KR100707391B1 - Apparatus and method for pasting film on the glass - Google Patents

Abstract

The present invention relates to an apparatus and method for attaching an adhesive film to a cap glass of an organic light emitting device, the apparatus for attaching an adhesive film to a cap glass of an organic light emitting device according to the present invention is equipped with at least one cap glass, Capglass mounting portion capable of lifting in a direction; An adhesive film support part supporting an adhesive film above the cap glass mounting part; And a pressing unit for pressing the adhesive film in both end portions at the same time from the center portion.

According to the present invention, it is possible to effectively remove bubbles between the cap glass and the adhesive film and at the same time significantly reduce the adhesive film adhesion time.

Organic light emitting device. Cap glass. Adhesive film.

Description

Apparatus and method for pasting film on the glass}

1 is a cross-sectional view of a conventional organic light emitting device.

2 shows a method of attaching an adhesive film to a conventional cap glass.

Figure 3 shows an adhesive film attachment apparatus according to the present invention.

4A to 4D sequentially illustrate a process of attaching an adhesive film using the attaching apparatus shown in FIG. 3.

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

1: auxiliary film 2: adhesive film

3: cap glass 10: adhesive film support

11: support 12: O-ring

13: pressurizing means 21: tray

22: lifting means 30: pressing unit

31: base plate 32: lifting means

33: pressure pad 34: holder

35: coil spring

The present invention relates to an apparatus and method for attaching an adhesive film to a cap glass of an organic light emitting device, and more particularly, organic light emitting which can significantly reduce the adhesion time without generating bubbles between the cap glass and the adhesive film. An apparatus and method for attaching an adhesive film to a cap glass of an element.

Recently, with the rapid development of information and communication technology and the expansion of the market, flat panel displays have been in the spotlight as display devices. Such flat panel displays include liquid crystal displays, plasma display panels, organic light emitting diodes, and the like.

Among them, the organic light emitting device has very good advantages such as fast response speed, lower power consumption than conventional liquid crystal display, light weight, ultra thin without needing a back light device, and high brightness. As a result, it is attracting attention as a next generation display device.

In the organic light emitting device, an anode film, an organic thin film, and a cathode film are sequentially coated on a substrate, and a suitable energy difference is formed in the organic film by emitting a voltage between the anode and the cathode, thereby emitting light by itself. That is, the electrons and holes injected are recombined, and the excitation energy remaining as light is generated. In this case, since the wavelength of light generated according to the amount of the dopant of the organic material may be adjusted, full color may be realized.

Although the detailed structure of the organic light emitting diode is not shown in the drawing, an anode, a hole injection layer, a hole transport layer, an emission layer, and an electron transport layer are deposited on a substrate. A layer, an electron injection layer, and a cathode are stacked in this order. In this case, ITO (Indium Tin Oxide) having a small sheet resistance and good permeability is mainly used as the anode. And an organic thin film is composed of a hole injection layer, a hole transport layer, light emitting layer, an electron transport layer, the electron injection layer, the multi-layer to increase the light emitting efficiency, an organic material used for the light emitting layer is Alq _3, TPD, PBD, m-MTDATA, TCTA. In addition, a LiF-Al metal film is used as the cathode. And since the organic thin film is very weak against moisture and oxygen in the air, the cap glass is bonded to increase the life time of the device.

Referring to Figure 1 will be described the structure of the organic light emitting device 100 is bonded cap glass 120 made of a glass material.

As shown, the moisture absorbent 121 for reducing the influence of the gas generated in the organic light emitting layer 111 inside the organic light emitting device 100 and the moisture and oxygen from the outside is attached to the interior of the cap glass 120 The cap glass 120 has a rectangular shape in plan view, and an extension part protruding a predetermined height in one direction is formed at an end of each side, and an adhesive 122 is coated to form a seal line having a predetermined width in a cross section of the extension part. The glass 120 is attached to the organic glass 110 on which the organic light emitting layer 111 is deposited to block the penetration of moisture and oxygen from the outside. At this time, a predetermined space 123 is formed between the cap glass 120 and the organic glass 110.

As such, there is a process of applying an adhesive to the cap glass as a previous step in order to bond the cap glass and the organic glass. The adhesive may be a liquid or solid sealant. The solid sealant is an adhesive film.

A method of attaching such an adhesive film to the cap glass will be described with reference to FIG. 2.

As shown in FIG. 2, the cap glass 110 is mounted on the mounting unit 200, and the adhesive film 220 is positioned on the cap glass 110. Here, the auxiliary film 210 is used to attach a plurality of adhesive films 220 to the plurality of cap glasses 110 at the same time. That is, the adhesive film 220 is attached to the corresponding position of the auxiliary film 210.

As shown in this state, the cap glass 110 and the adhesive film 220 are attached by pressing from the left side to the right side of the auxiliary film 210 with the pressure roller 230.

However, according to the conventional method of attaching by pressing from one side end to the other end direction, there is a problem in that the adhesion time is long and bubbles are generated between the adhesive film 220 and the cap glass 110.

The present invention has been made to solve the above-described problems, the object of the present invention is that no bubbles are generated between the cap glass and the adhesive film, the adhesive film to the cap glass of the organic light emitting device that can significantly reduce the adhesion time To provide an apparatus and method for attaching.

In order to solve the above technical problem, the apparatus for attaching the adhesive film to the cap glass of the organic light emitting device according to the present invention is equipped with at least one cap glass, cap glass mounting portion that can be elevated in the vertical direction; An adhesive film support part supporting an adhesive film above the cap glass mounting part; And a pressing unit for pressing the adhesive film in both end portions at the same time from the center portion.

In addition, the pressing portion is the base plate which is elevated in the vertical direction; And a pressure pad coupled to the lower portion of the base plate. In particular, the pressure pad is preferably a soft synthetic resin material such as polyurethane or silicone.

In addition, the pressing pad is fixed only at both ends of the base plate, so that when there is no external force, it is formed to be convex downward by gravity or at least one elastic body interposed between the base plate and the pressing pad. Alternatively, the shape of the pressure pad itself may be convex downward.

The configuration in this way is to be in contact with the center portion when the pressure pad is in close contact with the adhesive film (contact).

A method of attaching an adhesive film to a cap glass of an organic light emitting diode includes mounting the cap glass; Placing the adhesive film on the cap glass; And pressing the adhesive film with a pressure pad and attaching the adhesive film to the cap glass while attaching the adhesive film while pressing the adhesive film in the opposite direction from the center of the adhesive film.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the present invention.

Referring to FIG. 3, the present embodiment includes a cap glass mounting unit, an adhesive film support unit 10, and a pressing unit 30.

The cap glass mounting unit is provided with a tray 21 for mounting at least one cap glass 3, and lifting means 22 to lift the cap glass in the vertical direction.

The adhesive film support unit 10 is a means for supporting the auxiliary film 1 to which at least one adhesive film 2 is attached, the support 11 supporting the auxiliary film 1 from below, and the auxiliary film. It is composed of a pressing means (13) for pressing (1) from above to fix it to the support (11). In particular, the O-ring 12 is interposed between the pressing means 13 and the support 11 to keep the auxiliary film 1 taut.

Finally, the pressing unit 30 is a means for pressing the adhesive film 2, a hard base plate 31, elevating means 32 for elevating the base plate 31, and the base plate ( 31 is composed of a soft pressing pad 33 is fixed to the lower side. The pressure pad 33 is fixed to both ends of the base plate 31 by holders 34. In addition, a coil spring 35 is interposed between the pressing pad 33 and the base plate 31.

In addition, the pressure pad 33 may be made of a resin material such as elastic soft silicone or polyurethane, or alternatively, the upper layer part may be formed of Teflon, and the lower layer part may be formed of the resin material, and then bonded to each other.

With reference to Figures 4a to 4d will be described the operation of this embodiment and the method of attaching the adhesive film.

First, after fixing the auxiliary film 1 to which the plurality of adhesive films 3 are attached to the support 10 (see FIG. 4A), the plurality of cap glasses 3 are raised (see FIG. 4B). In this state, both ends of the pressing pad 33 are fixed to the base plate 31 to be in close contact with each other, but the center part is spaced apart by a predetermined distance by the spring 35. In other words, the pressing pad 33 is a convex shape of the center portion down.

Next, when the pressure pad 33 with the central portion convex downward by the spring 35 is lowered (FIG. 4B), as shown in the enlarged view of FIG. 4C, the adhesive film 2 and the cap glass 3 are provided. The central part of is in close contact with both ends. In this state, when the pressure pad 33 is further lowered and pressed, the spring 35 is compressed and the adhesive film 2 and the cap glass 3 are simultaneously left and right by the pressure pad 33. It is closely attached in the direction and attached from the front (FIG. 4D).

That is, in the adhesive film attaching apparatus and method according to the present invention, the adhesive film 2 and the cap glass 3 are in close contact with each other at the center, and at the same time, the adhesion is completed in both end directions. Therefore, compared with the conventional method of attaching from one end to the other end, the attachment time is shorter and bubbles can be effectively removed.

The technical idea of the present invention may be variously modified and modified from the foregoing embodiments. For example, since both ends are fixedly installed by the holder even though the spring is not interposed between the pressure pad and the base plate, the pressure pad may have a central portion convex downward to function similarly by gravity. . Likewise, even if the pressing pad and the base plate are fixedly installed at the front side rather than at both ends, a similar action can be induced by forming the pressure pad convex downward. However, in any case, the pressing pad, in particular, the lower layer of the pressing pad has a common point in that it should be soft with elastic force.

According to the present invention, in attaching the adhesive film to the cap glass of the organic light emitting device, since the pressure is attached from the center portion at the same time in the left and right directions, there is an effect that can shorten the attachment time.

At the same time there is an effect that can effectively remove the bubble between the cap glass and the adhesive film.

Claims (8)

In the device for attaching the adhesive film to the cap glass of the organic light emitting device, A cap glass mounting portion for mounting at least one cap glass; An adhesive film support part supporting an adhesive film above the cap glass mounting part; And An adhesive film attachment device comprising a; pressing portion for pressing the adhesive film in the direction of both ends at the same time from the center portion. The method of claim 1, The pressing unit, A base plate which is lifted in a vertical direction; And Adhesive film attachment device comprising a; a pressure pad coupled to the lower portion of the base plate. The method of claim 2, The pressure pad is an adhesive film attachment device, characterized in that the soft synthetic resin material. The method of claim 2, The pressure pad is an adhesive film attachment device, characterized in that fixed to only both ends of the base plate. The method of claim 4, wherein Adhesive film attachment device characterized in that at least one elastic body is provided between the base plate and the pressure pad. The method of claim 2, The pressure pad is an adhesive film attachment device, characterized in that formed convex down. The method of claim 1, The cap glass mounting portion is an adhesive film attachment device, characterized in that the lifting portion is provided. In the method of attaching the adhesive film to the cap glass of the organic light emitting device, Mounting the cap glass; Placing the adhesive film on the cap glass; And Pressing the adhesive film with a pressure pad and attached to the cap glass, the step of attaching while pressing in the direction of both ends from the center of the adhesive film; adhesive film attachment method comprising a.

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