KR100676841B1 - A el device having damp-proofing layer and method for manufacturing thereof - Google Patents

Abstract

SUMMARY OF THE INVENTION The present invention is to provide an EL element which can form a moisture barrier on the surface of the flexible EL element portion to improve the reliability of the entire surface of the flexible EL element portion and to extend its life.

An EL device having a moisture barrier layer according to the present invention includes a PET film (1); On this PET film 1, a moisture proof layer 12 having insulation and moisture resistance, a front insulation layer 2 formed on the moisture barrier layer 12 for insulation, a front electrode layer 3 made of conductive ink, A fluorescent layer 4 formed on the front electrode layer 3 and emitting light when an alternating high voltage is applied, a dielectric layer 5 formed on the fluorescent layer 4, and a back electrode layer 6 formed on the dielectric layer 5 And an insulating layer 7 formed on the back electrode layer 6, a noise preventing layer 8 screen-printed with silver ink, and a protective layer 13 for protecting the element on the noise preventing layer 8 are sequentially stacked. An EL element portion 14 is provided; The moisture proof layer 12 is made of a urethane film or PET film which is a filmable material, and is attached to the front insulating layer 2 side, the EL element portion 14 is formed, and then the EL element portion from the EL element 15. When separating (14), it is possible to separate in the state attached to the EL element portion 14, so that the protective layer 13 covers up to the moisture-proof layer 12 of the EL element portion 14 to form a seal. It is characterized by.

Description

EL device with moisture barrier and manufacturing method thereof {A EL DEVICE HAVING DAMP-PROOFING LAYER AND METHOD FOR MANUFACTURING THEREOF}

1 is a cross-sectional view of a conventional EL element,

2 is a cross-sectional view of an EL element according to the present invention.

1 --- PET film

2,7 --- insulating layer

3 --- front electrode layer

4 --- fluorescent layer

5 --- dielectric layer

6 --- back electrode layer

8 --- noise layer

9,13 --- protective layer

10,14 --- EL element

11,15 --- EL element

12 --- moistureproof layer

LED is used as a light source of a keypad of a conventional personal portable device, which has disadvantages in terms of heat generation due to uneven emitting surface, high power consumption, and heat generation. Therefore, the application of the EL element is now widely adopted to solve this problem.

1 shows a cross-sectional view of a conventional EL element, and the conventional EL element 11 basically comprises a PET film 1 and an EL element portion 10 formed on the PET film 1. The EL element portion 10 includes a front insulating layer 2 for insulation, a front electrode layer 3 made of conductive ink, and a fluorescent layer that emits light when AC high voltage is applied while being formed on the front electrode layer 3. (4), dielectric layer 5 formed on the fluorescent layer 4, back electrode layer 6 formed on the dielectric layer 5, insulating layer 7 formed on the back electrode layer 6, and silver ink The noise prevention layer 8 screen-printed and the protection layer 9 which protect an element on this noise prevention layer 8 are laminated | stacked in order.

At this time, the front electrode layer 3 is a conductive layer, formed of ink using a conductive polymer or ink using ITO conductive powder, and must be transparent. The protective layer 9 covers the entire EL element portion 10 to form a seal, thereby protecting the EL element portion 10 from the external environment.

In addition, the terminal portion (not shown) of the back electrode layer 6 and the front electrode layer 3 may be formed by heat-compression-bonding with an anisotropic conductive adhesive such as ACA using a FPC on the terminal pad portion formed of silver ink, The pad portion may be formed by forming an adhesive conductive rubber or an adhesive conductive gasket.

The electric power is applied to the EL element 11 formed as described above, so that the EL element 11 can emit light by itself. A general application form of the EL element 11 is a flexible EL to which an ITO conductive ink is applied. And the role of the light source. The conventional flexible EL element 11 attached to the surface of the dome sheet requires a moisture proof film on its light emitting front surface. The moisture proof film is mainly formed by screen printing a polyester or acrylate insulating ink. there was. However, the method of forming the moisture proof film using screen printing does not sufficiently prevent the infiltration of external moisture, and thus generation of black spots that do not emit light occurs due to corrosion of the conductive film inside the EL element and degradation of the phosphor.

The present invention has been invented in view of the above, and by attaching a film having excellent insulation and moisture resistance or coating a transferable material on the surface of the flexible EL element portion, it improves the reliability of the front surface of the flexible EL element portion. It is an object of the present invention to provide an EL device having a moisture barrier layer and a method of manufacturing the same, which can extend the life of a flexible EL device unit according to the improvement of insulation and moisture proofing power.

EL device having a moisture barrier according to the present invention for achieving the above object, PET film (1); On this PET film 1, a moisture proof layer 12 having insulation and moisture resistance, a front insulation layer 2 formed on the moisture barrier layer 12 for insulation, and a front electrode layer 3 made of conductive ink. ), A fluorescent layer 4 formed on the front electrode layer 3 and emitting light when an alternating high voltage is applied, a dielectric layer 5 formed on the fluorescent layer 4, and a back electrode layer formed on the dielectric layer 5 ( 6), the insulating layer 7 formed on the back electrode layer 6, the noise preventing layer 8 screen-printed with silver ink, and the protective layer 13 protecting the element on the noise preventing layer 8 are laminated in this order. An EL element portion 14 formed of the same; The moisture barrier layer 12 is made of a urethane film or PET film which is a filmable material, and is attached to the front insulation layer 2, and the protective layer 13 covers and seals the moisture barrier layer 12 of the EL element unit 14. Characterized in that form.

In addition, after the moisture-proof layer 12 is formed of a transferable material or an inorganic material such as a vinyl resin by using the doctor blade method, the moisture-proof layer 12 is coated on the front insulating layer 2 by a method such as thermal transfer. It features.

Furthermore, when the moisture proof layer 12 separates the EL element portion 14 from the EL element 15 after the EL element portion 14 is formed, the moisture barrier layer 12 is detached in a state where it is attached to the EL element portion 14. Characterized in that it can be.

In addition, the method of manufacturing an EL device with a moisture proof layer according to the present invention comprises the steps of coating a fluorine or silicon material on the surface of the PET film 1 to facilitate the detachment of the film or transferable material forming the moisture proof layer 12; Attaching a moisture-proof layer 12 made of urethane film or PET film, which is a filmable material, to the front insulation layer 2 side of the EL element portion 14 on the PET film 1 coated with fluorine or silicon material, and On the front insulating layer 2, the front electrode layer 3, the fluorescent layer 4, the dielectric layer 5, the back electrode layer 6, the insulating layer 7, the noise prevention layer 8, and the moisture proof layer 12 And a step of forming the EL element portion 14 by sequentially stacking the protective layer 13 covering and forming a seal.

In addition, instead of attaching the moisture-proof layer 12 made of a urethane film or PET film, which is a filmable material, to the front insulating layer 2, a transferable material such as vinyl resin or an inorganic material may be used as the moisture-proof layer 12. After forming by using the doctor blade method, it is characterized by comprising the step of coating on the front insulating layer 2 side using a method such as thermal transfer.

Furthermore, when the moisture proof layer 12 separates the EL element portion 14 from the EL element 15 after the EL element portion 14 is formed, the moisture barrier layer 12 is detached in a state where it is attached to the EL element portion 14. Characterized in that it can be.

(Example)

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a cross-sectional view of an EL device according to the present invention, in which the same components as those in FIG. 1 are denoted by the same reference numerals, and detailed description thereof will be omitted. The EL device 15 according to FIG. 2 is provided between the existing PET film 1 and the EL device unit 10 by attaching a film having excellent insulation and moisture resistance or coating a transferable material. And the protective layer 13 covers up to this moisture-proof layer 12, and is combined, and it forms a seal | sticker, and has the characteristic of the structure.

The film constituting the moisture proof layer 12 may be a film capable of forming a urethane film, PET film, and the like, and as a transferable material constituting the moisture proof layer 12, a material such as vinyl resin may be used. Coating may be used, or an inorganic material may be coated.

Next, a manufacturing method of the EL element 15 according to the present invention will be described.

First, a fluorine or silicon material is coated on the surface of the PET film 1 to facilitate the detachment of the film or the transferable material forming the moisture barrier layer 12.

Subsequently, a film made of a filmable material such as a urethane film or PET film is attached to the front insulating layer 2 side of the EL element portion 14 on the PET film 1 coated with fluorine or silicon material. Let's do it.

Alternatively, a PET film coated with a fluorine or silicon material instead of attaching a film as a moisture proof layer 12 made of a filmable material such as a urethane film or PET film to the front insulating layer 2 side of the EL element portion 14 (1) And a transferable material such as vinyl resin, an inorganic material, etc. are formed by the doctor blade method on the moisture-proof layer 12, and then the front insulating layer 2 of the EL element portion 14 is formed by a method such as thermal transfer. May be coated on the side).

Next, on the front insulating layer 2, the front electrode layer 3, the fluorescent layer 4, the dielectric layer 5, the back electrode layer 6, the insulating layer 7, the noise prevention layer 8 and the protective layer ( 13) are sequentially formed to form the EL element portion 14 according to the present invention.

At this time, the protective layer 13 covers the moisture barrier layer 12 of the EL element portion 14 to chemically bond with the film or transferable material of the moisture barrier layer 12 to form a seal, thereby forming the EL element 15. ) From the external environment.

Thus, by forming the moisture proof layer 12 on the PET film 1 so that detachment is possible, after forming the EL element portion 14, the moisture proof layer 12 when separating the EL element portion 14 from the EL element 15 Is attached to the EL element portion 14 so that the product can be separated.

Similarly, when the EL element portion 14 is formed by transferring and coating a transferable material on the PET film 1 so as to be detachable, and then separating the EL element portion 14 from the EL element 15. The transferable material is attached to the EL element portion 14 so that the product can be separated.

As described above, according to the present invention, by attaching or coating a film or transferable material as a moisture-proof layer having insulation and moisture resistance onto the front insulation layer on the PET film, the moisture-proof property can be improved to improve the life of the EL element and It is possible to solve the problem of the product using the EL element caused by the occurrence.

Claims (6)

PET film 1; On this PET film 1, a moisture proof layer 12 having insulation and moisture resistance, a front insulation layer 2 formed on the moisture barrier layer 12 for insulation, a front electrode layer 3 made of conductive ink, A fluorescent layer 4 formed on the front electrode layer 3 and emitting light when an alternating high voltage is applied, a dielectric layer 5 formed on the fluorescent layer 4, and a back electrode layer 6 formed on the dielectric layer 5 And an insulating layer 7 formed on the back electrode layer 6, a noise preventing layer 8 screen-printed with silver ink, and a protective layer 13 for protecting the element on the noise preventing layer 8 are sequentially stacked. An EL element portion 14 is provided; The moisture proof layer 12 is made of a urethane film or PET film which is a filmable material, and is attached to the front insulating layer 2 side, the EL element portion 14 is formed, and then the EL element portion from the EL element 15. When separating (14), it can be separated in the state attached to the EL element portion 14, And the protective layer (13) covers the moisture barrier layer (12) of the EL element portion (14) to form a seal. 2. The front insulating layer 2 according to claim 1, wherein the moisture proof layer 12 is formed of a transferable material, an inorganic material, or the like by using a doctor blade method, such as a vinyl resin, and then, by a method such as thermal transfer. EL device having a moisture-proof layer, characterized in that the coating on the side. delete Coating a fluorine or silicon material on the surface of the PET film 1 to facilitate desorption of the film or transferable material forming the moisture barrier layer 12; Attaching a moisture-proof layer 12 made of urethane film or PET film, which is a filmable material, to the front insulation layer 2 side of the EL element 14 on the PET film 1 coated with fluorine or silicon material; On the front insulating layer 2, the front electrode layer 3, the fluorescent layer 4, the dielectric layer 5, the back electrode layer 6, the insulating layer 7, the noise prevention layer 8, and the moisture proof layer 12 And a step of forming the EL element portion 14 by sequentially stacking the protective layers 13 covering and forming a seal, The moisture barrier layer 12 can be separated in a state where it is attached to the EL element portion 14 when the EL element portion 14 is formed and then separates the EL element portion 14 from the EL element 15. Method for manufacturing an EL device having a moisture-proof layer, characterized in that. According to claim 4, Instead of attaching the moisture-proof layer 12 made of a urethane film or PET film which is a filmable material to the front insulating layer 2 side, as the moisture-proof layer 12, a transferable material such as vinyl resin, A method of manufacturing an EL device with a moisture proof layer, comprising: forming an inorganic material or the like using a doctor blade method, and then coating the front insulating layer 2 by a method such as thermal transfer. delete

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