KR101417993B1 - Method for manufacturing cover glass of touch screen panel and the cover glass of touch screen panel manufactured thereby - Google Patents

Abstract

The present invention relates to a manufacturing method for cover glass of a touch screen panel in a cellular phone and, more particularly, to a manufacturing method for cover glass of a touch screen panel, which can reinforce a cutting side surface in a sheet process tempered glass manufacturing method where tempered glass is stacked and cut, and to cover glass of a touch screen panel manufactured by the same. The manufacturing method for cover glass of a touch screen panel can completely reinforce a side surface when rough blank is cut, by cutting each cell unit cover glass in a state of stacking the rough blank, reinforcing the cutting side surface, and separating the cover glass in order to complete each of the cover glass. Therefore, the provided manufacturing method for cover glass of a touch screen panel can completely reinforce the side surface of cover glass, can be automated, and can prevent a reduction in productivity.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a touch screen panel cover glass manufactured by a touch screen panel cover glass manufacturing method and a touch screen panel cover glass manufactured by the method,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of manufacturing a cover glass of a touch screen panel in a mobile phone terminal and a touch screen panel To a cover glass manufacturing method and a touch screen panel cover glass manufactured by the manufacturing method.

2. Description of the Related Art A touch screen panel (TSP) is a user interface device in which a user's hand or object contacts a screen to enable data input and manipulation. Such a touch screen panel has been developed, As the display device of the terminal device and its input device are used, the above-mentioned touch screen panel market is further increased.

Touch screen panels, in which transparent electrodes (ITO) are integrated with tempered glass, have been developed and commercialized, further increasing the touch screen market.

Such a touch screen panel may be generally divided into a resistive type, a resistive-multi type, and a capacitive type.

The resistance film type is formed by applying a resistive substance on a panel and covering the polyethylene film with a resistive material. The insulating film is installed at regular intervals so that the two surfaces of the panel and the polyethylene film do not contact each other.

In such a resistance film method, if a constant current is supplied to both ends of the resistance film, the resistance film acts as a resistance element having a resistance component, and a voltage is applied to both ends. Therefore, when the contact is made with the finger, the poly-steel film on the upper surface bends and the contact surface touches the panel, so that the two surfaces of the panel and the poly-steel film are connected. Therefore, the resistance of the two sides becomes the same as that of the parallel connection of the resistor, and the resistance value changes. At this time, the voltage changes due to the current flowing at both ends. .

The resistance film method as described above has a disadvantage that it is operated at a surface pressure and has a high resolution and a fastest response speed, but it can perform only one point of contact and has a great risk of breakage.

The resistive-multi-touch method is implemented in such a manner that it can be practiced in the same manner as the corrected capacitance method by compensating for and solving the disadvantage that only one point can be implemented in the resistance film method.

The electrostatic capacitance type is formed by coating a transparent special conductive metal (TAO) on both sides of a heat-treated glass. When a voltage is applied to the four corners of the screen, a high frequency is spread over the front surface of the sensor, When the flow of electrons changes, the change is detected and the coordinates are obtained. The correction capacity method has the advantage of high resolution and high durability, but it has a disadvantage that the reaction rate is low and it is difficult to mount.

In recent years, capacitive touch panels have been used in most touch screen panels.

In the resistive film method, the cover glass is not formed because the touch surface is formed of a film for mechanical contact, but the cover glass is constituted by the electrostatic capacity type.

What is more important than the touch screen manufacturing technology is that the thickness of the touch screen panel is made thinner with sufficient durability so that the same performance as the existing product can be achieved even if the display brightness is lowered by increasing the light transmittance So that the power consumption can be reduced and the battery usage time can be increased.

Therefore, the thickness of the cover glass is required to be thin, and it is made of tempered glass to prevent breakage.

The present invention relates to a touch screen cover glass for mobile phone terminal means constituted by such tempered glass.

A method of manufacturing a touch screen panel cover glass is classified into a cell process and a sheet process.

The cell type is a method of cutting a cover glass unit in a tempered glass ledge, chemically strengthening each cover glass through processing and a few chips, and then forming an ITO pattern. In the sheet type, a transparent electrode (ITO; Indium Tin Oxide (ITO) patterns are formed and then the cover glass is cut and the side reinforcement is strengthened secondarily.

Most of the cover glasses are made by the cell method, but the automation is difficult and the productivity is lowered. On the other hand, if adequate processing technology is secured due to mass production and automation, productivity is improved and cost competitiveness is ensured. Thus, cover glass production is shifting to sheet type.

In such a sheet method, after the ITO pattern of each cover glass is formed, the cover glass cell is cut into a cover glass cell, so that the cut surface is weak and needs to be strengthened.

In Korean Patent Laid-Open Publication No. 2013-0108900 entitled " Tempered glass for touch screen panel reinforced with lateral strength and method for manufacturing the same, "a unit glass-shaped cut surface is formed on one or both surfaces of a disc glass sheet. A method of manufacturing a touch screen cover glass in which a side glass plate is reinforced and a pattern is formed on the surface of the glass plate and then cut into a shape of each cover glass I am proposing.

In addition, Korean Unexamined Patent Publication No. 2002-0056776, entitled " Tempered glass plate for a touch panel and method for manufacturing a tempered glass plate for a touch panel using the same, " A method is proposed in which a cover glass of a touch screen panel is manufactured by cutting a cover glass cell unit after grinding the original plate area by half etching in units of cover glass cells to form a pattern in each cell, .

However, according to the conventional method for manufacturing a cover glass, the entire side surface is not strengthened for each cell in the original plate tempered glass.

According to the present invention, it is possible to completely reinforce the side glass in the state that the glass plate is cut. In the present invention, the cover glass is cut in units of cell blocks in the laminated state of the disc glass, To provide a method of manufacturing a touch screen panel cover glass which can automate and reduce the productivity while protecting the sensor layer and fully strengthening the side surface when the cover glass is processed by completing each cover glass by separating the cover glass It is.

A method of manufacturing a touch screen panel cover glass,

The sensor integrated glass plate was cut in the unit of the cover glass cell of the disc glass in the state that the disc glass was fixed with the adhesive agent and laminated and laminated. The reinforced paint was applied to each side of the glass plate to be reinforced, So as to be separated and completed.

According to the present invention as described above,

A first process of fixing a dummy glass from the bottom and applying an adhesive to the top of the dummy glass, and then stacking the original glass plate formed with the cover glass cells completed with the ITO pattern in accordance with the dummy glass; A second step of laminating a plurality of disc glass by repeating a process of applying a pressure sensitive adhesive to the disc glass and laminating the disc glass; and a second process of stacking a plurality of disc glass plates by stacking the disc glass plates on the uppermost disc glass, A fourth step of forming a cover glass block by cutting each of the cover glass cell blocks into a laminated glass plate in which a laminated glass plate is completed; A sixth step of applying side reinforcing treatment to the side wall of the cover glass block, That to remove the adhesive clean the seventh process, and the cover glass produced through the process of claim 7, separated by a cover glass unit comprising a eighth step of completing the production is characterized.

According to the method of manufacturing a touch screen panel cover glass of the present invention, since the side reinforcement is performed in units of cover glass cell blocks, it is possible to reinforce the entire cut surfaces, while the number of the cover glasses can be strengthened at one time, .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a flowchart illustrating a method of manufacturing a touch screen panel cover glass according to the present invention. FIG.
Fig. 2 is a side enhancement process in the present invention; Fig.

The method for manufacturing a touch screen panel cover glass according to the present invention comprises cutting a cover glass cell in a state in which a disc glass composed of a cover glass cell is stacked and laminated and applying the organic and inorganic materials to each side of the cut glass cell, And the cover glass is separated and completed.

The operation of the touch screen panel cover glass manufacturing method of the present invention will be described with reference to FIGS. 1 and 2. FIG.

A dummy glass 10 is fixed from the bottom and a pressure sensitive adhesive is coated on the dummy glass 10. A disc glass 20 having a cover glass cell 21 having an ITO pattern completed is aligned with a dummy glass 10, A second step of laminating a plurality of disc glass 20 by repeating the process of applying an adhesive to the upper part of the disc glass 20 laminated in the first process and laminating the disc glass 20; A third step of applying a pressure sensitive adhesive to the top of the uppermost disc glass 20 and laminating the dummy glass 10 to complete the stacking of the disc glass 20 when a plurality of disc glass 20 are laminated through a second process A fourth step of cutting a block glass 20 in blocks of the cover glass cells 21 in a laminated glass plate 20 to form a block in the shape of a cover glass 20, It is treated with hydrofluoric acid to prevent micro cracks and After the hydrofluoric acid treatment in the fifth step is completed, the reinforcing paint 30 made of one or both of an organic material and an inorganic paint is applied to the side surface to perform the side strengthening treatment A seventh step of removing the adhesive in units of the cover glass cells 21 in the hot water stripping process of the stacked cover glass cells 21, 21) and then completing the fabrication.

In the method of manufacturing a touch screen panel cover glass according to the present invention, the entire reinforced glass plate is laminated to be cut into blocks in units of cover glass cells to strengthen the sides, thereby making a plurality of cover glasses while strengthening the sides in each cover glass cell The present invention is directed to a method of manufacturing an automatable cover glass.

In the first to third processes, a plurality of disc glass plates are stacked in a dummy glass for protecting a disc glass, which is a process of laminating a disc-integrated disc glass with an ITO pattern.

The disc glass is then laminated by a pressure sensitive adhesive which can be removed by hot water.

The disc glass 20 is laminated into the dummy glass 10 as shown in Figs. 1 (a) to (d).

In the fourth step, the disc glass 20 is cut into unit blocks of the cover glass cell 21, and the disc glass 20 laminated as shown in FIG. 1 (d) And cutting into a cover glass cell block 21 as shown in FIG.

The fifth process is a process of reinforcing the side cut surface of the block of the cover glass cell 21, and a hydrofluoric acid treatment is performed on the side cut surface of the cover glass cell 21 in order to eliminate cracks and chippings. A reinforcing paint 30 made of one or both of organic and inorganic materials is applied to the side surface to strengthen the side surface.

In the sixth process, the adhesive material is removed to separate the dummy glass 10 and each cover glass cell 21, and a block of the cover glass cell 21 is inserted into the hot water to remove the adhesive.

In the seventh step, the separated cover glass cell 21 is cleaned to complete the operation.

A manufacturing process of the method of manufacturing a touch screen panel cover glass having the above process will be described below.

First, a dummy glass 10 is fixed as shown in FIG. 1 (a), an adhesive is applied to the top of the dummy glass 10 as shown in FIG. 1 (b) The disc glass 20 including the integral cover glass cells 21 is laminated.

Thereafter, the pressure sensitive adhesive is applied to the upper part of the disc glass 20, the disc glass 20 is stacked on the upper part thereof, and the process is repeated. As shown in FIG. 1C, ).

When the stacking of the disc glass 20 is completed, the dummy glass 10 is fixed to the upper portion of the uppermost disc glass 20 with the adhesive as shown in FIG. 1 (d).

When the disk glass 20 is fixed into the dummy glass 10 as described above, the cover glass cells 21 are cut into blocks and the cover glass cells 21 are formed as shown in FIG. 1 (e).

Then, hydrofluoric acid treatment is performed to remove cracks and chipping.

Then, when the cover glass cell 21 is cut into blocks as described above, a cut surface of the tempered glass is formed on each side, thereby necessitating reinforcement.

Accordingly, the side surface of the cover glass cell 21 is coated with the reinforcing paint 30 made of any one or both of organic and inorganic materials to strengthen the side surface.

FIG. 2 is a view illustrating a side strengthening process of the cover glass cell block 21 described above.

As shown in FIG. 2, when enlargedly viewed from the side, the pressure-sensitive adhesive is drawn out from the side surface, and when the pressure-sensitive paint 30 is applied thereto, the pressure is applied between the pressure-sensitive adhesives and the side is strengthened.

Here, after the hydrofluoric acid treatment, residual micro cracks or chipping can be compensated for by applying the organic and inorganic strengthening paints 30 as described above.

 When the side strengthening is completed as described above, the block of the cover glass cell 21 is inserted into the hot water to remove the adhesive, and the dummy glass 10 and each cover glass cell 21 are separated as shown in FIG. 1 (g).

Then, each cover glass cell 21 is cleaned to complete a cover glass.

According to such a manufacturing method, the touch screen panel cover glass of the present invention is a cover glass of a touch screen panel composed of tempered glass in which a transparent electrode (ITO) pattern is integrally formed, and its side is made of a reinforcing A coating layer is formed.

Claims (6)

The sensor integrated glass plate was cut in the unit of cover glass cell block of the original glass plate in the state that the original plate glass was fixed with the adhesive agent and laminated and laminated. The reinforced paint was applied to each side of the cut glass plate to be reinforced, And then the glass substrate is separated and completed.
A first process of fixing a dummy glass from the bottom and applying an adhesive to the top of the dummy glass, and then stacking the original glass plate formed with the cover glass cells completed with the ITO pattern in accordance with the dummy glass; A second step of laminating a plurality of disc glass by repeating a process of applying a pressure sensitive adhesive to the disc glass and laminating the disc glass; and a second process of stacking a plurality of disc glass plates by stacking the disc glass plates on the uppermost disc glass, A fourth step of forming a cover glass block by cutting each of the cover glass cell blocks into a laminated glass plate in which a laminated glass plate is completed; A sixth step of applying a side reinforcing treatment to the laminated cover glass block, Removing the seventh process, and the touch screen panel, a cover glass manufacturing method which comprises the eighth process, to complete the fabrication by washing the cover glass 7, produced through a process of separation by a cover glass unit.
The method as claimed in claim 2, further comprising a fifth step of performing hydrofluoric acid treatment on the block manufactured through the fourth step to eliminate micro cracks and chipping. .
The method according to claim 2, further comprising the step of applying the reinforcing paint to the cover glass cell block (21) to remove remaining fine cracks or chipping in the sixth step .
The method of any one of claims 1 to 4, wherein the reinforcing paint is composed of one or both of an organic material and an inorganic paint.
The touch screen panel according to any one of claims 1 to 4, wherein the cover glass of the touch screen panel made of the tempered glass having the transparent electrode (ITO) pattern integrally formed therein is made of a reinforced paint layer made of one or both of organic and inorganic materials A touch screen panel cover glass manufactured by a method of manufacturing a touch screen panel cover glass.

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