KR100634680B1 - organic EL device having a cap with supporters inside - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an organic electroluminescent device encapsulated with a cap provided with a hygroscopic agent, and more particularly to an organic electroluminescent device capable of preventing the glass substrate from bending by forming a supporting portion inside the cap. An organic electroluminescent device according to the present invention includes a cap having a rectangular flat portion and an adhesive portion protruding along an edge of the flat portion and bonded to a glass substrate on which a deposition layer is formed; A support portion formed in the planar portion and set to a height to support the glass substrate by being in contact with the deposition layer when the cap is adhered to the glass substrate; And it is characterized in that it comprises a moisture absorbent attached to the flat portion partitioned by the support, wherein the adhesive portion preferably has the same height as the support.

Support, Hygroscopic, Spacer

Description

Organic EL device having a cap with supporters inside

1 is a cross-sectional view of a conventional organic electroluminescent device having a hygroscopic agent installed therein.

2 is a cross-sectional view illustrating a phenomenon in which a glass substrate of a conventional large-scale organic electroluminescent element provided with a hygroscopic agent sags.

3 is a cross-sectional view of a conventional large-scale organic electroluminescent device without a hygroscopic agent.

4 is a bottom view of a cap of an organic electroluminescent device according to a preferred embodiment of the present invention.

5 is a cross-sectional view taken along the line V-V of FIG. 4.

6 is a cross-sectional view of an organic electroluminescent device according to a preferred embodiment of the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an organic electroluminescent device encapsulated with a cap provided with a hygroscopic agent, and more particularly to an organic electroluminescent device capable of preventing the glass substrate from bending by forming a supporting portion inside the cap.

Organic electroluminescence is a phenomenon in which electrons and holes injected through a cathode and an anode recombine in an organic thin film to form excitons, and light having a specific wavelength is generated by energy from the excitons formed.

The organic electroluminescent device using this phenomenon has a basic cross-sectional structure as shown in FIG. The organic electroluminescent device is basically the rest of the device except for the glass substrate 1, a plurality of anode ITO transparent electrodes 2 patterned in one direction on the glass substrate, and a portion corresponding to the light emitting cell region 8 The structure in which the insulating film 3 deposited on the portion, the partition wall 4 formed on the insulating film in the direction crossing the extending direction of the transparent electrodes 2, the organic material layer 5, and the cathode metal electrode layer 6 are deposited. (Hereinafter referred to as "deposition layer"; E).

The cap 10 is encapsulated in the glass substrate 1 using the adhesive 7 because the organic material layer 5 which is one of the elements constituting the vapor deposition layer E having such a structure is vulnerable to moisture and heat.

As a result, a predetermined sealed space is formed between the cap 10 and the glass substrate 1, and the above elements located in the sealed space are not affected by an external environment such as moisture.

On the other hand, the moisture absorbent 9 is attached to the bottom face of the center part of the cap 10. In the sealed space formed between the cap 10 and the glass substrate 1, moisture existing before the encapsulation of the cap 10 remains, and the moisture exists in the sealed space even after the encapsulation of the cap 10. Therefore, in order to remove this water | moisture content, the moisture absorbent 9 is affixed on the bottom face of the center part of the cap 10, and the cap 10 is sealed in the glass substrate 1. As shown in FIG.

However, when the glass substrate 1 is generally a large substrate of 10 inches or more, deflection occurs in the glass substrate 1 as shown in FIG. 2. Due to this deflection, the moisture absorbent 9 provided on the cap 10 comes into contact with the deposition layer E deposited on the glass substrate 1, thereby degrading or peeling the metal electrode layer 6. Occurs. In addition, as the moisture absorbent absorbs moisture over time, the thickness becomes thick. When the contact with the deposition layer E is maintained in this state, heat generation occurs when the organic light emitting diode is driven. In addition to this, there arises a problem that the appearance of the glass substrate 1 is bent.

On the other hand, in order to improve this problem, there is a method of manufacturing an organic electroluminescent device using the cap 20 is not attached to the absorbent, as shown in FIG. However, the organic electroluminescent device has a problem that shrinkage phenomenon of the organic material due to the internal moisture rapidly progresses because no moisture absorbent is used.

An object of the present invention is to provide an organic electroluminescent device which can prevent sagging of the glass substrate by a support formed in the cap even when encapsulating a large glass substrate with a cap with a moisture absorbent.

The organic electroluminescent device according to the present invention for solving the above technical problem, the cap having a rectangular flat portion and an adhesive portion protruding along the edge of the flat portion and bonded to the glass substrate having a deposition layer; A support portion formed in the planar portion and set to a height to support the glass substrate by being in contact with the deposition layer when the cap is adhered to the glass substrate; And it is characterized in that it comprises a moisture absorbent attached to the flat portion partitioned by the support, wherein the adhesive portion preferably has the same height as the support.

Preferably, the flat portion partitioned by the support portion has a rectangular shape, and the support portion is formed to be spaced apart from the adhesive portion.

In addition, it is preferable that a spacer is provided between the adhesive part and the glass substrate to maintain the gap by its own height in order to prevent the support part from pressing the deposition layer.

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

4 is a bottom view of a cap of an organic light emitting device according to a preferred embodiment of the present invention, Figure 5 is a cross-sectional view taken along the line V-V of FIG.

As shown in FIG. 6, the organic electroluminescent device according to the present exemplary embodiment may include an adhesive on the glass substrate 101 on which the cap 110 having the moisture absorbent 109 and the support 111 formed therein is formed. 107 is encapsulated, and a spacer 112 is provided between the cap 110 and the glass substrate 101 together with the adhesive 107.

The cap 110 made of transparent glass is composed of a flat portion 110a and an adhesive portion 110b. The planar portion 110a is a rectangular planar member having a constant thickness and has an area capable of covering all the light emitting cells formed on the glass substrate 101. The adhesive portion 110b protrudes at a constant height along the edge of the flat portion 110a, and the cap 110 is adhered to the glass substrate 101 by applying the adhesive 107 to the end thereof. The adhesive 107 may be a thermosetting or U.V. Curable adhesives are used.

The moisture absorbent 109 and the support part 111 are formed on the planar part 110a of the cap 110, and the support part 111 is preferably made of the same glass material as the cap 110.

The support 111 has a predetermined height and is formed on the flat portion 110a of the cap 110. A space to which the moisture absorbent 109 may be attached is defined by the support part 111 in the flat part 110a, and the partitioned space is preferably in the shape of a rectangle.

The height of the support 111 is set so that the support 111 contacts the deposition layer E when the cap 110 is encapsulated in the glass substrate 101 by the adhesive 107, and the end of the support 111 is capped. It is formed to be spaced apart from the adhesive portion (110b) of the 110 at regular intervals. On the other hand, the adhesive part 110b of the cap 110 is set to the same height as the support part 111.

The moisture absorbent 109 has a height lower than that of the support portion 111 and is attached to a space on the flat portion 110a partitioned by the support portion 111. The moisture absorbent 109 is also preferably formed to be spaced apart from the adhesive portion 110b of the cap 110 at regular intervals, similar to the support 111.

In the organic electroluminescent device according to the present embodiment, when the cap 110 is encapsulated in the glass substrate 101 by the adhesive 107, the support layer 111 is brought into contact with the deposition layer E so that the deposition layer E may be formed. The formed glass substrate 101 is prevented from sagging.

However, the adhesion height is reduced by the spread of the adhesive 107 generated when the cap 110 is adhered to the glass substrate 101 or the condensation of the adhesive 107 generated after the adhesion, so that the support 111 is formed by the deposition layer ( In order to prevent excessively pressing E), an insulator spacer 112 is provided in the adhesive 107 for adhering the cap 110 and the glass substrate 101. Accordingly, the adhesion height is maintained by the height of the spacer 112.

On the other hand, when the support part 111 is not spaced apart from the adhesive part 110b of the cap 110, a part of the adhesive 107 is deposited by the spread of the adhesive 107 generated when the cap 110 is bonded. The phenomenon of seeping between E) and the support part 111 occurs, and the adhesive 107 introduced into the deposition layer E is cured to cause deterioration of the deposition layer E. Therefore, in order to prevent such a phenomenon, the support part 111 is formed to be spaced apart from the adhesive part 110b of the cap 110.

The moisture absorbent 109 is formed lower than the height of the support part 111 in order to prevent the height of the moisture absorbent 109 from being contacted with the deposition layer E by the absorption of moisture present in the device. In addition, in order to prevent a part of the adhesive 107 from seeping into the deposition layer E, the moisture absorbent 109 is also preferably formed to be spaced apart from the adhesive part 110b of the cap 110.

As described above, the organic electroluminescent device according to the present invention has an effect of preventing the glass substrate from sagging and coming into contact with the moisture absorbent by forming a support portion in contact with the deposition layer in the cap on which the moisture absorbent is attached.

In addition, by forming the support part spaced apart from the adhesive part of the cap to prevent the adhesive from spreading during penetration of the cap to penetrate between the deposition layer and the support part, and to maintain the adhesion height by installing a spacer in the adhesive to prevent the support part from pressing the deposition layer too much Has the effect.

Claims (5)

A cap having a rectangular flat portion and an adhesive portion protruding along an edge of the flat portion and bonded to a glass substrate on which a deposition layer is formed; A support portion formed in the planar portion and set to a height to support the glass substrate by being in contact with the deposition layer when the cap is adhered to the glass substrate; And And a hygroscopic agent attached to the plane portion partitioned by the support portion to have a lower height than the support portion. The method of claim 1, wherein the adhesive portion The organic electroluminescent device having the same height as the support. The flat portion partitioned by the support portion according to claim 1 An organic electroluminescent device characterized by having a rectangular shape. The method of claim 1, wherein the support portion Organic electroluminescent device, characterized in that formed to be spaced apart from the adhesive portion. The method of claim 1, An organic electroluminescent device, characterized in that a spacer is provided between the adhesive portion and the glass substrate so as to maintain a distance by its own height to prevent the support portion from pressing the deposition layer.

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