KR20020094785A - Sealing structure of cot type lcd - Google Patents

Abstract

PURPOSE: A sealing structure of a COT(color filter on thin film transistor array) liquid crystal display device is provided to absorb light by the sealant interposed between upper and lower substrates for preventing the diffused reflection of light, thereby preventing the deterioration of the screen quality in the edge portions of the LCD. CONSTITUTION: A sealing structure of a COT LCD includes a lower substrate(101) formed of a lower glass substrate(111), and color filters, a black matrix(112) and a protecting film(114) formed on the glass substrate, an upper substrate(102) joined with the lower substrate by a sealant(103) forming a predetermined space part therebetween, and liquid crystal(104) implanted in the space between the substrates, wherein the sealant is formed of a black material of high light absorption for preventing the diffused reflection of light which causes the screen quality.

Description

Sealing structure of Siotti type liquid crystal display device {SEALING STRUCTURE OF COT TYPE LCD}

The present invention relates to a sealing structure of a shiot type liquid crystal display (COT LCD), and more particularly, a sealant formed at an edge between an upper plate and a lower plate to bond the upper plate and the lower plate to a black material ( The present invention relates to a sealing structure of a shioty liquid crystal display device, which is suitable for preventing light deterioration occurring at the outside of the liquid crystal display device by absorbing light by the black material.

In general, a liquid crystal display device injects a liquid crystal into a space between an upper plate and a lower plate, and applies an electric field between a common electrode and a pixel electrode formed on a plate for each pixel to change the arrangement of liquid crystals to pass or block light. This is the device that configures the screen.

A general liquid crystal display device in which a TFT is formed on a lower plate is described below with reference to an example of the accompanying drawings.

As shown in FIG. 1, a lower plate 3 made of a lower glass substrate 2 having a plurality of TFTs (not shown) formed vertically and horizontally on a top surface thereof, and a protective film 1 formed on an upper surface of the TFTs (not shown). ) And a color filter (6) and a black matrix (BLACK MATRIX) (7), which are bonded to the upper part of the lower plate (3) by the sealant (4) and formed of RGB on the lower surface of the upper glass substrate (5). ) Is formed on the upper plate 8, the liquid crystal 9 injected into the inner space between the upper plate 8 and the lower plate 3, and attached to the outer surfaces of the upper and lower glass substrates 5 and 2. It consists of a polarizing plate (POLARIZER) 10,11 which becomes.

In the figure, reference numeral 12 denotes a case CASE for fixing the liquid crystal display device 13, 14 denotes a spacer SPACER for maintaining a cell gap, and 15 denotes an eye.

However, in the liquid crystal display device 13 of the general type configured as described above, the black matrix 7 of the upper plate 8 is sufficiently wide in consideration of the margin of adhesion of the upper plate 8 and the lower plate 3. Since it is designed to be formed wide, thereby having a problem that the opening ratio is lowered.

Therefore, recently, in order to solve the above problems, the technical development of the liquid crystal display device in which the color filter is located on the lower plate and the aperture ratio is dramatically improved has been actively progressed. As a representative example, TOS (TOC: TFT ARRAY ON COLOR) FILTER or COT (COL: COLAR FILTER ON TFT ARRAY) type liquid crystal display device has been introduced, which will be described below with reference to the accompanying drawings.

As shown in FIG. 2, a black matrix 22, a color filter 23 composed of RGB, and a passivation layer 24 are formed on an upper surface of a lower glass substrate 21 on which TFTs (not shown) are formed. The upper plate 27 is squeezed by the sealant 26 so that a predetermined space portion is formed on the upper side of the lower plate 25, and the liquid crystal (S) in the inner space between the upper plate 27 and the lower plate 25 is formed. 28 is injected, and polarizing plates 29 and 30 are attached to outer surfaces of the upper plate 27 and the lower plate 25.

31 is a frame, 32 is a human eye, and 33 is a spacer for maintaining a cell gap.

In the Sioti type liquid crystal display device, since the color filter 23 is formed on the lower plate 25 where the TFTs are formed to form one pixel, the upper and lower plates are bonded together as in the general type liquid crystal display device 13. It is not necessary to design a wide width of the black matrix 22 in consideration of the margin (MARGIN) was to have an advantage that can significantly improve the aperture ratio.

However, when the CIOTI type liquid crystal display device faces a liquid crystal display device in which a person is driven, light is transmitted or diffusely reflected at the edge where the sealant 26 is interposed, resulting in a deterioration in image quality. Is a phenomenon that is not completely opaque because it has a color such as white (WHITE) or beige. There is a problem that there is a limit in improving the quality of the Sioti type liquid crystal display by this phenomenon.

SUMMARY OF THE INVENTION An object of the present invention is to provide a sealing structure of a shioty liquid crystal display device suitable for solving the problems in the above liquid crystal display devices.

1 is a longitudinal sectional view showing a general type of liquid crystal display device.

Figure 2 is a longitudinal sectional view showing a conventional shioty type liquid crystal display device.

3 is a longitudinal sectional view showing a shioty type liquid crystal display device having a sealing structure of the present invention;

** Description of symbols for the main parts of the drawing **

101: bottom plate 102: top plate

103: sealant 104: liquid crystal

105,106 polarizer 111 bottom glass substrate

112: Black Metric 113: Color Filter

114: protective film

In order to achieve the object of the present invention as described above, a color filter, a black matrix, a protective film is formed on the upper surface of the lower glass substrate to form a lower plate, and the lower plate and the upper plate are pressed by a sealant to form a predetermined space portion, and the upper plate In a conventional Shioty type liquid crystal display device in which liquid crystal is injected into a space portion between the lower plate and the lower plate, and a polarizing plate is attached to the outer surfaces of the upper plate and the lower plate, the sealant prevents light from being diffusely reflected to deteriorate image quality. A sealing structure of a shioty liquid crystal display device is provided, which is made of a black material which absorbs light well.

In the present invention configured as described above, since the color filter and the black matrix are formed on the lower glass substrate to form the lower plate, it is not necessary to consider the bonding margin between the upper plate and the lower plate, thus reducing the width of the black matrix separating each pixel. Since the design may be performed, the aperture ratio is greatly improved, and the viewing angle is significantly increased.

In addition, in the present invention, light is absorbed from the black material by forming a sealant formed of a black material on the edge between the top plate and the bottom plate to allow the top plate and the bottom plate to adhere and to form a space portion into which the liquid crystal is injected between the top plate and the bottom plate. As a result, when the sealant is white or beige as in the related art, light is diffusely reflected to prevent deterioration of image quality at the edge of the liquid crystal display.

Referring to the embodiment of the accompanying drawings of the sealing structure of the present invention Sioti type liquid crystal display device configured as described above in more detail as follows.

3 is a longitudinal cross-sectional view showing a shioty type liquid crystal display device having a sealing structure according to the present invention. As shown in FIG. 3, a plurality of TFTs are formed to maintain a lower portion of the lower plate 101 and an upper portion of the lower plate 101. A sealant 103 interposed and bonded to an upper end of the upper plate 102 having a common electrode (not shown) formed on the lower surface thereof, and having a predetermined space portion formed between the upper plate 102 and the lower plate 101. And a liquid crystal 104 in which an arrangement is changed by an electric field applied to the space between the upper plate 102 and the lower plate 101 by the sealant 103 and passing or blocking light, and the upper plate ( Polarizers 105 and 106 attached to the outer surfaces of the lower plate 101 and the lower plate 101 to polarize light passing through the liquid crystal 104, and a space between the upper plate 102 and the lower plate 101. Ball shape for maintaining the cell gap with the liquid crystal 104 located inside the inside A spacer (SPACER) 107 is provided.

The lower plate 101 partitions individual pixels with a transparent lower glass substrate 111 on a rectangular plate body and a resin or metal on the upper surface of the lower glass substrate 111, as well as an active array. The black matrix 112 coated on the edge of the active area to increase the contrast of each pixel and the upper surface of the black matrix 112 are photosensitive. The color filter (COLOR FILTER) 113 to mix the pigment in the material and make the light passing through the color (RGB, RED, GREEN, BLUE) color, and the protective film 114 coated on the upper surface of the color filter 113 ).

The upper plate 102 is formed of an upper glass substrate 121 having a substantially rectangular plate shape having a substantially same size as the lower plate 101, and a liquid crystal 104 on the inner surfaces of the upper plate 102 and the lower plate 101. An alignment film (not shown) for arranging in a predetermined direction is attached and rubbing is performed.

The sealant 103 is made of a black material that absorbs light well to prevent the light from being diffused and the image quality is deteriorated.

In the figure, reference numeral 140 denotes a case for fixing the liquid crystal display device 100, and 141 denotes a human eye.

Although not shown, the Sioti type liquid crystal display device having the sealing structure of the present invention configured as described above has a light generated by a back light (not shown) installed on the rear surface of the liquid crystal display device 100. In this state, when electric power is applied to the pixel electrode of the TFT formed on the lower plate 101 and the common electrode formed on the upper plate 102 by the circuit driving, an electric field is generated between the liquid crystals. The polarizer 105 is arranged in a predetermined direction, and the light passing through the polarizer 106 attached to the rear surface of the lower plate 101 passes through the arranged liquid crystal 104 and is attached to the front surface of the upper plate 102. When passing through, the light is selectively polarized and passes through the color filter 113 and is displayed in full color on the front surface of the upper plate 102, wherein the sealant 104 attached between the upper plate 102 and the lower plate 101 is provided. Silver material Since the light is absorbed well, the deterioration of the image quality due to the diffuse reflection that appears at the edge of the conventional liquid crystal display device 100 does not appear.

That is, since the sealant 4 formed in the liquid crystal display device 13 of the general type has a high reflectivity in white or beige, it is covered by the black matrix 7 formed in the upper plate 8 as shown in FIG. Since the sealant 4 is not visible to the human eye, deterioration in image quality due to diffuse reflection in the sealant 4 of the liquid crystal display device 13 has not been a problem, but it has a COT type developed for improving the aperture ratio. In the liquid crystal display, as shown in FIG. 2, the black matrix 22 is positioned on the lower plate 25 together with the color filter 23, so that the sealant 26 is visible in the human eye 32 so that the sealant 26 is white or beige. In the present invention, the image quality was seriously degraded at the edge of the liquid crystal display due to the diffuse reflection of light. In the present invention, as shown in FIG. 3, the sealant 103 is used by using a black material which absorbs light well. Will be with dramatic improvements in the picture quality degradation which occurs in the edge of the liquid crystal display device 100 of the sealant 103 is formed by the irregular reflection of light.

In the above embodiment, a COT-type TFT-LCD has been described as an example, but the present invention is not limited thereto, and the same may be applied to the TFD-LCD, and other applications can be made without departing from the spirit and scope of the present invention. This will be possible.

As described in detail above, in the sealing structure of the Sioti type liquid crystal display according to the present invention, a sealant is formed of a black material interposed between the top plate and the bottom plate to bond the top plate and the bottom plate, and light is absorbed by the sealant. By preventing diffuse reflection, the image quality deterioration generated at the edge of the liquid crystal display device is remarkably improved.

Claims (5)

A color filter, a black matrix, and a protective film are formed on the upper surface of the lower glass substrate to form a lower plate, and the lower plate and the upper plate are bonded by a sealant to form a predetermined space portion, and the liquid crystal is formed in the space portion formed between the upper plate and the lower plate. In the conventional Sioti type liquid crystal display device, the sealant is made of a black material which absorbs light well so as to prevent the reflection of light and the deterioration of image quality. . 2. The sealing structure of claim 1, wherein the lower glass substrate is a transparent rectangular plate body. The sealing structure of claim 1, wherein the color filter is formed on upper surfaces of the TFTs formed on the lower glass substrate. 4. The sealing structure of claim 1 or 3, wherein the color filter is formed of RGB (RED, GREEN, BLUE) colors. 2. The sealing structure of claim 1, wherein an alignment film is further formed on inner surfaces of the upper plate and the lower plate.