KR101076439B1 - Organic Electro Luminescence Display Device - Google Patents

Abstract

The present invention relates to an organic electroluminescent display device capable of thinning a mobile phone.

An organic electroluminescent display device according to the present invention comprises: a display panel having first and second organic electroluminescent arrays which are positioned with one glass cap interposed therebetween and packaged by the one glass cap; At least one supporter extending from the side of the glass cap and having a thickness smaller than that of the glass cap; It is characterized in that it comprises a printed circuit board that is mated by the stepped surface provided by the supporter and the glass cap.

Description

Organic Electro Luminescence Display Device             

1 is a view schematically showing a conventional organic light emitting display device.

2 is a diagram illustrating a light emission principle of a conventional organic electroluminescent display.

3 is a schematic view of an organic electroluminescent display having two organic electroluminescent arrays sharing one glass cap according to an embodiment of the present invention.

4 is a view showing an organic electroluminescent display device used in a communication means according to an embodiment of the present invention, Figure 5 is a perspective view showing the organic electroluminescent display device shown in FIG.

    <Explanation of symbols for the main parts of the drawings>

2: substrate 102: first substrate

4: anode electrode 8: partition wall

10 organic light emitting layer 12 cathode electrode

28,128: Glass cap 25,125: Sealant                 

129: supporter 135: printed circuit board

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an organic electroluminescent display device, and more particularly, to an organic electroluminescent display device capable of thinning a mobile phone.

Recently, various flat panel displays have been developed to reduce weight and volume, which are disadvantages of cathode ray tubes. Such a flat panel display includes a liquid crystal display, a field emission display, a plasma display panel, and an electroluminescence display device. And the like). In particular, the EL display device is basically formed by attaching electrodes to both sides of an organic light emitting layer including a hole transporting layer, a light emitting layer, and an electron transporting layer.

Such EL display elements are largely divided into inorganic EL display elements and organic EL display elements depending on the materials used. Among them, the organic EL display device can be driven at a lower voltage than the inorganic EL display device because when the charge is injected into the organic EL layer formed between the hole injection electrode and the electron injection electrode, electrons and holes are paired and extinguished to emit light. Has the advantage. In addition, the organic EL display device can be formed on a flexible transparent substrate, such as plastic, and can be driven at a voltage lower than 10V, compared to a PDP or an inorganic EL display device, and consumes power. Relatively small in color.

1 is a cross-sectional view schematically showing an organic EL display device using a conventional glass cap, and FIG. 2 is a view for explaining the light emission principle of the organic EL display device shown in FIG.

The organic EL display device illustrated in FIG. 1 includes a first electrode (or anode electrode) 4 and a second electrode (or cathode electrode) formed on the substrate 2 so as to cross each other with an organic light emitting layer 10 interposed therebetween. 12) and an organic EL array 15 comprising a glass cap 28, and a glass cap 28 for packaging the organic EL array 15.

A plurality of anode electrodes 4 of the organic EL array 15 are spaced apart at predetermined intervals on the substrate 2. On the substrate 2 on which the anode electrode 4 is formed, an insulating film 6 having an opening for each EL cell EL region is formed. On the insulating film 6, a partition 8 for separating the organic light emitting layer 10 and the cathode electrode 12 to be formed thereon is positioned. The partition wall 8 is formed in a direction crossing the anode electrode 4 and has a reverse taper structure in which the upper end portion has a wider width than the lower end portion. On the insulating film 6 on which the partition 8 is formed, the organic light emitting layer 10 and the cathode electrode 12 made of an organic compound are sequentially deposited on the entire surface. The organic light emitting layer 10 includes an electron injection layer, an electron transport layer, a light emitting layer, a hole transport layer, a hole injection layer.

The organic EL array 15 has a property that is easily degraded by moisture and oxygen. In order to solve this problem, an encapsulation process is performed in which the substrate 2 and the cap 28 on which the organic EL array 15 is formed are bonded through a sealant 25 such as an epoxy resin. ) Is protected from oxygen and moisture.

The glass cap 28 includes a getter 22 positioned on a surface facing the organic EL array 15 to absorb moisture and oxygen, and a semipermeable membrane 24 for fixing the getter 22. Equipped. Here, the getter 22 may be formed of inorganic oxide, that is, calcium oxide (Cao), barium oxide (BaO), or the like, which reacts with water to form hydroxyl groups (OH). Teflon, polyester, paper or the like is used to lift. On the other hand, the glass cap 28 is simple to manufacture compared to the metal cap in general, there is an advantage in forming a large element.

In the organic EL display device, as shown in FIG. 2, when a voltage is applied between the anode electrode 4 and the cathode electrode 12, electrons generated from the cathode electrode 12 are transferred to the electron injection layer 10a and the electron. It moves toward the light emitting layer 10c through the transport layer 10b. In addition, holes generated from the anode electrode 4 move toward the light emitting layer 10c through the hole injection layer 10e and the hole transport layer 10d. Accordingly, in the light emitting layer 10c, excitons are formed by recombination of electrons and electrons supplied from the electron transport layer 10b and the hole transport layer 10b, and the excitons are excited to the ground state and emit light of constant energy. The image is displayed by being discharged to the outside through the anode electrode 4.

Organic EL display elements having such a structure are widely used for communication means such as mobile phones. In particular, as the function of the mobile phone is gradually improved, a model having two windows in one mobile phone has been proposed. In the case of the mobile phone, two organic EL arrays are used by having two windows, for example, a main window and a sub window. Accordingly, there is a problem that the mobile phone becomes thick.

Accordingly, an object of the present invention is to provide an organic light emitting display device capable of thinning a mobile phone.

In order to achieve the above object, the organic electroluminescent display device according to the present invention is positioned with one glass cap interposed therebetween and having a display panel having first and second organic electroluminescent arrays packaged by the single glass cap; ; At least one supporter extending from the side of the glass cap and having a thickness smaller than that of the glass cap; It is characterized in that it comprises a printed circuit board that is mated by the stepped surface provided by the supporter and the glass cap.

The glass cap may include a first concave region for packaging the first organic electroluminescent array; The second organic electroluminescent array is packaged, and a second concave region having a smaller size than the first concave region is provided.

Other objects and features of the present invention in addition to the above object will be apparent from the description of the embodiments with reference to the accompanying drawings.                     

Hereinafter, exemplary embodiments of the present invention will be described with reference to FIGS. 3 to 5.

First, prior to the detailed description of the embodiment of the present invention will be described with respect to the organic EL display device for mobile phones pre- filed by the applicant of the present invention directly related to the present invention.

3 includes an organic EL display panel including two organic EL arrays sharing one glass cap, and a printed circuit board 135 (PCB) attached to the organic EL display panel. The printed circuit board 135 is provided with components for generating various signals and the like on the organic EL display panel.

In the organic EL display panel, organic EL arrays are packaged on both surfaces of one glass cap 128, respectively.

The glass cap 128 has first and second recessed areas 136 and 138 that can package the first and second organic EL arrays 115 and 116, and a getter 122 in the center of each recessed area 136 and 138. Will be located. Here, the glass cap 128 may be formed by a manufacturing process such as a photo process, an etching process, and a sanding process.

The first substrate 102 on which the first organic EL array 115 is formed is bonded to the surface on which the first concave region 136 of the glass cap 128 is provided, and the second substrate on which the second organic EL array 138 is formed. 103 is bonded to the surface on which the second concave region 138 of the glass cap 128 is provided. Here, the first substrate 102 on which the first organic EL array 115 is formed becomes the main window of the mobile phone, and the second substrate 102 on which the second organic EL array 116 is formed serves as a sub window. . Accordingly, the second substrate 103 has a smaller area than the first substrate 103.

As such, the two organic EL display elements share one glass cap 128 to realize the main window and the sub window, thereby significantly reducing the thickness of the organic EL display panel in the entire mobile phone. Accordingly, the mobile phone can be thinned.

However, in the organic EL display device having such a structure, the printed circuit board 135 is formed to overlap one side of the glass cap 128 of the organic EL display panel, thereby increasing the thickness of the mobile phone by the thickness of the printed circuit board 135. Problems will exist.

In order to solve this problem, an embodiment of the present invention proposes an organic EL display device as shown in FIGS. 4 and 5.

The organic EL display device according to the present invention further includes a supporter 129 having a thickness smaller than that of the glass cap 128 as well as the glass cap 128 extending from the side thereof compared to FIG. 3, and a printed circuit board. The 135 is faced or seated on the stepped surface provided by the supporter 129 extending from the glass cap 128.

That is, in the embodiment of the present invention, the supporter 129 extending from the side of the glass cap 128 may serve to support and guide the printed circuit board 135. Accordingly, the printed circuit board 135 may be positioned on the side of the glass cap 128 without being overlapped on the glass cap 128. As a result, the entire organic EL display device can be made thin so that the cellular phone can also be made thinner.

On the other hand, the first organic EL array 115 is used to implement the image of the main window is formed in a relatively larger size (size) than the second organic EL array 116 used to implement the image of the sub-window. Here, the first and second organic EL arrays 115 and 116 include an anode electrode and a cathode electrode formed to cross each other with the organic light emitting layer therebetween.

As described above, in the organic EL display device according to the present invention, the first organic EL array serving as the main window and the second organic EL array serving as the sub window share one glass cap. Accordingly, the size of the mobile phone that implements the main window and the sub window can be reduced.

In addition, the organic EL display device according to the present invention includes a supporter that extends from the side of the glass cap and has a thickness smaller than that of the glass cap, and the printed circuit board is fused to the stepped surface provided by the glass cap and the supporter. . Accordingly, the printed circuit board may be positioned on the side of the glass cap without being superimposed on the glass cap. As a result, the entire organic EL display device can be made thin so that the cellular phone can also be made thinner.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (2)

A display panel having a first glass cap and a second organic electroluminescent array packaged by the single glass cap; At least one supporter protruding from a side surface of the glass cap and having a thickness smaller than that of the glass cap; And a printed circuit board supported by the supporter while being disposed on a side of the glass cap. The method of claim 1, The glass cap may include a first concave region for packaging the first organic electroluminescent array; And a second concave region having a smaller size than the first concave region and packaging the second organic light emitting array.

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