KR100385444B1 - A flat display - Google Patents

Abstract

The present invention relates to a flat panel display device, wherein the flat panel display device according to the present invention comprises a glass substrate, an anode electrode layer provided on one surface of the glass substrate, an organic light emitting layer provided on the anode electrode layer to emit light, a cathode electrode layer provided on the organic light emitting layer, and a glass substrate. In order to seal the sealant, the electrode layers and the organic light emitting layer installation portion installed on one surface to the outside, a sealant cap is formed on the adhesive surface of the sealant, and the uneven portion is formed on the adhesive surface with the sealant. Convex and concave portions are formed in the joint portion of the sealing cap and sealant to enlarge their adhesive area rather than the conventional adhesive area, and also provide a deviated state of adhesion. Therefore, when the external shock and vibration are applied to the device, the sealing state of the sealing cap is firmly secured. To improve the fabrication and operation stability of the flat panel display. It can be effective.

Description

Flat display device {A flat display}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flat panel display, and more particularly, to a flat panel display device in which a metal sealing cap can be more firmly coupled to an adhesive portion of a display device by improving an adhesive portion of a sealant and a metal sealing cap.

In general, the organic light emitting device, which is one of the flat panel display devices, has a faster response speed, excellent brightness, and a simpler structure than the liquid crystal display device, which is a light receiving device. It is.

Such organic light emitting diodes are attracting attention as next-generation flat panel displays following liquid crystal displays due to their various uses such as backlights, portable terminals, automobile navigation systems, laptop computers, and wall-mounted TVs.

The organic light-emitting device forms an organic material layer that emits light between an anode electrode to which positive power is applied and a cathode electrode to which negative power is applied. The organic light emitting element is transferred from an anode electrode to an organic material layer from a hole and a cathode electrode to an organic material layer. The electrons recombine to generate light.

As shown in FIG. 1, the conventional organic light emitting diode display 10 patterns ITO after depositing ITO, which is a transparent metal, on the glass substrate 11 that transmits light. Then, the anode electrodes 12 to which the positive power is applied are formed in a stripe shape in the screen display area, which is a portion where the screen is displayed.

When the anode electrode 12 is formed, red, green, and blue light are generated by the flow of current for each predetermined portion of the upper surface of the anode electrode 12 by a predetermined method (spin coating, printing method or deposition method). The organic material layer 13 to be formed is formed.

Subsequently, since the cathode electrode forming metal is deposited on the screen display area, the cathode electrode 14 crossing the anode electrode 12 is formed in a stripe shape on the upper surface of the organic layer 13.

After the above process, one pixel unit is implemented on the glass substrate 11. The organic material is highly sensitive to humidity and other active gases, so that the inside of the pixel is sealed to protect the organic material inside the pixel. To this end, each pixel is equipped with a sealing cap 15.

The sealing cap 15 is made of metal, glass plate, or insulating resin. However, in the case of the resin, the electrode layers 12 and 14 and the organic material layer 13 are deteriorated due to the moisture passing through the resin after a long time after the application thereof, which shortens the lifespan. The problem arises.

In the case of the sealing cap 15 made of metal or glass, a sealant 16 made of an epoxy for UV (ultraviolet) curing is mainly used for the bonding thereof, and these surfaces are smoothly processed. Therefore, even if a separate adhesive such as a sealant is used, the joining part is easily separated and there is a problem of lowering the reliability of the product.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to bond a metal sealing cap and the metal sealing cap to be used to seal the organic layer forming portion from the outside in an organic light emitting display device which is one of the flat panel display devices. It is to provide a flat panel display device to improve the coupling portion of the sealant to be a more robust, stable sealing cap can be installed.

1 is a cross-sectional view illustrating a conventional flat panel display.

2 is a cross-sectional view illustrating a flat panel display device according to the present invention.

* Description of the symbols for the main parts of the drawings *

100.Organic light emitting display

110.Glass Board

120 ... Polarizing Plate

130.Anode electrode

140 ... organic layer

160 ... closed cap

170 ... sealant

A flat panel display device according to the present invention for achieving the above object is a glass substrate, an anode electrode layer provided on one surface of the glass substrate, an organic material layer provided on the anode electrode layer to emit light, a cathode electrode layer provided on the organic material layer, one surface of the glass substrate The sealant is provided in the sealant, the electrode layer and the organic material layer is attached to one side of the sealant in order to seal from the outside provided with a metal sealing cap formed with an uneven portion on the adhesive surface with the sealant.

Hereinafter, one preferred embodiment of an organic electroluminescent display according to the present invention will be described in detail with reference to the drawings.

In the following description of the embodiment, the flat panel display device includes one pixel as its unit. In the implementation state of these pixels, red, green, and blue are implemented to implement one light emitting layer, respectively, so that the sealing cap can cover the single pixel. This is a conventionally known technical configuration. Therefore, the description of the whole of their configuration will be avoided and the focus will be on the bonding state of the sealing cap.

As shown in FIG. 2, the organic light emitting diode display 100 according to the exemplary embodiment of the flat panel display device according to the present invention has a glass substrate 110 through which light is largely transmitted and an organic layer provided on an inner surface of the glass substrate 110. 140 and the sealing cap 160 made of metal installed on the glass substrate 110 to protect the organic layer 140 from the external environment.

First, the glass substrate 110 is provided with a transparent substrate provided with a 4 / λ retardation film or a polarizing plate 120 on its outer surface. The transparent anode electrode 130 is first formed on the inner surface of the glass substrate 110 in a stripe shape. The anode electrode 130 is connected to a lead (not shown) to supply power.

In addition, the organic layer 140 is positioned on the same line as the leads formed on one side of the anode electrode 130 in the width direction and is formed to emit light by itself as a current flows.

Next, a stripe shape in which the cathode electrode 150 for supplying negative power to the organic material layer 140 intersects the anode electrode 130 on the same line as the leads formed on one side of the anode electrode 130 in the width direction of the screen display area. Is formed. In this case, the anode electrode 130, the organic layer 140, and the cathode electrode 150 are sequentially stacked, and this state constitutes one pixel.

The metal sealing cap 160 is to protect each pixel formed in the screen display area of the glass substrate 110 from the external environment, and has a predetermined area at a portion corresponding to the organic material layer 140 and the electrode layers 130 and 150. Is formed with. The shape of the organic material layer 140 is larger than the side surfaces of the organic layer 140 and the electrode layers 130 and 150, and is bent outwardly so as to be spaced apart from the cathode electrode layer 150 by a predetermined distance.

In addition, a moisture absorbent 190 is disposed inside the metal sealing cap 160 to remove moisture in the pixel, and a filter is disposed between the moisture absorbent 190 and the pixel in order to separate the moisture absorbent 190 from the pixel. 180 is mounted.

On the other hand, a sealant 170 made of a UV curing agent or the like for bonding the metal sealing cap 160 is installed on the glass substrate 110 at the coupling portion of the glass substrate 110 with the metal sealing cap 160. The sealing cap 160 is bonded by the sealant 170 so that the coupling is achieved.

Here, the concave and convex portions 161 and 171 are formed in the coupling portion of the metal sealing cap 160 and the sealant 170 to further improve the bonding strength of the metal sealing cap 160 and the sealant 170. The concave-convex portions 161 and 171 may be formed in a shape corresponding to each other at the coupling portion of the metal sealing cap 160 and the sealant 170, but this need not be necessary, but only a substantial roughness is provided. It is also possible.

The uneven parts 161 and 171 may be formed only at one place selectively at the coupling portion of the sealing cap 160 and the sealant 170, and most preferably the uneven parts 161 and 171 on both sides. To form.

These uneven parts 161 and 171 are to be bonded to each other in a state in which the bonding area of the metal sealing cap 160 and the sealant 170 is significantly expanded, when the sealing cap 160 is bonded to the sealant, By reinforcing the strength of the junction portion, even if external vibration and impact are applied to the organic light emitting display device 100, the bonding state can be maintained firmly, and the life of the device can be further improved through continuous use. Can be.

Hereinafter, an operation state of the organic light emitting display device configured as described above will be described.

In the organic light emitting diode display 100 of the flat panel display device according to the present invention, the anode electrode layer 130 is formed on the inner surface of the glass substrate 110 on which the polarizing plate 120 is provided on the outer surface thereof. The organic layer 140 is formed. After the cathode electrode layer 150 is formed on the organic layer 140, the metal sealing cap 160 is installed thereon.

At this time, the sealant 170 is installed on the inner surface of the glass substrate 110 before the metal sealing cap 160 is installed, and the metal sealing cap 160 is installed above the sealant 170. And the inside of the sealing cap 160 is installed a moisture absorbent 190.

In this state, when the metal sealing cap 160 and the sealant 170 are adhered to each other, the installation of the metal sealing cap 160 is completed.

As described above, in the state where the organic light emitting diode display 100 is manufactured, a small amount of internal moisture is absorbed and removed by the moisture absorbent 190. In addition, even when an external impact force is applied to the device during operation and use of the display device 100, the adhesion area between the metal sealing cap 160 and the sealant 170 in the bonding portion is expanded and at the same time, the uneven portions are shifted. Since it is supported by (161) (171) with considerable strength, it can more firmly maintain stable operation state of the device in response to external shock and vibration.

In the flat panel display device according to the present invention as described above, the uneven portion formed in the adhesive portion of the sealing cap and the sealant may be selectively formed in the sealing cap and the sealant, and in other embodiments, the shape may be implemented in the form of protrusions and grooves. Could be. However, basically all other modified embodiments in which the shape is improved in order to increase the adhesion area of the sealing cap and the sealant and to improve the adhesive strength should be considered to be included in the technical scope of the present invention.

In the flat panel display device according to the present invention described above, irregularities are formed in the coupling portion of the sealing cap and the sealant to enlarge their adhesive area rather than the conventional adhesive area, and to provide the adhesive state that is offset from each other. When applied, it is possible to improve the manufacturing stability and operation stability of the flat panel display device by maintaining the adhesion state of the sealing cap firmly.

Claims (4)

Glass Board, An anode electrode layer provided on one surface of the glass substrate, An organic light emitting layer provided on the anode electrode layer to emit light; A cathode electrode layer provided on the organic light emitting layer, A sealant installed on one surface of the glass substrate, And a metal sealing cap bonded to one side of the sealant to seal the electrode layers and the organic light emitting layer installation part to the outside, and having an uneven portion formed on an attachment surface with the sealant. The flat panel display of claim 1, wherein the sealant has a sealant-side uneven portion formed at a portion of the metal sealing cap in contact with the uneven portion. delete delete