KR20010049018A - Liquid crystal display device - Google Patents

Abstract

PURPOSE: A liquid crystal display device is to reduce a weight and a size thereof by firmly connecting a driving signal timing determination unit to a housing. CONSTITUTION: A display unit(200) includes a LCD panel(210), the first driving signal timing determination unit(230) and the second driving signal timing determination unit(240). The first driving signal timing determination unit has one end coupled to a data line of the LCD panel and the other end coupled to a PCB(220) for generating a data driving signal and a gate driving signal. The second driving signal timing determination unit receives the gate driving signal from the PCB via the LCD panel and transmits the received gate driving signal to a gate line. A backlight assembly supplies a light to the display unit. A housing(400) houses the display unit and the backlight assembly. A chassis(500) has one end fixed to a portion of the display unit and the other end connected to the housing. A housing protrusion(410) for installing the second driving signal timing determination unit is formed in the housing. The installed second driving signal timing determination unit is fixed through the chassis and the housing.

Description

Liquid crystal display device

The present invention relates to a liquid crystal display device, and more particularly, a data driving signal generated in an integrated printed circuit board is applied to a data line via an integrated printed circuit board and a data driving signal application time determining means, and in the integrated printed circuit board The generated gate driving signal is applied to the gate line via the integrated printed circuit board-the liquid crystal display panel-the gate driving signal applying time determining means-so that the gate driving signal is applied to the gate line without the gate printed circuit board. The present invention relates to a liquid crystal display device in which a signal application time determining means is inserted into an accommodating groove formed in an accommodating container in which a liquid crystal display panel is accommodated and then fixed by various fixing means.

Recently, due to the rapid development of technology in the semiconductor industry, technology development in almost all industries is progressing, as well as many products that are more compact and lighter and more powerful in performance are being produced.

In particular, the liquid crystal display device produced by the semiconductor thin film process among these products has a high-resolution 14.1 inch or larger screen with high resolution by a very thin thin film transistor, so that not only a monitor of a desktop computer but also a display device such as a home wall-mounted TV can be used. It is installed in almost all the information processing equipment required.

Since the liquid crystal display device increases in weight and volume as the large screen becomes large, the development of technology for realizing a small size and light weight by reducing the area and volume occupied by portions other than the screen even with the large screen is being made rapidly.

In particular, Korean Patent Application No. 99-13650, "Tape carrier package, liquid crystal display panel assembly including the same, a liquid crystal display device employing the same, and a method for assembling thereof" includes an integrated printed circuit board on which a gate driving signal and a data driving signal are generated. From the integrated printed circuit board-data driving signal application timing determining means-data line via the path of the data line, and the gate driving signal is integrated printed circuit board-data driving signal application timing determining means-TFT substrate A liquid crystal display device has been disclosed in which a gate printed circuit board, which acts as a factor of increasing thickness of a liquid crystal display panel, is inputted through a signal transmission pattern formed at the gate-transmission time determining means-determining means-gate line.

The removal of the gate printed circuit board from the liquid crystal display device is to reduce the volume and weight of the liquid crystal display device. However, the gate driving signal applying time determining means is bent to the rear side of the storage container in which the liquid crystal display panel is accommodated. Since it is attached to the rear surface, the planar increase or the height of the liquid crystal display device increases depending on the position of the driving IC mounted on the gate driving signal application timing determining means.

Accordingly, the present invention has been made in view of the above problems, and an object of the present invention is to prevent the planar increase or height of the liquid crystal display device from being increased by the gate driving signal application timing determining means.

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

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

Fig. 2 is a partial perspective view showing a coupling relationship between a gate driving signal application timing determining means and a fixing member according to the present invention.

3 is a perspective view showing a fixing member according to the present invention.

4 is a sectional view showing that the fixing member is in close contact with the gate driving signal application timing determining means.

5 is a sectional view showing another embodiment of the present invention.

6 is a sectional view showing another embodiment of the present invention.

7 is a cross-sectional view showing another embodiment of the present invention.

8 is a cross-sectional view showing another embodiment of the present invention.

The liquid crystal display device for implementing the object of the present invention is connected to the liquid crystal display panel, the integrated circuit board for generating one end and the other end is connected to the data line of the liquid crystal display panel and the data drive signal and the gate drive signal A display unit including first driving signal applying time determining means to which driving signals are applied, and second driving signal applying time determining means for receiving a gate driving signal generated from the integrated printed circuit board through a liquid crystal display panel and transmitting the same to a gate line; A backlight assembly for supplying light to the display unit, a storage container accommodating the display unit and the backlight assembly, one end of which includes a chassis fixed to a part of the display unit and the other end is coupled to the storage container. Determination means for applying the second drive signal bent outside the side wall The opposing storage container is provided with an accommodating groove for accommodating the second driving signal application time determining means, and the second driving signal application time determining means accommodated in the accommodating groove determines the second driving signal application time through the chassis and the storage container. It is fixed by fixing means for fixing the means.

Hereinafter, with reference to the accompanying drawings more specific configuration and assembling method of the present invention will be described in more detail.

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

The liquid crystal display 801 illustrated in FIG. 1 is generally composed of a case 100 and a liquid crystal display module 800.

The liquid crystal display module 800 is again composed of a display unit 200, a backlight assembly 300, a storage container 400, and a chassis 500.

The display unit 200, the backlight assembly 300, the storage container 400, and the case 100, which are components of the liquid crystal display module 800, are composed of a plurality of components. A detailed configuration will be described.

First, the display unit 200 includes a liquid crystal display panel 210, an integrated printed circuit board 220, a data driving signal applying time determining means 230, and a gate driving signal applying time determining means 240.

The integrated printed circuit board 220 is suitable for being accommodated by an image signal generated by an external information processing device (not shown), for example, a portable computer, a desktop computer, or other information processing device, and accommodated by the liquid crystal display device according to the present invention. A signal, that is, a gate driving signal, a data driving signal, and a plurality of timing signals for applying the same to the liquid crystal display panel 210 to be described later are generated.

The liquid crystal display panel 210 is composed of a TFT substrate 212, a color filter substrate 214, and a liquid crystal (not shown).

The TFT substrate 212 is formed on a transparent substrate having a predetermined area, preferably a glass substrate, in which several tens to millions of thin film transistors (not shown) are formed in a matrix by a semiconductor thin film process. Data lines (not shown) are connected to each other, and gate lines (not shown) are connected to the gate terminals.

Subsequently, a transparent and conductive indium tin oxide pixel electrode (not shown) is formed on the drain terminal.

As electrical signals are input to the data line and the gate line, the thin film transistor is turned on to output an electrical signal to the drain terminal, and a predetermined power is applied to the pixel electrode.

On the other hand, the TFT substrate 212 having such a configuration is overlapped with the color filter substrate 214 facing each other. The color filter substrate 214 has a predetermined RGB pixel, which is a color pixel in which a predetermined color is expressed while light passes. In addition, a common electrode formed of a semiconductor thin film process as well as an indium tin oxide material is applied to the entire surface of the color filter substrate 214, and a predetermined power source is always applied to the common electrode.

The power is applied to the gate terminal and the source terminal formed in any one of the thin film transistors of the TFT substrate 212, and a predetermined power is applied to the pixel electrode to form a predetermined electric field between the pixel electrode and the common electrode. Only the portion corresponding to the pixel electrode is formed.

Thus, in order to control the light by the electric field formed between the TFT substrate 212 and the pixel electrode, the arrangement angle is different by the electric field between the pixel electrode of the TFT substrate 212 and the common electrode of the color filter substrate 214. The liquid crystal is injected so that the light transmittance is changed according to the alignment angle.

After the liquid crystal display panel 210 is manufactured as described above, in order to control the arrangement angle of the liquid crystals and the timing at which the liquid crystals are arranged, that is, the alignment of the liquid crystals, the driving signals are transmitted to the gate lines and the data lines according to processing and timing, respectively. The signal should be applied. To implement this, the data driving signal application timing determining unit 230 is installed in the data line, and the gate driving signal application timing determining unit 240 is installed in the gate line.

At this time, the data driving signal application timing determining means 230 or the gate driving signal application timing determining means 240 is a tape carrier package (TCP) or chip on flexible (COF) is used as an embodiment.

In this case, the gate driving signal application time determining means 240 is implemented so that the gate printed circuit board is not installed, which is the Korean Patent Application No. 99-13650 as described above, "tape carrier package, a liquid crystal display panel including the same Assembly, a liquid crystal display device employing the same, and an assembly method thereof.

Although the display unit 200 configured as described above is driven to display the same image as the image input from the external information processing apparatus, the image is not displayed on the display unit 200, which means that the liquid crystal of the display unit 200 is a light receiving element. This is because the display is only possible with the light source.

In order to implement this, the backlight assembly 300 is installed at the rear of the display unit 200.

More specifically, the backlight assembly 300 may include a lamp unit 310 that is mounted with a light source and emits light in one direction, and is combined with the lamp unit 310 to guide light emitted from the lamp unit 310 and guide the direction of the light to the display unit. A plurality of optical sheets 330 and light guide plates disposed between the light guide plate 320, the light guide plate 320, and the display unit 200 to make the luminance ratio of light emitted from the light guide plate 320 uniform. The reflective plate 340 is installed on the bottom surface of the light guide plate 320 to reflect the light leaked from the light guide plate 320 back to the light guide plate 320.

The display unit 200 and the backlight assembly 300 are accommodated in the storage container 400 called "mold frame" and are supported and fixed.

The storage container 400 has a shape in which an upper surface of a box of a rectangular parallelepiped is opened, that is, four sidewalls and one bottom surface formed with an opening, and the backlight assembly 300 described above is the first in the bottom of the storage container 400. The display unit 200 is seated and supported, and the display unit 200 is mounted on the backlight assembly 300.

As described above, the data driving signal applying time determining means 230 and the gate driving signal applying time determining means 240 connected to the integrated printed circuit board 220 of the display unit 200 accommodated and supported in the storage container 400 are accommodated. It is bent along the side wall outer surface of the vessel 400.

At this time, when the thickness of the liquid crystal display device becomes sufficiently thin and the length of the bent length of the gate driving signal applying means 230 is longer than the height of the sidewall of the storage container 400, the gate driving signal applying time determining means 230 is removed. The gate driving IC formed on the gate driving signal application timing determining means 230 as well as the end of the gate driving signal application timing determining means 230 protrudes to the bottom surface of the storage container 400 even when bending toward the side wall of the storage container 400. As a result, the thickness or planar area of the liquid crystal display device 800 may increase.

In order to overcome this problem, in the present invention, the gate driving signal applying time determining means 230 is bent along the side wall of the storage container 400 in a portion where the gate driving IC is in contact with the side wall of FIG. 1 or 2 or 4. As shown in the drawing, the gate driving signal applying time determining means accommodating groove (hereinafter referred to as accommodating groove; 410) is formed.

The accommodating groove 410 may include an accommodating container in order to prevent an end from protruding from the side wall of the accommodating container 400 when the gate driving signal application timing determining unit 230 is bent toward the side wall of the accommodating container 400. It has an inclination that is formed continuously deeper from the upper sidewall to the lower sidewall of 400, the portion of the receiving groove 410, especially the contact with the gate driving IC is formed deeper as the height of the gate driving IC.

The inclined accommodating groove 410 having such a shape prevents the end of the gate driving signal application timing determining means 230 from protruding to the outside of the accommodating container 400, as well as the planarity of the liquid crystal display device by the gate driving IC. Suppress the factors causing increase and thickness increase.

On both sides of the inclined storage groove 410 formed in the storage container 400, as shown in the accompanying Figure 2 is formed with a coupling groove 420 having a predetermined depth again, the bottom surface of the coupling groove 420 is predetermined again A coupling hole 425 having a depth is formed.

The receiving groove 410, the coupling groove 420, and the coupling hole 425 configured as described above are provided with a fixing member 430 for limiting the positional movement of the gate driving signal application timing determining means 230.

One embodiment of the fixing member 430 is shown in more detail in the accompanying Figure 2 or 3, the fixing member 430 is a right triangular pole having an inclined surface length equivalent to the inclined surface length of the receiving groove 410 Body 432 of the shape, the coupling plate 434 formed in both ends of the body 432 is in close contact with the coupling groove 420, the coupling plate 434 formed in the coupling corresponding to the coupling hole 425 It consists of the projections 436.

At this time, the remaining portion of the fixing member 430 except for the inclined surface to form a groove having a predetermined depth in an arbitrary shape so that the weight of the fixing member 430 is minimized.

At this time, the inclined surface of the fixing member 430 is in close contact with the bottom surface of the gate driving signal applying time determining means 240 bent to the outside of the side wall of the storage container 400 as shown in FIG. The determining means 240 is in close contact with the interior of the receiving groove 410 of the storage container 400.

As described above, after the gate driving signal application time determining unit 240 is fixed to the storage container 400, the storage member 430 and the display unit 200 are prevented from being separated from the storage container 400. While pressing the upper surface of the display unit 200 while the display area of the display unit 200 is opened to the outside of the side wall of the side wall 400, the rear surface of the fixing member 430 is coupled with the side wall of the storage container 500. The liquid crystal display module 800 is manufactured by combining the chassis 500 having a “b” shaped cramp shape so that the rear surface of the fixing member 430 is pressed by pressing.

Thereafter, the liquid crystal display module 800 is mounted on the case 100 to become the liquid crystal display device 801.

5 or 6, when the length of the gate driving signal applying time determining means 240 is formed longer than the height of the side wall of the storage container 400, the gate driving signal applying time determining means 240 is formed in the receiving groove. A specific embodiment of how to secure to 410 is shown.

First, when the gate driving signal applying time determining means 240 is bent toward the side wall of the storage container 400, the inner surface of the chassis 500 is inserted into the receiving groove 410 on the surface of the chassis 500 that faces the display unit 200. A portion of the fixing film (hereinafter referred to as fixing film) 600 which is somewhat longer than the width and the length of the gate driving signal applying time determining means 240 is a portion of the adhesive material or the adhesive tape 620. Is attached.

The other end of the fixing film 600 formed as described above is wrapped in the state in which the gate driving signal application timing determining means 240 is pulled again, and the other end of the fixing film 600 is the outer bottom surface of the storage container 400. Is fixed to.

In this case, in order to fix the fixing film 600 to the bottom surface of the storage container 400, an adhesive material or an adhesive tape 610 is formed at the other end of the fixing film 600 facing the bottom surface of the storage container 400. It is desirable to.

In FIG. 6, a through hole is formed in the fixing film 600 facing the bottom surface of the storage container 400, and a locking protrusion 460 is formed in the storage container 400 to be coupled with the through hole to fix the film 600. Since the fixing of the bar is disclosed, it is preferable to form the adhesive material or the adhesive tape 610 in the fixing film 600 facing the bottom surface of the storage container 400 in the same manner as in the above-described embodiment.

8, the length of the gate driving signal application timing determining unit 240 is shorter than the length of the side wall of the storage container 400.

In such a case, the gate driving IC is accommodated in the accommodating groove 410 in a state where the accommodating groove 410 is formed on the sidewall of the accommodating container 400, and the display unit of the inner surface of the chassis 500. One end of the fixing film 600 is firmly fixed to the inner surface of the chassis 500 which is perpendicular to the 200 by the adhesive tape 620, and the other end is pulled tightly while the other end is tightly received. To 400).

1 and 5 to 7 attached above, an embodiment of fixing the gate driving signal applying time determining means 240 using the fixing film 600 corresponding to the number of the receiving grooves 410 is illustrated. Alternatively, one side end of the fixing film 600 is formed on the same side as the number of the receiving grooves 410 so that the other end of the fixing film 600 is connected to each other once on the bottom surface of the storage container 400 It can attach by a process.

8 is a cross-sectional view of another embodiment of the present invention. In FIG. 8, an elastic force is formed in a space formed between the bottom surface of the gate driving signal application timing determining unit 240 and the inner surface of the chassis 500. By inserting the triangular pillar-shaped elastic member 700 in an interference fit manner, the gate driving signal application time determining means 240 is firmly fixed to the receiving groove 410 of the storage container 400.

Various embodiments for realizing the object of the present invention can overlap the gate driving signal application time determining means 240 and a portion of the storage container 400 to reduce the overall size and weight of the liquid crystal display device 801.

As described in detail above, in order to reduce the weight and size of the liquid crystal display device, the gate driving signal applying time determining means from which the gate printed circuit board is removed is housed in an accommodating groove formed in the accommodating container, and the gate driving signal applying time determining means. By firmly combining the by a variety of means can reduce the additional weight and size of the liquid crystal display device.

Claims (13)

One end is connected to a liquid crystal display panel and a data line of the liquid crystal display panel, and the other end is connected to an integrated printed circuit board which generates a data driving signal and a gate driving signal to determine a first driving signal application time when the driving signal is applied. Means for displaying a gate driving signal generated by the integrated printed circuit board through the liquid crystal display panel and including a second driving signal applying time determining means for transmitting the gate driving signal to the gate line; A backlight assembly supplying light to the display unit; A storage container accommodating the display unit and the backlight assembly; One end is fixed to a portion of the display unit and the other end includes a chassis coupled to the storage container, The storage container facing the second driving signal application timing determining means bent outside the side wall of the storage container is formed with a receiving groove for receiving the second driving signal application timing determining means, And a second driving signal application time determining means is fixed by fixing means for fixing the second driving signal applying time determining means via the chassis and the storage container. The liquid crystal display device of claim 1, wherein the receiving groove is an inclined storage groove in which the depth of the groove deepens from the upper end to the lower end of the side wall outer surface of the storage container. The liquid crystal display device according to claim 1, wherein a part of the accommodating grooves has a deeper groove depth than other portions so that the most protruding portion of the second driving signal applying time determining means is accommodated. The liquid crystal display device of claim 2, wherein coupling grooves having a predetermined depth are formed on both sides of the accommodation groove, and coupling grooves having a predetermined depth are formed on a bottom surface of the coupling groove. 5. The fixing body of claim 4, wherein the fixing unit includes a fixing body having an inclined surface in close contact with a rear surface of the second driving signal application timing determining unit accommodated in the receiving groove, and formed on both sides of the fixing body and inserted into the coupling groove. And a coupling plate and a coupling protrusion formed on the coupling plate and inserted into the coupling groove. The liquid crystal display of claim 4, wherein a part of the fixing body is provided with a groove having a predetermined shape. The method of claim 1, wherein the fixing means has one end attached to an inner surface of the chassis, and the other end is fixed to the bottom surface of the storage container while pressing the second driving signal application time determining means into the receiving groove. Liquid crystal display comprising a fixed film. 8. The method of claim 7, wherein the length of the second driving signal application time determining means is longer than the height of the side wall of the storage container, and the second driving signal application time determining means does not protrude from the storage container on the side wall of the storage container. A liquid crystal display device having an inclined storage groove. The liquid crystal display of claim 8, wherein an adhesive material or an adhesive tape is formed at an end portion of the fixing film facing the bottom surface of the storage container. The liquid crystal display of claim 8, wherein a protrusion is formed on a bottom surface of the storage container, and a through hole is formed in a portion of the fixing film corresponding to the protrusion. 8. The method of claim 7, wherein the length of the second driving signal application timing determining means is shorter than the height of the sidewall of the storage container, and the second driving signal application timing determining means protrudes from the sidewall of the storage container on the sidewall of the storage container. An accommodating groove is formed so that the fixing means has one end attached to an inner surface of the chassis, and the other end of the accommodating container presses a bottom surface of the second driving signal application timing determining means into the accommodating groove. Liquid crystal display comprising a fixing film fixed to the bottom surface. The method of claim 7, wherein one end portion of the plurality of fixing films corresponding to the number of second driving signal application timing determining means is formed to protrude as the number of the accommodating grooves, and the accommodation container of the fixing films is disposed. The other end attached to the liquid crystal display device connected to one. The liquid crystal display device according to claim 1, wherein an elastic body is provided to fix the second driving signal application timing determining means between a rear surface of the second driving signal application timing determining means stored in the receiving groove and an inner surface of the chassis.