JPH0394230A - Liquid crystal panel - Google Patents

Abstract

PURPOSE:To eliminate the possibility of deterioration in display quality and to improve the production yield by arranging spacers in areas facing areas between picture element electrodes on a transparent substrate in a top coat film covering the opposite transparent substrate. CONSTITUTION:Many spherical spacers 24 are arranged in the areas of the top coat film 23 facing the areas between the respective picture element electrodes 12 of the electrode transparent substrate 11 in the top coat film 23 covering the opposite transparent substrate 21. Then the spacers 24 are made to abut on an orienting film 16 on the other electrode transparent substrate 11 to prescribed the gap between both the transparent substrates 11 and 21 with the spacers 24 and a liquid crystal phase 30 is injected into the gap between both the transparent substrates 11 and 21 which is prescribed with the spacers 14. Consequently, the liquid crystal panel with superior display quality is obtained and the spacers do not gather in a display picture area to generate a display defect, and the production yield is improved.

Description

Detailed Description of the Invention (Field of Industrial Application) The present invention relates to a liquid crystal panel of a liquid crystal display device used as a display section of office equipment, automobiles, home appliances, etc. The present invention relates to a liquid crystal panel provided with a light shielding film.

(Prior art) Liquid crystal display devices, which are driven at low voltage and consume less power, are used as display parts in office equipment, automobiles, etc. In liquid crystal display devices, a liquid crystal phase is sealed between a pair of transparent substrates. In this liquid crystal panel, the gap between both transparent substrates is made constant in order to keep the thickness of the liquid crystal phase sealed between each transparent substrate constant.Gap between both transparent substrates is usually set by interposing a large number of spherical spacers with a diameter of about 5μ1 between both transparent substrates.

The spacers are made of glass fibers, plastic beads, etc., and each spacer is arranged on the surface of one transparent substrate on the liquid crystal phase side.
The other transparent substrate is brought into contact.

Each spacer is uniformly sprayed over one surface of the transparent substrate, either by directly spraying it on one transparent substrate, or by mixing it with a fluorocarbon solvent solution and spraying it into the air on which the transparent substrate is placed. has been done.

(Problems to be Solved by the Invention) In the liquid crystal panel manufactured in this manner, spacers are provided not only between display pixel regions but also within the display pixel regions. Spacers arranged in both display pixel areas have the problem of disturbing the orientation of the liquid crystal phase near the spacers, or causing light scattering due to refraction of light by the spacers, resulting in a significant deterioration of display quality. . In addition, if a large number of spacers concentrate in a display pixel area, light will not be able to pass through the display pixel area at all times, resulting in a display defect.
There is also the problem that it cannot be used as a liquid crystal panel, and as a result, the production yield of liquid crystal panels decreases.

The present invention solves the above-mentioned conventional problems, and its purpose is to provide a liquid crystal panel that is free from the risk of deterioration in display quality and can improve production yield.

(Means for Solving the Problems) The liquid crystal panel of the present invention includes an electrode transparent substrate on which a large number of pixel electrodes are independently arranged on one surface, and electrode transparent substrates arranged with appropriate gaps between them. A liquid crystal panel having a facing transparent substrate and a liquid crystal phase sealed between both the transparent substrates, a Tonop coat film disposed so as to cover the entire surface of the facing transparent substrate on the liquid crystal phase side, and the electrode transparent substrate. is located in a region within the top coat film facing the region between each pixel electrode, and is disposed so as to protrude from the top coat film, and defines a gap between the opposing transparent substrate and the electrode transparent substrate. A large number of spacers are provided, thereby achieving the above object.

(Example) The present invention will be described below with reference to Examples.

FIG. 1 is a cross-sectional view of a portion of the liquid crystal panel of the present invention.

In this liquid crystal panel, a liquid crystal phase 30 is sealed between an electrode transparent substrate 11 and a counter transparent substrate 2l.

A large number of transparent pixel electrodes 12 are arranged in a matrix on one surface of one electrode transparent substrate 1l of the liquid crystal panel, and each pixel electrode 12 is arranged in a display pixel area. It has become. Between each pixel electrode lz is a wiring 13 for supplying current to each pixel electrode l2.
are provided in an orthogonal state along the respective arrangement directions of the pixel electrodes 12 that are orthogonal to each other. Switching elements such as TPTs for controlling the supply of current to each pixel electrode 12 are arranged near the intersections of the interconnections 13 that are orthogonal to each other.

Each wiring l3 and switching element arranged between each pixel electrode 12 is covered with a light shielding film 15, and therefore, the light shielding film l5 covers between each pixel electrode lz. The light-shielding film 15 is made of, for example, a photosensitive polymer containing a black pigment, and is designed not to transmit light.

Each pixel electrode 12 and the light shielding film IS are covered with an alignment film 16.

A counter transparent substrate 2l disposed opposite to such an electrode transparent substrate 11 has a similar light shielding film 25 disposed in an area opposite to a region of the electrode transparent substrate 11 where the light shielding film 15 is disposed. has been done. The area between the light shielding films 25 is covered with a color filter 22.
2 and the light shielding film 25 are entirely covered with a top coat film 23. Each pixel electrode 12 of the electrode transparent substrate 1l
A large number of spherical spacers 24 are arranged in the region of the top coat film 23 that faces the region in between.

Each spacer 24 has a diameter (about 5 μm) that is sufficiently larger than the thickness of the top coat film 23, and therefore,
Each spacer 24 is in a state of protruding from the top coat film 23. Each spacer 24 is brought into contact with the alignment film 16 of the other electrode transparent substrate l1, and a gap between both the transparent substrates 11 and 21 is defined by each spacer 24. Each spacer 24 is made of glass fiber, plastic beads, or the like.

Both transparent substrates 1l with a gap defined by each spacer 14
A liquid crystal phase 30 is sealed between and 2l.

In the liquid crystal panel having such a configuration, each spacer 24 is also provided at the same time when the knob foot film 23 on the opposing transparent substrate 2l is provided. Top coat film 23 is provided as follows. As shown in FIG. 2, on the opposing transparent electrode substrate 21 on which the light-shielding film 25 and the color filter 22 are disposed, a top coat film raw material 23 made of, for example, a liquid photosensitive polymer (acrylic type, polyimide type) is coated. , by mixing about 5% by weight of a large number of spherical spacers 24,
Using a subin coater, the entire surface of the light shielding film 25 and color filter 22 provided on the opposing transparent substrate 21 is coated. The opposing transparent substrate 21 shown in FIG. 2 is vertically reversed with respect to the opposing transparent substrate 21 of the liquid crystal panel shown in FIG.

In this state, the top coat film raw material 23° of the opposing transparent substrate 21 is exposed to light from the side opposite to the coating side of the top coat film raw material 23° of the opposing transparent substrate 21. As a result, the area coated on the light-shielding film 25 in the photosensitive top coat film raw material 23° is not exposed by the light-shielding film 25, and only the area coated on the color filter 22 is exposed. Thereafter, when the Tosobu coat film raw material 23° is developed, the exposed portion of the top coat film raw material 23° is peeled off from the color filter 22. Then, the top coat film raw material 23° that has not been peeled off from the color filter 22 is post-baked and hardened, so that the top coat film 23 becomes as shown in FIG.
It is fixed on the light shielding film 25.

In this state, by coating the entire surface of the color filter 22 with the top coat film raw material 23' that does not contain the spacer 24 and curing it, a top coat film 23 that covers the entire color filter 22 and the light shielding film 25 is formed.
is formed, and a large number of spherical spacers 24 are disposed in a region of the top coat film 23 covering the light shielding film 25 so as to protrude from the top coat film 23 (see FIG. 1).

In this way, when the opposing transparent substrate 21 in which the color filter 22, the light shielding film 25, the top foot film 23 and the spacer 24 are arranged is obtained, each pixel electrode 12, the wiring 13
, an electrode transparent substrate II on which switching elements are arranged,
The opposing transparent substrate 21 is coated in a predetermined state so that the alignment film 16 disposed on the electrode transparent substrate 1l and the top coat film (alignment film) 23 disposed on the opposing transparent substrate 21 face each other. They face each other with a gap defined by the spacer 24, and the outer periphery of the gap is sealed. Then, by injecting liquid crystal into the gap, a liquid crystal phase 30 sealed between the electrode transparent substrate l1 and the counter transparent substrate 21 is formed, and the liquid crystal panel of the present invention is manufactured.

In a liquid crystal display device having such a liquid crystal panel, since the portion other than the display pixel area where the pixel electrode l2 is disposed is covered with the light shielding film 15, an image with an excellent contrast ratio can be obtained.

In the above embodiment, the case where the light shielding film 25 is provided on the opposing transparent substrate 2l has been described, but the present invention is not limited to such an embodiment, and the light blocking film 25 is provided on the opposing transparent substrate 2l. The present invention is applicable even if 25 is not provided. When the light-shielding film 25 is not provided on the opposing transparent substrate 2l, the entire surface of the opposing transparent substrate 2l is coated with the color filter 22, and the Tonobu coating film raw material 23' mixed with the spacer 24 is coated with the color filter 22. Fully coated. Then, the Tosobu coat film raw material 23° is exposed using a mask having a pattern similar to the arrangement pattern of the pixel electrodes 12 of the electrode transparent substrate l1.

(Effects of the Invention) In this way, the liquid crystal panel of the present invention has a structure in which each transparent substrate defines a gap between the two transparent substrates in the region facing the region between the pixel electrodes of the electrode transparent substrate in the top coat film covering the opposing transparent substrate. Since the spacers are provided, each spacer does not exist within the display pixel area, and therefore there is no risk that light passing through each display pixel area will be scattered by each spacer. As a result, the liquid crystal panel of the present invention has excellent display quality, and since each spacer does not exist within the display area, each spacer is concentrated within the display pixel area. There is no possibility of display defects occurring, and as a result, production yield is improved.

4. of. What! U Fig. 1 is a partial sectional view of the liquid crystal panel of the present invention, Figs. 2 and 3 are sectional views of the opposing transparent substrate in the manufacturing process of the liquid crystal panel, respectively, and Fig. 4 is a partial sectional view of the opposing transparent substrate shown in Fig. 3. FIG. 3 is a plan view of the substrate.

1l... Electrode transparent substrate, 12... Pixel electrode, 13.
... Wiring, 15... Light shielding film, 16... Alignment film, 21
... Opposing transparent substrate, 22 ... Color filter, 23
...Top coat II, 24-...Spacer, 25.
...Light-shielding film, 30...Liquid crystal phase.

that's all

Claims (1)

[Claims] 1. An electrode transparent substrate on which a large number of pixel electrodes are independently disposed on one surface, an opposing transparent substrate disposed with an appropriate gap from the electrode transparent substrate, and both transparent A liquid crystal panel having a liquid crystal phase sealed between substrates, comprising: a top coat film disposed to cover the entire surface of the opposite transparent substrate on the liquid crystal phase side; and a region between each pixel electrode of the electrode transparent substrate. a plurality of spacers located in a region within the top coat membrane facing the top coat membrane, arranged to protrude from the top coat membrane, and defining a gap between the facing transparent substrate and the electrode transparent substrate; LCD panel.