JPH021A - Color filter - 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 a color filter. More specifically, the present invention relates to a color filter for obtaining a color display when applied to an electro-optical device using a liquid crystal or the like.

[Conventional technology]

Traditionally, this type of color filter has been manufactured by screen printing red, green, and blue dyes on the electrodes of the display panel to form a colored layer, or by using a photolithography process as shown in Figure 1. I also set up a.

[Problem to be solved by the invention]

However, although the former method is relatively simple to manufacture, it has the disadvantage of making it difficult to form fine patterns, while the latter method uses photolithography, which makes it easy to form fine patterns but requires high manufacturing costs. It requires four steps, and as the pattern becomes finer, more accurate pattern alignment is required, making manufacturing difficult and resulting in high costs. Furthermore, there is a problem in that color unevenness occurs due to misalignment of each colored layer and non-uniform thickness.

The present invention has been made to solve these drawbacks, and its purpose is to obtain at a low cost a color filter in which each colored layer has a uniform thickness and is free from color unevenness.

[Means to solve problems]

The color filter of the present invention comprises an electroconductive transparent thin film layer formed on a substrate, an electroconductive transparent thin film layer formed on the conductive substrate, and an electrodeposition coating formed on the electroconductive transparent thin film layer. (2) Example characterized by having a colored layer consisting of a film] Examples will be described in detail below.

2 and 3 show an embodiment of the present invention, in which In, 03, I
A strip-shaped electrode 11 is formed using a conductive transparent thin film such as TO (I nz 03 + S n O It is immersed in the electrodeposition paint 13 and an electric field is applied between it and the counter electrode 14 to flow a direct current.

Electrodeposition! ! ! There are anionic and cationic electrodeposition coatings, and depending on the method, positive polarity (anionic electrodeposition coating) or negative polarity (cationic electrodeposition coating) is applied to the object to be coated.

When an electric field is applied, the resin dissolved or dispersed in the electrodepositing paint is electrically charged and moves toward the object to be coated, causing hydrogen ions and metal spread from the anode to form near the object to be coated (i.e., the electrode 11). It reacts with ions (in the case of anionic electrodeposition coating) or hydroxyl group ions (in the case of cationic electrodeposition coating), becomes insoluble in water, and precipitates on the object to be coated. (FIG. 3 15) Next, the substrate 10 is lifted out of the bathtub 16, the water-soluble thin layer adhering to the surface is washed with water, and then the lead wires 12 are connected to selected electrodes 11 which have not been painted. Other colors are applied by dipping into electrodeposition coatings containing different pigments.

By repeating the above steps, a multicolored paint layer is electrodeposited on each electrode, heated to form a crosslinked coating film, and then a protective film layer is formed to complete the color filter.

According to the method of this embodiment, it is necessary to apply an electric field to the electrode in order to deposit the paint on the electrode, and the paint will not be deposited on other electrodes to which no electric field is applied. Therefore, a color filter with a fine pattern can be obtained by simply making the electrode pattern finer, and there is no need to perform a photolithography process as in the conventional example, making manufacturing easier and lowering costs.

In addition, the deposited paint has electrical resistance, and as the paint film becomes thicker, the current will flow more easily, and the increase in film thickness will be automatically suppressed. In this case, the color becomes uniform and less uneven color occurs.

In the above embodiment, a striped electrode was described, but the present invention can be applied as long as each electrode can be selected independently. For example, in the case of an active matrix method in which a switching element such as TPT is connected to each pixel electrode, the present invention can be applied. A filter layer of any color can be provided on each pixel electrode.

〔Effect of the invention〕

As described above, according to the present invention, the colored layer formed on the conductive transparent thin film layer is formed of an electrodeposition coating, so that the thickness of the colored layer is extremely uniform. Therefore, a color filter without color unevenness within the same substrate can be obtained. Furthermore, since it is an electrodeposition coating, it can be applied to substrates where the conductive transparent film layer has an uneven surface, and it also has the excellent effect of being able to be used as a color filter for high-density display elements. have.

[Brief explanation of the drawing]

FIGS. 1(6) to 1(e) are diagrams showing the manufacturing process of a conventional color filter. 1...Glass substrate 2...Transparent electrode 3...Animal protein (glue, gelatin, etc.) 4
．． 5...Photomask 6...Photoresist 7...Dye 8...Protective layer FIGS. 2 and 3 are diagrams showing an embodiment of the present invention. 10...-Transparent substrate 11...Electrode 12...Lead wire 13-...Electrodeposition paint 14-...Counter electrode 15...Electrodeposited coating film 16...Bathtub VV Figure 1 Figure 2 Figure 3

Claims (1)

[Claims] 1. A color filter comprising: a conductive transparent thin film layer formed on a substrate; and a colored layer made of an electrodeposition coating film formed on the conductive thin film layer.