KR20070040568A - Liquid crystal display - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device, wherein a liquid crystal display panel having a Wise bus type driving IC is provided below, a circuit board connected to a system board provided in an outer lower region of the liquid crystal display panel, and electrically connected to the driving IC. And a flexible printed circuit board protruding to an outer lower region of the liquid crystal display panel and connected to the circuit board. As such, a Wise bus and a COG type source driving IC are formed in the lower region of the liquid crystal display panel, and the source circuit board connected through the source driving IC and the flexible printed circuit board is connected to the system from the outside of the liquid crystal display panel to display the liquid crystal display. The assembly process of the device can be simplified, and the power consumption of the liquid crystal display panel can be reduced as well as slimmed.

Wise bus, liquid crystal display, backlight, COG, driver IC, flexible printed circuit board

Description

Liquid Crystal Display {LIQUID CRYSTAL DISPLAY}

1 is an exploded perspective view of a conventional liquid crystal display device.

2 is a conceptual diagram of an information processing apparatus including a conventional liquid crystal display device.

3 is a cross sectional top view of a liquid crystal display device in the information processing device according to FIG. 2;

4 is a perspective view illustrating a liquid crystal display module according to an exemplary embodiment of the present invention.

5 is a perspective view of the liquid crystal display module after bonding.

6 is a cross-sectional view of a portion of an upper side of a liquid crystal display module according to the present embodiment.

7 is a combined perspective view of a liquid crystal display device having a liquid crystal display module according to the present embodiment.

8 is a perspective conceptual view of the information processing device according to the present embodiment;

9 and 10 are cross-sectional conceptual views for explaining the connection relationship between the liquid crystal display systemization system according to the present embodiment.

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

10, 2000: upper case 20, 310: liquid crystal display panel

30, 400: backlight assembly 40, 3000: lower case

320: source driving IC 330: flexible printed circuit board

340: circuit board

The present invention relates to a liquid crystal display device, which integrates a source IC under a liquid crystal display panel of a liquid crystal display device and arranges a printed circuit board connected to the liquid crystal display panel through a flexible printed circuit board to a system area, thereby extending the flexible printed circuit board. It is about liquid crystal display which can reduce length, and can slim down liquid crystal display panel.

Liquid crystal displays (LCDs) have advantages of small size, light weight, and large screen compared to conventional display devices, such as cathode ray tubes (CRTs), and their development is being actively performed. In particular, the liquid crystal display device has been developed to perform a sufficient role as a flat panel display device, and is used not only for display devices of small electronic devices such as camcorders and hand phones, but also for monitors and large display devices of desktop computers. Is expanding.

1 is an exploded perspective view of a conventional liquid crystal display device, FIG. 2 is a conceptual diagram of an information processing device including a conventional liquid crystal display device, and FIG. 3 is a top cross-sectional view of the liquid crystal display device in the information processing device according to FIG. 2.

1 to 3, the conventional liquid crystal display includes an upper case 10, a liquid crystal display panel 20, a backlight assembly 30, and a lower case 40.

The liquid crystal display panel 20 includes a color filter substrate 21 and a thin firm transistor (TFT) substrate 22. On the upper side of the liquid crystal display panel 20, a source circuit board 24 for mounting a control IC (integrated circuit) and applying a predetermined source signal to a source line of the TFT substrate 22 is provided. Further, a gate circuit board 26 for mounting a control IC and applying a predetermined gate signal to a gate line of the TFT substrate 22 is provided on the left or right side of the liquid crystal display panel 20. In this case, the source circuit board 24 is connected to a plurality of source pads exposed to the upper side of the liquid crystal display panel 20 through the source flexible printed circuit board 23, and the gate circuit board 26 is gate flexible printed. The plurality of gate pads are exposed to the left or right side of the liquid crystal display panel 20 through the circuit board 25.

The backlight assembly 30 includes a housing mold frame 35, and a reflecting plate 34, a light guide plate 33, a lamp unit 32, and an optical sheet 31 are sequentially stacked on the housing mold frame.

The liquid crystal display panel 20 is mounted on the backlight assembly 30 described above. At this time, the source printed circuit board 24 is bent to be disposed in the lower region of the backlight assembly 30.

Thereafter, a combination of the liquid crystal display panel 20 and the backlight assembly 30 is fixedly mounted on the lower case 40, and the upper case 10 is covered to provide a liquid crystal display device.

When the liquid crystal display as described above is mounted on the information processing system as shown in FIG. 2 to display an image, in order to receive an electrical signal from an external system, the backlight assembly of the liquid crystal display as shown in the figure is shown. (30) A connection was made between them using the bonded flexible printed circuit board 50 extending to the back region. That is, the combined flexible printed circuit board 50 having the connector 51 at the end thereof extends to an area between the backlight assembly 30 and the lower case 40 of the liquid crystal display device and is bent to the rear surface of the backlight assembly 30. The connector 27 is provided at one end of the source circuit board 24 to electrically connect them.

However, as shown in FIG. 1, the assembly process due to detachment of the coupling flexible printed circuit board may be performed since the coupling flexible printed circuit board connected to the system should be provided in the region between the backlight assembly and the lower case when the liquid crystal display is assembled. Not only does not perform smoothly, there is a problem to provide a separate fixing means to solve this problem in the lower case. In addition, in order to apply a signal to the liquid crystal panel of the liquid crystal display through the information processing system according to the present embodiment, the source flexible printed circuit board and the coupling flexible printed circuit board are electrically connected, and the flexible printed circuit board is bent. It is. However, a problem occurs in that the device does not operate due to disconnection of the flexible printed circuit board in a region where the flexible printed circuit board is bent. In addition, as shown in FIG. 3, the actual width of the liquid crystal display device is added not only to the thickness of the liquid crystal display panel and the backlight assembly but also to the thickness of the source circuit board bent to the back of the backlight assembly and the thickness of the connector formed thereon. There are many problems in slimming a liquid crystal display device.

Accordingly, the present invention is derived to solve the above problems, forming a Wise bus and COG type source driver IC in the lower region of the liquid crystal display panel, connected to the system and board-to-board in the lower region of the liquid crystal display panel It is an object of the present invention to simplify the assembly process by disposing a source circuit board, and to provide a slim liquid crystal display device with low power consumption.

A liquid crystal display panel displaying an image according to the present invention, a flexible printed circuit board connected to the liquid crystal display panel and extending in a system board direction for driving the liquid crystal display panel, and connected to the flexible printed circuit board, A liquid crystal display device including a circuit board directly connected to a system board is provided.

In this case, it is preferable that the liquid crystal display panel includes a TFT substrate and a color filter substrate, and a source bus IC of a Wise bus type is provided on the TFT substrate in a region adjacent to the system board. Here, it is effective that a source pad connected with the source driving IC is formed in a portion of the TFT substrate, one end of the source pad and the flexible printed circuit board is connected, and the other end is connected to the circuit board.

It is preferable to further include a backlight assembly for applying light to the liquid crystal display panel.

In addition, a liquid crystal display panel having a Wise bus type driving IC provided below, a circuit board connected to a system board provided at an outer lower region of the liquid crystal display panel, and an electrical connection with the driving IC and the liquid crystal display. A liquid crystal display device includes a flexible printed circuit board that protrudes and extends into an outer lower region of a panel and is connected to the circuit board.

In this case, it is preferable to further include a backlight assembly for applying light to the liquid crystal display panel.

In addition, a body portion including a system board according to the present invention, a liquid crystal display panel provided on the body portion to display an image, a flexible printed circuit board connected to the liquid crystal display panel extending in the system board direction, and An information processing apparatus comprising an additional circuit board connected to the flexible printed circuit board and the other end directly connected to the system board.

The liquid crystal display panel may include a TFT substrate and a color filter substrate, and a source bus IC of a Wise bus type may be provided on the TFT substrate in a region adjacent to the system board.

In addition, a body including a system board according to the present invention, a Wise bus type drive IC having a lower side and a liquid crystal display panel provided on the upper body, a circuit board connected to the system board and the drive IC electrically An information processing apparatus comprising a flexible printed circuit board connected to and protruding in the system board direction and connected to the circuit board.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention in more detail. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms, and only the embodiments are intended to complete the disclosure of the present invention, and to those skilled in the art to fully understand the scope of the invention. It is provided to inform you.

4 is a perspective view of a liquid crystal display module according to an exemplary embodiment of the present invention, and FIG. 5 is a perspective view of the liquid crystal display module after coupling. 6 is a cross-sectional view of a portion of the upper side of the liquid crystal display module according to the present embodiment, and FIG. 7 is a combined perspective view of the liquid crystal display device having the liquid crystal display module according to the present embodiment.

4 to 7, the liquid crystal display according to the present exemplary embodiment includes an upper case 2000, a lower case 3000, and a liquid crystal display module 1000 protruding from a source circuit board 340 connected to an external system. It includes.

The above-described liquid crystal display module 1000 includes upper and lower mold frames 100 and 200, a display assembly 300, and a backlight assembly 400 for supplying light to the display assembly 300.

The display assembly 300 is again connected to the liquid crystal display panel 310 for displaying an image, and extends downwardly of the display assembly 300 to be connected to the liquid crystal display panel 310 and the flexible printed circuit board 330. And a driving circuit including a source circuit board 340. This display assembly 300 will be described in more detail.

The liquid crystal display panel 310 includes a color filter substrate 311 and a thin firm transistor (TFT) substrate 312. At this time, the color filter substrate 311 is a substrate in which RGB pixels, which are color pixels in which a predetermined color is expressed while light passes, are formed by a thin film process. The front surface of the color filter substrate 312 is coated with a common electrode made of a transparent conductor such as indium tin oxide (ITO) or indium zinc oxide (IZO).

The TFT substrate 312 is a transparent glass substrate on which TFTs in matrix form are formed. The data line is connected to the source terminal of the TFTs, and the gate line is connected to the gate terminal. In addition, a pixel electrode made of a transparent electrode made of a transparent conductive material is formed in the drain terminal. When an electrical signal is input to the data line and the gate line, each TFT is turned on or turned off to apply an electrical signal necessary for pixel formation of the drain terminal. When the TFT is turned on by applying power to the gate terminal and the source terminal of the TFT substrate 312, an electric field is formed between the pixel electrode and the common electrode of the color filter substrate 311, thereby forming the TFT substrate 312 and the color. The arrangement of the liquid crystals injected between the filter substrates 311 is changed, and the light transmittance is changed according to the changed arrangement to obtain a desired image.

In this case, an area of the TFT substrate 312 is formed to be wider than that of the color filter substrate 311, and then the TFT substrate 312 is aligned based on one vertex of the upper side of the Curly Filter substrate 311 and the TFT substrate 312. ) And the left or right region (the right region is exposed in the figure) is exposed. This is because a Wise bus type source driving IC 320 is applied below the TFT substrate 312 to apply a driving signal to the source line of the TFT, and a TFT gate is provided at the right end of the TFT substrate 312. A gate bus IC 350 of a Wise bus type that applies a driving signal to the line is formed.

On the other hand, the driving circuit portion connected to the liquid crystal display panel 310 described above is mounted on the left or right side of the liquid crystal display panel 310 in order to mount a Wise bus type control circuit and apply a gate signal to the gate line of the TFT substrate 312. A TFT circuit board equipped with a provided gate circuit board 370, a gate flexible printed circuit board 360 connecting the gate printed circuit board 370 and the TFT substrate 312, and a Wise bus type control circuit. A source circuit board 340 provided below the liquid crystal display panel 310, the source circuit board 340, and the TFT substrate 312 to apply a source signal to the source driving IC 320 of 312. And a source flexible printed circuit board 330 connecting the livers. The source flexible printed circuit board 330 has a plurality of bus lines coated with an insulating thin film, one end of which is connected to a source pad (not shown) formed at a lower center portion of the liquid crystal display panel 310, and the liquid crystal display. It extends outward from the lower center portion of the panel 310 and is connected to one end of the source circuit board 340. In this case, the other end of the source circuit board 340 is connected to an external system and a board to board.

In the present embodiment, a Wise bus type source driving IC 320 is mounted on the TFT substrate 312 by applying the COG method. That is, as described above, the source driving IC 320 is formed in the lower region of the liquid crystal display panel 310. In addition, a Wise bus type driving method in which a line of a bus connecting the external circuit and the liquid crystal display panel 310 is reduced is applied. Due to the Wise bus type driving method, the number of bus lines in the source circuit board 340 connected to and driven with an external system is reduced, and thus the source flexible printed circuit board 330 connected to the source circuit board 340 is formed. The number of bus lines is reduced, and the number of source pads connected to the source flexible printed circuit board 330 is reduced. Accordingly, source pads may be formed on a portion of the lower side of the liquid crystal display panel 310, that is, the center portion or both edge portions of the TFT substrate 312, thereby reducing the width of the source flexible printed circuit board 330 connected thereto. . In the drawing, a source pad and a source flexible printed circuit board 330 are connected to a central portion of the TFT substrate 312. The external signal is applied to the source pad of the liquid crystal display panel 310 through the source flexible printed circuit board 330 via the Wise bus type control circuit in the source circuit board 340, and the source pad is connected to a plurality of source pads. The signal applied to the Wise bus type source driver IC 320 and the signal applied to the Wise bus type source driver IC 320 is applied to the source line connected thereto.

As described above, since the COG type source driving IC 320 is formed in the lower region of the liquid crystal display panel 310 and the Wise bus type bus line is applied, the source pad is formed on the upper side of the liquid crystal display panel. The distance from the external system can be reduced compared to when located at. In addition, when the source unit, that is, the source driving IC and the source pad is located above the liquid crystal display panel, the source circuit board connected to the source unit is bent and disposed on the rear side of the liquid crystal panel, thereby reducing the thickness of the liquid crystal display module. Couldn't. However, as shown in FIGS. 5 and 6, the source circuit board 340 is provided outside the liquid crystal display module 310, and the liquid crystal display panel 310 is provided through the source flexible printed circuit board 330. The thickness of the liquid crystal display module 1000 may be reduced since the voltage is connected to the liquid crystal display module 1000. In addition, conventionally, a flexible printed circuit board connected to an external system is connected to a bent source circuit board, and the source printed circuit board is connected to a liquid crystal display panel through a flexible printed circuit board. The substrate 340 is connected to a board-to-board, and the source circuit board 340 is connected to the liquid crystal display panel 310 through the source flexible printed circuit board 330, thereby reducing the length of the flexible printed circuit board 330. In addition, the connection node is reduced to prevent disconnection due to connection nodes, and the bending area can be reduced to prevent disconnection of the bus line by the bent portion.

Of course, the above-described gate and source circuit boards 370 and 350 may be integrated into one circuit board and connected to the lower region of the liquid crystal display panel.

The backlight assembly 400 may include a lamp unit 410, a light guide plate 420 coupled to the lamp unit 410, a reflector plate 430 disposed under the light guide plate 420, and a plurality of light guide plates 430 disposed above the light guide plate 430. Optical sheet 440.

The lamp unit 410 is composed of a lamp 411 and a lamp clamp 412. The lamp 411 is effective to use a cold cathode ray tube type lamp. In addition, the shape of the lamp 411 may be an I-shape as shown, and is not limited thereto, and may have various shapes such as an N-shape, an M-shape, and a meandering shape. The lamp clamp 412 is installed to surround the lamp 411 to have a reflective surface on the inner surface thereof to reflect the tube from the lamp 411 toward the incident surface of the light guide plate 420 to maximize light utilization efficiency.

The light guide plate 420 is coupled to the lamp clamp 412 to change light having an optical distribution in the form of a line light source generated by the lamp unit 410 into light having an optical distribution in the form of a surface light source. As the light guide plate 420, a wedge type plate or a parallel flat plate may be used. In addition, the light guide plate 420 is generally formed of polymethylmethacrylate (PMMA) having high strength and not easily being deformed or broken and having good transmittance.

As the reflecting plate 430, a plate having a high light reflectance is used to reduce light loss by reflecting light incident to the light through the rear surface of the light guide plate 420 toward the light guide plate 420.

The plurality of optical sheets 440 include a diffusion sheet, a polarizing sheet, and a brightness enhancing sheet, which are disposed on the light guide plate 420 to uniform the luminance distribution of the light emitted from the light guide plate 420. The diffusion sheet directs the light incident from the lower light guide plate 420 toward the front of the liquid crystal display panel 310, and diffuses the light to have a uniform distribution in a wide range so that the liquid crystal display panel 310 is irradiated. As the diffusion sheet, it is preferable to use a film composed of a transparent resin coated with a predetermined light diffusion member on both surfaces. The polarizing sheet serves to change the light incident at an oblique angle among the light incident thereto to be emitted vertically. This is because the light efficiency increases when the light incident on the liquid crystal display panel is perpendicular to the liquid crystal display panel 310. Therefore, at least one polarizing sheet may be disposed under the liquid crystal display panel 310 to vertically convert light emitted from the polarizing sheet. In this embodiment, two polarizing sheets are used, but a first polarizing sheet for polarizing light of the diffusion sheet in one direction and a second polarizing sheet for polarizing light in a direction perpendicular to the first polarizing sheet. The brightness enhancing sheet transmits light parallel to its transmission axis and reflects light perpendicular to the transmission axis. It is preferable that the transmission axis of such a brightness improving sheet is the same as the polarization axis and direction of a polarizing sheet in order to raise transmission efficiency.

After the display assembly 300 and the backlight assembly 400 having the above-described structure are manufactured, the backlight assembly 400 is mounted in the lower mold frame 200, and the display assembly 300 is mounted thereon. Thereafter, the lower mold frame 200 on which the display assembly 300 is mounted is mounted on the upper mold frame 100 to manufacture the liquid crystal display module 1000. In this case, as illustrated in FIG. 5, the source flexible printed circuit board 340 protrudes and extends to the lower regions of the lower mold frame 200 and the upper mold frame 100. In addition, a separate connector 413 for applying power to the lamp unit 410 of the backlight assembly 400 may be exposed to the lower side of the liquid crystal display panel 310.

Subsequently, the liquid crystal display module 1000 manufactured by the above-described configuration and method is accommodated in the lower case 3000 as illustrated in FIG. 7, and the liquid crystal display is manufactured by covering the upper case 2000. . In this case, the source circuit board 3400 protrudes and extends below the liquid crystal display.

Hereinafter, a connection between the liquid crystal display and the system through the information processing apparatus including the above-described liquid crystal display and a system for driving the same will be described.

8 is a perspective conceptual view of the information processing device according to the present embodiment, and FIGS. 9 and 10 are cross-sectional conceptual views for explaining the connection relationship between the liquid crystal display device and the system according to the present embodiment.

8 and 9, an information processing apparatus is manufactured by combining a liquid crystal display according to the present embodiment and a body portion 4000 provided with a system board 4100 for driving the liquid crystal display according to the present embodiment.

At this time, a portion of the lower side of the liquid crystal display and an upper region of the body portion 4000 are mechanically fastened, and a predetermined groove is formed in a portion therebetween and connected to one end of the liquid crystal display panel 310 through the groove. The source flexible printed circuit board 330 extends from the liquid crystal display to the body portion 4000 where the system board 4100 is provided. The flexible printed circuit board 330 extending from the liquid crystal display panel 310 is connected to the source circuit board 340, and the source circuit board 340 is connected to the system board 4100 in the body portion 4000.

As shown in FIG. 9, the system board 4100 and the source circuit board 340 are directly connected board to board. To this end, a first bonding pad 4110 is formed on an upper surface of the system board 4100, and a second bonding pad 341 corresponding to the second bonding pad 341 is formed on a lower surface of the source circuit board 340. A connection between the system board 4100 and the source circuit board 340 is provided. Of course, it is not limited to this, It can also connect them using a socket or a connector, and can also connect them between welding. As shown in the cross section of FIG. 10, the liquid crystal display panel 310 may be directly fixed by using the upper case 2000 without using the upper mold frame 100 of the liquid crystal display module 1000. .

As described above, the present invention forms a Wise bus and a COG type source driving IC in the lower region of the liquid crystal display panel, and connects the source circuit board connected through the source driving IC and the flexible printed circuit board to the outside of the liquid crystal display panel. By connecting to the system, the assembly process of the liquid crystal display device can be simplified, and the power consumption of the liquid crystal display panel can be reduced as well as slimmed.

Although the invention has been described with reference to the accompanying drawings and the preferred embodiments described above, the invention is not limited thereto, but is defined by the claims that follow. Accordingly, one of ordinary skill in the art may variously modify and modify the present invention without departing from the spirit of the following claims.

Claims (9)

A liquid crystal display panel which displays an image; A flexible printed circuit board connected to the liquid crystal display panel and extending in a system board direction for driving the liquid crystal display panel; And a circuit board connected to the flexible printed circuit board and directly connected to the system board. The method according to claim 1, The liquid crystal display panel includes a TFT substrate and a color filter substrate, and a source bus IC of a Wise bus type is provided on the TFT substrate in a region adjacent to the system board. The method according to claim 2, And a source pad connected to the source driving IC in a portion of the TFT substrate, wherein one end of the source pad and the flexible printed circuit board are connected and the other end is connected to a circuit board. The method according to claim 1, And a backlight assembly for applying light to the liquid crystal display panel. A liquid crystal display panel having a Wise bus type driver IC disposed below; A circuit board connected to a system board provided in an outer lower region of the liquid crystal display panel; And And a flexible printed circuit board electrically connected to the driving IC and protruding to an outer lower region of the liquid crystal display panel and connected to the circuit board. The method according to claim 5, And a backlight assembly for applying light to the liquid crystal display panel. A body portion including a system board; And A liquid crystal display panel provided on the body portion to display an image, a flexible printed circuit board connected to the liquid crystal display panel and extending in the system board direction, and one end thereof is connected to the flexible printed circuit board, and the other end thereof is An information processing apparatus comprising a circuit board directly connected to a system board. The method according to claim 7, And the liquid crystal display panel includes a TFT substrate and a color filter substrate, and a source bus IC of a Wise bus type is provided on the TFT substrate in a region adjacent to the system board. A body including a system board; A liquid crystal display panel provided on the upper portion of the body, a circuit board connected to the system board, a circuit board connected to the system board, and electrically connected to the driving IC and protruding in the direction of the system board; An information processing apparatus comprising a connected flexible printed circuit board.

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