KR20080050830A - Liquid crystal display device - Google Patents

Abstract

An LCD(Liquid Crystal Display) is provided to restrain a drive IC(Integrated Circuit) from being exposed to reduce defects on the LCD and make the thickness of an LCD module uniform to simplify an assembling process. An LCD includes an LCD panel(110) and a backlight unit. The LCD panel includes an upper substrate on which thin film transistors(TFT) are formed and a lower substrate having an area smaller than the upper substrate. The backlight unit is arranged under the LCD panel and provides light to the LCD panel. The upper substrate includes a display area, a non-display area formed at one side of the display area, and drive ICs(120a,120b) formed in the non-display area.

Description

Liquid crystal display {LIQUID CRYSTAL DISPLAY DEVICE}

1 is a plan view showing an organic connection relationship between a liquid crystal panel, a drive IC, and an FPC as a liquid crystal display device according to the prior art.

2 is a cross-sectional view showing an organic connection relationship between a liquid crystal panel, a drive IC, and an FPC as a liquid crystal display device according to the prior art.

3 is a plan view showing an organic connection relationship between a liquid crystal panel, a drive IC, and an FPC as a liquid crystal display device according to the present invention;

4 is a cross-sectional view showing a liquid crystal display device according to the present invention.

Description of the main parts of the drawing

110: liquid crystal panel 115: light source

TFT: Thin Film Transistor 120a: Data Drive IC

120b: gate drive IC 122: FPC

126: main PCB 128: light guide plate

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device (LCD). More particularly, a liquid crystal panel is disposed so that a drive IC is not directly exposed to the outside by arranging a substrate on which a thin film transistor is formed. It relates to a liquid crystal display device to improve the stability of the.

Recently, the importance of the display device for displaying various information is increasing with the rapid development of the information and communication field, and one of the existing display devices (Cathode Ray Tube) has a certain limit to meet the latest trend of light weight and thinning. Could not.

As a flat panel display, a liquid crystal display device (LCD), a plasma display panel (PDP), an electroluminescence display (ELD), etc. have been developed to meet expectations, and research and development are actively conducted. It's going on.

Among such display devices, liquid crystal displays are displays having advantages such as light weight, thinness, and low power, and are widely used not only for display devices such as notebook computers, but also for desktop computers and large TVs. There is a trend.

A liquid crystal display device is a display device using optical anisotropy of a liquid crystal, and implements an image by adjusting the light transmittance of the liquid crystal using an electric field.

The liquid crystal display according to the related art will be described with reference to FIGS. 1 and 2 as follows.

1 is a plan view illustrating an organic connection relationship between a liquid crystal panel, a drive IC, and an FPC, showing a liquid crystal display device according to the related art, and FIG. 2 is a cross-sectional view showing a conventional liquid crystal display device. In order to show the arrangement of the FPC, only a part of the liquid crystal display is shown.

1 and 2, the liquid crystal display according to the related art includes a liquid crystal panel 10, a backlight unit for supplying light to the liquid crystal panel 10, and a driving circuit unit for driving the liquid crystal panel 10. .

Since the liquid crystal does not emit light by itself and has to separately supply light, the liquid crystal display requires a backlight unit for supplying light to the liquid crystal panel 10, and in addition to driving the liquid crystal panel 10. It comprises a drive circuit unit.

The liquid crystal panel 10 includes an upper substrate 10a and a lower substrate 10b, and includes a liquid crystal layer (not shown) filled between the two substrates. The liquid crystal layer realizes a desired image by adjusting the transmittance of light transmitted according to an input image signal.

The upper substrate 10a is a color filter substrate, and a color filter layer is formed to display various colors on the screen according to each image signal.

The lower substrate 10b provided to face the upper substrate 10a is a substrate on which a thin film transistor (TFT) array is formed, and a pixel which is the smallest unit representing an image is formed.

Each pixel is formed of a thin film transistor (TFT), which is a switching element, and the switching element serves to switch the image signal supplied from the outside to be applied to the pixel through the switching driving of the thin film transistor.

Here, the lower substrate 10b includes a data line 12 for transmitting an image signal, a gate line 14 for defining each pixel by crossing the data line 12 in a matrix form, and transmitting a scanning signal. The thin film transistor TFT is formed at the intersection of the data line 12 and the gate line 14.

The ends of the data line 12 and the gate line 14 are connected to the data drive IC 20a and the gate drive IC 20b.

The signal from the main PCB (Printed Circuit Board) 26, on which the driving circuit driving the liquid crystal panel 10 is mounted, is transmitted to the pixel through the FPC (Flexible Printed Circuit) 22 and the drive ICs 20a and 20b. .

That is, the main PCB 26, the FPC 22 and the drive ICs 20a and 20b are electrically connected, so that the image signal from the main PCB 26 is connected to the FPC 22 and the data / gate drive ICs 20a, It reaches the pixel of the liquid crystal panel 10 via 20b), and shows an image.

The data / gate drive ICs 20a and 20b are generally mounted by a line on glass (LOG) method for forming a conductor on a substrate on which a thin film transistor (TFT) is formed.

Referring to FIG. 2, the liquid crystal display device includes a liquid crystal panel 10 and a mechanical part, and the mechanical part includes a main support for fixing and supporting the backlight unit for supplying light to the liquid crystal panel 10 and the backlight unit. ).

The backlight unit includes a light guide plate 28 positioned below the liquid crystal panel 10 to direct light toward the liquid crystal panel 10, and a lamp 15 positioned at one side of the light guide plate 28 to emit light. do.

A bottom cover (not shown) is provided below the main support 24 to surround the main support.

In addition to the lamp 15 and the light guide plate 28, an optical sheet for increasing light efficiency is further stacked on the backlight unit.

The backlight unit is positioned under the liquid crystal panel 10, and the substrate 10b on which the thin film transistor array as the switching element is formed and the backlight unit are in contact with each other. Accordingly, the backlight unit is disposed in order from the backlight unit to the upper side in order of the backlight unit, the lower substrate, the liquid crystal layer, and the upper substrate.

However, as described above, the liquid crystal display according to the related art has the following problems.

As described above, the data / gate drive ICs 20a and 20b are mounted on the lower substrate 10b. When the liquid crystal display device is assembled, the drive ICs 20 face upwards, that is, they are exposed to the outside. It will be exposed.

Therefore, the drive IC 20 is exposed to moisture or temperature change, and there is a problem of easily causing a defect.

In addition, the drive IC 20 and the FPC 22 are mounted on the lower substrate 10b, and a silicon resin is coated on the lower substrate 10b, thereby bonding them. Thus, the upper surface of the lower substrate 10b is uneven and the thickness of the cross section is uniform. There was no inconvenience to consider this when assembling the module.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and an object thereof is to provide a high-quality liquid crystal display device by reducing the exposure rate of the liquid crystal display device by reducing the exposure of the drive IC.

Another object of the present invention is to provide a liquid crystal display device which can simplify the subsequent assembly process by making the thickness of the entire module of the liquid crystal display device uniform.

The liquid crystal display device of the present invention for achieving the above object is an upper substrate formed with a thin film transistor, a lower substrate disposed to be spaced apart from the upper substrate to be smaller than the upper substrate, and the upper substrate and the lower substrate A liquid crystal panel comprising a liquid crystal layer formed therebetween; It is formed under the liquid crystal panel, and consists of a backlight unit for supplying light to the liquid crystal panel.

The upper substrate includes an image display area in which an image is displayed and an image non-display area formed on at least one side of the image display area, and further includes a drive IC formed in the image non-display area.

In this case, the drive IC is formed on a surface of the upper substrate that faces the backlight unit.

The upper substrate may further include a main PCB providing an image signal to the drive IC, and an FPC having one end electrically connected to the drive IC and the other end electrically connected to the main PCB. And, the lower edge of the liquid crystal panel may be further provided with a main support for supporting the liquid crystal panel, wherein the FPC is formed bent to surround the outer surface of the main support.

The backlight unit may include a light guide plate provided under the liquid crystal panel, a lamp provided on at least one side of the light guide plate, and an optical sheet disposed between the liquid crystal panel and the light guide plate.

Hereinafter, a preferred embodiment of a liquid crystal display according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 is a plan view illustrating an organic connection relationship between a liquid crystal panel, a drive IC, and an FPC, and shows a liquid crystal display device according to the present invention, and FIG. 4 is a cross-sectional view of the liquid crystal display device according to the present invention.

3 and 4, since the liquid crystal does not emit light by itself and thus needs to separately supply light, the liquid crystal display requires a backlight unit for supplying light to the liquid crystal panel 110. It includes a driving circuit unit for driving the liquid crystal panel 110. The driving circuit unit includes a liquid crystal panel 110, a drive IC 120 to be described later, an FPC 122, and a main PCB 126.

The liquid crystal panel 110 includes two opposing substrates 110a and 110b made of a transparent material such as glass and a liquid crystal layer (not shown) formed therebetween.

A top case 140 is provided on the liquid crystal panel 110 to expose the display of the liquid crystal panel and to fix the edge of the liquid crystal panel.

The backlight unit is disposed under the lower substrate 110b of the liquid crystal panel, and emits light from the lamp 115 and one side of the lamp 115 and emits light generated from the lamp 115 to the liquid crystal panel 110. It comprises a light guide plate 128 for guiding toward and an optical sheet 129 for increasing the efficiency of the light deposited on the light guide plate 128.

The optical sheet 129 is formed of a diffusion sheet, a prism sheet, a protective sheet, and the like, and serves to increase the efficiency of light emitted toward the liquid crystal panel 110. The diffusion sheet serves to diffuse the light from the lamp 115 to supply to the liquid crystal panel 110, and the prism sheet collects the light diffused from the diffusion sheet in a direction perpendicular to the plane of the upper liquid crystal panel 110. Chapter 2 is usually used. At the top of the optical sheet is provided a protective sheet to protect the prism sheet that is weak to scratches.

The main support 124 for fixing and supporting the liquid crystal panel 110 and the backlight unit is provided under the edge of the liquid crystal panel 110 and the edge of the backlight unit. The main support 124 is formed to fix and support the liquid crystal panel 110 and the backlight unit, and is formed in the form of a mold frame having an empty inside.

The bottom cover 130 is disposed below the liquid crystal panel 110 to accommodate the liquid crystal panel 110. The bottom cover 130 is disposed below the liquid crystal panel 110 in parallel with the liquid crystal panel 110. It extends from the bottom portion is composed of a side portion disposed perpendicular to at least one side of the liquid crystal panel 110. At this time, the side portion of the bottom cover is formed to cover the lower and outer surface of the main support 124 for supporting the liquid crystal panel 110.

In the liquid crystal display device having the above structure, the light emitted from the backlight unit is incident to the liquid crystal panel through the lamp 115, the light guide plate 128, and the optical sheet 129, and the color filter layer of the liquid crystal panel is formed. An image is displayed through the image display area via the substrate 110b, the liquid crystal layer (not shown), and the upper substrate 110a on which the thin film transistor array is formed.

In the liquid crystal display according to the present invention, a gate wiring and a data wiring are formed in a matrix form on the upper substrate 110a positioned above the liquid crystal panel 110 to define pixels, and thin films are formed in each pixel. Film Transistor, TFT) is formed. The lower substrate 110b disposed below the liquid crystal panel 110 forms a color filter of red (R), green (G), and blue (B) to form the color of the display screen.

The upper substrate 110a defines a pixel by crossing the data line 112 for transmitting an image signal and the data line 112 in a matrix form, and the gate line 114 and the data for transmitting the image signal. The thin film transistor TFT is formed at the intersection of the line 112 and the gate line 114.

Here, the ends of the data line 112 and the gator line 114 are connected to the data drive IC 120a and the gate drive IC 120b, and the drive IC 120 is digital from the main PCB 126. The signal is converted into a pixel voltage signal, which is an analog signal, and supplied to a gate line and data lines on the liquid crystal panel 110 to display an image. In this case, the pixel data signal is generated by the main PCB 126 driving the liquid crystal panel and reaches the drive IC 120 through the electrically connected FPC 122.

In addition, in the liquid crystal display according to the present invention, referring to FIG. 4, the area of the lower substrate 110b is smaller than that of the upper substrate 110a. Where the image appears in the liquid crystal panel 110 is called an image display area, and an image non-display area of the upper substrate 110a is referred to as an image non-display area that is formed on at least one side of the image display area and does not appear. Has an extra space than the lower substrate (110a). In the spare space, a drive IC 120 and an FPC 122 are mounted.

The thin film transistor (not shown), the drive IC 120, the FPC 122, and the like are all electrically connected to each other and are in contact with the extra space of the upper substrate 110a. At this time, if the image display direction of the liquid crystal panel 110 is the front, the drive IC 120 and the FPC 122 is formed on the rear surface of the upper substrate 110a, that is, the direction toward the bottom.

Accordingly, the drive IC 120 formed on the rear surface of the upper substrate 110a of the liquid crystal panel 110 is exposed in the direction of the backlight unit, and one end of the FPC is contacted and connected to the upper substrate 110a. It is connected in contact with the main PCB.

At this time, the FPC 122 is bent along the main support 124 and the bottom cover 130 along the circumference of the main support 124 for ease of assembly and volume reduction. Accordingly, the main PCB 126 that is in contact with the other end is disposed on the rear surface of the light guide plate 128, that is, the lower part of the light guide plate 128.

As described above, the drive IC 120 is mounted on the upper substrate of the liquid crystal panel and exposed downward. The backlight unit is provided directly under the liquid crystal panel, so that the drive IC 120 is directly externally bonded even after the drive IC is bonded. It serves to prevent exposure.

Therefore, the drive IC according to the present invention is primarily shielded by the surrounding backlight unit or the main support, so that the drive IC is not directly affected by external moisture or temperature, thereby reducing operational abnormalities or other defects, thereby improving stability of the LCD.

The present invention is not limited only to the structure as described above. The above-described structure is only one example for explaining the present invention.

Accordingly, the scope of the present invention should not be defined by the above detailed description, but should be defined by the appended claims.

As described above, the liquid crystal display device according to the present invention has the following effects.

According to the present invention, when the thin film transistor and the drive IC are formed on the upper substrate, the exposed portion of the drive IC is covered by the mechanism to directly reduce the exposure.

Therefore, it is possible to reduce the direct exposure of the drive IC to high temperature or high humidity, which has the advantage of manufacturing a high reliability liquid crystal panel.

In addition, since the drive IC and the FPC are formed on the lower side of the upper substrate, the front surface of the upper portion of the upper portion of the liquid crystal panel forms a flat surface without bending, so there is an advantage in that the liquid crystal panel can be easily assembled.

Claims (6)

An upper substrate on which a thin film transistor is formed, A lower substrate disposed to face the upper substrate and spaced apart from the upper substrate, A liquid crystal panel comprising a liquid crystal layer formed between the upper substrate and the lower substrate; And a backlight unit formed under the liquid crystal panel and configured to supply light to the liquid crystal panel. The method of claim 1, And the upper substrate comprises an image display area in which an image is displayed and an image non-display area formed on at least one side of the image display area, and further comprising a drive IC formed in the image non-display area. The method of claim 2, And the drive IC is formed on a surface of the upper substrate that faces the backlight unit. The method of claim 2, And the upper substrate further comprises a main PCB providing an image signal to the drive IC, and an FPC, which is electrically connected to the drive IC and whose other end is electrically connected to the main PCB. The method of claim 1, And a main support for supporting the liquid crystal panel at a lower edge of the liquid crystal panel, wherein the FPC is bent to surround the outer surface of the main support. The method of claim 1, The backlight unit, A light guide plate provided under the liquid crystal panel; A lamp provided on at least one side of the light guide plate; And And an optical sheet disposed between the liquid crystal panel and the light guide plate.

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