KR101007471B1 - Making and using method of cover glass plate with two glass plates - Google Patents

Abstract

The present invention relates to a method of manufacturing a protective cover glass substrate by bonding a glass substrate and a method of using the protective cover glass substrate applied to a flat panel display, wherein the two glass substrates (1) are formed using a strip-shaped double-sided adhesive agent (2). A part of the upper surface of (7) is slightly open, and the adhesive (a) and the two glass substrates (1) (7) bonded together are raised, and the ultraviolet curable resin is injected into the upper surface between them (5) (b), and the UV curing between them. The two glass substrates (1) and 7 (7) into which the resin (5) has been injected are completely adhered (c), and the two glass substrates (1) and (7) bonded together are laid back slightly and simultaneously tilted to one side to form a strip-shaped double-sided adhesive ( 2) to allow the gas to completely escape to the open portion 4 of the corner (2) to which it is not attached (d), and when the gas is completely escaped, the open portion 4 is closed (e) and properly placed to protect the glass of the present invention. The substrate is made of the step of completion (f), the protective cover glass substrate By bonding to the splay 8 with an ultraviolet curable resin 9, it is possible to make a protective cover glass substrate made of a non-bubble bonding surface and to apply it to the flat panel display 8 to use the flat panel display in a harsh use environment. To help.

Glass substrate, tempered glass, heating glass, UV curable resin, foam, flat panel display

Description

TECHNICAL FIELD OF THE INVENTION A method for manufacturing a protective cover glass substrate formed by joining two glass substrates and a method of using the protective cover glass substrate applied to a flat panel display {MAKING AND USING METHOD OF COVER GLASS PLATE WITH TWO GLASS PLATES}

The present invention relates to a method of manufacturing a protective cover glass substrate formed by bonding two glass substrates and a method of using the protective cover glass substrate applied to a flat panel display, and in detail, a UV curable resin applied between two glass substrates. The present invention relates to a method of manufacturing a protective cover glass substrate by bonding a glass substrate without bubbles by completely removing the gas and curing the gas, and a method of using the protective cover glass substrate bonded to a flat panel display.

In general, flat panel displays such as LCD, PDP, AM-OLED, etc. are usually electronic products that are mainly used indoors without being used in the harsh environment such as shock or very low temperature, so they can be used in such harsh environment. It is not made.

However, in recent years, the use of the flat panel display is increasing as the use of the flat panel display is very common, and thus, the use of the flat panel display in the outdoors may be shocked as described above or may be used at a very low temperature. When exposed to the environment, for example, when the temperature of the liquid crystal of the flat panel display is low due to the use environment of low temperature, the operation is not performed properly, and a defect occurs on the display screen, which requires a flat panel display in preparation for this.

Therefore, in order to protect the display surface, which is the screen of the flat panel display, from the harsh use environment as described above, a protective cover glass substrate bonded to each other by a tempered glass substrate that can withstand impact and a heating glass substrate that raises the temperature from low temperature to room temperature. May be attached to the display surface of the flat panel display.

However, when the tempered glass substrate and the heat generating glass substrate are bonded to each other, bubbles are generated by the gas in the ultraviolet curable resin used as the bonding agent. However, since the bubbles are not completely removed until now, the bonding surface is formed by the bubbles. Due to poor bonding, which has not been cleaned, as described above, two glass substrates are bonded to each other with ultraviolet curable resin, and thus, a protective cover glass substrate made of a clean surface cannot be properly made.

The present invention has been made to solve the above problems, the main purpose is to be used as a bonding agent when bonding two glass substrates of tempered glass substrate and heat generating glass substrate for use as a protective cover glass substrate The present invention provides a manufacturing method of manufacturing a protective cover glass substrate free of bonding defects by making the bonding surface of two glass substrates clean by not generating bubbles in the ultraviolet curable resin.

Another object of the present invention is to provide a method of using a protective cover glass substrate which protects the display surface of the flat panel display from a harsh use environment by applying a flat panel display to a protective cover glass substrate manufactured so as to prevent poor bonding. .

In order to achieve the above object, a method of manufacturing a protective cover glass substrate by bonding two glass substrates according to the present invention includes removing and attaching the protective paper on one side of the strip-shaped double-sided adhesive to the upper edge of any one of the glass substrates. Wherein, by opening a portion of one corner to form an opening; Vertically spreading the injection wedges on the strip-shaped double-sided adhesive agent at regular intervals in a transverse direction from above one of the glass substrates; Removing the protective paper on the other side of the strip-shaped double-sided adhesive except between the injection wedges and a part of both sides; Attaching the other glass substrate to the upper surface of the one glass substrate using the strip-shaped double-sided adhesive, and then setting the injection wedge upward; Pushing a slit funnel into the gap between the two glass substrates, the upper part of which is opened by each injection wedge, and then injecting the UV curable resin to a certain height between the two glass substrates through the slit funnel; Simultaneously removing the injection wedge while peeling off the remaining protective paper of the strip-shaped double-sided adhesive; In the standing state, the two glass substrates bonded together by the band-shaped adhesive and injected with UV curable resin are laid back and tilted to the opposite side of the opening, and the UV curable resin gradually rises toward the opening, through the opening. Allowing gas in the ultraviolet curable resin to be discharged; Closing the opening when the gas is completely discharged through the opening and the ultraviolet curable resin is completely applied between the two glass substrates; And the two glass substrates are bonded by curing the ultraviolet curable resin by irradiating ultraviolet rays with an ultraviolet irradiation device.

In addition, it is preferable that any one of the glass substrates is tempered glass and the other glass substrate is a heating glass.

In addition, it is preferable that any one of the glass substrates is tempered glass, and the other glass substrate is a solar panel made of a glass substrate.

The method of using the protective cover glass substrate applied to the flat panel display is characterized in that the protective cover glass substrate and the flat panel display are bonded to each other using the above-described manufacturing method.

After the UV curable resin is applied between the protective cover glass substrate and the flat panel display, the UV curable resin is hardened by an ultraviolet irradiator to bond the protective cover glass substrate to the flat panel display. It has other features.

According to the manufacturing method of the protective cover glass substrate which joins the two glass substrates of this invention, and the use method of the said protective cover glass substrate applied to a flat panel display, when joining two glass substrates, the joint surface is clean without bubble | bubble. The protective cover glass substrate is effective to manufacture, and the protective cover glass substrate is made of a tempered glass substrate and a heat generating glass substrate. It is possible to use the flat panel display in any place outdoor.

In addition, when the heating glass substrate is applied to the solar panel of the glass substrate of the tempered glass substrate and the heating glass substrate of the protective cover glass substrate has an effect that can be configured to the impact resistant solar panel by the protective cover glass substrate.

Hereinafter, a method of manufacturing a protective cover glass substrate by bonding two glass substrates according to a preferred embodiment of the present invention and a method of using the protective cover glass substrate applied to a flat panel display will be described in detail with reference to the accompanying drawings. same.

1 is a flowchart showing a manufacturing method for manufacturing a protective cover glass substrate in order according to the present invention.

As shown in FIG. 1, in the method for manufacturing a protective cover glass substrate according to the present invention, the upper surface of two glass substrates 1 and 7 is slightly opened using a strip-shaped double-sided adhesive 2. ), Two glass substrates (1) (7) bonded together, and the UV curable resin (5) (b) injected into the upper surface therebetween, and the two glass substrates (1) into which the UV curable resin (5) is injected therebetween. (7) fully adhered (c), the two glass substrates (1) bonded together to each other (1) are laid back slightly and tilted to one side to the opening (4) at the edge where the strip-shaped double-sided adhesive (2) is not attached. The gas is completely escaped (d), when the gas is completely escaped (e), the opening is closed (e), and correctly placed, the protective cover glass substrate of the present invention is completed (f) step.

The manufacturing method of the above (a) to (f) will be described in more detail in each step as follows.

First, in step (a), the protective paper on one side of the strip-shaped double-sided adhesive agent 2 on which both sides are covered with a protective paper, such as a double-sided tape, is attached to the upper surface of any one glass substrate 1 lying down, A part of one edge of the glass substrate 1 is not attached to form the open portion 4.

Subsequently, the injection wedge (3), such as a stick, is placed on the glass substrate (1) from the outside across the strip-shaped double-sided adhesive agent (2) at regular intervals in the horizontal direction from above the one glass substrate (1). They are placed vertically on the strip-shaped double-sided adhesive agent (2).

Subsequently, when peeling off and removing the protective paper covering the other surface of the strip | belt-shaped double-sided adhesive agent 2, it removes in the state remove | excluding some between each said injection wedge 3 and both injection wedges 3.

Subsequently, while the protective paper is partially covered, the other glass substrate 7 is placed on the upper surface of the glass substrate 1 to which the strip-shaped double-sided adhesive 2 is bonded, and the protective paper is removed. After adhering to each other with the strip-shaped double-sided adhesive agent 2, two glass substrates 1 and 7 bonded together with the strip-shaped double-sided adhesive 2 are set up with the injection wedge 3 facing up.

In the next step (b), the two glass substrates (1) and (7) which are standing up are slightly opened at the upper part by the respective injection wedges (3), and thus the gap between the two glass substrates which are slightly opened. After pushing the slit funnel (not shown), the ultraviolet curable resin 5 is injected to a height of about 2/3 between the two glass substrates through the slit funnel.

Next, in the step (c), the above two sheets of the glass substrates (1) and (7) are peeled off by partially removing the protective paper attached to the strip-like adhesive (2), while removing the imported wedges (3) naturally. The glass substrates (1) and (7) are completely bonded with the band adhesive (2).

Next, in the step (d), the two glass substrates (1) (7), which are bonded to each other by the band-shaped adhesive (2) in an upright state and in which the ultraviolet curable resin (5) is injected to a certain height, are laid down and At the same time, when tilted to the opposite side of the opening 4, that is, to the right in the drawing, the cured resin is added between the two glass substrates 1 and 7 by the volume additionally generated due to the insertion of the ultraviolet curable resin 5 into the wedge. Ascending upwards, it gradually rises from the right end toward the open end 4 at the left end, and in this process, gases in the ultraviolet curable resin are completely discharged through the open part 4.

Next, in the step (e), the gas is completely discharged through the open portion 4 formed at one corner of the two glass substrates 1 and 7 so that no bubbles are generated, and then the ultraviolet curable resin 5 is When completely applied between the glass substrates (1) and (7), the opening 4 is closed by the same as the hot melt 6 by a closing means such as a glue gun that ejects silicon at a high temperature. 5) is not allowed to leak between the two glass substrates (1) and (7).

Next, in the step (f), the two glass substrates (1) and (7) are placed upright, and the ultraviolet curable resin 5 applied therebetween is irradiated with ultraviolet rays by an ultraviolet irradiation device to cure the two glass substrates (1). (7) is completely bonded, the gas is completely escaped from the UV-curable resin (5), there is no bubble, so that when the two glass substrates are bonded to each other by the bubbles, there is no complete defect that can occur on the surface The protective cover glass substrate of the present invention is completed.

On the other hand, any one of the glass substrate 1 of the protective cover glass substrate of the present invention as described above using a tempered glass and the other glass substrate 7 as a heat generating glass to withstand a tolerable impact A protective cover glass substrate can be used even in low temperature environments.

The glass substrate 7 made of heat generating glass raises the temperature of the glass substrate 7 by flowing a current through a transparent resistive film provided on the glass surface by a sensor operating at a low temperature below a predetermined temperature.

In addition, one of the glass cover 1 of the protective cover glass substrate of the present invention as described above, the glass substrate (1) using the glass and the other glass substrate (7) by using a solar panel made of glass substrate The panel will be a solar panel to which a protective cover glass substrate is applied to withstand even heavy impacts.

2 is a conceptual diagram showing a method of using the protective cover glass substrate prepared according to the present invention applied to a flat panel display.

As shown in FIG. 2, the ultraviolet curable resin 9 is formed in the center of the protective cover glass substrate of the present invention, in which two sheets of the tempered glass substrate 1 and the heat generating glass substrate 7 are bonded to each other as described above. When placed on the flat panel display 8 to be in close contact, the ultraviolet curable resin 9 spreads in all directions and is completely applied to the protective cover glass substrate and the flat panel display 8.

Thereafter, when the applied ultraviolet curable resin 9 is irradiated and cured with an ultraviolet irradiation device, the protective cover glass substrate is completely adhered to the flat panel display 8, and the flat panel display is impacted by the protective cover glass substrate. It can be used even in harsh use environments, such as outdoors where it can be received or at very low temperatures.

On the other hand, when it is determined that the bonding of the protective cover glass substrate of the present invention to the flat panel display 8 only with the ultraviolet curable resin 9 is rather incomplete, the protective cover glass substrate and the flat panel display 8 are As described above, the tempered glass substrate 1 and the heat generating glass substrate 7 are bonded to each other in the same manner as in the manufacturing method of manufacturing a protective cover glass substrate, and then bonded to each other to form a protective cover glass substrate so as to form a complete bonding surface. It can also be applied to 8).

Although the present invention has been described with reference to the embodiments shown in the accompanying drawings, this may be regarded as exemplary, and a person of ordinary skill in the art may conceive various modifications and equivalent embodiments therefrom. It is to be understood that such equivalent embodiments are also to be included within the claims of the present invention. Therefore, the true scope of protection of the present invention should be determined only by the appended claims.

1 is a flow chart showing a manufacturing method for manufacturing a protective cover glass substrate in order according to the present invention

2 is a conceptual diagram showing a method of using the protective cover glass substrate prepared according to the present invention applied to a flat panel display

<Explanation of symbols for the main parts of the drawings>

1: tempered glass substrate 2: strip type double sided adhesive

3: injection wedge 4: opening part

5,9 ultraviolet curing resin 6: hot melt

7: heat generating glass substrate 8: flat panel display

Claims (5)

Removing and attaching the protective paper on one side of the strip-shaped double-sided adhesive to the upper edge of any one of the glass substrates, and forming an opening by opening part of one edge; Vertically spreading the injection wedges on the strip-shaped double-sided adhesive agent at regular intervals in a transverse direction from above one of the glass substrates; Removing the protective paper on the other side of the strip-shaped double-sided adhesive except between the injection wedges and a part of both sides; Attaching the other glass substrate to the upper surface of the one glass substrate using the strip-shaped double-sided adhesive, and then setting the injection wedge upward; Pushing a slit funnel into the gap between the two glass substrates, the upper part of which is opened by each injection wedge, and then injecting the UV curable resin to a certain height between the two glass substrates through the slit funnel; Simultaneously removing the injection wedge while peeling off the remaining protective paper of the strip-shaped double-sided adhesive; In the standing state, the two glass substrates bonded together by the band-shaped adhesive and injected with UV curable resin are laid back and tilted to the opposite side of the opening, and the UV curable resin gradually rises toward the opening, through the opening. Allowing gas in the ultraviolet curable resin to be discharged; Closing the opening when the gas is completely discharged through the opening and the ultraviolet curable resin is completely applied between the two glass substrates; And Bonding the two glass substrates by curing the ultraviolet curable resin by irradiating ultraviolet rays with an ultraviolet irradiation device; A method for manufacturing a protective cover glass substrate, comprising: bonding two glass substrates; The method of manufacturing a protective cover glass substrate according to claim 1, wherein the one glass substrate is tempered glass and the other glass substrate is heat generating glass. The method of manufacturing a protective cover glass substrate according to claim 1, wherein the one glass substrate is tempered glass, and the other glass substrate is a solar panel made of a glass substrate. . The protective cover glass substrate of claim 1 or 2, wherein the protective cover glass substrate and the flat panel display are bonded to each other using the manufacturing method of claim 1. The protective cover glass substrate according to claim 1 or 2 is coated with the ultraviolet curable resin between the flat panel display and closely adhered to each other, and then the ultraviolet curable resin is cured by an ultraviolet irradiator to the protective cover glass on the flat panel display. A method of using the protective cover glass substrate applied to a flat panel display, characterized in that for bonding the substrate.

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