KR100746828B1 - Device for Sealing Organic Electroluminescent Device - Google Patents

Abstract

The present invention relates to an apparatus and a method for sealing an organic electroluminescent device, the present invention relates to ultraviolet generating means for generating ultraviolet rays of a predetermined wavelength band for curing the adhesive, and condensing means for irradiating the ultraviolet rays generated by the ultraviolet generating means And, it provides an encapsulation device of an organic electroluminescent device comprising a movement means for moving the light collecting means along the application portion of the adhesive for encapsulating the organic electroluminescent device.

Organic, luminescent, sealed, ultraviolet

Description

Device for sealing organic electroluminescent device and method {Device for Sealing Organic Electroluminescent Device}

1 is a cross-sectional view schematically showing a sealing device of a conventional organic electroluminescent device,

2 is a perspective view schematically showing an embodiment of an encapsulation device of an organic electroluminescent device according to the present invention;

3 is a view showing a portion of ultraviolet light is irradiated when using the sealing device of the organic electroluminescent device of the present invention.

Explanation of symbols for main parts of the drawings

1: organic electroluminescent device 5: canister

3: glass substrate 7: adhesive

11 photomask 32 UV generation means

40: movement means 42: movement member in the Y direction

44: X direction movement member 50: condensing means

34: transmission means

FIELD OF THE INVENTION The present invention relates to organic electroluminescent devices, and more particularly, to apparatus and methods for sealing organic electroluminescent devices.

Recently, as the size of the display device increases, the demand for a flat display device having less space occupancy is increasing. As one of the flat display devices, an electroluminescent device is attracting attention. Electroluminescent devices can be broadly classified into inorganic electroluminescent devices and organic electroluminescent devices depending on the materials used.

In general, an inorganic electroluminescent device is a device which emits light by applying a high electric field to a light emitting part, accelerating electrons in the high electric field, and colliding with the light emitting center, thereby exciting the light emitting center. In the organic electroluminescent device, an exciton generated by combining electrons and holes injected by injecting electrons and holes from an electron injection electrode and a hole injection electrode into an emission layer, respectively, is a ground state from an excited state. It is a device that emits light when falling.

Inorganic electroluminescent devices require a high electric field and therefore require a high voltage of 100 to 200 V, whereas organic electroluminescent devices can be driven at a low voltage of 5 to 20 V. It's going on. In addition, the organic electroluminescent device has excellent characteristics such as wide viewing angle, high speed response and high contrast, so it can be used as a pixel of a graphic display, a television image display or a surface light source. They are thin, light, and have good color, making them suitable for next-generation flat panel displays.                         

On the other hand, the organic electroluminescent device is formed by sequentially stacked on the hole injection electrode, the light emitting layer, the electron injection electrode on the glass substrate. The glass substrate is bonded with a canister, which is a metal structure, using an ultraviolet curable resin.

The conventional sealing device and method of the organic electroluminescent device will be described with reference to FIG.

First, the adhesive 7 which is ultraviolet curable resin is apply | coated on the canister 5 which is a metal structure, and the glass substrate 3 is adhered on it. In this state, when the ultraviolet rays are irradiated onto the glass substrate 3 side, the adhesive 7 hardens. However, when ultraviolet rays are irradiated as they are in this state, the ultraviolet rays are irradiated not only on the portion where the adhesive 7 is applied, but also on the entire glass substrate 3 to cause deterioration of the element 1. Therefore, the exclusive photomask 11 is disposed on the glass substrate 3 in order to irradiate ultraviolet rays only to the portion where the adhesive 7 is applied.

In the state where the photomask 11 is arranged, ultraviolet rays are irradiated to the glass substrate 3 side using an ultraviolet lamp (UV lamp) 13. Then, the adhesive 7 is cured and the sealing operation of the organic electroluminescent element 1 is completed. At this time, the ultraviolet lamp 13 is mainly used a metal halide lamp, the ultraviolet ray having a wavelength band of approximately 200-400nm is irradiated.

The method of using a dedicated photomask can selectively irradiate ultraviolet rays only to the portion to which the adhesive 7 is applied, but has the following problems.

First, if the shape and type of the product is changed, the photomask is also changed accordingly, there is a problem that the manufacturing cost of the photomask is additionally required. Moreover, this problem is even greater when small quantities of various varieties are produced.

Second, in the case of an ultraviolet photomask, expensive quartz having a high transmittance with respect to the ultraviolet band is used as a material of the photomask in order not to transmit heat rays in the long wavelength band. Therefore, there was a problem that the production cost is further increased.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide an apparatus and method for encapsulating an organic electroluminescent device which can reduce production costs.

Another object of the present invention is to provide an apparatus and method for encapsulating an organic electroluminescent device which can prevent deterioration of the organic electroluminescent device.

In order to achieve the above object, the present invention and the UV generating means for generating ultraviolet light of a predetermined wavelength band for curing the adhesive; Condensing means for irradiating ultraviolet rays generated by said ultraviolet ray generating means; It provides an encapsulation device of an organic electroluminescent device comprising a movement means for moving the light collecting means along the application portion of the adhesive for encapsulating the organic electroluminescent device.

Here, the movement means and the X direction movement member that can move in the X direction; It comprises a Y-direction moving member that can move in the Y direction.

And, it is preferable that the ultraviolet generating means generates an ultraviolet laser.

According to another embodiment of the present invention, the present invention comprises the steps of generating ultraviolet light; The present invention provides a method for encapsulating an organic electroluminescent device, comprising: irradiating the ultraviolet light only to the adhesive coated portion while moving along the adhesive coated portion for encapsulating the organic electroluminescent element.

Therefore, according to the present invention, it is possible to irradiate ultraviolet rays only to the portion to which the adhesive is applied without using a photomask.

Hereinafter, with reference to the accompanying drawings, it will be described a preferred embodiment of the present invention that can specifically realize the above object.

In the present embodiment, the same configuration as the prior art has the same name and the same reference numerals and description thereof will be omitted.

2 is a perspective view schematically showing an encapsulation device of an organic electroluminescent device according to the present invention. Referring to this, the present invention will be described below.

An encapsulation device for an organic electroluminescent element according to the present invention comprises ultraviolet generating means 32 for generating ultraviolet rays for curing the adhesive 7 and condensing means for irradiating a predetermined portion with ultraviolet rays generated by the ultraviolet generating means 32. And a movement means 40 for moving the light collecting means 50 along the application portion of the adhesive 7. Of course, the ultraviolet ray transmitting means 34 such as an optical cable is connected between the ultraviolet ray generating means 32 and the light collecting means 50.

Each component will be described in detail as follows.                     

The ultraviolet generating means 32 is for generating ultraviolet rays capable of curing the adhesive 7, and it is preferable to use an ultraviolet laser (UV laser) of 365 nm wavelength band. Of course, it is also possible to use the ultraviolet lamp which can be irradiated instead of an ultraviolet laser.

The light converging means 50 is a device for irradiating the glass substrate 3 with a laser generated using an optical system such as a mirror and a lens.

On the other hand, the movement means 40 is to move the light collecting means 50 along the portion where the adhesive 7 is applied on the X-Y plane. That is, the movement means 40 includes an X-direction movement member 44 that can move in the X direction, and a Y-direction movement member 42 that can move in the Y direction. Of course, the movement means 40 is properly controlled to move along a path previously input by a controller (not shown).

Referring to Figure 2 the operation of the embodiment according to the present invention will be described.

Ultraviolet rays generated by the ultraviolet ray generating means 32 are transmitted to the light collecting means 50 through the transmission means 34. Then, the light collecting means 50 moves along the portion where the adhesive 7 is applied by the X-direction moving member 44 and the Y-direction moving member 42 and irradiates ultraviolet rays only to the portion where the adhesive 7 is applied. Done.

At this time, if the adhesive 7 is cured by the cross-sectional area of the generated laser beam, ultraviolet rays can be irradiated accurately by continuously transferring the displacement by the diameter of the laser beam per pulse of the irradiated laser beam.                     

On the other hand, although the path P to which ultraviolet rays are irradiated is as shown in FIG.

In the above-described embodiment, the light collecting means 50 is moved along the adhesive part 7 while the glass substrate 3 is fixed, but the present invention is not limited thereto. That is, in contrast to the above embodiment, the light collecting means 50 is fixed and the glass substrate 3 is moved so that the coated portion of the adhesive 7 passes the light collecting means 50. Can be obtained.

As can be seen in the appended claims, those skilled in the art will appreciate that modifications can be made without departing from the spirit of the invention and such modifications are within the scope of the invention.

The effect of the sealing device and method of the organic electroluminescent device according to the present invention described above is as follows.

First, in the present invention, the ultraviolet light can be irradiated only to the adhesive coating portion, not the entire glass substrate, thereby effectively preventing deterioration of the organic electroluminescent device.

Second, the present invention can reduce the production cost because it does not need to use a separate cooling device and expensive modified photomask. In addition, it is possible to reduce the production cost in this regard because it is not necessary to produce a separate photomask even when changing the model of the product.

Claims (4)

Ultraviolet generation means for generating ultraviolet rays in a predetermined wavelength band for curing the adhesive; Condensing means for irradiating ultraviolet rays generated by said ultraviolet ray generating means; An encapsulation device of an organic electroluminescent element, comprising: movement means for moving the light collecting means along an application portion of an adhesive for encapsulating the organic electroluminescent element. According to claim 1, wherein the movement means X direction movement member capable of moving in the X direction; An encapsulation device for an organic electroluminescent device, characterized in that it comprises a Y-direction moving member that can move in the Y direction. The device for encapsulating an organic electroluminescent element according to claim 1 or 2, wherein the ultraviolet generating means generates an ultraviolet laser. Generating ultraviolet light; A method of encapsulating an organic electroluminescent device, comprising: irradiating the ultraviolet light only to the adhesive applying portion while moving along the adhesive applying portion for encapsulating the organic electroluminescent element.

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