device according to the present invention includes a front substrate and a rear substrate disposed to face each other at regular intervals, and a polarizing plate disposed on an outer surface of the front substrate and the rear substrate, respectively, A color filter disposed on an inward surface of the rear substrate, a stripe-shaped first electrode provided on an inward surface of the front substrate, a stripe-shaped second electrode disposed corresponding to the color filter so as to cross each other; In a color liquid crystal display device comprising an alignment film formed on opposite surfaces of the front substrate and the rear substrate to cover the first electrode, the second electrode and the color filter, and a liquid crystal layer injected between the alignment layers, respectively. ,

A hologram layer is provided between the color filter and the second electrode to reflect oblique light as straight light.

Hereinafter, a color liquid crystal display device according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a schematic vertical cross-sectional view showing a liquid crystal display device employing a color filter according to the present invention. Referring to this, the color liquid crystal display device according to the present invention is spaced apart from each other at regular intervals to face the front substrate 110 and the rear substrate. Polarizers 120 and 220 are disposed on the outward surfaces of 210, respectively, and color filters 230 formed by exposing red, green, and blue three-colored light are provided on the inward surfaces of the rear substrate 230. It is. In addition, a stripe-shaped first electrode 140 is provided on an inward surface of the front substrate 110, and the color filter 230 reflects oblique light as straight light, that is, to suppress scattering of light. The stripe-shaped second electrode stacked on the hologram layer 300 in a state in which the hologram layer 300 and the three color light of the color filter 230 are respectively disposed to intersect with the first electrode 140. 240). In addition, the liquid crystal injected between the alignment layer 150 and 250 formed to cover the first electrode 140, the second electrode 240, and the hologram layer 300, and is sealed by the seal member 101. It comprises 100.

In the knife liquid crystal display device according to the present invention, the hologram layer 300 is a component that characterizes the present invention, as shown in FIG. By suppressing the function to increase the light reflection efficiency. As a result, in the color liquid crystal display device according to the present invention having the above-described configuration, since the oblique light is reflected by the hologram layer into the straight light, the color image luminance in the constant field is particularly improved.

As described above, the color liquid crystal display device according to the present invention improves the light reflection efficiency by reflecting oblique light to the straight light by the hologram layer, thereby improving the brightness of the color image, in particular, the color image brightness in the right field of view. Can be.

Claims (1)

A front substrate and a rear substrate disposed to face each other at regular intervals, a polarizing plate disposed on an outer surface of the front substrate and a rear substrate, a color filter disposed on an inward surface of the rear substrate, and a A stripe-shaped first electrode provided on an inward surface, a stripe-shaped second electrode disposed corresponding to the color filter so as to intersect with the first electrode, and covering the first electrode, the second electrode and the color filter; In the color liquid crystal display element comprising an alignment film formed on opposite surfaces of the front substrate and the back substrate, and a liquid crystal injected between the alignment films, A hologram layer is provided between the color filter and the second electrode to reflect oblique light as straight light.