KR200233483Y1 - an EL device for emitting light to both-side - Google Patents

Abstract

A protective insulating layer 1 for providing an insulating film, a back electrode layer 2, 6 covering both surfaces of the protective insulating layer 1, and the two back electrode layers 2, 6 described above, respectively. Covering insulating layers 3 and 7, fluorescent layers 4 and 8 covering the two insulating layers 3 and 7, respectively, and transparent conductive film layer 5 covering the above-described fluorescent layer 4. ), And the transparent conductive film paste layer 9 covering the fluorescent layer 8, which allows light to be emitted from both sides, thereby providing convenience in use and broadening the application range. An electroluminescent device having a double-sided light emitting function is provided.

Description

EL device for emitting light to both-side

The present invention relates to an electroluminescent device having a double-sided light emitting function. More specifically, the light emitting device has a double-sided light emitting function that can expand the scope of application while providing convenience in use by allowing light to be emitted from both sides. It relates to an electroluminescent device having.

Electroluminescence (EL) refers to a phenomenon in which light emission occurs when an electric field is applied to a phosphor.

In 1936 a phenomenon called internal electroluminescence or intrinsic electroluminescence was discovered by Destrios of France. This phenomenon causes light emission when the ZnS-based phosphor dispersed in the dielectric is applied to two electrodes and an alternating voltage is applied, and carrier injection from the electrode to the phosphor is not performed.

An electroluminescent device in which a phosphor is dispersed in a dielectric as a light emitting layer is called a distributed electroluminescent device.

On the other hand, the type in which the insulating layer is deposited by electron beam, high frequency sputtering or the like is called a thin film type electroluminescent device.

In addition, the type of light emitted by electrons or holes in the recombination of the electrode is called an injection type electroluminescence device. Light emitting diodes (LEDs), semiconductor lasers, and the like are considered to be a kind of injection type electroluminescent devices.

The electroluminescent device as described above emits light using an alternating current as a driving source, and its structure generally covers the protective layer 1 for providing a protective film and the protective layer 1 as shown in FIG. The back electrode layer 2, the insulating layer 3 covering the back electrode layer 2, the fluorescent layer 4 covering the insulating layer 3, and the fluorescent layer 4 It consists of the transparent conductive film layer 5 which covers.

The transparent conductive film layer 5 has a bus bar so that current flows evenly through the transparent conductive film layer 5. Indium tin oxide (ITO) is used as the transparent conducting film.

In the electroluminescent device having the above-described structure, when a voltage is applied between the back electrode layer 2 and the transparent conductive film layer 5, light is emitted from the fluorescent layer 4 and emitted to the outside through the transparent conductive film layer 5. .

However, the above-described conventional electroluminescent device has a problem in that light cannot be used where light is emitted from both sides because the light is emitted on only one side.

The purpose of this invention is to solve such a conventional problem, the electroluminescent device having a double-sided light emitting function that can extend the range of applications while providing convenience in use by allowing light to be emitted on both sides To provide.

1 is a configuration diagram of a conventional electroluminescent device.

2 is a block diagram of an electroluminescent device having a double-sided light emitting function according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1: protective layer 2, 6: back electrode layer

3, 7: insulation layer 4, 8: fluorescent layer

5: transparent conductive film layer 9: transparent conductive film paste layer

DETAILED DESCRIPTION Hereinafter, the most preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention. . Other objects, features, and operational advantages, including the purpose, operation, and effect of this design, will become more apparent from the description of the preferred embodiment.

For reference, the embodiments disclosed herein are only presented by selecting the most preferred examples to help those skilled in the art from the various possible examples, and the technical spirit of the present invention is not necessarily limited or limited only by this embodiment. In addition, various changes and modifications may be made without departing from the technical spirit of the present disclosure, as well as other equivalent embodiments.

As shown in Fig. 2, the structure of the electroluminescent device having the double-sided light emitting function according to the embodiment of the present invention is a protective insulating layer 1 for providing an insulating film and the protective insulating layer 1 described above. Back electrode layers 2 and 6 covering both surfaces, insulating layers 3 and 7 covering the two back electrode layers 2 and 6, respectively, and the two insulating layers 3 and 7 described above. The fluorescent layers 4 and 8 respectively covering the above, the transparent conductive film layer 5 covering the above-described fluorescent layer 4, and the transparent conductive film paste layer 9 covering the above-described fluorescent layer 8 It is made to include.

It is more preferable that the transparent conductive film layer 5 and the transparent conductive film paste layer 9 include a bus bar for evenly flowing a current.

The manufacturing process of the electroluminescent device having the double-sided light emitting function according to the embodiment of the present invention by the above-described configuration is as follows.

First, the fluorescent layer 4 is screen printed on the transparent conductive film layer 5. The surface resistance of the transparent conductive film layer 5 is 300 Ω / ㎠ or less, the thickness of the fluorescent layer 4 is dried for 30 minutes at 130 degrees using an infrared dryer about 30 ~ 40㎛.

After printing the fluorescent layer 4 in this manner, screen printing the insulating layer 3 on the fluorescent layer 4 to about 20 ~ 25㎛, using an infrared dryer as in the fluorescent layer 4 at 1 Dry for minutes.

After printing the insulating layer 3, using a silver paste (Ag paste) to form the back electrode layer 2 to a thickness of 8 ~ 10㎛, and then dried at 130 degrees using an infrared dryer for 1 minute Let's do it.

After the back electrode layer 2 is formed, the protective insulating layer 1 is screen-printed thereon, the thickness of which is 30 μm, using UV ink and UV dryer, and the amount of light is 500mj / cm 2 or more. , The speed is 12m / min.

Next, the second back electrode layer 6 is screen printed on the protective insulating layer 1, and the ink used is silver powder (Ag paste), and is printed at 130 degrees with an infrared dryer after printing to a thickness of 8 to 10 µm. Dry for 1 minute.

Subsequently, after screen-printing the secondary insulating layer 7 about 20-25 micrometers on the secondary back electrode layer 6, it is made to dry for 1 minute at 130 degree | times using an infrared dryer.

Next, after screen printing the secondary fluorescent layer 8 on the secondary insulating layer 7, about 30-40 micrometers, it is made to dry for 1 minute at 130 degree | times using an infrared dryer.

Subsequently, after screen-printing the transparent conductive film paste layer 9 to the thickness of 8-10 micrometers or more using the conductive transparent ink on the secondary fluorescent layer 8, it is made to dry for 1 minute at 130 degree | times using an infrared dryer. . At this time, since the transparent conductive film is not printed on the secondary fluorescent layer 8, the transparent conductive film paste is printed.

Finally, the busbars are screen printed on the edges of the transparent conductive film layer 5 and the transparent conductive film paste layer 9, wherein the ink used is silver powder (Ag paste). Dry for 1 minute at 130 degrees with a dryer. The bus bar allows current to flow evenly through the transparent conductive film.

In the electroluminescent device manufactured by such a process, the transparent conductive film layer 5 which is located at the end of both surfaces using the back electrode layers 2 and 6 separated on both sides by the insulating layer 1 as a common electrode. And when power is applied to the busbars of the transparent conductive film paste layer 9, the light is emitted from the fluorescent layers 4 and 8 to the outside of both surfaces through the transparent conductive film layer 5 and the transparent conductive film paste layer 9. Light emission.

As described above, in the embodiments of the present invention, an electroluminescent device having a double-sided light emitting function having an effect of extending the scope of application while providing convenience in use by allowing light to be emitted on both sides is provided. You can do it. Such effects of the present invention can be used in various applications within the scope of EL without departing from the scope of the technical idea of the present invention.

Claims (3)

A protective insulating layer 1 for providing an insulating film, a back electrode layer 2, 6 covering both surfaces of the protective insulating layer 1, and the two back electrode layers 2, 6 described above, respectively. Covering insulating layers 3 and 7, fluorescent layers 4 and 8 covering the two insulating layers 3 and 7, respectively, and transparent conductive film layer 5 covering the above-described fluorescent layer 4. And a transparent conductive film paste layer (9) covering the above-mentioned fluorescent layer (8). The electroluminescent device having a double-side light emitting function according to claim 1, wherein each of the layers is screen printed. 2. The electroluminescent device having a double-side light emitting function according to claim 1, wherein a bus bar is screen-printed at edges of the transparent conductive film layer (5) and the transparent conductive film paste layer (9).