KR101232150B1 - Dual el display device and fabricating method thereof - Google Patents

Abstract

The double-sided light emitting display device according to the present invention includes a first organic light emitting display device having a hard or flexible substrate; A second organic light emitting display device having a flexible substrate; And an adhesive layer formed between the first organic light emitting diode and the second organic light emitting diode to bond the first organic light emitting diode and the second organic light emitting diode, wherein the adhesive layer is formed on the first organic light emitting diode. The organic light emitting diode and the second organic light emitting diode are formed on the entire surface facing each other, and are provided on the front surface between the first organic light emitting diode and the adhesive layer and on the front surface between the second organic light emitting diode and the adhesive layer. It further includes a moisture absorbing layer to enable the front surface adhesion of the rolling heating and pressure method to eliminate bubbles generated between the bonding layer to increase the visibility, and to prevent the penetration of moisture to the side to extend the life of the device, A thinner double sided light emitting display device can be provided

Double-sided light emitting display device, organic light emitting display device, flexible substrate, front adhesive

Description

DOUBLE EL DISPLAY DEVICE AND FABRICATING METHOD THEREOF

1 is a schematic view showing the configuration of a double-sided light emitting display device using a conventional organic light emitting display device

2 is a schematic view showing the structure of a double-sided light emitting display device according to an embodiment of the present invention;

3A to 3C are schematic views showing one embodiment of a method of manufacturing a double-sided light emitting display device according to the present invention;

4 is a schematic view showing another embodiment of the present invention

Description of the Related Art

210: substrate of the second organic light emitting device

220, 220 ': light emitting layer

230, 230 ': protective layer

240: adhesive layer

250: substrate of the first organic light emitting device

The present invention relates to an organic light emitting display device, and more particularly, to provide an image that is independent on both sides, and to provide a lightweight and thin double-sided light emitting display device.

In general, an organic light emitting display is a self-luminous display that electrically excites fluorescent organic compounds to emit light, and thus, an organic light emitting display device can be driven at a low voltage, is easy to thin, and provides a fast response speed. It is attracting attention as the next generation display that can solve the shortcomings.

In general, an organic light emitting display device uses a transparent glass or plastic plate as a substrate, and laminates an organic film such as a first electrode part, a hole transport layer, an organic light emitting layer, and an electron transport layer on top of the substrate, and sequentially the second electrode part on the top. It is laminated.

In the organic light emitting device having such a structure, when a potential difference occurs between the first electrode part and the second electrode part, holes injected into the hole transport layer and electrons injected into the electron transport layer recombine in the organic light emitting layer, It emits light by energy.

In addition, recently, a technology for a double-sided light emitting display device which is thinner than a double-sided light emitting display device by a conventional liquid crystal display device by emitting light by combining the organic light emitting display devices on both sides has been developed.

1 is a schematic view showing the configuration of a double-sided light emitting display device using a conventional organic light emitting display device. In the double-sided light emitting display device of FIG. 1, the first display device 110 and the second display device 110 ′ are closely disposed and fixed to each other by fixing means 120 formed on a portion of the side surface thereof. The first and second display devices 110 and 110 ′ may seal the organic light emitting parts 112 and 112 ′ formed on one surface of the substrates 113 and 113 ′ and the organic light emitting parts. '). The fixing means 120 is fixed to one side of the sealing part 111 on the opposite side of the organic light emitting part, and is fixed to the sealing part 111 'of the other organic light emitting part which is disposed to be symmetrical with each other. 2 display elements are formed to be coupled.

In the conventional double-sided light emitting display device as described above, by bonding only one side of the sealing part, unnecessary gas and moisture may remain between the sealing parts when bonding, thereby forming fine bubbles, and also, the lifetime of the organic light emitting device may be caused by moisture penetration through the sealing part. There was a disadvantage of shortening. In addition, even when the two display elements are bonded together, there is a problem in that the above-described gases and moisture cannot be sufficiently removed by using hard glass substrates or plastics.

As a result, in the related art, there are many difficulties in combining both display elements.

SUMMARY OF THE INVENTION The present invention has been made in an effort to provide a thinner and longer life double-sided light emitting display device to enable a more robust coupling in combining two organic light emitting devices.

In order to achieve the above object, the double-sided light emitting display device according to the present invention includes a first organic light emitting display device having a hard or soft substrate, a second organic light emitting display device having a soft substrate, and a first organic light emitting display device and a first And an adhesive layer formed between the two organic light emitting diodes to bond the first organic light emitting diode to the second organic light emitting diode.

Preferably, the rigid substrate may be a glass substrate, the flexible substrate is less than 200um thickness PET (polyethylene terephthalate), PC (polycarbonate), PEN (polyethylene naphthalate), PES having a barrier layer for water and gas (polyethersulfone).

Preferably, the adhesive layer is formed on the opposite surface of the substrate of the first organic light emitting device and the opposite surface of the flexible substrate of the second organic light emitting device to combine the first and second organic light emitting devices, and also the first organic light emitting device. And the second organic light emitting display device are formed on the entire surface facing each other, and are adhered to each other, and are in the form of an adhesive solid film.

Preferably, the adhesive layer may be formed of one selected from natural rubber, synthetic rubber, styrene block copolymer, polyvinyl ether, poly acrylate, polyolefin, and silicone, or may be formed of a material selected by mixing two or more of the above materials.

Preferably, the second organic light emitting diode may be formed by a rolling heating and pressing method on an adhesive layer formed on one surface of the first organic light emitting diode.

Preferably, the first and second organic light emitting diodes may further include a moisture absorbing layer on a surface in contact with the adhesive layer.

In addition, the manufacturing method of the double-sided light emitting display device according to the present invention for achieving the above object comprises the steps of preparing a first organic electroluminescent device having a hard or flexible substrate and a second organic electroluminescent device having a flexible substrate, Forming an adhesive layer on one surface of the first organic electroluminescent device and bonding the second organic electroluminescent device on the adhesive layer formed as described above by a rolling heating and compression method.

Preferably, the adhesive layer may be formed by a rolling heating and pressing method using an adhesive material in the form of a film.

Preferably, the forming of the first and second organic light emitting diodes may further include forming a moisture absorbing layer on a surface in contact with the adhesive layer.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of embodiments taken in conjunction with the accompanying drawings.

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to embodiments of the double-sided light emitting display device according to the present invention.

2 is a schematic view showing the structure of a double-sided light emitting display device according to an embodiment of the present invention. The double-sided light emitting display device according to FIG. 2 is composed of first and second organic light emitting display elements and an adhesive layer 240. Each organic light emitting display device includes substrates 210 and 250, light emitting layers 220 and 220 ', It consists of protective layers 230 and 230 '.

In particular, the lower substrate 250 may be a rigid or flexible substrate, but the upper substrate 210 may be a flexible substrate. The warpage of the organic light emitting display device varies depending on the nature of the substrate. Therefore, when the upper substrate is a soft substrate is used, the second organic electroluminescent device as a whole has a flexible (flexible) properties. The first organic light emitting diode having the lower substrate may have a flexible or rigid property.

The hard substrate may be a glass substrate, and the soft substrate may be formed of polyethylene terephthalate (PET), polycarbonate (PC), polyethylene naphthalate (PEN), or polyethersulfone (PES) having a thickness of 200 μm or less, in which a barrier layer for water and gas is formed. It can be done as one.

The adhesive layer 240 is formed between the first organic light emitting diode and the second organic light emitting diode to couple the first organic light emitting diode and the second organic light emitting diode. The adhesive layer 240 is formed on the opposite surface of the substrate 250 of the first organic light emitting diode and the opposite surface of the flexible substrate 210 of the second organic light emitting diode, as shown in FIG. 2. 2 The organic light emitting diode is formed on the entire surface facing each other and adhered to the whole surface. The reason for the face sealing as described above is that when the side sealing is performed, the bonded portion is thin, and thus the probability of moisture penetration into the side is much higher. Therefore, when the entire surface is bonded, moisture or impurities are prevented from penetrating through the side to shorten the life of the organic light emitting device. In this case, the adhesive layer 240 may be an adhesive solid film form.

In addition, the present invention can be bonded by heating and pressing with a roller by using a substrate in which at least one panel is flexible when bonding two organic light emitting device panels using a solid adhesive film. According to such a rolling heating and pressing method, two organic electroluminescent devices can be uniformly bonded without forming fine bubbles due to air remaining. As a result, the adhesive force is increased, and is sealed from the external environment, thereby blocking the inflow path of external gas and moisture.

The adhesive layer 240 may be formed by selecting one of natural rubber, synthetic rubber, styrene block copolymer, polyvinyl ether, poly acrylate, polyolefin, and silicone, or may be used by mixing two or more of the above materials. have.

The light emitting layers 220 and 220 'include first electrodes 222 and 222', organic material layers 223 and 223 ', and second electrodes 224 and 224', and are provided with electrons supplied from the first electrode and the second electrode. The energy of the hole combination excites the organic material to emit light. The present invention can output separate images using two organic light emitting diodes.

Protective layers 230 and 230 ′ are formed on one surface of the emission layer to protect the emission layer. In general, organic matter is very sensitive to moisture, and thus it is necessary to isolate it from the outside. In some cases, the second electrode may be bonded directly to the bonding layer without the protective layer. However, in order to protect it with moisture, a protective layer is preferably formed. The protective layer may be composed of an organic material 231 and 231 'serving as a planarization insulating film or an inorganic material 232 and 232' used as an actual moisture protection film, and in addition, to remove moisture that may remain fine in the adhesive layer. Moisture absorption layers 233 and 233 'may be further formed.

3A to 3C are schematic views showing an embodiment of a method of manufacturing a double-sided light emitting display device according to the present invention.

Referring to the drawings, the manufacturing of the double-sided light emitting display device according to the present invention first prepares a first organic electroluminescent device having a hard or soft substrate and a second organic electroluminescent device having a soft substrate. As described above, the organic light emitting diode is composed of the substrates 210 and 250, the light emitting layers 220 and 220 ′, and the protective layers 230 and 230 ′.

Next, as shown in FIG. 3A, an adhesive layer 240 is formed on one surface of the first organic light emitting diode. At this time, the adhesive layer may be a solid film form. When the solid adhesive film is used, as shown in FIG. 3A, bubbles generated between layers may be removed using a rolling heating / pressing method, and a strong adhesive may be sealed to the external environment.

Then, the second organic electroluminescent device is bonded on the formed adhesive layer 240 by a rolling heating and pressing method. The second organic light emitting display device may have such a rolling method because it has a flexible characteristic. By forming in this way, a firm bond can be performed without forming a bubble between adhesive layers as mentioned above.

In this manner, the double-sided light emitting display device as illustrated in FIG. 3C may be formed. A moisture absorption layer may be further formed on one surface of the protective layers 230 and 230 ′ in contact with the adhesive layer.

Since each organic light emitting display device of the double-sided light emitting display device according to the present invention as described above has wirings such as a data line or a scan line for each pixel, both panels are bonded during front bonding as shown in FIG. 4 to process such wiring. Can be solved by combining the predetermined intervals. That is, the wiring of the second organic light emitting display device of the upper layer may be connected to the outside by the left section 400 of FIG. 4, and the wiring of the first organic light emitting display device of the lower layer is connected to the outside by the right section 402. To drive the device.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

As described above, according to the present invention, the two light emitting panels are front-bonded by using a flexible substrate and a solid adhesive layer to remove bubbles from the bonding layer to increase visibility and to prevent moisture from penetrating to the side. In addition to extending the life, a thinner double-sided light emitting display device can be provided.

Claims (12)

A first organic light emitting display device having a hard or soft substrate; A second organic light emitting display device having a flexible substrate; And An adhesive layer formed between the first organic light emitting diode and the second organic light emitting diode to bond the first organic light emitting diode and the second organic light emitting diode; The adhesive layer is formed on the entire surface of the first organic electroluminescent device and the second organic electroluminescent device facing each other, And a hygroscopic layer provided on the entire surface between the first organic electroluminescent device and the adhesive layer and on the entire surface between the second organic electroluminescent device and the adhesive layer. The method of claim 1, The hard substrate is a double-sided light emitting display device, characterized in that the glass substrate. The method of claim 1, The flexible substrate is a double-sided light emission, characterized in that made of one of polyethylene terephthalate (PET), PC (polycarbonate), polyethylene naphthalate (PEN), polyethersulfone (PES) having a thickness of less than 200um, the barrier layer for water and gas is formed Display element. The method of claim 1, And the adhesive layer is formed on an opposite surface of the substrate of the first organic light emitting diode and an opposite surface of the flexible substrate of the second organic light emitting diode to combine the first and second organic light emitting diodes. delete The method of claim 1, The adhesive layer is a double-sided light emitting display device, characterized in that the adhesive solid film form. The method of claim 1, And the second organic light emitting display device is formed on the adhesive layer formed on one surface of the first organic light emitting display device by rolling heating and pressing method. The method of claim 1, The adhesive layer is formed by selecting one of natural rubber, synthetic rubber, styrene block copolymer, polyvinyl ether, poly acrylate, polyolefin, and silicone or by mixing two or more of the above materials. Double-sided light emitting display element. delete Preparing a first organic light emitting display device having a hard or flexible substrate and a second organic light emitting display device having a soft substrate; Forming an adhesive layer on one surface of the first organic light emitting diode; And Bonding the second organic electroluminescent device on the adhesive layer by rolling heating and pressing; The adhesive layer is formed on the entire surface of the first organic light emitting device and the second organic light emitting device facing each other, the first organic electroluminescent device and the second organic electroluminescent device is bonded to the entire surface, And forming a moisture absorbing layer on the entire surface between the first organic light emitting diode and the adhesive layer and on the entire surface between the second organic light emitting diode and the adhesive layer. The method of claim 10, And the adhesive layer is formed by a rolling heating and pressing method using an adhesive material in the form of a film. delete

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