JPH03246883A - Thin film electroluminescence(el) panel - Google Patents

Abstract

PURPOSE:To reduce the material cost, simplify the process, and obtain a thin and lightweight panel with high contrast without deteriorating the reliability of the thin film EL panel by coating the thin film EL element formed on a translucent substrate with black silicone resin, and covering the black silicone resin with a moisture-proof sheet. CONSTITUTION:After a thin film EL element 1 is formed on a translucent substrate 2, the temperature is raised to the preset temperature in vacuum to perform the degassing of the EL element 1, and the residual moisture is removed to the extent possible. A panel is moved into dry N2 gas or dry air, and black silicone resin 13 is coated or printed to cover the thin EL element 1. When the black silicone resin 13 is hardened, a moisture absorber 14 dehydrated in vacuum is inserted, then a moisture-proof sheet 18 is stuck with epoxy resin 9. The reliability against moisture and picture element breakdown is kept high, the contrast and the appearance of a display face can be improved, the material cost is reduced, the panel can be made thin and lightweight, and the cost is reduced because of the simplified sealing process.

Description

DETAILED DESCRIPTION OF THE INVENTION <Field of Industrial Application> The present invention relates to a thin film EL (electroluminescence) panel used in display devices such as personal computers and word processors.

<Prior Art> As shown in FIG. 2, a conventional thin film EL panel has a lower transparent electrode 3 on a glass substrate 2. Lower insulating layer 4. Light emitting layer 5.
The upper insulating layer 6 and the upper electrode 7 are sequentially formed to produce an EL element, and in order to prevent moisture from entering the EL element, a backing glass 8 is attached to the glass substrate 2 with an epoxy resin adhesive 9. It was pasted together using In order to further deal with moisture and ensure high reliability, silicone oil in which silica gel powder and black powder are dispersed is applied to the EL element through the hole 10 of the backing glass 8 in the space between the backing glass 8 and the backing glass 8. II to give moisture absorption performance, and its hole 1
0 was sealed with Tall Seal 12.

Also known is a structure in which a laminate film is used to prevent moisture from entering the EL element, as disclosed in Japanese Patent Application Laid-Open No. 61-290693.

<Problems to be Solved by the Invention> However, in the former case, the price of silicone oil in which backing glass 8 and ricin gel powder and black powder are dispersed is high, and furthermore, the process of encapsulating silicone oil takes a long time. This has been a major obstacle to reducing the cost of EL panels. In addition, due to the thickness and weight of the backing glass 8 itself, there is a limit to how thin and lightweight this type of thin film EL panel can be made.

On the other hand, in the latter type, no specific consideration was given to the moisture absorbing function of the tanu to ensure high reliability with respect to moisture resistance, and no consideration was given to achieving high contrast.

This invention was made in consideration of the above-mentioned circumstances, and it provides a moisture absorption function without using silicone oil on the inside of a moisture-proof sheet, reduces material costs without sacrificing the reliability of thin-film EL panels, and The aim is to simplify the process, make the panel thinner and lighter, and achieve higher contrast.

Means for Solving the Problems> The structure of the present invention is based on a thin film EL formed on a transparent substrate.
The device is characterized in that the top of the device is coated with black silicone resin, and the black silicone resin is further coated with moisture-proof sorting.

In order to further improve reliability against moisture, it is desirable to arrange a sheet-like moisture absorber between the black silicone resin and the moisture-proof sheet.

The above-mentioned black silicone resin is desirably an addition reaction type that does not generate by-products during the curing reaction, and from the viewpoint of reliability of the EL panel, the hardness of the silicone resin after curing (JI SA ) is preferably 20 or less.

Note that the EL element in this invention is constructed by sequentially laminating a transparent conductive film, a lower insulating film, an EL light emitting layer, an upper insulating film, and a back electrode film on a transparent substrate such as a glass substrate. The structure may be such that one of the above insulating films is absent.

<Function> In the thin film EL panel of the present invention, moisture-proof sorting prevents moisture from entering from the outside. Further, when a sheet-like moisture absorber is arranged inside the moisture-proof sheet, even higher reliability against moisture is ensured. In terms of contrast, since the EL element is coated with black silicone resin, the background of the display surface is black when viewed from the light-transmitting substrate side, and the contrast is good and the display quality is high. Moreover,
Since the black silicone resin adheres closely to the EL element and the thickness of the resin is uniform, the appearance of the panel display surface is also much better than in the past.

In addition, the black silicone resin that is in direct contact with the EL element is of an addition reaction type and does not generate by-products during the curing reaction, and has a low hardness (JIS-A) after curing, making it difficult to apply stress to the EL element. Both of these are increasing the reliability of thin-film EL panels.

As described above, the thin film EL panel of the present invention can achieve high contrast while maintaining sufficient reliability against moisture. At the same time, costs can be reduced in terms of materials by not using backing glass, and at the same time, costs can be reduced by simplifying the process. Furthermore, since no backing glass is used, the thin film EL panel becomes even thinner and lighter.

<Example> Hereinafter, the present invention will be explained in detail with reference to illustrated embodiments.

FIGS. 1(a) and 1(b) show embodiments of this invention,
Components that are the same as those of the conventional example shown in FIG. 2 are given the same reference numerals. FIG. 1(b) differs from that of FIG. 1(a) only in that a sheet-like moisture absorber 14 is arranged in the embodiment of FIG. 1(a).

In FIGS. 1(a) and (b), l is an EL element, and this EL element l is a strip-shaped element arranged parallel to each other at regular intervals on the upper surface of a transparent substrate 2 made of, for example, a glass substrate. a lower transparent electrode 3, a lower insulating layer 4, an EL light emitting layer 5,
It is constructed by sequentially laminating an upper insulating layer 6 and band-shaped upper electrodes 7 arranged in parallel at regular intervals in a direction perpendicular to the lower transparent electrode 3.

13 is black silicone resin. This black silicone resin 13 is coated or printed so as to cover the EL element I. 14 is a sheet-like moisture absorber, such as silica (S
iOy) Composed of non-woven fabric etc. in which fine powder, molecular sieve powder, etc. are dispersed.

I8 is a moisture-proof sheet, and basically, as shown in FIG. 1, a metal foil 16 such as AQ with a thickness of 5 to 50 μm is covered with an organic resin film 15 of polyester or the like with a thickness of 5 to 50 μm.
．． A laminated sheet having a sandwich structure of 17 is preferable. The organic resin films 15 and 17 may be made of the same material or different materials.

At this time, the moisture-proofing effect is achieved mainly because the metal foil 16 made of Ag or the like is moisture-impermeable, and the organic resin films 15 and 17 made of polyester or the like formed above and below this foil are
Its main role is to protect the surface of the metal foil 16 and electrically insulate it from the ELL child 1, but it goes without saying that a material with low moisture permeability is preferable.

The moisture-proof sheet 18 is coated with the EL element color so as to form a space 19 between the EL element colors, and then the surrounding area is covered with the light-transmitting substrate 2 (a lower transparent portion is placed on the light-transmitting substrate 2). There are also places where electrodes 3 or upper electrodes 7 are formed.) are adhered with epoxy resin 9 and completely sealed.

In order to further increase the reliability against moisture, the method shown in Figure 1 (b)
As shown in FIG. 2, there is a configuration in which a sheet-like moisture absorber 14 is arranged between a black silicone resin 13 and a moisture-proof sheet 18.

The thin film EL panel of the present invention has a structure as described above.

Next, a method for manufacturing the thin film EL panel of the present invention will be described. After the thin film EL element 1 is formed on the transparent substrate 2, the temperature is raised to 200° C. or higher in vacuum to degas the ELL element 1, and residual moisture is removed as much as possible.

Thereafter, the panel is transferred to dry N, gas, or dry air, and a black silicone resin 13 is applied or printed so as to cover the thin film EL layer 1. At this time, the black silicone resin liquid has been vacuum degassed in advance. The temperature of the EL panel and black silicone resin during coating or printing is room temperature.

Thereafter, depending on the properties of the black silicone resin used, the temperature is raised to a certain temperature for a certain period of time (for example, 150° C., 1 hour) to cure the black silicone resin. The black silicone resin is cured by an addition reaction. Therefore, no water or alcohol by-products are produced. Once the black silicone resin 13 has hardened, in the case of the structure shown in FIG. 1(a), insert it as is, or in the case of the structure shown in FIG. 1(b), insert the moisture absorber 14 which has been heated to 100°C or higher and vacuum-dehydrated, and then insert the moisture-proof sheet. 18 is bonded with epoxy resin 9. In this case as well, the surrounding atmosphere is dry N, gas, or dry air. Therefore,
The space 19 is filled with dry N, gas, or dry air.

In the above thin-film EL panel, the thin-film EL elements are coated with black silicone resin, so when the thin-film EL panel is viewed from the translucent substrate side, the background of the display surface is black, providing good contrast and high display quality. Become. Furthermore, the black silicone resin adheres closely to the EL element, making it easy to make the resin thickness uniform, and also making it possible to prevent air bubbles from being contained in the resin, resulting in a much better appearance on the panel display surface. .

The curing reaction type of silicone resin includes condensation reaction type, addition reaction type, etc., but in the above example, considering that EL elements are extremely sensitive to moisture, water is We used an addition reaction type silicone resin that does not produce by-products such as alcohol or alcohol.

The suitability of this addition reaction format was confirmed experimentally as follows.

Thin-film EL panels with the structure shown in Figure 1(b) were prepared in which the black silicone resin 13 was in the condensation reaction type and in the addition reaction type, and accelerated tests were conducted in a heated and humidified atmosphere. Estimating the lifespan of EL panels before display quality deterioration in humidity is 16,000 to 24,000 hours for integrated reaction type panels, while EL panels using addition reaction type black silicone resin take 50 hours. ,000 hours ~ 7
It was found that it had a lifespan of 0.000 hours and was sufficiently durable for actual use.

Figure 3 shows the hardness of black silicone resin after curing (JIS
5 shows the relationship between the number of destroyed picture elements of an EL panel according to K6301-5 (JIS-A)). The EL panel vibrates minutely during operation, and the EL element! The stress caused by the black silicone resin 13 coated in close contact with the pixel affects the fracture characteristics of the pixel. This is closely related to the hardness of the resin after curing.

The results in Figure 3 demonstrate this experimentally. Therefore,
From the viewpoint of reliability against picture element destruction, the hardness (JIS-A) of the black silicone resin 13 after curing needs to be 20 or less.

Furthermore, in order to avoid destruction of the electrodes and pixels due to inter-electrode discharge during operation of the EL panel, black silicone resin is
Zuro°II is preferred, having a dielectric breakdown strength of IO5V/Cm or more.

In addition to the above-mentioned features, the thin film EL panel of the present invention υ) only requires coating and bonding in a dry atmosphere, and is simpler than the conventional method using backing glass 8.

Furthermore, cost reduction in terms of materials and by not using the backing glass 8, the thin film EL panel can be made thinner and lighter.

In the above embodiment, the case where the EL element is a dot matrix type element is explained, but the EL element is a segment type EL element.
It may be an element.

<Effects of the Invention> As is clear from the following, the thin-film EL panel of the present invention coats the thin-film EL element formed on the transparent substrate with black soricone resin, and coats the thin-film EL element formed on the transparent substrate with black soricone resin. Since the moisture absorber is disposed and further covered with a moisture proof sheet, it is possible to maintain high reliability against moisture and picture element destruction, and to improve the contrast and appearance of the display surface.

Furthermore, the thin film EL panel of the present invention has lower material costs than conventional sealing methods using backing glass and solicon oil, and the panel can be made thinner and lighter. At the same time, cost reduction can be achieved by simplifying the sealing process.

Further, when the curing reaction type of the black silicone resin is an addition reaction type, by-products such as water and alcohol are not generated, and the life of the EL element, which is extremely sensitive to moisture, is extended.

In addition, the hardness of the black silicone resin after curing (JIs-A
) is 20 or less, the picture elements of the EL element which are subject to minute vibrations will not be destroyed.

[Brief explanation of drawings]

FIGS. 1(a) and 1(b) are enlarged vertical sectional views of main parts of an embodiment of the present invention, and FIG. 2 is an enlarged longitudinal sectional view of main parts of a conventional example. FIG. 3 is a drawing showing the relationship between the hardness of the black silicone resin after curing and the pixel destruction of the EL panel. 1... EL element, 2... Transparent substrate, 13... Black silicone resin, 14... Sheet-like moisture absorber, 18... Moisture-proof sheet.

Claims (4)

[Claims] (1) A thin-film EL panel characterized in that a thin-film EL element formed on a light-transmitting substrate is coated with a black silicone resin, and the black silicone resin is further covered with a moisture-proof sheet. (2) The thin-film EL panel according to claim 1, wherein a sheet-like moisture absorber is disposed between the black silicone resin and the moisture-proof sheet. (3) The thin film EL panel according to claim 1 or 2, wherein the curing reaction type of the black silicone resin is an addition reaction type. (4) In the thin film EL panel according to claim 1 or 2, the properties of the black silicone resin after curing include hardness (
A thin film EL panel having a JIS-A) rating of 20 or less.