KR20210088885A - Laminating system capable of laminating flexible display films continuously - Google Patents

Abstract

The present invention relates to a laminating system capable of continuous lamination of flexible display films, wherein a lower pad on which a display panel (A) is loaded horizontally and which drives horizontally is pressed on a first upper pad on which a flexible display film is round-loaded to perform lamination, and then is pressed on a second upper pad on which another flexible display film is loaded to perform lamination, thereby minimizing generation of bubbles and shortening the overall lamination time.

Description

Laminating system capable of laminating flexible display films continuously

The present invention relates to a laminating system, and more particularly, to an apparatus for continuously bonding flexible display films using a loading roller.

Display devices are a liquid crystal display (LCD), an organic light emitting diode display (OLED), a plasma display panel (PDP), and a quantum dot light emitting display (QLED) depending on the light emitting method. , quantum dot light emitting diode display), and micro LED display.

In order to laminate the display panel and the cover window (glass, synthetic resin) constituting the display device, an adhesive is applied on the display panel and the display panel and the cover window are bonded using a laminator.

1 is a view for explaining a general display device. As shown in (a) of FIG. 1 , the display device 1 refers to an electronic device that displays various information to a user, and includes, but is not limited to, a mobile terminal, a TV, a monitor, and an electric sign board.

Figure 1 (b) is a view showing a cross section of X - X' of Figure 1 (a), the display panel (A), the adhesive layer (1-1), the touch panel (1-2), the polarizer (1) -3, Polarizer), and may be configured to include a cover window (1-4). These various films (1-1, 1-2, 1-3, 1-4) may refer to a flexible substrate, each of which is manufactured separately and laminated in multiple layers to constitute the display device 1 . .

In the lamination process, different films are compressed and attached using a laminator. For example, the display panel 1-1 and the adhesive layer 1-2 may be laminated, and the cover window 1- 5) and the adhesive layer 1-2 may be bonded, and the bonded films may be re-bonded. Due to this, the display device 1 in which the multilayer film is ultimately laminated can be manufactured.

By the way, a general bonding machine used for pressing and bonding various films (substrates) has a flat plate shape or a gentle curve shape in which the upper pad and the lower pad on which the film is seated (loaded) are flat, and the first flexible display film The first film and the second film are vertically cemented in a state where the flexible display film and the second flexible display film are placed almost horizontally. In this case, it is difficult to achieve 'sequential' compression and bonding from one end area to the other end area of the film surface. There is a problem that air bubbles are likely to occur in between.

In addition, a laminating equipment technology for pressing and bonding a film (substrate) using a roller is currently disclosed, but this also does not fundamentally eliminate the occurrence of air bubbles.

In addition, in the prior art, bonding was performed individually using a plurality of coalescence machines (eg, bonding was performed in units of units for each process), which made it impossible to complete the bonding process in one chamber at once.

Korean Patent Publication (Registration Publication No.: 10-2031684, "Equipment for manufacturing curved display panel and manufacturing method of curved display panel") discloses a technology using a roller to attach a panel substrate and a window substrate, The roller performs only a function for compressing, but it is not disclosed for the roller to perform the function of a loading pad on which the substrate is seated, and a one-stop (one-stop (one-stop) method by continuously bonding a plurality of films in one chamber. A one-stop solution process is not disclosed.

One technical problem to be solved by the present invention is to develop a laminating system that minimizes the generation of bubbles between flexible display films and shortens the overall bonding time by continuously performing the bonding process.

In order to solve the above problem, a laminating system according to an embodiment of the present invention,

A lower pad on which the display panel (A) is horizontally loaded and drives horizontally along the transport rail;

A first upper pad positioned on the lower pad, the first flexible display film (B) is round-loaded and rotationally driven;

a second upper pad positioned adjacent to the side surface of the first upper pad, the second flexible display film C is round-loaded and rotationally driven; and

a control unit electrically connected to the lower pad, the first upper pad, and the second upper pad to drive and control each;

the control unit,

By driving the lower pad to be positioned at the first position P1, one end region of the first flexible display film B corresponding to the one end region of the display panel A is compressed, and the lower pad and the first upper part By driving the film pad, the display panel (A) and the first flexible display film (B) are sequentially bonded from one end to the other end,

Then, the lower pad is driven to be positioned at the second position (P2) so that the one end region of the second flexible display film (C) corresponding to the one end region of the first flexible display film (B) is compressed, and , by driving the lower pad and the second upper film pad so that the first flexible display film (B) and the second flexible display film (C) are sequentially cemented from one end to the other end to minimize the generation of bubbles and the bonding process time can be shortened.

According to an embodiment of the present invention, since bonding can be completed through a one-stop bonding process in one chamber, production can be improved.

In addition, since the loading pad is configured in a roller shape, it is possible to load the flexible display film while maintaining the round (curved) shape, thereby suppressing the occurrence of air bubbles.

1 is a view for explaining a general display device.
FIG. 2 is a view for explaining a laminating system in which a lower pad is positioned at a position P1 according to an exemplary embodiment.
FIG. 3 is a view for explaining a laminating system in which a lower pad is positioned at a position P2 according to an embodiment.
FIG. 4 is a view for explaining a lighting system including a loading unit and an unloading unit according to another embodiment.
5 is a view for explaining an upper pad system according to an embodiment.
6 is a view for explaining an upper pad system for partially controlling a vacuum suction driving operation of a vacuum suction area of an upper pad according to an exemplary embodiment.
7 is a view for explaining an upper film pad according to another embodiment.

Hereinafter, the present invention will be described in detail so that those skilled in the art can easily understand and reproduce the present invention through preferred embodiments described with reference to the accompanying drawings. In describing the present invention, if it is determined that a detailed description of a related well-known function or configuration may unnecessarily obscure the gist of the embodiments of the present invention, the detailed description thereof will be omitted. Terms used throughout the present specification are terms defined in consideration of functions in the embodiment of the present invention, and since they can be sufficiently modified according to the intention, custom, etc. of a user or operator, definitions of these terms are defined throughout this specification It should be made based on the contents of

Also, the above and further aspects of the invention will become apparent through the following embodiments. It is believed that the aspects or configurations of the optionally described embodiments herein can be freely combined with each other, even if shown as a single integrated configuration in the drawings, unless it is clear to a person skilled in the art that there is a technical contradiction in the art unless otherwise stated. It is understood.

Therefore, the configuration shown in the embodiments and drawings described in the present specification is only the most preferred embodiment of the present invention and does not represent all of the technical spirit of the present invention, so at the time of the present application, various It should be understood that there may be equivalents and variations.

FIG. 2 is a view for explaining a laminating system in which a lower pad is positioned at a position P1 according to an embodiment. As shown in FIG. 2 , the laminating system 1000 includes a lower pad 20 , a first upper pad 10 , a second upper pad 11 , a control unit 30 , and a transfer rail 40 . can be configured.

The lower pad 20, the display panel (A) is loaded horizontally, it can be driven to move horizontally along the transfer rail (40). The lower film pad 20 may have a plate shape. As a result, the display panel A may be seated to maintain a horizontal shape. The lower film pad 20 may be configured as a chuck.

The first upper pad 10 may be positioned on the lower pad, and the first flexible display film B may be round-loaded and rotationally driven. The upper film pad 10 has a roller shape and may be rotated by a driving motor. The first flexible display film (B) may be attached to the surface of the first upper pad 10 . For this purpose, the upper film pad 10 may have a function of vacuum adsorption or adhesion. The first flexible display film B is loaded onto the upper film pad 10 to maintain a round shape as a whole. The upper film pad may have elasticity. Due to this, soft compression can be achieved.

The second upper pad 11 may be positioned adjacent to the side surface of the first upper pad 10 , and the second flexible display film C may be round-loaded and rotationally driven.

The controller 30 may be electrically connected to the lower pad 20 , the first upper pad 10 , and the second upper pad 11 to control driving of each. That is, the controller may control the horizontal movement of the lower pad and may control the rotation of the first upper pad 10 and the second upper pad 11 . The horizontal movement direction of the lower pad and the rotation direction of the upper pad correspond to each other. That is, when the lower pad 20 moves from left to right as shown, it is preferable that the upper pads 10 and 11 rotate counterclockwise. Due to this, the frictional force in the horizontal direction can be minimized.

Furthermore, the control unit 30 drives the lower pad 20 to be positioned at the first position P1 so that one end region of the first flexible display film B corresponding to the one end region of the display panel A is It is pressed, and the lower pad 20 and the first upper film pad 10 are driven so that the display panel A and the first flexible display film B are sequentially bonded from one end to the other.

A plurality of flexible display films may be loaded on the first upper pad 10 and the second upper pad 11 , respectively.

FIG. 3 is a view for explaining a laminating system in which a lower pad is positioned at a position P2 according to an embodiment. As shown in FIG. 3 , the control unit 30 drives the lower pad 20 to be positioned from the first position P1 to the second position P2 so that the first flexible display film B One end region of the second flexible display film (C) corresponding to the region is compressed, and the lower pad and the second upper film pad are driven to drive the first flexible display film (B) and the second flexible display film (C) can be sequentially cemented from one end to the other.

The first flexible display film (B) and the second flexible display film (C) may be a single-layer film composed of any one of the films shown in FIG. can be The first flexible display film and the second flexible display film are sufficient as long as they are in a flexible state in the bonding process step, and may or may not be in a flexible state in the completed display device.

The display panel (A) before bonding with the 1st flexible display film (B) may be a state in which another flexible display film is laminated|stacked on it.

In the laminating system according to another embodiment, the first upper pad 10 and the second upper pad 11 may be raised and lowered by driving an actuator (not shown). Due to this, it is possible to apply an appropriate compression force. The second upper pad 11 may be disposed to have a height higher than that of the first upper pad 10 . As shown in Figure 2, the second upper pad 11 is disposed higher than the first upper pad 10 by h, h can be determined in consideration of the thickness of the first flexible display film (B). have.

The horizontal movement speed of the lower pad 20 may be substantially the same as the angular speed of the first upper pad 10 and the second upper pad 11 . Accordingly, the display panel (A), the first display film (B), and the second display film (C) can be stably bonded to each other without causing friction.

Here, the adhesive material used for bonding the display panel (A), the first display film (B) and the second display film (C) is an optically clear adhesive film (OCA) and an optically transparent resin ( OCR, Optically Clear Resin) may be used, and it is not separately indicated as it is a commonly used process. The use of the adhesive material is not essential. For example, the lamination of the polarizers 1-3 of FIG. 1 may be performed without using a separate adhesive material.

4 is a view for explaining a lighting system including a loading unit and an unloading unit according to another embodiment. As shown in FIG. 4 , the laminating system 1000 includes a lower pad 20 , a first upper pad 10 , a second upper pad 11 , an N-th upper pad 12 , and a control unit 30 . ), a transfer rail 40 , a loading unit 50 , and an unloading unit 60 may be configured.

FIG. 4 may further include an N-th upper pad 12 , a loading unit 50 , and an unloading unit 60 in the configuration of FIG. 2 .

There may be three or more upper pads. Therefore, the upper pad may be composed of N pieces. The N-th upper pad 12 is any one of the flexible display films 1-1, 1-2, 1-3, 1-4 shown in FIG. Film can be loaded. Preferably, the Nth upper pad 12 may load the cover window 1-4 . The N-th upper pad 12 may be positioned higher by H than the first upper pad 10 . Due to this, it may be advantageous to continuously perform the bonding process of the multi-layers.

When the display panel A is loaded into the loading unit 50 , a series of bonding processes are automatically performed, and when the cover window is laminated by the N-th upper pad 12 , the final display device is unloaded from the unloading unit 60 . It can be carried out to the end of the entire cementation process. This entire bonding mechanism can be controlled by the control unit 30 .

5 is a view for explaining an upper pad system according to an embodiment. As shown, the upper pad system 100 may include upper pads 10 , 11 , 12 , a driving motor 70 , and a vacuum pump 80 .

Since the upper pads 10 , 11 , and 12 are connected by a vacuum pump and each has a plurality of vacuum holes 2 , the first flexible display film is removed by vacuum suction of the vacuum pump 80 . It can be loaded onto the top pad.

As shown, the driving motor 70 may be provided adjacent to the upper pads 10, 11, and 12, and a rotational force is applied to the upper pad by a driving shaft (not shown) at a predetermined distance. It may be transmitted. The flexible display film may be loaded round the upper pad by rotational driving of the driving motor 70 and vacuum suction of the vacuum pump 80 to be rotationally driven.

The controller 50 may selectively drive and control the vacuum suction for each of the upper pads 10 , 11 , and 12 . For example, the control unit controls the first upper pad 10 , the second upper pad 11 , and the N-th upper pad 12 to a state in which vacuum suction is not driven (Suction Off), and then The first upper pad 10 , the second upper pad 11 , and the N-th upper pad 12 may be controlled to be in the vacuum suction driving state (Suction On) in the order.

The laminating system 1000 may further include a chamber (not shown). An upper pad system 100 , a lower pad 20 , a transfer rail 40 , a loading unit 50 , and an unloading unit 60 are provided in the chamber, so that all bonding processes are performed once in one chamber. -stop) can be done.

6 is a view for explaining an upper pad system for partially controlling a vacuum suction driving operation of a vacuum suction area of an upper pad according to an exemplary embodiment. As shown,

The upper pad system 100 may include a vacuum pump 80 and upper pads 10 , 11 , and 12 . The control unit 30 may control the driving of the vacuum pump 80 , and the vacuum pump 80 applies vacuum suction to the second upper pad 11 having a vacuum hole formed on the surface of the second upper pad 11 . A flexible display film (C) may be loaded.

The controller 30 may drive the plurality of vacuum holes provided in the upper pads 10 , 11 , and 12 to individually perform vacuum suction. As shown, the region in which bonding with the first flexible display film (B) has not yet been made among the regions of the second flexible display film (C) maintains the suction operation (Suction On), and the region where bonding is made is Suction operation may not be performed (Suction Off). Among the vacuum holes of the upper pad, it is preferable to control the vacuum holes reaching the bottom to be Suction Off. It is desirable to keep Suction On before compression and to control to turn Suction Off from the moment of compression. To this end, the vacuum holes of the upper pad may be grouped and individually connected to the vacuum pump.

7 is a view for explaining an upper film pad according to another embodiment. As shown, the upper film pad system 100 may include an upper film pad 10 , a driving motor 70 , and an adhesive member 3 .

The upper film pads 10 , 11 , and 12 of the upper film pad system 100 may further include an adhesive member 3 on the surface on which the first flexible display film is round loaded. The adhesive member may replace the vacuum adsorption.

It is preferable that the adhesive member has weak adhesive force. The flexible display film only needs to have enough adhesive strength to be loaded, and it can be used as a conventional material that temporarily maintains adhesive strength.

1: display device
A: Display panel
B: first flexible display film
C: second flexible display film
1-1: adhesive layer
1-2: touch panel
1-3 : Polarizer
1-4 : Cover window
2: vacuum hole
3: adhesive member
1000: laminating system
100: upper pad system
10: first upper pad
11: second upper pad
12: Nth upper pad
20: lower pad
30: control unit
40: transfer rail
50: loading part
60: unloading unit
70: drive motor
80: vacuum pump

Claims (2)

A lower pad on which the display panel (A) is horizontally loaded and horizontally moved along the transport rail;
a first upper pad positioned on the lower pad, the first flexible display film (B) being round-loaded and rotationally driven;
a second upper pad positioned adjacent to the side surface of the first upper pad, the second flexible display film (C) being round-loaded and rotationally driven; and
a control unit electrically connected to the lower pad, the first upper pad, and the second upper pad to control the driving of each;
the control unit,
By driving the lower pad to be positioned at the first position P1, one end region of the first flexible display film B corresponding to the one end region of the display panel A is compressed, and the lower pad and the first upper part By driving the film pad, the display panel (A) and the first flexible display film (B) are sequentially bonded from one end to the other end,
Then, the lower pad is driven to be positioned at the second position (P2) so that the one end region of the second flexible display film (C) corresponding to the one end region of the first flexible display film (B) is compressed, and , A laminating system that drives the lower pad and the second upper film pad so that the first flexible display film (B) and the second flexible display film (C) are sequentially bonded from one end to the other. The method of claim 1,
The first upper pad and the second upper pad,
Each laminating system having a plurality of vacuum holes, the first flexible display film (B) and the second flexible display film (C) are round-loaded, respectively, by vacuum suction through the vacuum holes.

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