JPS63144041A - Display panel - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to display panels such as liquid crystal, EL, plasma, LED, EC, etc., and particularly to a liquid crystal display panel using a molded polymer as a substrate for sandwiching liquid crystal. It is something.

Currently, display panels using liquid crystals are used in displays for small electronic devices such as watches, calculators, and electronic games. It can be used as a small information device such as a pocket TV, a portable hand belt computer terminal, and even an automobile instrument panel.
It is widely used in various exhibition panels, and the possibility of large-screen wall-mounted TVs in the future is also suggested. The liquid crystal display panel of the present invention has the possibility of being used as a wide variety of these liquid crystal display panels.

[Summary of the invention]

The present invention provides 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 two upper and lower substrates, the polymer molded product being an epoxy resin molded product, In addition, by regulating the thickness of the epoxy resin molding, it is possible to realize display functions equivalent to those of conventional liquid crystal display panels using glass as a substrate.

[Conventional technology]

In general, glass, which is a non-quality inorganic material, is used as a material for a substrate on which a transparent conductive thin film is provided in a liquid crystal display panel. This is because glass has good optical transparency and has no birefringence, making it the most suitable substrate for display panels. Furthermore, it has excellent chemical and physical properties such as chemical resistance and heat resistance, making it relatively easy to design the manufacturing process for liquid crystal display panels.

Furthermore, panels using plastic materials as substrates, which were developed for the purpose of making liquid crystal display panels thinner and more flexible, have recently become commonplace. The plastic materials used in this plastic liquid crystal display panel are specified in the following patents: JP-A-55-17135 discloses polyether sulfone and polysulfone. Polyester in JP-A-55-35325. JP-A-56-11436 discloses polyacrylonitrile, polycarbonate, polypropylene, polyethylene, and cellulose acetate. Japanese Patent Publication No. 58-21230
to polymethylpentene. JP-A-57-54920 discloses polybutylene terephthalate and the like. In all of these inventions, a transparent conductive thin film is provided on the surface of a film-like or meat-like plastic substrate, and the film is used as a substrate for a liquid crystal display panel. The thickness of the film-like or sheet-like plastic substrate is generally 0.05 to 0.0.
2 mm, and there are no particular limitations or regulations regarding the thickness. Among this series of plastic liquid crystal panel inventions, the one currently on the market is a panel using polyether sulfone as a substrate, and the thickness of the substrate is 0.1
It was millimeters.

When glass is used as the substrate material, the thickness limit is 0.3
It is said that the thickness of a liquid crystal display panel using polyether sulfone as a substrate material has been successfully reduced in thickness to 0.4 mm due to the thickness of the substrate alone.

[Problem that the invention seeks to solve]

However, liquid crystal display panels with glass as a substrate are weak at lN5m and weak for photographing (there was a risk of the glass substrate material breaking.Also, the specific gravity of glass is large and it is difficult to reduce the weight of liquid crystal display panels). The two properties of impact resistance and weight reduction are contradictory as long as glass is used as a substrate, and if the glass substrate is made thinner to reduce weight, there is a problem that the impact resistance will be weakened. ing.

This point can be improved by using plastic materials as substrate materials for LCD panels, but LCD panels that use film- or sheet-shaped plastic substrates require manufacturing methods compared to LCD panels that use glass substrates. There were technical and economic problems in that this required the development and production of completely new manufacturing equipment. Furthermore, it is difficult to obtain a uniform cell gap in liquid crystal display panels manufactured using film or sheet substrates, and even if a uniform cell gap is achieved, a small amount of pressure on the panel surface causes There is a problem that the cell gap fluctuates and the display quality deteriorates.

(Means for Solving the Problems) In order to eliminate these conventional drawbacks, the present invention uses a transparent epoxy substrate with excellent transparency and no birefringence as a substrate of a liquid crystal display panel.

When selecting the substrate material, it is necessary to consider not only the transmittance and birefringence, which are the basic characteristics of the LCD panel substrate, but also the heat resistance and chemical resistance required in the manufacturing process of the LCD panel. It is. Furthermore, from an economical point of view, it is necessary to use a plate-type substrate equivalent to glass, rather than a film-like substrate, so that the current manufacturing equipment for liquid crystal display panels using glass substrates can be used as is.

From these viewpoints, various plastic materials shown in Table 1 were compared and studied. Among the plastic materials shown in Table 1, transparent epoxy resins and acrylic resins are plate-type materials that are the focus of the present invention, including PET (polyethylene terephthalate), PE5 (polyethersulfone), PS (polysulfone), PEEK (polyetheretherketone) is a film-like material that is attracting attention as an engineering plastic. PES, which is currently used as a substrate for plastic film LCD panels, has excellent physical and chemical properties, but as mentioned earlier, it is difficult to manufacture it compared to LCD panels using conventional glass substrates.・There was an economic problem in that the equipment was completely new and the material price was relatively high compared to glass materials. On the other hand, by using a plate type transparent epoxy resin as the substrate of the liquid crystal panel, it becomes possible to use conventional liquid crystal panel manufacturing equipment as is. Regarding the performance of the transparent epoxy resin as a substrate, as shown in Table 1, the optical properties such as transparency and birefringence are satisfactory, and the chemical resistance is sufficient to withstand the liquid crystal panel manufacturing process.

Although the heat resistance is rather low at 135° C., it is possible to manufacture liquid crystal panels by selecting alignment materials and sealing materials that can be processed at low temperatures.

〔Example〕

Hereinafter, the present invention will be explained in detail with reference to the drawings.

The figure is a 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 in this example, a plate-like one with a thickness of 1.0 mm was used, but compared to a glass substrate of the same thickness, the specific gravity is about 2.
Since the weight is 1/2, it is possible to reduce the weight of ffi&'t by about 50%. The plate thickness is 0.5 tm
If the above is the case, conventional liquid crystal panel manufacturing equipment can be used, and mechanical strength can also be maintained. 2 is a transparent electrode, which is an indium oxide electrode attached to the transparent epoxy substrate of 1 by low-temperature sputtering. Display patterning can satisfy the heat resistance and chemical resistance of transparent epoxy resin by using Positive Resist 0FPR manufactured by Tokyo Ohka. 3 in the figure is a polyimide alignment film for low-temperature firing, and HL1100 manufactured by Hitachi Chemical was used.

After firing at 130° C. for 2 hours, rubbing orientation was performed. 4 in the figure is a conventional nematic liquid crystal. 5 can be easily sealed by using an epoxy resin sealant of the same type as the transparent epoxy resin substrate 1 above.

〔Effect of the invention〕

Plastic panels using the materials and methods described above can achieve display quality equivalent to that of conventional glass substrates, so
It is approximately 30% lighter than glass substrate panels and has excellent impact resistance.

Furthermore, compared to panels using plastic film as a substrate, it is more economical because conventional manufacturing equipment for glass substrate panels can be used as is. When pressure is applied from the top of the liquid crystal panel, plastic film panels tend to fluctuate the cell gap and cause display disturbances, but the plate-type plastic panel of the present invention has pressure resistance equivalent to that of glass substrate panels. was able to obtain.

[Brief explanation of the drawing]

The figure is a sectional view of a plastic panel using the transparent epoxy resin substrate of the present invention. 1...Plastic substrate 2...Transparent electrode 3...
Orientation II 4...Liquid crystal 5...Sealing material applicant Seiko Electronic Industries Co., Ltd. agent Patent attorney Tsutomu Mogami (and 1 other person) ℃ Kono

Claims (2)

[Claims] (1) In a display panel whose substrate is a polymer molded product provided with a transparent conductive thin film of either indium oxide, tin oxide, or a mixture of both, it is important to note that the polymer molded product is an epoxy resin molded product. Features a display panel. (2) The display panel according to claim 1, wherein the thickness of the epoxy resin molded product is t≧0.5 mm.