KR102463088B1 - Optical film bonding method and bonding device - Google Patents

Abstract

The optical film bonding method according to the present invention comprises the steps of: preparing a first conveying unit comprising a suction plate and a side surface of the suction plate and an edge suction plate in contact with the side surface, and conveying a substrate; Preparing a second transport unit for transporting the optical film; and applying pressure by lowering the edge suction plate in contact with the distal end of the upper surface of the substrate so that the lower surface of the substrate conveyed from the first conveying unit is in contact with the upper surface of the optical film conveyed from the second conveying unit. characterized in that

Description

Optical film bonding method and bonding apparatus TECHNICAL FIELD

The present invention relates to an optical film bonding method and a bonding apparatus.

Recently, with the development of mobile devices such as smartphones and tablet PCs, attempts have been made to develop a foldable display as well as thinning and slimming of the substrate for display.

In particular, in the case of a portable electronic device, it is necessary to satisfy two opposing demands: small size and light weight for portability and large display area for displaying as much information as possible. A flexible display using an optical film that can be folded or rolled is being developed.

Korean Patent Application Laid-Open No. 2013-0055557 relates to a substrate transport mechanism, a polarizing film bonding device, and a manufacturing system for a liquid crystal display including the same, wherein a rectangular substrate is transported with a long side or a short side along a transport direction. A substrate transport mechanism comprising: 1 substrate transport mechanism; and a second substrate transport mechanism configured to transport the substrate with a short side or a long side along a transport direction, wherein the substrate transported by the first substrate transport mechanism is supported a substrate supporting device having a substrate supporting member for supporting the substrate; and driving control means acting on the substrate supporting member to put the substrate supporting member in a substrate supporting state; It is disposed between the first substrate transport mechanism and the second substrate transport mechanism, is connected to the substrate support member, and the transport direction of the first substrate transport mechanism and the second substrate transport mechanism Disclosed is a substrate conveying mechanism comprising an inverting mechanism having at least one substrate inverting part that is inverted around an inverting axis arranged obliquely with respect to the .

However, conventional conveying mechanisms and bonding apparatuses such as the above documents have some problems in that the edge of the substrate or film is sagging or wrinkles are generated when conveying and bonding the substrate or film.

Therefore, the development of an optical film bonding method and bonding apparatus in which bonding of a substrate or a film is easy is required.

Republic of Korea Patent Publication No. 2013-0055557 (2013.05.28.)

An object of the present invention is to provide an optical film bonding method and bonding apparatus capable of suppressing film edge sagging, wrinkles, adsorption mura, bubble generation, and the like.

The present invention includes a suction plate and a side surface of the suction plate and an edge suction plate in contact with the side surface, the method comprising: preparing a first conveying unit for conveying a substrate; Preparing a second transport unit for transporting the optical film; and applying pressure by lowering the edge suction plate in contact with the distal end of the upper surface of the substrate so that the lower surface of the substrate conveyed from the first conveying unit is in contact with the upper surface of the optical film conveyed from the second conveying unit. An optical film bonding method is provided.

In addition, the present invention includes a suction plate and a side surface of the suction plate and an edge suction plate in contact with the side surface, the first conveying unit for conveying a substrate; and a second conveying unit for conveying the optical film, wherein the edge suction plate applies pressure in a vertical motion to the distal end of the substrate on the distal end of the upper surface of the conveyed substrate.

The optical film bonding method and bonding apparatus which concern on this invention have the advantage which can suppress film edge sagging, wrinkles, adsorption|suction mura, bubble generation, etc.

1 is a diagram illustrating a first carrying unit according to some embodiments of the present invention.
2 is a view illustrating a state in which the edge suction plate of the first conveyance unit is raised and lowered according to some embodiments of the present invention.
3 is a diagram illustrating an optical film bonding apparatus according to some embodiments of the present invention.

In the present invention, when a member is said to be located "on" another member, this includes not only a case in which a member is in direct contact with another member but also a case in which another member is interposed between two members.

In the present invention, when a part "includes" a certain component, it means that other components may be further included, rather than excluding other components, unless otherwise stated.

Hereinafter, an optical film bonding method and bonding apparatus according to the present invention will be described with reference to FIG. 1 .

<Optical film bonding method>

One aspect of the present invention includes a suction plate 10 and a side surface of the suction plate 10 and an edge suction plate 20 in contact with the side, and preparing a first conveying unit 100 for conveying the substrate 1; Preparing a second transport unit 200 for transporting the optical film (2); and the distal end of the upper surface of the substrate 1 so that the lower surface of the substrate 1 conveyed from the first conveying unit 100 is in contact with the upper surface of the optical film 2 conveyed from the second conveying unit 200 . It relates to an optical film bonding method comprising a; step of applying pressure by lowering the edge sucker 20 in contact with the.

The optical film bonding method according to the present invention includes a suction plate 10 and a side surface of the suction plate 10 and an edge suction plate 20 in contact with the side surface, and a first conveying unit 100 for conveying the substrate 1 . Including the step of preparing;

The first transport unit 100 includes a suction plate 10 and an edge suction plate 20 .

The suction plate 10 serves to adsorb and transport the substrate 1 through vacuum pressure.

In the present invention, the substrate 1 may refer to a film-type member or a laminate in which the members are laminated, for example, glass, silicon (Si), silicon oxide (SiO _x ), or a polymer substrate. and may be a laminate such as a polarizing plate including a polarizer provided with a protective film on one or both sides, but is not limited thereto.

The polymer substrate may include, for example, polyethersulfone (PES) or polycarbonate (PC), but is not limited thereto.

In one embodiment of the present invention, the substrate 1 may be glass. The suction plate 10 may transport the substrate 1 through a micro-vacuum function.

The suction plate 10 may be provided with a suction hole, and the suction hole may have a diameter of 1.5 mm or less, preferably 1.3 mm or less, more preferably 0.5 mm to 1.1 mm. When the adsorption hole includes pores within the above range, it is preferable because the mura shape of the substrate can be minimized.

The suction plate 10 may be made of an insulator or antistatic treatment in order to suppress the generation of static electricity. The antistatic treatment may, for example, be performed through an ion generator, but is not limited thereto, and may be performed by a method commonly performed in the art.

The suction plate 10 may vacuum-adsorb the substrate 1 to prevent separation, and perform an exhaust (blower) function when seated and discharged.

The edge suction plate 20, the side of which is in contact with the side surface of the suction plate 10, may serve to transport the substrate 1, and the content to be described later may be applied.

The optical film bonding method according to the present invention includes the step of preparing the second conveying unit 200 for conveying the optical film 2 .

The second transport unit 200 serves to transport the optical film 2 to be bonded to the substrate 1 . The optical film 2 conveyed through the second conveying unit 200 comes into contact with the substrate 1, and the contacting method may be performed using a method commonly performed in the art.

The optical film 2 is not particularly limited in the present invention, but may refer to, for example, a film having optical properties, for example, a film-type touch sensor, a polarizer, a transparent protective film, a polarizing plate having a protective film attached to at least one surface of the polarizer , a retardation film, and the like, but is not limited thereto. Specifically, the optical film 2 may be a flexible optical film in the form of a sheet.

In the optical film bonding method according to the present invention, the lower surface of the substrate 1 conveyed from the first conveying unit 100 is in contact with the upper surface of the optical film 2 conveyed from the second conveying unit 200, and lowering the edge suction plate 20 in contact with the distal end of the upper surface of the substrate 1 to apply pressure.

The edge suction plate 20 is provided so that the side surface of the suction plate 10 and the side surface are in contact. Specifically, the edge suction plate 20 is provided so as to be in contact with the side surface of the distal end of the suction plate 10, and serves to lower the distal end of the substrate 1 by an appropriate pressure through vertical movement.

The descending speed may be 100 to 300 mm/sec, preferably 120 to 300 mm/sec, more preferably 150 to 280 mm/sec, but is not limited thereto, and may be appropriately adjusted according to the bonding distance and bonding speed. have.

In another embodiment of the present invention, the substrate 1 may be transported by being adsorbed by the suction plate 10 and the edge suction plate 20 . Referring to FIG. 1 , the substrate 1 may be transported by being adsorbed on the suction plate 10 and the edge suction plate 20 .

In general, when a substrate is conveyed through a suction plate, particularly when the area of the substrate is larger than that of the suction plate, the distal end of the substrate sags, and there is a problem in that the substrate flaps slightly during conveyance.

However, in the optical film bonding method according to the present invention, the lower surface of the base material 1 conveyed from the first conveyance unit 100, including the suction plate 10 and the edge suction plate 20, is the second conveyance unit 200 . Since it includes the step of applying pressure by lowering the edge suction plate 20 in contact with the distal end of the upper surface of the substrate 1 so as to be in contact with the upper surface of the optical film 2 conveyed from the substrate 1, the distal end of the substrate 1 is It is preferable because there is an advantage in that it can suppress the phenomenon that the substrate 1 flaps during conveyance.

In another embodiment of the present invention, the edge suction plate 20 may be to perform a vertical movement at a distance within 5mm.

Specifically, referring to FIGS. 2 ( a ) and 2 ( b ), the edge suction plate 20 is the lower surface of the edge suction plate 20 when conveying the substrate 1 , the lower surface of the suction plate 1 . In other words, the substrate 1 is raised so that the edge suction plate 20 and the suction plate 10 can adsorb flatly, and the substrate 1 is positioned on the same line as the optical film 2 By descending to a distance within 5 mm when in contact with the substrate, the substrate 1 and the optical film 2 may be finely bonded without breaking the vacuum.

The edge suction plate (20), the lower surface when the maximum rise height may be located on the same line as the lower surface of the suction plate (10).

When the edge sucker 20 vertically moves at a distance within the above range, it is possible to provide curl in a range that does not affect the substrate 1, and the substrate 1 and the optical film 2 It is preferable because it has the advantage of easy bonding.

The edge suction plate 20 may have a suction hole, and the suction hole of the edge suction plate 20 has a diameter of 1.5 mm or less, preferably 1.3 mm or less, more preferably 0.5 mm to 1.1 mm. It may be processed. When the adsorption hole includes pores within the above range, it is preferable because the mura shape of the substrate 1 can be minimized.

The edge sucker 20 may be controlled separately from the sucker 10 . For example, when the substrate 1 is bonded to the optical film 2 , the suction plate 10 adsorbs the substrate 1 , and the edge suction plate 20 descends while detaching the substrate 1 . Curl|Karl can be provided to the distal end of the said base material 1 by doing this.

As the edge suction plate 20 descends, the vacuum residual pressure in the substrate 1 may be removed.

The edge sucking plate 20 may have been subjected to an antistatic treatment to suppress the generation of static electricity, and in this case, the above-described antistatic treatment may be applied.

In another embodiment of the present invention, the first transport unit 100 may further include an adsorption plate (30).

The suction plate 30 may be provided on the top of the suction plate 10, may have a size corresponding to the size of the substrate 1, and may include a conveying frame, a driving motor, a pneumatic device, etc. .

The suction plate 30 may be made of an aluminum alloy material in order to reduce the weight, but is not limited thereto.

The suction plate 30 may be provided with a motor, a ball screw, a pneumatic component, etc., a vacuum or a blower can be applied to the suction plate 10, and can be driven in the x, y, and z coordinate directions for precise adhesion. There are possible advantages.

Specifically, referring to FIG. 3 , in the optical film bonding method according to the present invention, when the optical film 2 conveyed through the second conveying unit 200 comes into contact with the substrate 1, the edge suction plate ( 20) is lowered, so that the distal end of the upper surface of the substrate 1 may be provided to be close to the bonding portion of the optical film 2 to be bonded.

For this reason, there is an advantage in that bonding between the substrate 1 and the optical film 2 can be more precisely controlled, and smudges, wrinkles, adsorption smears, and the like of the substrate can be suppressed.

<Optical film bonding device>

Another aspect of the present invention includes a suction plate 10 and a side surface of the suction plate 10 and an edge suction plate 20 in contact with the side surface, and a first conveying unit 100 for conveying the substrate 1; and a second conveying unit 200 for conveying the optical film 2, wherein the edge suction plate 20 is disposed on the distal end of the upper surface of the conveyed substrate 1, at the end of the substrate 1 It relates to an optical film bonding apparatus (500) that applies pressure in a vertical motion.

The suction plate 10 , the edge suction plate 20 , the first conveying unit 100 , the second conveying unit 200 , the substrate 1 and the optical film 2 may be applied to the above contents.

In the present invention, the “end portion” may refer to a portion within 15% of the total area of the substrate 1 inward from the outer surface.

The first transport unit 100 transports the substrate 1 , and includes a suction plate 10 and an edge suction plate 20 .

The suction plate 10 may be connected to a vacuum device to adsorb, desorb, and transport the substrate 1 . Specifically, the suction plate 10 can be conveyed by vacuum adsorption and vacuum breaking (exhaust, blower) in order to convey the substrate 1 .

The suction plate 10 may have a suction hole, and the above-described contents may be applied to the suction hole.

The suction plate 10 may configure a suction pattern for each model. Specifically, the suction plate 10 may be provided with an appropriate suction hole according to the type and size of the substrate 1, and may be configured such that the appropriate suction plate 10 can be automatically switched according to the type.

The edge suction plate 20 may be connected to a vacuum device of the suction plate 10 and a separate vacuum device. Since the edge suction plate 20 is connected to the suction plate 10 by a separate vacuum device, it absorbs the substrate through vacuum pressure at the same time as the suction plate 10, and only the edge suction plate 20 is vacuumed. By releasing the pneumatic pressure and lowering the edge suction plate 20 , curl can be imparted to the distal end of the substrate 1 .

Specifically, the suction plate 10 is a vacuum suction plate 10 in contact with the substrate 1 , and a vacuum line for each size of the substrate 1 may be separately configured to control pneumatic pressure.

In another embodiment of the present invention, the vertical movement may be performed at a distance within 5 mm, and when the vertical movement is made within the above range, the substrate 1 is not affected without affecting the substrate 1 ) by giving a slight curl to the distal end, there is an advantage that the bonding of the substrate 1 and the optical film 2 can be made more precisely.

In another embodiment of the present invention, the edge sucker 20 may be movable up and down.

Specifically, the edge suction plate 20 can vertically move up and down, and thereby, by giving an appropriate curl to the distal end of the substrate 1, the bonding of the substrate 1 and the optical film 2 is There is an advantage that it can be done more precisely.

More specifically, the edge sucker 20 has an up/down structure and can be controlled by installing a linear motion (LM) guide and configuring a separate vacuum circuit.

In another embodiment of the present invention, the edge suction plate 20 may include a suction hole of 1.5 mm or less in diameter, preferably 1.3 mm or less, more preferably 0.5 mm to 1.1 mm. When the adsorption hole includes pores having a diameter within the above range, it is preferable because the mura shape of the substrate 1 can be minimized.

In another embodiment of the present invention, the edge suction plate 20 may include one or more sensors selected from the group consisting of a substrate detection sensor and a vacuum pressure sensor. When the edge suction plate 20 includes the substrate detection sensor or the vacuum pressure sensor, it is preferable because conveyance control and operation control are easier.

The vertical motion of the edge sucker 20, that is, the up/down operation, may be precisely controlled in position by using a servo motor driving method. Specifically, the edge suction plate 20 may be driven using a motor separate from the suction plate 10 .

The edge sucker 20 may constitute a separate equipment ground, and a ground line may be configured to force the movement of electric charge, but the present invention is not limited thereto.

In another embodiment of the present invention, the first transport unit 100 may further include an adsorption plate (30).

The above-described content may be applied to the content of the adsorption plate 30 . Specifically, the suction plate 30 may be connected to a servo motor, a pneumatic component, a pressure gauge, and the like, and may perform a movement operation by servo driving in the x, y, and z axes.

The second transport unit 200 transports the optical film 2 , and is not limited in its form, but may include, for example, a transfer unit, a driving unit, a driving shaft, and the like, but is not limited thereto. For example, the drive shaft is connected to the drive part, rotates by the rotational driving force of the drive part, and the transfer is mounted on the drive shaft, and the optical film is transported along the axial direction of the drive shaft according to the rotation of the drive shaft. it could be 3 illustrates a case in which the optical film 2 is conveyed by the conveying roller 40, but is not limited thereto.

The first conveying unit 100 and the second conveying unit 200 convey the substrate 1 and the optical film 2 in the same x-axis direction, and the optical film 2 is the It can be conveyed from the lower surface so as to be joined to the lower surface.

The second transport unit 200 serves to transport the optical film 2 in order to bond the substrate 1 and the optical film 2 , and may be understood as a conventional one.

The optical film bonding apparatus 500 which concerns on this invention can control the bonding position of the base material 1 and the optical film 2 finely, and the said base material 1 and/or the said optical film ( 2), there is an advantage that it is possible to suppress the static electricity generated.

In addition, it is easy to change the model, it is possible to prevent the edge sag of the substrate 1, there is an advantage that can suppress wrinkles, adsorption mura generated during the bonding process, and suppress the generation of air bubbles.

1: description
2: optical film
10: sucker plate
20: edge sucker plate
30: adsorption plate
40: conveying roller
100: first conveyance unit
200: second conveyance unit
500: optical film bonding device

Claims (8)

Preparing a first conveying unit comprising a suction plate and a side surface of the suction plate and an edge suction plate in contact with the side surface, and conveying a substrate;
Preparing a second transport unit for transporting the optical film; and
The edge suction plate in contact with the distal end of the upper surface of the substrate is lowered in a state in contact with the side surface of the suction plate so that the lower surface of the substrate conveyed from the first conveying unit is in contact with the upper surface of the optical film conveyed from the second conveying unit. and applying pressure by
The substrate is detached from the lower surface of the suction plate from the distal end by the edge suction plate, an optical film bonding method. According to claim 1,
The optical film bonding method of the said 1st conveyance part further comprising the adsorption|suction plate. According to claim 1,
The edge sucker is an optical film bonding method to perform vertical motion at a distance within 5mm. According to claim 1,
The optical film bonding method which the said base material is adsorb|sucked by the said suction plate and the said edge suction plate, and is conveyed. a first conveying unit comprising a suction plate and a side surface of the suction plate and an edge suction plate in contact with the side surface, and conveying a substrate; and
a second conveying unit conveying the optical film;
including,
The edge suction plate is in contact with the side surface of the suction plate, on the distal end of the upper surface of the conveyed substrate, applying pressure in a vertical motion to the end of the substrate so as to be detached from the lower surface of the suction plate from the distal end,
Optical film bonding device. 6. The method of claim 5,
The edge sucker is an optical film bonding device that is capable of vertical movement. 6. The method of claim 5,
The optical film bonding apparatus of the said 1st conveyance part further comprising an adsorption|suction plate. 6. The method of claim 5,
The vertical movement is an optical film bonding device that is performed at a distance within 5mm.

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