JPH0818394B2 - Display panel - Google Patents

Description

The present invention relates to a display panel for liquid crystal, EL, plasma, LED, EC, etc., and more particularly to a liquid crystal display panel using a polymer molding as a substrate for holding the liquid crystal. It is a thing.

Currently, display panels using liquid crystal etc. are watches, calculators,
Starting with displays for small electronic devices such as electronic games. Small information devices such as pocket TVs, terminals for portable handheld computers, automobile instrument panels,
It is used extensively in various display panels, and the possibility of a large-screen wall-mounted television in the future is also suggested. The liquid crystal display panel of the present invention has a possibility of being used as these various kinds of liquid crystal display panels.

[Outline of Invention]

The present invention is a liquid crystal display panel in which a polymer molded product provided with a transparent conductive thin film is used as a substrate, and a liquid crystal is sandwiched between the upper and lower two substrates, and the polymer molded product is an epoxy resin molded product, In addition, by controlling the thickness of the epoxy resin molding, it is possible to realize a display function equivalent to that of a conventional liquid crystal display panel using glass as a substrate.

[Conventional technology]

In general, glass, which is an amorphous inorganic material, is used as the material of the substrate provided with the transparent conductive thin film in the liquid crystal display panel. This is because glass is the most excellent as a substrate for a display panel because it has extremely excellent optical transparency and no birefringence. Furthermore, the design of the manufacturing process of the liquid crystal display panel is made relatively easy because it has excellent chemical and physical properties such as chemical resistance and heat resistance.

Further, in recent years, a panel using a plastic material as a substrate, which has been developed for the purpose of making the liquid crystal display panel thin and flexible, has come to be seen. The plastic materials used in this plastic liquid crystal display panel are specified in the following patents. Polyether sulfone and polysulfone in JP-A-55-17135. Polyester in JP-A-55-35325. JP-A-56-11436 discloses polyacrylonitrile, polycarbonate, polypropylene, polyethylene and cellulose acetate. JP-A-58-21230 discloses polymethylpentene. JP-A-57-54920 includes polybutylene terephthalate and the like. In each of these inventions, a transparent conductive thin film is provided on the film-shaped or meat-shaped plastic substrate surface,
It is used as a substrate of a liquid crystal display panel. The thickness of the film-shaped or sheet-shaped plastic substrate is generally 0.05 to 0.2 mm, and the thickness is not particularly limited or restricted. Among the series of inventions of plastic liquid crystal panels, the one currently on the market is a panel using a polyether sulfone as a substrate, and the thickness of the substrate is 0.1 mm. When glass is used as the substrate material, the thickness limit is said to be 0.3 mm, so that a liquid crystal display panel using the polyether sulfone as the substrate material has a thickness of only 0.
It has succeeded in reducing the thickness to 4 mm.

[Problems to be solved by the invention]

However, in a liquid crystal display panel using glass as a substrate, there is a risk that the glass, which is a substrate material, is vulnerable to shock and vibration. Further, even if the specific gravity of glass is large and the weight is heavy, there is a limit in reducing the weight of the liquid crystal display panel. The two characteristics of impact resistance and weight reduction are contradictory as long as glass is used as the substrate, and there is a problem that if the glass substrate is made thin for weight reduction, the impact resistance is weakened.

This point can be improved by using a plastic material as a substrate material for a liquid crystal display panel. However, a liquid crystal display panel using a film-shaped or sheet-shaped plastic substrate has a manufacturing method more than that of a glass substrate liquid crystal display panel. It changed drastically, and there was a technical and economic problem that a completely new manufacturing facility had to be developed and manufactured. Moreover, it is difficult to obtain a uniform cell gap in a liquid crystal display panel manufactured by using a film-shaped or sheet-shaped substrate, and even if a uniform cell gap is realized, a small pressure is applied to the panel surface. There is a problem that the cell gap fluctuates and the display quality deteriorates.

[Means for solving problems]

In order to eliminate these conventional drawbacks, the present invention uses a transparent epoxy substrate having excellent transparency and no birefringence as a substrate for a liquid crystal display panel.

When selecting the substrate material, in addition to the basic characteristics of the liquid crystal display panel substrate, such as transmittance and birefringence, it is necessary to consider the heat resistance and chemical resistance required in the manufacturing process of the liquid crystal display panel. is there. Further, from the economical point of view that the liquid crystal display panel manufacturing equipment using the current glass substrate can be used as it is, it is necessary to use not a film substrate but a plate type substrate equivalent to glass.

From these viewpoints, various plastic materials shown in Table 1 were comparatively examined. Shown in Table-1 Among the plastic materials, transparent epoxy resin and acrylic resin are plate type materials to which the present invention is focused, and PET (polyethylene terephthalate), PES (polyether sulfone), PS (polysulfone), PEEK (polyether ether ketone). ) Is a material that is attracting attention as an engineering plastic and is in the form of a film. PES, which is currently used as a substrate for liquid crystal panel of plastic film, has excellent physical and chemical properties, but as mentioned earlier, it is a manufacturing technology compared to the liquid crystal panel using the conventional glass substrate.・ There was an economical problem that the price of the material was higher than that of glass material, as well as the development of new equipment. On the other hand, by using the plate type transparent epoxy resin as the substrate of the liquid crystal panel, it becomes possible to use the conventional equipment for manufacturing the liquid crystal panel as it is. Regarding the performance of the transparent epoxy resin as a substrate, the optical characteristics such as transparency and birefringence are satisfactory as shown in Table 1, and the chemical resistance is sufficient to withstand the liquid crystal panel manufacturing process. Although it has a slightly low heat resistance of 135 ° C, liquid crystal panels can be manufactured by selecting an alignment material and a sealing material that can be processed at a low temperature.

〔Example〕

Embodiments of the present invention will be described below with reference to the drawings. The figure is a cross-sectional view of a plastic liquid crystal panel using the transparent epoxy resin substrate of the present invention. In the figure, reference numeral 1 denotes a transparent epoxy resin substrate, and a plate-shaped substrate having a thickness of 1.0 mm is used in this embodiment.
Therefore, the weight can be reduced by about 50%. If the plate thickness is 0.5 mm or more, the conventional liquid crystal panel manufacturing equipment can be used and the mechanical strength can be maintained. Reference numeral 2 denotes a transparent electrode, which is obtained by attaching an indium oxide electrode by low temperature sputtering to the transparent epoxy substrate of the above 1. Display patterning is Tokyo Ohka positive resist
By using OFPR, the heat resistance and chemical resistance of the transparent epoxy resin can be satisfied. In the figure, 3 is a polyimide alignment film for low temperature firing, and HL1100 manufactured by Hitachi Chemical was used. After the firing condition was 130 ° C. for 2 hours, rubbing orientation was performed. In the figure, 4 is a conventional nematic liquid crystal. 5 can be easily sealed by using an epoxy resin sealant of the same system as the transparent epoxy resin substrate of 1.

〔The invention's effect〕

The plastic panel using the materials and methods as described above can obtain a display quality equivalent to that of a conventional glass substrate, and thus can be reduced in weight by about 30% as compared with a glass substrate panel and has excellent impact resistance. Further, as compared with a panel using a plastic film as a substrate, the manufacturing facility for a conventional glass substrate panel can be used as it is, which is economical. When pressure was applied from the upper surface of the liquid crystal panel, the plastic film panel was likely to cause cell gap fluctuations and display disorder, but the plate-type plastic panel of the present invention has a pressure resistance equivalent to that of a glass substrate panel. I was able to get

[Brief description of drawings]

The figure is a cross-sectional view of a plastic panel using the transparent epoxy resin substrate of the present invention. 1 ... Plastic substrate, 2 ... Transparent electrode 3 ... Alignment film, 4 ... Liquid crystal 5 ... Sealing material

 ─────────────────────────────────────────────────── --Continued from the front page (56) Reference JP-A-61-79647 (JP, A) JP-A-59-214183 (JP, A) JP-A-57-174240 (JP, A) JP-A-56- 164851 (JP, A) “Epoxy Resin” edited by Kuniyuki Hashimoto Nikkan Kogyo Shinbun (October 10, 1979) Page 17

Claims (1)

[Claims] 1. A display device using as a substrate a polymer molding provided with a transparent conductive thin film of any one of indium oxide, tin oxide or a mixture of both, wherein the polymer molding is epoxy resin molding. A display device, which is a resin molded product, wherein a thickness t of the epoxy resin molded product is t ≧ 0.5 mm.