KR20200073657A - Method and system for laminating optical film - Google Patents

Abstract

According to one embodiment of the present invention, a system for laminating an optical film comprises: a first laminating unit laminating an optical film on a surface of a light source portion side of a panel; and a second laminating unit laminating the optical film on surface of a screen portion side of the panel, wherein the first laminating unit comprises a pair of rollers and the panel and the optical film are inserted between the pair of rollers so that the optical film is laminated on the surface of a light source side of the panel. The second laminating unit comprises: a roller; and a panel adsorption unit adsorbing the surface of a light source portion side of a panel, and the optical film is disposed between the rollers and the surface of a screen portion side of the panel, and the panel adsorption unit is transferred in one direction so that the optical film is laminated on the surface of a screen portion side of the panel. According to the present invention, the system for laminating an optical film can improve adhesion accuracy.

Description

METHOD AND SYSTEM FOR LAMINATING OPTICAL FILM

The present invention relates to a method and system for laminating an optical film on a panel for the manufacture of a display unit.

Recently, research has been actively conducted to improve the production efficiency and the degree of adhesion of an optical film laminating system for manufacturing a display unit by attaching an optical film including a polarizing film to a panel.

1 is a side view schematically showing an optical film laminating system according to an example of the prior art.

The laminating means mainly used for continuous laminating of the optical film to the panel is a pair of attachment rollers. When the optical film 1 and the panel 2 are put between the pair of rollers 3 and 4, the pair of rollers 3 and 4 rotates the optical film 1 and the panel 2 in one direction. The optical film 1 is thus laminated to the panel 2.

When the optical film 1 is laminated to the panel 2 in this way, meandering may occur as the panel 2 and the optical film 1 are transported together by a pair of rollers 3 and 4, which This may cause a problem of deteriorating the adhesion accuracy of the optical film 1 to the panel 2.

On the other hand, according to the display unit specifications, the adhesion precision of the optical film to the panel may be required differently.

For a display unit of a type requiring a relatively low attachment precision, the optical film laminating system shown in FIG. 1 may be used, but for a display unit of a type requiring a relatively high attachment precision, the optical shown in FIG. 1 Film laminating systems may not be suitable.

The above-described background technology is the technical information that the inventor possessed for the derivation of embodiments of the present invention or acquired in the derivation process, and may be said to be a publicly known technology disclosed to the general public before filing the embodiments of the present invention. none.

The problem to be solved by the present invention is to provide an optical film laminating method and system capable of maintaining high adhesion precision and laminating efficiency.

However, the problems to be solved by the present invention are not limited to the above-mentioned problems, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, an optical film laminating system according to an embodiment of the present invention includes: a first laminating unit for laminating an optical film on a side of a light source portion of a panel; And a second laminating unit for laminating the optical film on the side of the screen portion of the panel. The first laminating unit includes a pair of rollers, and the panel and the optical film are introduced between the pair of rollers. By doing so, the optical film is laminated on the side of the light source portion of the panel, and the second laminating unit includes a roller and a panel adsorption unit that adsorbs the side of the light source portion of the panel, and between the roller and the screen side of the panel. After the optical film is disposed on the panel, the panel adsorption unit is transferred in one direction, so that the optical film can be laminated on the screen side of the panel.

In the present embodiment, the second laminating unit laminates the optical film on the surface of the screen of the panel on which the optical film is laminated on the light source unit side surface by the first laminating unit, and the panel adsorption unit is the first laminating unit. The unit can adsorb the side of the light source portion of the panel on which the optical film has been laminated.

In this embodiment, the panel may further include a panel turning unit disposed between the first laminating unit and the second laminating unit to pivot the panel 90 degrees.

In this embodiment, a panel inversion unit may be disposed between the first laminating unit and the second laminating unit to invert the panel.

To achieve the above object, an optical film laminating method according to an embodiment of the present invention includes the steps of: (a) laminating an optical film on a side of a light source portion of a panel; And (b) laminating an optical film on a side surface of the screen of the panel, wherein step (a) is performed by putting the panel and the optical film between a pair of rollers to opticalize the light source side of the panel. Laminating the film, in step (b), the panel adsorption unit adsorbs the light source side surface of the panel, and after placing the optical film between the roller and the screen side surface of the panel, the panel adsorption unit is directed in one direction. By transferring to the optical film can be laminated to the side of the screen portion of the panel.

In this embodiment, the step (b) is performed after the step (a), and the panel adsorption unit can adsorb the light source side surface of the panel on which the optical film is laminated in the step (a).

In this embodiment, the transport direction of the panel in step (a) and the transport direction of the panel in step (b) are parallel to each other, and (c) between steps (a) and (b) The panel may further include a step of 90° turning.

In this embodiment, (d) between the step (a) and the step (b) may further include the step of inverting the panel.

According to the optical film laminating system and/or method according to an embodiment of the present invention, the process of laminating the optical film on the side of the light source of the panel is faster than the process of laminating the optical film on the side of the screen of the panel. It can be performed, and instead, the process of laminating the optical film on the side of the screen portion of the panel can be made to maintain the attachment position precision higher than the process of laminating the optical film on the side of the light source portion of the panel.

1 is a side view schematically showing an optical film laminating system according to an example of the prior art.
2 schematically shows a display unit according to an exemplary embodiment of the present invention.
3 is a schematic side view schematically showing an optical film laminating system according to an embodiment of the present invention.
4 is a view schematically showing the transport direction of the panel and the optical film in the optical film laminating system according to an embodiment of the present invention.
Figure 5 is a flow chart showing the procedure of the optical film laminating method according to an embodiment of the present invention.

The present invention will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, and only the embodiments allow the disclosure of the present invention to be complete, and the ordinary knowledge in the technical field to which the present invention pertains. It is provided to fully inform the holder of the scope of the invention, and the invention is only defined by the scope of the claims. Meanwhile, the terms used in the present specification are for explaining the embodiments and are not intended to limit the present invention. In the present specification, the singular form also includes the plural form unless otherwise specified in the phrase. As used herein, "comprises" and/or "comprising" refers to the components, steps, operations and/or elements mentioned above, the presence of one or more other components, steps, operations and/or elements. Or do not exclude additions. Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are only used to distinguish one component from other components.

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

2 schematically shows a display unit according to an exemplary embodiment of the present invention.

The display unit 20 includes a liquid crystal panel 21 and a light source unit 22 disposed on one side of the liquid crystal panel 21 and an optical film 23 disposed on the light source unit side surface 21_a of the liquid crystal panel 21 and It may include an optical film 24 disposed on the side (21_b) of the screen portion of the liquid crystal panel 21.

Here, the optical films 23 and 24 may have a stacked structure in which a plurality of films are stacked, and the type of film forming the stacked structure of the optical film and the number of stacked films may vary. In this embodiment, the optical films 23 and 24 may include polarizing films having absorption axes formed in a predetermined direction by stretching.

Since the observer desires the display unit 20 toward the screen portion side of the liquid crystal panel 21, the accuracy of the attachment position of the optical film 24 disposed on the screen portion side 21_b of the liquid crystal panel 21 is liquid crystal. It may be required to be higher than the attachment position precision of the optical film 23 disposed on the light source portion side surface 21_a of the panel 21. For example, the precision of the attachment position of the optical film 24 disposed on the side 21_b of the screen portion of the liquid crystal panel 21 is required at a tolerance of 300 μm, and the light source side of the liquid crystal panel 21 ( The precision of the position of attachment of the optical film 23 disposed on 21_a) may be required at a level of 200 μm tolerance.

On the other hand, in the case of laminating the optical film on the panel while maintaining the attachment position precision higher, the laminating speed may take longer than the case where it is not.

Therefore, the optical film laminating system and method according to an embodiment of the present invention is faster than the process of laminating the optical film on the side of the screen portion of the liquid crystal panel by laminating the optical film on the side of the light source part of the liquid crystal panel. In order to be configured to be performed, instead, the process of laminating the optical film on the side of the screen portion of the liquid crystal panel is intended to be configured to maintain the attachment position accuracy higher than the process of laminating the optical film on the side of the light source portion of the liquid crystal panel.

3 is a schematic side view schematically showing an optical film laminating system according to an embodiment of the present invention.

The optical film laminating system 1000 according to an embodiment of the present invention relates to a system for laminating an optical film on a panel to manufacture a display unit capable of displaying an image.

Here, the panel may be a liquid crystal panel having a liquid crystal layer.

Here, the optical film may have a laminate structure in which a plurality of films are stacked. A plurality of types of films forming the laminate structure of the optical film and the number of layers to be laminated may vary, but for convenience of description below, the structures of the optical films F_a and F_b are polarizing film F1 and polarizing film. For example, a form in which a protective film (F2) for protecting one side of the film and a release film (F3) adhered to the other side of the polarizing film (F1) for continuous supply of the polarizing film are stacked. In addition, in order for the optical films F_a and F_b to be laminated to the panel P, the release film F3 needs to be peeled and the adhesive layer needs to be exposed on the side of the peeled surface, so that the description of the present invention will be described in detail. Even if is omitted, it is assumed that the structure of the optical film F during lamination on the panel P and after lamination is completed is in a state where the release film F3 is peeled.

The optical film laminating system 1000 includes a first optical film supply unit 110, a first optical film cutting unit 120, a first peeling unit 130, a first release film recovery unit 140, a first Panel transfer unit 150, first laminating unit 170, second optical film supply unit 210, second optical film cutting unit 220, second peeling unit 230, second release film recovery unit ( 240), a second panel transfer unit 250, a second laminating unit 270 may be included.

The first optical film supply unit 110 may supply the optical film F_a to be laminated to the light source unit side surface P_a of the panel P. The first optical film supply unit 110 is a plurality of supporting and providing tension to the supply roll 111 and the long unwinding optical film (F_a) to release and supply the optical film (F_a) formed long along the longitudinal direction Support roller 112 may be included.

The first optical film cutting unit 120 is to form the optical film (F_a) along the longitudinal direction in order to form a plurality of sheet pieces corresponding to the size of the panel (P), the optical film (F_a) continuously supplied It may be provided with a cutting means capable of repeatedly cutting along the width direction by the interval of. A circular blade, a laser device, or the like may be used as the cutting means. Meanwhile, a so-called'half-cutting' method in which the release film F3 is left without cutting can be used so that the optical film can be continuously transferred until the optical film is laminated to the panel. In addition, when a defect is included on the optical film, a so-called'skip-cut' cutting process may also be used so that a defective area containing the defect can be excluded. On the other hand, an imaging device (cam) may be used to check the position of the optical film for defects or cutting of the optical film.

The first peeling unit 130 may peel off the release film F3 on the optical film F_a in order to laminate the optical film F_a on the light source side side P_a of the panel P. The first peeling unit 130 retracts the release film F3 from the optical film sheet piece formed by half-cutting, including the edge portion 131 so as to fold the release film F3 and change the transport path. can do.

The first release film recovery unit 140 may include a recovery roll 141 so that the release film F3 peeled by the first peeling unit 130 can be wound up and recovered.

In the first panel transfer unit 150, the optical film F_a is laminated to the light source side side P_a of the panel P before the optical film F_a is laminated to the light source side side P_a of the panel P or to the light source side side P_a of the panel P. It may be a means for transferring the panel (P) after being. The first panel transport unit 150 may include a plurality of transport rollers 151 spaced apart along the transport direction of the panel P.

The first laminating unit 170 is a means for laminating the optical film F_a on the light source side side P_a of the panel P. The first laminating unit 170 may include a pair of rollers 171 and 172 spaced apart vertically. In the present embodiment, the panel P and the optical film F_a are inserted between the pair of rollers 171 and 172 to laminate the optical film F_a on the light source side side P_a of the panel P. .

The second optical film supply unit 210 may supply the optical film F_b to be laminated to the surface P_b of the panel P side. The second optical film supply unit 210 is a plurality of supporting and providing tension to the supply roll 211 and the long unwinding optical film (F_b) to release and supply the optical film (F_b) formed long along the longitudinal direction It may include a support roller (212).

The second optical film cutting unit 220 is a predetermined optical film (F_b) along the longitudinal direction in order to form a plurality of sheet pieces corresponding to the size of the panel (P), the optical film (F_b) continuously supplied It may be provided with a cutting means capable of repeatedly cutting along the width direction by the interval of. A circular blade, a laser device, or the like may be used as the cutting means. Meanwhile, a so-called'half-cutting' method in which the release film F3 is left without cutting can be used so that the optical film can be continuously transferred until the optical film is laminated to the panel. In addition, when a defect is included on the optical film, a so-called'skip-cut' cutting process may also be used so that a defective area containing the defect can be excluded. On the other hand, an imaging device (cam) may be used to check the position of the optical film for defects or cutting of the optical film.

The second peeling unit 230 may release the release film F3 on the optical film F_b in order to laminate the optical film F_b on the surface P_b of the panel P side. The second peeling unit 230 retracts the release film F3 from the optical film sheet piece formed by half-cutting, including the edge portion 231 so as to fold the release film F3 and change the transport path. can do.

The second release film recovery unit 240 may include a recovery roll 241 so that the release film F3 peeled by the second peeling unit 230 can be wound up and recovered.

In the second panel transfer unit 250, the optical film F_b is laminated on the surface P_b of the panel P before the optical film F_b is laminated on the surface P_b of the panel P or on the surface P_b of the panel P. It may be a means for transferring the panel (P) after being. The second panel transport unit 250 may include a plurality of transport rollers 251 spaced apart along the transport direction of the panel P.

The second laminating unit 270 is a means for laminating the optical film F_b on the surface P_b of the panel P side. The first laminating unit 270 may include a roller 271 and a panel adsorption unit 272 that adsorbs the light source side side P_a of the panel P. In this embodiment, the optical film F_b is disposed between the roller 271 and the surface P_b of the panel P, and then the panel adsorption unit 272 is transferred in one direction to display the screen of the panel P. The optical film F_b may be laminated on the negative side surface P_b. The panel adsorption unit 272 is provided with a vacuum suction means to adsorb and support the surface P_a of the light source portion side of the panel P. The second laminating unit 270 includes a horizontal guide unit 273 for guiding the horizontal transfer of the panel adsorption unit 272, and the panel adsorption unit 272 in order to transport the panel adsorption unit 272 in one direction. A connecting portion 274 connecting the guide portion 273 may be included. The connecting portion 274 may serve as a guide so that the panel adsorption unit 272 can reciprocate in the vertical direction.

The second laminating unit 270 transfers the panel adsorption unit 272 in parallel with the extending direction of the horizontal guide part 273, and the roller 271 rotates in synchronization with the transfer speed, so that the optical film F_b is Lamination is performed on the surface P_b of the panel P side. On the other hand, while the optical film (F_b) is laminated to the surface (P_b) of the screen portion side of the panel (P), the transfer of the panel (P) to the panel adsorption unit (272) for transporting along the extending direction of the horizontal guide portion (273) Since the meandering of the panel P can be minimized, the attachment precision of the optical film F_b is the optical film laminated to the light source side P_a of the panel P by the first laminating unit 170 ( F_a) can be improved compared to the accuracy.

After the lamination of the optical film F_b with respect to one panel P is completed, the adsorption support of the panel P by the panel adsorption unit 272 is released, and the transport direction reference roller 271 of the panel P is released. By moving back to the upstream, the process of transferring the panel P along a predetermined conveying direction together with the adsorption support for the subordinate panel P is performed, and the above process is repeated.

The second laminating unit 270 laminates the optical film on the screen side side P_b of the panel P on which the optical film F_a is laminated on the light source side side P_a by the first laminating unit 170, Preferably, the panel adsorption unit 272 adsorbs the light source side side P_a of the panel P on which the optical film F_a has been laminated by the first laminating unit 170. That is, the optical film F_a is first laminated to the light source part side surface P_a by the first laminating unit 170 and the light source part side surface of the panel P on which the optical film F_a is laminated by the panel adsorption unit 272. It is preferable that the optical film F_b is laminated to the surface P_b of the panel P by the second laminating unit 270 by adsorbing (P_a). The panel adsorption unit 272 absorbs the light source side side P_a of the panel P on which the optical film F_a is not laminated, and the second laminating unit 270 allows the screen P side side of the screen P_b by the second laminating unit 270. In the case of laminating the optical film F_b first, when the optical film F_a is adsorbed on the light source side side P_a of the panel P on which the optical film F_a is not laminated, the light source side side P_a of the panel P may be caused by foreign matter or the like. This is because the first laminating unit 170 may have a problem of laminating the optical film F_b on the light source unit side surface P_a of the panel P in a contaminated state.

4 is a view schematically showing the transport direction of the panel and the optical film in the optical film laminating system according to an embodiment of the present invention.

The optical films F_a and F_b laminated to each of the light source side surface P_a and the screen side side P_b of the panel P intersect the absorption axis M_a, M_b perpendicular to each other with the panel P interposed therebetween. shall.

In an embodiment of the present invention, the absorption axis M_a of the optical film F_a laminated to the light source side side P_a of the panel P and the optical film laminated to the screen side side P_b of the panel P The absorption axis M_b of (F_b) may be the same direction as the longitudinal direction of the optical films F_a and F_b.

At this time, both the supply direction of the optical film F_a laminated to the light source part side surface P_a of the panel P and the supply direction of the optical film F_b laminated to the screen part side surface P_a of the panel P If it is intended to be parallel to the transport direction of the panel P, it is necessary to pivot the panel 90 degrees so that the positions of the sides perpendicular to each other on the panel P can be reversed.

Accordingly, the optical film laminating system 1000 according to an embodiment of the present invention is disposed between the first laminating unit 170 and the second laminating unit 270 to rotate the panel 90° to turn the panel by 90 degrees. It may further include.

In addition, the optical film laminating system 1000 according to an embodiment of the present invention is disposed between the first laminating unit 170 and the second laminating unit 270 to invert the panel P to invert the panel P 400. It may further include. The panel inversion unit 400 may switch positions of the light source unit side surface P_a and the screen unit side surface P_b of the panel P with respect to each other. Thus, both the first laminating unit 170 and the second laminating unit 270 may laminate the optical films F_a and F_b on the panel P at the same one of the upper side or the lower side of the panel P. .

Hereinafter, an optical film laminating method according to an embodiment of the present invention will be described.

Figure 5 is a flow chart showing the sequence of the optical film laminating method according to an embodiment of the present invention.

The optical film laminating method according to an embodiment of the present invention may be performed using the optical film laminating system according to an embodiment of the present invention.

An optical film laminating method according to an embodiment of the present invention includes: (a) laminating an optical film on a side surface of a light source of a panel (S100, hereinafter referred to as'(a)'); And (b) laminating the optical film on the screen side surface of the panel (S200, hereinafter referred to as (b) step).

(a) In step S100, the panel P and the optical film F_a are inserted between the pair of rollers 171 and 172, and the optical film F_a is applied to the light source side side P_a of the panel P. Can be laminated.

(B) In step S200, the panel adsorption unit 272 adsorbs the light source unit side surface P_a of the panel P, and between the roller 271 and the panel P side screen surface side P_b. After the optical film F_b is disposed, the panel suction unit 272 may be transferred in one direction to laminate the optical film F_b on the surface P_b of the panel P side.

(b) Step (S200) is performed after step (a) (S100), and the panel adsorption unit 272 is the light source part side of the panel (P) on which the optical film (F_a) is laminated in step (a) (S100). It is preferable to adsorb the cotton P_a. The panel adsorption unit 272 absorbs the light source side side P_a of the panel P on which the optical film F_a is not laminated, and the second laminating unit 270 allows the screen P side side of the screen P_b by the second laminating unit 270. In the case of laminating the optical film F_b first, when the optical film F_a is adsorbed on the light source side side P_a of the panel P on which the optical film F_a is not laminated, the light source side side P_a of the panel P may be caused by foreign matter or the like. This is because the first laminating unit 170 may have a problem of laminating the optical film F_b on the light source unit side surface P_a of the panel P in a contaminated state.

An optical film laminating method according to an embodiment of the present invention, (a) the direction of transport of the panel in step (S100) and (b) the direction of transport of the panel in step (S200) are parallel to each other, (c) ( Between a) step (S100) and (b) step (S200) may further include a step (S300) of pivoting the panel by 90 degrees.

The optical film laminating method according to an embodiment of the present invention may further include a step (S400) of inverting the panel between (d) (a) Step (S100) and (b) Step (S200).

According to the optical film laminating system and/or method according to an embodiment of the present invention, the process of laminating the optical film on the side of the light source of the panel is faster than the process of laminating the optical film on the side of the screen of the panel. It can be performed, and instead, the process of laminating the optical film on the side of the screen portion of the panel can be made to maintain the attachment position precision higher than the process of laminating the optical film on the side of the light source portion of the panel.

Although the invention has been described in connection with the preferred embodiments mentioned above, it is possible to make various modifications or variations without departing from the spirit and scope of the invention. Therefore, the scope of the appended claims will include such modifications or variations as long as they belong to the subject matter of the present invention.

1000: Laminating system of optical film 110: First optical film supply unit
120: first optical film cutting unit 130: first peeling unit
140: first release film recovery unit 150: first panel transfer unit
170: first laminating unit 171, 172: a pair of rollers
210: 2nd optical film supply unit 220: 2nd optical film cutting unit
230: second peeling unit 240: second release film recovery unit
250: second panel transfer unit 270: second laminating unit
271: roller 272: panel adsorption unit
273: horizontal guide part 274: connecting part
300: panel turning unit 400: panel reversing unit
P_a: Panel light source side side P_b: Panel screen side side
F_a, F_b: Optical film

Claims (8)

A first laminating unit for laminating an optical film on the side of the light source portion of the panel; And
Includes; a second laminating unit for laminating the optical film on the side of the screen portion of the panel;
The first laminating unit includes a pair of rollers, and the panel and the optical film are introduced between the pair of rollers to laminate the optical film on the light source side of the panel,
The second laminating unit includes a roller and a panel adsorption unit that adsorbs the light source side surface of the panel, and after placing an optical film between the roller and the screen side surface of the panel, the panel adsorption unit is moved in one direction. By transferring, laminating an optical film on the side of the screen portion of the panel, an optical film laminating system. According to claim 1,
The second laminating unit laminates the optical film on the screen portion side surface of the panel on which the optical film is laminated on the light source portion side surface by the first laminating unit,
The panel adsorption unit, the optical film laminating system for adsorbing the side of the light source portion of the panel, the optical film is laminated by the first laminating unit. According to claim 1,
And a panel turning unit disposed between the first laminating unit and the second laminating unit to pivot the panel 90 degrees. According to claim 1,
And a panel reversing unit disposed between the first laminating unit and the second laminating unit to invert the panel. (a) laminating an optical film on the light source side side of the panel; And
(b) laminating an optical film on the side of the screen portion of the panel,
In the step (a), the optical film is laminated on the light source unit side of the panel by putting the panel and the optical film between a pair of rollers,
In the step (b), the panel adsorption unit adsorbs the light source side surface of the panel, and after the optical film is disposed between the roller and the screen side surface of the panel, the panel adsorption unit is transported in one direction to move the panel. An optical film laminating method of laminating an optical film on a side of a screen portion of the screen. The method of claim 5,
The step (b) is performed after the step (a),
The panel adsorption unit, the optical film laminating method for adsorbing the side of the light source portion of the panel in which the optical film is laminated in step (a). The method of claim 5,
The transfer direction of the panel in step (a) and the transfer direction of the panel in step (b) are parallel to each other,
(c) between the step (a) and the step (b), comprising a step of pivoting the panel by 90 degrees, an optical film laminating method. The method of claim 5,
(d) an optical film laminating method comprising inverting a panel between the steps (a) and (b).

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