KR100644849B1 - Liquid crystal display device - Google Patents

Abstract

The present invention relates to a liquid crystal display device in which a signal transmission pattern is completely overlapped so that a gate driving signal is transmitted to a signal processing / transmission member without a gate printed circuit board under the outermost black matrix formed on the color filter substrate of the liquid crystal display panel. According to the present invention, a signal transmission pattern for transmitting a signal from the gate line group to the gate line group overlaps the color filter substrate, thereby minimizing damage to the signal transmission pattern during transportation or during the manufacturing process.

Liquid crystal display

Description

Liquid crystal display device

1 is an exploded perspective view of a liquid crystal display according to the present invention.

2 is an enlarged plan view of a portion of a TFT substrate in a liquid crystal display panel of a liquid crystal display device according to the present invention;

The present invention relates to a liquid crystal display device, and more particularly, a signal transmission pattern such that a gate driving signal is transmitted to a signal processing / transmission member without a gate printed circuit board under an outermost black matrix formed on a color filter substrate of a liquid crystal display panel. The present invention relates to a liquid crystal display device which is completely overlapped.

Recently, as the development of technology in the display industry for allowing operators to recognize electrical signals processed by various devices has been steadily increased, display apparatuses having improved image quality and high resolution and reduced weight and volume have been introduced.

The CRT type (Cathode Ray Tube type) display device, which occupies most of the display device used in the conventional information processing device, is very easy to have a size larger than 14.1 inches, and it is easy to change the resolution from low resolution to high resolution and supports full color. Although most information processing apparatuses use this CRT type display device due to the advantage of being able to be implemented at low cost, there is a decisive disadvantage in that it is inevitably very large in weight and volume. It is very difficult to be applied to a portable computer, and the development of the technology of the liquid crystal display device that satisfies the advantages of small and light is rapidly progressing.

Recently, the development of technology for further satisfying the advantages of small size and light weight, which is a great advantage of the liquid crystal display device, has been accelerated. Recently, Korean Patent Application No. 99-13650, "Tape carrier package, liquid crystal display panel assembly including the same, The liquid crystal display device and the assembly method thereof employing the same include a data line through an integrated printed circuit board, a data tape carrier package, and a data line from an integrated printed circuit board on which a gate driving signal and a data driving signal are generated. The gate driving signal is input to the gate line along the path of the signal transmission pattern-gate tape carrier package-gate line formed on the integrated printed circuit board-data tape carrier package-TFT substrate, thereby increasing the thickness of the liquid crystal display panel. Gate printed circuit boards Reduced by eliminating the thickness, reduce the number of assembly parts, the bars disclosed a liquid crystal display device can reduce the assembly process.

In addition, the disclosed liquid crystal display device also removes a gate printed circuit board which acts as a factor of increasing thickness, thereby removing a flexible printed circuit that transmits a signal from a source printed circuit board to a gate printed circuit board. As well as reducing the thickness of the assembly as well as the reduction of the number of assembly parts and the number of assembling process accordingly, it is expected to improve the thickness and performance of the liquid crystal display device according to the improvement of the liquid crystal display device in this manner.

However, the signal transmission pattern is exposed to the top of the TFT substrate as it is, so that the signal transmission pattern having a resistance-sensitive line width is corroded or oxidized to change the intrinsic resistance of the signal transmission pattern, or part of the signal transmission pattern is broken by another object. In many cases, there is a problem in that an insulating film must be formed on the upper portion of the signal transmission pattern through a separate semiconductor process.

In addition, when a signal processing / transmitting member having a tape carrier package (TAB) or a chip on flexible circuit (COF) method is attached to a signal transmission pattern, adhesion failure occurs when the signal transmission pattern is reworked. There is a problem that damage to the pattern.

Accordingly, the present invention has been made in view of such a conventional problem, and an object of the present invention is to prevent damage to a signal transmission pattern without a separate semiconductor manufacturing process.

Another object of the present invention will become clearer by the detailed description of the present invention.

The liquid crystal display device for realizing the object of the present invention is a TFT having a thin film transistor arranged in a matrix on a transparent substrate, a gate line group connected to the thin film transistor, a data line group connected to the thin film transistor, and a pixel electrode connected to the thin film transistor. A color filter substrate facing the substrate, the TFT substrate, and having a black matrix for covering the thin film transistor on the transparent substrate, a color pixel, and a common electrode facing the pixel electrode; and a liquid crystal injected between the TFT substrate and the color filter substrate. It is connected to the first and second signal processing / transmitting members installed in the liquid crystal display panel, the gate line group and the data line group, and the first signal processing / transmitting member installed in the data line group. Display unit including a printed circuit board, display unit A backlight assembly for supplying light, and a chassis for coupling the display unit and the backlight assembly to a TFT substrate, the second signal processing / transmitting connected to the gate line group by a gate driving signal applied through the first signal processing / transmitting member; A first signal transmission line to be applied to the member is formed, and the second signal transmission line to which the gate driving signal is transmitted from the second signal processing / transmission member to the adjacent second signal processing / transmission member is defined by the black matrix of the color filter substrate. Areas overlap.

Hereinafter, a liquid crystal display according to the present invention will be described with reference to the accompanying drawings.

1, the overall configuration of the liquid crystal display device is illustrated. Referring to the accompanying drawings, the liquid crystal display device 601 is generally viewed as a display unit 200, a backlight assembly 300, a chassis 400, and a case. It consists of 500.

The display unit 200 divides a substrate having a predetermined area into a plurality of very fine regions and controls the amount of light passing through each region to be divided so that the light passing through the substrate stimulates the color pixels so that the user can mosaic the light. It plays a role to recognize the electric signal as an image through the implemented screen.

As described above, in order for the electrical signal to be displayed as an image through the display unit 200, light passing through the display unit 200 is required, and the light is emitted from the lamp unit 330, the light guide plate 320, the reflector plate 340, and the like. It is composed of a backlight assembly 300 composed of a diffusion sheet 310 and a mold frame 350 for storing them, the display frame 200 and the mold frame 350 of the backlight assembly 300 is attached to the chassis 400. Are firmly combined.

The combination of the display unit 200, the backlight assembly 300, and the chassis 400 configured as described above will be defined as a liquid crystal display module. The liquid crystal display module is again combined with the case 500 to form the liquid crystal display device 601. Becomes

In this case, the display unit 200, which is a component of the liquid crystal display device 601, will be described in more detail. The display unit 200 again includes the liquid crystal display panel 290, the signal processing / transmitting members 210 and 220, and the integrated printed circuit board. 230.

The liquid crystal display panel 290 is composed of the TFT substrate 240 and the color filter substrate 250 again.

The color filter substrate 250 is formed on a transparent substrate, in one embodiment, a transparent substrate, a very fine RGB color pixel, a black matrix made of chromium to cover a thin film transistor to be described later, and a transparent common electrode by a semiconductor thin film process.

The TFT substrate 240 facing the color filter substrate 250 configured as described above is connected to a thin film transistor and a thin film transistor arranged in a matrix form as shown in FIG. 2 to turn on and turn off the thin film transistor in common. A gate line 243 and a data line 242 are formed to allow power to be applied to the pixel electrode facing the electrode so that an electric field is formed between the common electrode and the pixel electrode.

The gate lines 243 and the data lines 242 configured as described above have a predetermined interval in the effective display area and come out of the invalid display area to form a plurality of groups, each of which is a gate line group 243a and a data line group. It is defined as (242a).

One end of the data signal processing / transmitting member 220 having the tape carrier package or the chip on flexible method is attached to the data line group 242a thus formed, and the other end of the signal processing / transmitting member 220 is integrated. It is connected to the printed circuit board 230.

In this case, the integrated printed circuit board 230 receives an image signal from an external information processing device (not shown) and is primarily processed to generate a data driving signal and a gate driving signal.

Meanwhile, one end of the gate signal processing / transmitting member 210 having the tape carrier package or the chip on flexible method is attached to the gate line group 243a.

In this case, the gate signal processing / transmitting member 210 is formed with a signal input line through which a signal is input from the outside and a first signal transmission pattern through which the signal input from the outside is passed.

On the other hand, the gate driving signal generated in the integrated printed circuit board 230 is applied to the TFT substrate 240 and the gate applied to the TFT substrate 240 through a signal transmission pattern separately provided in the data signal processing / transmission member 220. The driving signal is input to the signal input line formed on the gate signal processing / transmitting member 210 by the first signal transmission line 244 and then transmitted to the gate line group 243a.

In this case, when there is only one gate line group 243a, there is no problem, but when there are a plurality of gate line groups 243a, it is difficult to transmit a signal from one gate line group 243a to an adjacent gate line group 243a. Bars are formed by the second signal transmission line 245 formed between the gate line group 243a and the gate line group 243a and connected at both ends thereof to the first signal transmission pattern.

In this case, the portion of the second signal transmission line 245a having a direction perpendicular to the gate line group 243a is the black matrix 250 formed at the outermost of the plurality of black matrices formed on the color filter substrate 250 described above. And completely overlap.

As a result, only the smallest area of the second signal transmission line 245 may be exposed to the outside of the TFT substrate 240 to minimize damage and damage of the second signal transmission line 245.

As described in detail above, the signal transmission pattern for transmitting a signal from the gate line group to the gate line group overlaps the color filter substrate, thereby minimizing damage of the signal transmission pattern during transportation or during the manufacturing process. There is.

Claims (1)

A TFT substrate having a thin film transistor arranged in a matrix on a transparent substrate, a gate line group connected to the thin film transistor, a data line group connected to the thin film transistor, and a pixel electrode connected to the thin film transistor, facing the TFT substrate, A liquid crystal display panel including a black matrix covering a transistor, a color filter substrate on which color pixels and a common electrode are formed, and a liquid crystal injected between the TFT substrate and the color filter substrate, and the data line group and the gate line group, respectively. A display unit having a connected first and second signal processing / transmitting member and an integrated printed circuit board connected to the first signal processing / transmitting member and generating a gate driving signal and a data driving signal; A backlight assembly supplying light to the display unit; And A chassis coupling the display unit and the backlight assembly; A first signal transmission line and the second signal processing / transmission for applying the gate driving signal applied through the first signal processing / transmission member to the second signal processing / transmission member connected to the gate line group to the TFT substrate; A second signal transmission line for transmitting the gate driving signal is formed by connecting another second signal processing / transmission member adjacent to the member, and the second signal transmission line overlaps a part of the black matrix formed at the outermost part of the black matrix. Liquid crystal display characterized in that the patterned.

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