KR20010016814A - Method for repairing lcd glass surface - Google Patents

Abstract

PURPOSE: A method for repairing LCD glass surface is provided to remove a scratch and a groove created on a glass base plate without the need for grinding the total surface of LCD glass. CONSTITUTION: A UV hardening agent(50) having a similar refractive index and a similar color temperature characteristics to those of a color filter base plate(20) is applied on the portion which is created by a scratch on the color filter base plate(20) at a predetermined thickness in order to repair a scratch created on the upper surface of the color filter base plate(20). An ultraviolet rays are scanned to the portion which is covered by the UV hardening agent(50) by a UV generating device and hardens the UV hardening agent(50). The hardened portion is grinded by a grinding device as a grinding roller(70), and the scratched portion is repaired.

Description

Repair method for LCD glass surface {Method for repairing LCD glass surface}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for repairing a glass surface of an LCD (Liquid Crystal Display Device, LCD), and in particular, hardening in a state where a scratch or groove is formed on the surface of an LCD glass having a scratch or groove formed thereon, and being transparent in parallel with the glass surface. It relates to a method for repairing a glass surface of an LCD for polishing a curing agent.

With the recent rapid development of semiconductor technology, product miniaturization and product performance upgrades are being made in the information and communication industry, the computer industry, and the electronics industry in general.

Meanwhile, as an application field of the semiconductor technology, a TFT substrate having a pixel electrode connected to a thin film transistor so that an electric field is formed while the thin film transistor and the thin film transistor formed by the semiconductor thin film technology are turned on on a transparent glass substrate. And when the RGB pixel is formed and the color filter substrate, which is another glass substrate having a common electrode facing the pixel electrode of the TFT substrate, is overlapped, and an electric field is applied between the TFT substrate and the color filter substrate, the arrangement is different. A liquid crystal display device, which is a display device in which a liquid crystal is injected to selectively pass or selectively block the light and selectively stimulates RGB pixels by the liquid crystal to display a predetermined image, has been introduced.

The liquid crystal display device is mounted on a portable computer that is easy to move because it is significantly smaller in weight and size than the conventional CRT method (Cathod Ray Tube type).

As described above, the liquid crystal display device mounted on the portable computer has been further miniaturized and lightened through the rationalization of the structure. Recently, an ultra-slim liquid crystal display device having a total thickness of about 20 mm including a case has been developed.

However, such a conventional liquid crystal display device has a transparent substrate, particularly a glass substrate having a weak brittleness is mainly used. When manufacturing a liquid crystal display device using such a glass substrate, a number of scratches on a part of the glass substrate during the process (scratch) ) Or unwanted grooves are formed.

If scratches or grooves are formed on the glass substrate as described above, they cannot be sold to consumers, and the repair process is performed to remove them. The repair process involves polishing the entire glass substrate until the scratches or grooves are removed by the polishing facility. Mainly used.

However, when the entire glass substrate is polished by such a method, a post-polishing cleaning process is essential and a problem that glass particles may contaminate other parts of the liquid crystal display device is caused.

Accordingly, the present invention has been made in view of such a conventional problem, and an object of the present invention is to remove scratches or grooves generated in the glass substrate without polishing the entire glass substrate of the liquid crystal display device.

Other objects of the present invention will become more apparent from the following detailed description of the invention.

1 is a perspective view illustrating a display module of a liquid crystal display device in which scratches or unwanted grooves are formed.

2 is a conceptual diagram illustrating an embodiment of a method of repairing scratches or unwanted grooves formed in a display module.

3 is a conceptual diagram showing another embodiment of the present invention.

In order to achieve the object of the present invention, the LCD glass surface repairing method applies a cured material cured by a predetermined stimulus to a scratch and a groove formed on a glass substrate, applies a stimulus to the cured material, and then cures the cured material. The material is polished parallel to the glass substrate.

Hereinafter, the LCD glass surface repairing method according to the present invention will be described in more detail with reference to FIGS. 1 to 3.

1 shows a display unit 100 that is part of a liquid crystal display.

When the display unit 100 refers to the accompanying FIG. 1, the display unit 100 is further connected to the TFT substrate 10, the liquid crystal (not shown), the color filter substrate 20, the tape carrier package 30, and the driving printed circuit board 40. It is composed.

In the TFT substrate 10, millions of thin film transistors (not shown) are arranged in a matrix form on one side of the transparent glass substrate according to a semiconductor thin film technology, and data lines (not shown) are connected to source terminals of the thin film transistors. The gate terminal is connected to a gate line (not shown), and the drain terminal is connected to a transparent pixel electrode (not shown) by a contact.

Like the TFT substrate 10, the color filter substrate 20 is a transparent glass substrate, and an RGB pixel (not shown) is formed on the color filter substrate 20, and a transparent common electrode (not shown) is formed on one side facing the pixel electrode. Formed.

Liquid crystal is injected between the TFT substrate 10 and the color filter substrate 20 having such a configuration.

In the liquid crystal, a thin film transistor is turned by a driving signal generated by a driving signal generator formed on the driving printed circuit board 40 through a tape carrier package 30 and a signal input through a gate line and a data line of the TFT substrate 10. When a predetermined voltage is applied to the pixel electrode to form a predetermined electric field between the pixel electrode and the common electrode, it is arranged according to the magnitude of the electric field and transmits light with a light transmittance proportional to the electric field.

As a result, the light passing through the liquid crystal passes through any one of the RGB pixels of the color filter substrate 20, and the corresponding color is expressed. The desired image is displayed by repeating the above process very quickly in the line unit or the dot unit.

2 conceptually illustrates a process of repairing a scratch 1 or an undesired groove 2 when the color filter substrate 20 or the TFT substrate 10 of the display unit 100 having such a configuration is formed. It is.

Reference numeral 20 in FIG. 2 denotes the color filter substrate described above, and reference numeral 10 denotes the TFT substrate described above.

First, FIG. 2A illustrates that the scratch 1 is generated on the upper surface of the color filter substrate 20 as an example.

As described above, in order to repair the scratch 1 generated on the upper surface of the color filter substrate 20, a UV curing agent having a refractive index similar to that of the color filter substrate 20 and having a color temperature similar to that of the color filter substrate 20 ( 50 is applied to a portion of the color filter substrate 20 where the scratch 1 has occurred, as shown in FIG. 2B.

Subsequently, as illustrated in FIG. 2C, ultraviolet rays are injected into a portion where the UV curing agent 50 is applied by the UV generator 60 to cure the UV curing agent 50.

Thereafter, the portion of the scratch 1 is repaired by partially polishing the hardened portion by a polishing facility such as the polishing roller 70 as shown in FIG. 2D and flattening as shown in FIG. 2E.

In addition, the present invention provides an embodiment different from the above-described embodiment, which will be described with reference to FIG. 3.

First, FIG. 3A illustrates that the scratch 1 is generated on the upper surface of the color filter substrate 20 as an example.

As described above, in order to repair the scratch 1 generated on the upper surface of the color filter substrate 20, a UV curing agent having a refractive index similar to that of the color filter substrate 20 and having a color temperature similar to that of the color filter substrate 20 ( 50 is applied to a portion of the color filter substrate 20 where the scratch 1 has occurred, as shown in FIG. 3B.

Thereafter, the thin transparent film 80 is attached to the top surface of the UV curing agent 50 applied as shown in FIG. 3C. Thus, the attachment of the transparent film 80 is such that particles are deposited on the UV curing agent 50. Of course, to prevent the even distribution of the UV curing agent (50).

Thereafter, as illustrated in FIG. 3D, the UV curing agent 50 disposed on the lower portion of the transparent film 80 is irradiated with ultraviolet rays to the transparent film 80 by the UV generator 60 on the upper portion of the transparent film 80. Allow to cure.

Thereafter, when all of the UV curing agent 50 is cured as shown in FIG. 3E, the transparent film 80 is removed, and then the UV curing agent 50 is polished to be the same as the color filter substrate 20 as shown in FIG. 3F. Polishing is performed by the facility 70 to repair the scratch 1 of the color filter substrate 20 as shown in FIG. 3G.

As described in detail above, a UV curing agent is applied to the scratches or unwanted grooves formed on the color filter substrate or the TFT substrate, and then the UV curing agent is cured by ultraviolet rays and then polished to scratch or unwanted grooves of the color filter substrate or the TFT substrate. Repair.

Claims (3)

Applying a cured material that is cured by a predetermined magnetic pole to a scratch or groove formed in the glass substrate; Applying the stimulus to the cured material to cure the cured material; And polishing the cured material in parallel with the glass substrate. The method of claim 1, further comprising: attaching a transparent film to an upper surface of the cured material after applying the cured material to the glass substrate; And removing the transparent film after curing the cured material. 3. The method of claim 1 or 2, wherein the predetermined stimulus is ultraviolet light.