KR102461489B1 - Curved Display Laminating Device And Curved Display Laminating Method - Google Patents

Abstract

The present invention relates to a bonding device for a curved display and a method for bonding a curved display, and more particularly, to a curved glass for bonding a large-area POLED for a vehicle to a curved glass using the techniques of OCA, adhesive chuck, and purge balloon. It relates to a display bonding apparatus and a bonding method thereof.
According to the present invention, there is an effect that POLED and curved glass can be cemented even for a curved display having a small curvature of 120 degrees or less.
In addition, according to the present invention, there is an effect that POLED having a large area of 12.8 inches and curved glass can be easily bonded without air bubbles.

Description

Cementation device for curved display and method for laminating a curved display

The present invention relates to a bonding device for a curved display and a method for bonding a curved display, and more particularly, to a curved glass for bonding a large-area POLED for a vehicle to a curved glass using the techniques of OCA, adhesive chuck, and purge balloon. It relates to a display bonding apparatus and a bonding method thereof.

A curved display refers to a display that is curved with a certain curvature rather than a conventional flat screen. do.

Recently, a large-area display is being applied to the center fascia as future-oriented design and convenience are pursued in automobile interiors. However, due to the competition in the automobile market, various attempts are being made for automotive displays as well as design, differentiation, user convenience, and technology are required. are being tried

In order to manufacture such a curved display, curved glass and a flexible display must be bonded. As an example of a prior art for a bonding method, there is Korean Patent Application Laid-Open No. 10-2020-0095107. According to this, when a compressive load is applied, the pad A lamination device for manufacturing a curved display having a hybrid pressure pad that minimizes interference with the support and includes a hybrid pressure pad that can be partially replaced even if damaged to improve work reliability and lifespan and reduce maintenance costs is presented. have.

In addition, as another example of the prior art for a display bonding method, there is Korean Patent Registration No. 10-2118873, according to which, a bonding jig using vacuum and air, a bonding jig of a shape memory material and/or an elastic material, and a silicone material Or by bonding the flexible display and the curved cover member with a high degree of bending using any one of the bonding jigs implemented as a flexible pad made of rubber, bonding between the flexible display and the curved cover member is possible, and between the flexible display and the curved cover member. And in particular, the possibility of air bubbles entering the curved portion is prevented or minimized, in particular, the quality of the bonded final display panel is improved, and a bonding apparatus and a bonding method of a flexible display and a curved cover member capable of mass-producing the final display panel have been proposed.

And, as another example of the prior art for a display bonding method, there is Korean Patent Registration No. 10-1706617, according to which the surface shape is complex and has a three-dimensional shape in which interference may occur when the diaphragm expands. It has been suggested that a curved cementation machine capable of cementing a cementation to a complex, and capable of cementing a cemented substance without air bubbles even to an adherend having a complex surface shape and a three-dimensional shape with a fine curved surface has been proposed.

However, a bonding method using flexible displays such as POLED, curved glass, and Optically Clear Adhesive (OCA) is not presented in the prior art.

Korean Patent Publication No. 10-2020-0095107 Korean Patent Publication No. 10-2118873 Korean Patent Publication No. 10-1706617

An object of the present invention is to provide a device for bonding POLED and curved glass using OCA, an adhesive chuck, and a purge balloon in order to solve the above problems.

The present invention for achieving the above object is a bonding apparatus for a curved display including a display bending module, a glass bonding module and a vacuum chamber, wherein the display bending module is a lower jig plate, and a display seated on the lower jig plate It characterized in that it comprises a jig, a plurality of lower adhesive chuck plate located on the upper portion of the display mounting jig.

The glass bonding module includes an upper jig plate, a glass mounting jig formed on the upper jig plate, and a plurality of upper adhesive chuck plates positioned above the glass mounting jig, wherein the display mounting jig and the glass mounting jig face each other It is characterized in that it is formed to be seen.

A plurality of adhesive chuck plates are respectively provided on the upper portions of the display seating jig and the glass seating jig, and the plurality of adhesive chuck plates each surround a support, a purge balloon formed on the support, and the purge balloon. It includes a formed adhesive part, the size of the purge balloon is adjusted by air pressure flowing into the air injection hole, and when the display is attached to the adhesive plate of the display mounting jig, the height of the purge balloon is smaller than the height of the adhesive part, and When detaching from the adhesive chuck plate, the height of the purge balloon is greater than the height of the adhesive part, and when attaching the glass to the adhesive chuck plate of the glass mounting jig, the height of the purge balloon is smaller than the height of the adhesive part, and the glass is attached to the adhesive chuck. When detaching from the plate, the height of the purge balloon is greater than the height of the adhesive part.

The adhesive portion is composed of a plurality of isolated adhesive regions, and the purge balloon and the plurality of isolated adhesive regions are spaced apart from each other at regular intervals.

When the display bending module bends the display outside the vacuum chamber, it further includes a display bending part spaced apart from the display seating jig at a predetermined distance, wherein the display bending part has a curvature of a curved surface among both ends of the display seating jig It is characterized in that it is positioned above the small radius.

In addition, the method for bonding the curved display may include: a first step of bending the display; and a second step of bonding the display and the glass, wherein the first step includes: a 1-1 step of disposing an unbent display on the display mounting jig; a 1-2 step of bending the display by pressing the rotating roll of the display bending unit to one side of the display; Step 1-3 of moving the bent display to a vacuum chamber; In the second step, a second step of placing the bent display in the vacuum chamber and placing the bent glass on the glass mounting jig -Stage 1; a second step of bonding the bent display and the bent glass by narrowing the gap between the display seating jig and the glass seating jig; The size of each of the purge balloons of the lower adhesive chuck plate positioned on the display mounting jig and the upper adhesive chuck plate positioned on the glass mounting jig is increased to allow the impregnated display and glass to be mounted on the display mounting jig and the glass. It is characterized in that it comprises; a step 2-3 of separating from the jig.

As described above, according to the present invention, there is an effect that POLED and curved glass can be cemented even for a curved display having a small curvature of 120 degrees or less.

In addition, according to the present invention, there is an effect that POLED having a large area of 12.8 inches and curved glass can be easily bonded without air bubbles.

1 is a schematic diagram of a display bending module according to an embodiment of the present invention.
Figure 2 (a) shows a state that the display according to the embodiment of the present invention is placed on the display mounting jig.
Figure 2 (b) shows a state in which the display bending unit is moved to press the display according to the embodiment of the present invention.
3 is a schematic diagram of an adhesive chuck plate according to an embodiment of the present invention.
Figure 4 (a) is a state before the operation of the purge balloon according to the embodiment of the present invention.
Figure 4 (b) is a view after the operation of the purge balloon according to the embodiment of the present invention.
5 is a schematic diagram of a display bonding module according to an embodiment of the present invention.
6 (a) is a view showing before bonding in a vacuum chamber according to an embodiment of the present invention.
6( b ) is a view of a state in which they are bonded in a vacuum chamber according to an embodiment of the present invention.
6( c ) is a view in which the display is separated after bonding the display in the vacuum chamber according to the embodiment of the present invention.
7 is a flowchart illustrating the steps of bonding a curved display using the bonding apparatus for a curved display according to an embodiment of the present invention.
8 is a flowchart illustrating detailed steps of the display bending step (S10) according to an embodiment of the present invention.
9 is a flowchart showing detailed steps of the vacuum adsorption step (S20) according to an embodiment of the present invention.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided so that the disclosed content may be thorough and complete, and the technical spirit of the present invention may be sufficiently conveyed to those skilled in the art.

The bonding apparatus for a curved display according to the present invention includes a display bending module 100 , a glass bonding module 200 and a vacuum chamber 50 . 1 shows a display bending module 100 according to an embodiment of the present invention, wherein the display bending module 100 includes a lower jig plate 10A at a lower portion, a display seating jig 20A at an upper portion thereof, and a plurality of display bending modules 100 at an upper portion thereof. It is characterized in that it is composed of a lower adhesive chuck plate (30A), a display mounting jig (20A), and a display bending unit (40) spaced apart.

The bonding apparatus for a curved display comprises a display bending module 100 and a glass bonding module 200 . The display bending module 100 is a device that bends the flexible display 60 such as POLED into a desired shape and maintains the shape. Referring to FIG. 1 , a lower jig plate 10A may be positioned at a lower portion of the display bending module 100 . The lower jig plate supports the upper seating jig and may be made of a metal material. A display mounting jig 20A is positioned on the lower jig plate 10A, and the display mounting jig 20A is required to make the display 60 into a desired shape. Since the display mounting jig 20A becomes the original shape when the display is bent, the display 60 reflects the flat and curved surfaces of the display mounting jig 20A to form a curved display. A lower adhesive plate 30A is positioned above the display mounting jig 20 . A sticky chuck uses a material with adhesive strength to adhere and fix an adhesive pad, an adhesive sheet, or an adhesive rubber, etc. on a substrate, and supports the substrate by placing the substrate on the other surface of the fixed adhesive pad, etc., In the present invention, it serves to fix the bent display by adhesive. In an embodiment of the present invention, a plurality of adhesive chuck plates are used, and the detailed configuration thereof will be described later.

2 shows an operation of the display bending unit 40 . Referring to FIG. 2 , the display bending unit 40 is positioned to be spaced apart from the display seating jig 20A at a predetermined distance, and is located at the upper portion of both ends of the display seating jig 20A where the radius of curvature of the curved surface is small. can do. That is, the display bending unit 40 may be positioned at the end where the curvature is higher and the curvature is smaller than a flat place, which requires bending. The display bending unit 40 includes a rotating roll 41 and a rotating roll moving unit 42 . The display bending unit 40 is spaced apart from the display mounting jig 20A, and when the display 60 is placed on the display mounting jig 20A, the rotating roll moving unit 42 is disposed at both ends of the display mounting jig 20A. It moves to a place with a small radius of curvature among them and pressurizes it using the rotating roll 41 . By pressing the rotating roll 41, the display mounting jig 20A is bent along the curved surface, and the display 60 is adhered to the lower adhesive chuck plate 30A.

6 is a schematic diagram illustrating display bonding, and referring to FIG. 6 , a vacuum chamber 50 , a display bending module 100 located in the vacuum chamber 50 , and a glass bonding module 200 located above the display bending module 100 . ) can be included. The display bending module 100 is configured to include a lower jig plate 10A, a display mounting jig 20A thereon, and a plurality of lower adhesive chuck plates 30A thereon. The display bending module 100 may move into the vacuum chamber 50 after the display is bent. The display bending unit is outside the vacuum chamber and does not move inside the vacuum chamber, but in some cases, a separate display bending unit may be provided in the vacuum chamber to bend the display. The glass bonding module 200 is configured to include an upper jig plate 10B, a glass mounting jig 20B thereon, and a plurality of upper adhesive chuck plates 30B thereon, and the display bending module 100 and the glass The bonding modules 200 are formed to face each other in a parallel direction. In FIG. 2 , the bent display 60 moves to the vacuum chamber 50 through the inlet and outlet 51 of FIG. 6 in a state in which it is adhered to the lower adhesive chuck plate 30A on the lower display mounting jig 20A.

A plurality of adhesive chuck plates 30 are provided in the display bending module 100 and the glass bonding module 200 , and the adhesive chuck plate 30 is a support part 31 , an upper portion of the support part 31 , referring to FIG. 3 . It may be configured to include a purge balloon 33 formed in the center of the purge balloon 33 and an adhesive portion 32 surrounding the purge balloon 33 . The adhesive part 32 is a sticky chuck, and the curved display 60 and the curved glass 62 according to an embodiment of the present invention may be bonded together. The adhesive portion 32 includes a plurality of isolated adhesive regions 32a, 32b, 32c, and 32d, and the adhesive region and the purge balloon may be spaced apart from each other at regular intervals. By disposing the adhesive part 32 into a plurality of adhesive regions 32a, 32b, 32c, and 32d, when the display 60 is pressure-attached to the adhesive part 32, the soft adhesive part 32 becomes the adhesive region 32a. , 32b, 32c, 32d) can secure a movable space between the adhesive portion 32 can be increased flexibility.

A purge balloon is a device that lifts or pushes an object by inflating a balloon (balloon), that is, the purge balloon 33 of the present invention has an empty interior and is fixed to the support part 31 in a hemispherical shape. . Air is injected and discharged through the air injection hole 31a formed in the support part 31, and the size of the purge balloon 33 is controlled by the injection and discharge of air. The material of the purge balloon 33 may be a material having elasticity, for example, silicone, rubber, or the like may be used. The purge balloon 33 of the present invention expands and pushes the curved display 61 and the curved glass 62 adhered to the adhesive part 32 into the balloon. 4 shows a sequence in which the purge balloon 33 operates. 4 (a) is a state in which the purge balloon 33 is not expanded while the display is seated on the adhesive part 32, and FIG. 4 (b) shows the purge balloon 33 is expanded to adhere the display 60. It is in a state pushed up by the part 32 . That is, the size of the purge balloon 33 is adjusted by the air pressure injected into the air injection hole 31a, and when the display 60 is attached to the adhesive plate 30, the height of the purge balloon 33 is the adhesive portion ( 32 , and when the display 60 is detached from the adhesive chuck plate 30 , the height of the purge balloon 33 is greater than the height of the adhesive part 32 .

In order to stably adsorb the display in the display bending module 100 , first, it may be fixed by vacuum adsorption with a vacuum chuck (not shown), and then stably fixed with the adhesive chuck plate 30 after bending is performed. The plurality of vacuum holes of the vacuum chuck may be located in a space where the adhesive chuck plate 30 is not located on the upper portion of the display mounting jig 20A. The vacuum chuck operates when the display 60 is placed on the display mounting jig, and ends when the bent display 60 moves to the vacuum chamber 50 .

In addition, a sub-adhesive part (not shown) may be additionally provided at an upper periphery of each of the display mounting jig 20A and the glass mounting jig 20B. The sub-adhesive part may be formed in a shape that continuously surrounds the plurality of adhesive chuck plates 30 . The height of the sub-adhesive chuck is the same as the height of the support part 310 and the adhesive part 32 . Therefore, vacuum leak that may be caused by the adhesive part 32 separated and arranged in the plurality of adhesive regions 32a, 32b, 32c, and 32d in the hole of the vacuum chuck formed on the upper surface of the display mounting jig 100 is prevented. can be prevented

Hereinafter, operation steps of the display bending module 100 and the display bonding module 200 configured as described above will be described. 7 shows the steps of bonding the curved display.

1. First step: display bending step (S10)

(1) Step 1-1: Placing on the seating jig of the display for bending (S11)

(2) Step 1-2: Display bending step (S12)

(3) Step 1-3: Moving the bent display (S13)

2. Second step: vacuum adsorption step (S20)

(1) Step 2-1: Placing the bent display in a vacuum chamber, and placing the bent glass on a seating jig (S21)

(2) Step 2-2: Cementation of the display mounting jig and the glass mounting jig (S22)

(3) Step 2-3: Separating the bonded display and glass from the display mounting jig and the glass mounting jig (S23)

The first step is bending the display ( S10 ), and as shown in FIG. 8 , the following three steps are included. First, in a step (S11) of disposing the display 60 on the display mounting jig 20A, when the display 60 is placed on the display mounting jig 20A, vacuum suction is performed by the vacuum chuck and the display 60 is fixed in position. becomes this The next step is to bend the display by pressing the rotating roll 41 of the display bending unit 40 to one side of the display (S12), and the display bending unit 40 is bent to one end of the display seating jig 20 When it is moved and pressed with the rotating roll 41, the display 60 is adhered to the adhesive part 32 of the lower adhesive chuck plate 30A on the display mounting jig 20A, and the display 60 is a curved display. shape is fixed. Then, the next step is to move the bent display ( S13 ), and the bent display 60 is moved to the vacuum chamber 50 through the inlet and outlet 51 of the vacuum chamber 50 in the adhesive state.

The second step is a vacuum adsorption step (S20), and as shown in FIG. 9, it includes the following three steps. The first is a step (S21) of placing the bent display 60 in the vacuum chamber 500 and placing the bent glass on the glass mounting jig 20B. Referring to FIG. 6(a), the bent display 60 is disposed in the vacuum chamber 50. In this step, an OCA (Optically Clear Adhesive) in the form of a film adhered to the upper portion of the display 60 is positioned, It may be bonded to the curved glass 62 in step 2-2. It is possible to prevent bubbles and dust from sticking to the surface of the display 61 or the curved glass 62 when working using the OCA only when working in a vacuum condition. In addition, the curved glass 62 is adhered to the upper adhesive chuck plate 30B on the glass mounting jig 20B to be disposed in the vacuum chamber 50 . The next step is the bonding step (S22) of the display mounting jig 20A and the glass mounting jig 20B. Referring to FIG. 6(b), in this step, the display 61 to which the OCA is adhered and the curved glass are bonded. Cementation is performed by moving the curved glass 62 on the glass mounting jig 20B vertically downward to bring the OCA on the display mounting jig 20A into close contact with the adhered display 61 . Adhesion of the curved display 61 and the curved glass 62 is made by the adhesive force of the OCA. Then, the next step (S23) is to separate the display and the glass bonded display jig (20A) and the glass mounting jig (20B). Referring to FIG. 6( c ), the purge balloon 33 of the adhesive plate 30 on the display mounting jig 20A and the glass mounting jig 20B expands while pushing the cemented display and glass in a state where the bonding is made. The display and the glass adhered to the adhesive part 32 fall off. The display after bonding is moved to another work line through the inlet/outlet 51 of the vacuum chamber 50 .

The present invention is not limited to the above embodiments, but can be manufactured in a variety of different forms, and those of ordinary skill in the art to which the present invention pertains can take other specific forms without changing the technical spirit or essential features of the present invention. It will be understood that it can be implemented as Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive.

10A: lower jig plate
10B: upper jig plate
20A: Display mounting jig
20B: Glass mounting jig
30: adhesive chuck plate
30A: lower adhesive chuck plate
30B: upper adhesive chuck plate
31: support
31a: air injection hole
32: adhesive part
32a, 32b, 32c, 32d: adhesive area
33: fuzzy balloon
40: display bending unit
41: rotating roll
42: rotating roll moving part
50: vacuum chamber
51: entrance and exit
60: display
61: OCA-attached display
62: curved glass
100: display bending module
200: glass cementation module

Claims (7)

A method of bonding a curved display using a bonding apparatus for a curved display including a display bending module, a glass bonding module, and a vacuum chamber, the bonding method comprising: a first step of bending the display; A second step of bonding the display and the glass,
The display bending module includes a lower jig plate, a display mounting jig positioned above the lower jig plate, and a plurality of lower adhesive chuck plates positioned above the display mounting jig,
The glass bonding module includes an upper jig plate, a glass mounting jig formed on the upper jig plate, and a plurality of upper adhesive chuck plates positioned above the glass mounting jig,
The display mounting jig and the glass mounting jig are formed to face each other,
A plurality of adhesive chuck plates are respectively provided on the upper portions of the display seating jig and the glass seating jig, and the plurality of adhesive chuck plates each surround a support, a purge balloon formed on the support, and the purge balloon. It has a formed adhesive part,
The size of the purge balloon is controlled by air pressure flowing into the air injection hole, and when the display is attached to the adhesive chuck plate, the height of the purge balloon is smaller than the height of the adhesive part, and when the display is detached from the adhesive chuck plate, the The height of the purge balloon is greater than the height of the adhesive part,
The adhesive portion consists of a plurality of isolated adhesive regions, and the purge balloon and the isolated plurality of adhesive regions are spaced apart from each other at regular intervals,
When the display bending module bends the display outside the vacuum chamber, it further includes a display bending unit spaced apart from the display seating jig at a predetermined distance;
The display bending part is located at the upper portion of the place where the radius of curvature of the curved surface is small among both ends of the display seating jig,
The first step may include a 1-1 step of disposing an unbent display on the display mounting jig; a 1-2 step of bending the display by pressing the rotating roll of the display bending unit to one side of the display; Steps 1-3 of moving the bent display to a vacuum chamber; includes,
The second step may include: a 2-1 step of placing a bent display in the vacuum chamber and placing the bent glass on the glass mounting jig; a second step of bonding the bent display and the bent glass by narrowing the gap between the display seating jig and the glass seating jig; The size of each of the purge balloons of the lower adhesive chuck plate positioned on the display mounting jig and the upper adhesive chuck plate positioned on the glass mounting jig is increased to allow the combined display and glass to be mounted on the display mounting jig and the glass. Step 2-3 of separating from the jig; Method of bonding a curved display comprising the. delete delete delete delete delete delete

Images