KR101405074B1 - Method for coating of adhensive for LCD and cover glass - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method of applying a viscous liquid for coalescing a cover glass and a liquid crystal panel, and more particularly to a method for applying a viscous liquid to a cover glass and a liquid crystal panel by using a bezel that wraps the liquid crystal panel, And a water repellent coating layer coated with a coating agent is formed on the upper surface of the bezel abutting the liquid crystal panel when the liquid crystal panel is adhered to prevent overflow of the viscous liquid to simplify the process of attaching the cover glass and the liquid crystal panel, The overflow phenomenon of the adhesive liquid is delayed by the tension, and the delayed adhesive liquid is prevented from flowing out to the outside by the temporary hardening step, so that the process moving phase does not flow until the final hardening, , Chemical resistance and flame retardancy, and it is easy to secure a fast drying time, so that a uniform coating effect It is.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method of applying a viscous liquid for adhesion between a cover glass and a liquid crystal panel,

More particularly, the present invention relates to a method of applying a viscous liquid to a cover glass and a liquid crystal panel, and more particularly, to a method of bonding a cover glass and a liquid crystal panel, The overflow phenomenon is delayed and the delayed adhesive liquid is prevented from flowing out to the outside due to the temporary hardening process so as to prevent the process moving phase from flowing down until the final hardening so that the initial hardened shape can be maintained and finally hardened, And more particularly, to a method of applying a viscous liquid for coalescence of a cover glass and a liquid crystal panel having a uniform coating effect.

2. Description of the Related Art Generally, a display device includes a panel for displaying image information by an electrical signal, a bezel for surrounding the panel, and a backlight for displaying image information from the panel by irradiating light to the panel. Further, in order to protect the panel, a glass is seated on the upper surface of the panel, and an adhesive liquid for sticking the glass and the panel is coated on the upper surface of the panel.

Conventionally, a jig is used as a means for applying the adhesive liquid, and the jig is composed of a support surface for supporting a lower surface of the bezel and side walls for supporting a side surface of the bezel so as to surround the entire outer circumferential surface of the bezel surrounding the panel. First, the display device is inserted into the jig, and then the bezel is supported on the side wall and the support surface. In this state, the adhesive liquid is uniformly applied to the entire upper surface of the panel, the glass is placed thereon, and UV is irradiated in the upper part of the glass (upper part of the panel) by using a curing unit (not shown) .

When a conventional cover glass and a liquid crystal panel are cemented together, a liquid adhesive liquid is applied on the entire surface. At this time, a sealing member for preventing the liquid from overflowing is provided on the upper surface of the bezel in the form of a dam (DAM) as shown in FIG.

However, the process time is increased due to the installation of the sealing member for preventing overflow of the adhesive liquid, and residual bubbles are generated, and a problem occurs in the visibility of the boundary portion due to the refractive index of the sealing member for preventing overflow of the adhesive liquid and the adhesive liquid layer .

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to simplify the process of attaching the cover glass and the liquid crystal panel to each other, to delay the overflow of the adhesive liquid by the surface tension of the adhesive liquid at the water- It is prevented from flowing out to the outside due to the hardening process, so that the process stream can not be flowed down to the final hardening, so that the initial hardening shape can be maintained and the final hardening can be achieved. And to provide a uniform coating effect.

These and other objects of the present invention can be achieved by the present invention described below.

In order to accomplish the above object, there is provided a method of applying a viscous liquid to a cover glass and a liquid crystal panel by using a bezel that wraps a liquid crystal panel, the method comprising: And an adhesive liquid application method for attaching the cover glass and the liquid crystal panel to each other to prevent the overflow of the adhesive liquid.

As described above, according to the present invention, the process of attaching the cover glass and the liquid crystal panel is simplified, and the overflow phenomenon of the adhesive liquid is delayed by the surface tension of the adhesive liquid at the water- And it can be cured at the initial stage by keeping the shape of the first hardening since it does not flow down to the final hardening since it is prevented from flowing out to the outside, and it is excellent in chemical resistance and flame resistance, .

FIG. 1 is a schematic view of a cover glass and a panel to be adhered to each other by forming a dam for preventing overflow of the adhesive on an existing bezel.
FIG. 2 is a schematic view showing the attachment of a cover glass and a panel in which a water-repellent coating layer is formed on the bezel of the present invention.

A method of applying a viscous liquid to a cover glass and a liquid crystal panel by using a bezel surrounding the liquid crystal panel, the method comprising: forming a water-repellent coating layer coated with a coating agent on an upper surface of the bezel, To a method of applying a viscous liquid for coalescing a cover glass and a liquid crystal panel for preventing overflow of the viscous liquid.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described below. The embodiments are provided to explain the present invention to a person having ordinary skill in the art to which the present invention belongs. Accordingly, the shape of each element shown in the drawings may be exaggerated to emphasize a clearer description.

The jig 10 and the bezel 20 are usually used when the liquid crystal panel 30 and the cover glass 40 are attached together in the method of applying the adhesive liquid for attaching the cover glass and the liquid crystal panel of the present invention. The shape of the jig 10 is not particularly limited as shown in FIG.

The liquid crystal panel 30 and the cover glass 40 are not particularly limited as they are used in the art.

The jig 10 includes a supporting surface 11 for supporting a lower surface of the bezel 20 and a side wall 12 for supporting a side surface of the bezel 20. The jig 10 includes a bezel 20, So as to surround the entire body. The display device (including the bezel and the liquid crystal panel) is inserted into the jig 10 so that the bezel 20 is supported on the side wall 12 and the supporting surface 11.

In the present invention, the water-repellent coating layer 50 coated with a coating agent is formed on the upper surface of the bezel 20 which is brought into contact with the cover glass when the liquid crystal panel is attached.

As the coating agent, a fluorine-based coating agent can be used.

As the fluorine-based coating agent, at least one selected from the group consisting of a fluorine-based resin and a silicone sealant may be used as the water repellent agent, but the present invention is not limited thereto.

The thickness of the water-repellent coating layer 50 is in the range of 5 to 50 μm. In this range, the over-coating of the adhesive liquid is delayed by the surface tension of the adhesive liquid at the water-repellent coating interface, The effect of preventing the water from flowing out to the outside is excellent.

A concrete example of the method of applying the adhesive liquid for attaching the cover glass 40 and the liquid crystal panel 30 using the bezel 20 having the water repellent coating layer 50 is as follows. The cover glass 40 and the liquid crystal panel 30 A second step of performing a plasma surface treatment on the loaded cover glass 40 and the liquid crystal panel 30; A third step of applying an adhesive liquid to the liquid crystal panel 30 and then applying an adhesive liquid to the cover glass 40; And four stages of attaching the cover glass 40 and the liquid crystal panel 30 together.

The first step is a step of loading the liquid crystal panel 30 and the cover glass 40 to be used in the process. This may include a step of removing a contamination source or a defective product through an import inspection process at the time of initial loading.

The second step is a step of plasma-treating the liquid crystal panel 30, thereby increasing the adhesive force between the adhesive liquid and the liquid crystal panel 30 or the cover glass 40 when applying the adhesive liquid, and improving the spreadability of the adhesive liquid. In this case, the plasma treatment is performed by plasma-treating the surface of the thin film display using argon gas, nitrogen gas, or a mixed gas of both, to increase the wettability of the liquid (adhesive liquid) .

In the step 3, the adhesive liquid is applied to one surface of the liquid crystal panel 30, and then the adhesive liquid is applied to one surface of the cover glass 40. It can be carried out in a process of uniformly applying the surface by using pattern coating or squeezing considering the spreadability of the adhesive liquid and the spreading direction. In the conventional technique, the adhesive liquid is applied only to one side of the liquid crystal panel 30 or the cover glass, while the present invention is applied to both sides of the liquid crystal panel 30 and the cover glass 40 so as to uniformly and rapidly spread the adhesive liquid. I will. When the adhesive liquid is applied to the surface, the adhesive liquid is applied evenly by using a roller such as a squeeze actively, so that the adhesive liquid can spread evenly.

In this case, it is more preferable that a heat supply module is provided below the cover glass 40 to supply heat to the cover glass 40 itself to improve the spreadability of the adhesive liquid. Alternatively, infrared light may be supplied to the adhesive liquid in parallel or independently with the heat supply module to further improve the spreadability of the adhesive liquid.

Thereafter, in the four-step process, the cover glass 40 and the liquid crystal panel 30 may be bonded together. In this case, in order to further improve the adhesiveness, As shown in Fig. Of course, in this process, it is also possible to carry out the step of improving the spreadability of the adhesive liquid through irradiation of infrared rays or supply of heat source to the attachment surface of the liquid crystal panel 30 itself. In addition, in the laminating step, the cover is attached to the surface of the liquid crystal panel 30 in vacuum or at room temperature, ultraviolet rays are applied to the adhesion surface, And it is more preferable that the stability of the curing is achieved through the same, but the present invention is not limited thereto.

In this state, the adhesive liquid is uniformly applied to the entire upper surface of the liquid crystal panel 30 using the bezel 20 in which the water repellent coating layer 50 of the present invention is formed, the cover glass 40 is placed thereon, (Upper part of the liquid crystal panel) direction of the cover glass using UV light to cure the applied adhesive liquid.

The method or condition for curing by UV irradiation is conventional in the art, and the method or condition is not particularly limited.

In the foregoing detailed description of the present invention, specific examples have been described. However, various modifications are possible within the scope of the present invention. The technical idea of the present invention should not be limited to the embodiments of the present invention but should be determined by the equivalents of the claims and the claims.

10: Jig 11: Support surface
12: side wall 20: bezel
30: liquid crystal panel 40: cover glass
50: Water repellent coating layer

Claims (4)

A method of applying a viscous liquid to a cover glass and a liquid crystal panel by using a bezel surrounding the liquid crystal panel,
Wherein a water repellent coating layer coated with a coating agent is formed on an upper surface of a bezel abutting against the cover glass when the liquid crystal panel is attached to the cover glass to prevent overflow of the adhesive liquid.
The method according to claim 1,
Wherein the coating agent is a fluorine-based coating agent.
3. The method of claim 2,
Wherein the fluorine-based coating agent is at least one selected from a fluorine-based resin and a silicone sealant as a water repellent agent.
The method according to claim 1,
Wherein the thickness of the water-repellent coating layer is 5 to 50 占 퐉.

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