KR20050090035A - Liquid crystal display panel and the method of therof - Google Patents

Abstract

The present invention relates to a liquid crystal display panel and a method for manufacturing a liquid crystal display panel, wherein a liquid crystal layer having a uniform thickness is sealed in a display area formed by sealing a seal line so that light is transmitted to display an image.

An upper substrate on which a plurality of first pillars are formed; And a lower substrate having a plurality of second pillars contacting the plurality of first pillars, wherein the sum of the heights of the first pillar and the second pillar becomes the thickness of the liquid crystal layer.

Therefore, the height of the pillar to maintain the cell gap between the upper substrate and the lower substrate at regular intervals is reduced, thereby reducing the impact and friction during the rubbing process to suppress the occurrence of foreign substances, and does not reduce the quality of the displayed screen, the alignment error when bonding Even if is generated, the coupling of the pillars of the upper substrate and the lower substrate is not misaligned to maintain a uniform cell gap.

Description

Liquid crystal display panel and liquid crystal display panel manufacturing method {LIQUID CRYSTAL DISPLAY PANEL AND THE METHOD OF THEROF}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display panel, and more particularly, to a liquid crystal display panel which maintains a constant cell gap by forming pillars having a predetermined shape at predetermined positions of an upper substrate and a lower substrate of a liquid crystal display panel.

A liquid crystal display panel is a flat panel display device that obtains an image with a difference in contrast obtained by changing an optical anisotropy by applying an electric field to a liquid crystal having both liquidity and optical properties of a crystal. TN (Twisted Nematic), STN (Super TN), FLCD (Ferroelectric LCD), TFT LCD, and the like have been used.

The liquid crystal is formed in a thin layer between the upper substrate and the lower substrate of the liquid crystal display panel, and the actual liquid is formed at the edge of the liquid crystal display panel to seal the liquid crystal. The part where a liquid crystal is sealed and the liquid crystal layer is formed is called a display area, and the part in which an actual material is formed is called a seal line.

In the liquid crystal display panel, the thickness of the liquid crystal layer formed in the display area is uniform so that the image to be displayed is accurately displayed. In order to make the thickness of the liquid crystal layer uniform, it is important to keep the gap between the upper substrate and the lower substrate constant. The gap between the upper substrate and the lower substrate is called a cell gap.

As a method of maintaining the cell gap uniformly, there are a method using a spacer and a method using a pillar.

In the method using a spacer, after the upper substrate and the lower substrate are bonded at a predetermined interval, a liquid crystal containing a ball-shaped spacer having a uniform size is injected between the upper substrate and the lower substrate, and the cell gap of the liquid crystal display panel is separated by the spacer. This is maintained or the spacers are spread on the upper substrate or the lower substrate, and then the upper and lower substrates are combined to maintain the cell gap. This method has a problem in that the image is not displayed correctly by the spacer because the spacer is irregularly positioned, especially when the image is enlarged and displayed, such as a projection type liquid crystal display panel. In addition, an epoxy is applied to the spacer so that the position of the spacer is fixed. At this time, the epoxy and the liquid crystal are in direct contact with the liquid crystal, thereby contaminating the liquid crystal.

The method using a pillar uses a photolithography process and forms a pillar having a height of the cell gap at a predetermined position on the upper substrate or the lower substrate, and then joins the upper substrate and the lower substrate and injects liquid crystal. This method ensures that the column is in the correct position and the height is also uniform, keeping the cell gap constant and that the image is not distorted by the column. And since the epoxy is not used, there is no problem that the liquid crystal is contaminated. However, these pillars have a high height relative to the thickness and are easily damaged by weak force. In particular, the pillars are damaged during the rubbing process, and when the pillars are placed on a substrate with high density, the uniform coating of the alignment layer is prevented. And many foreign substances occur. In addition, a rubbing shadow phenomenon occurs in which the alignment film is not oriented by the pillar during the rubbing process.

Therefore, the present invention was created to solve the problems of the prior art, an object of the present invention is to lower the height of the column to maintain the cell gap of the upper substrate and the lower substrate at regular intervals to reduce the impact and friction during the rubbing process Liquid crystal display panel and method of manufacturing the same to maintain the uniform cell gap by reducing the quality of the displayed screen by reducing the occurrence of foreign substances by reducing the foreign matter, and even the alignment of the upper substrate and the lower substrate is not misaligned even when the alignment error occurs To provide.

In order to achieve the above object and the liquid crystal display panel according to the present invention, in the liquid crystal display panel in which light is transmitted to the display area formed by the liquid crystal layer having a uniform thickness is sealed by the seal line, to display an image,

An upper substrate on which a plurality of first pillars are formed; And a lower substrate having a plurality of second pillars contacting the plurality of first pillars, wherein the sum of the heights of the first pillar and the second pillar becomes the thickness of the liquid crystal layer.

In the liquid crystal display panel manufacturing method according to the present invention in order to achieve the above object in the liquid crystal display panel manufacturing method for forming a liquid crystal layer having a uniform thickness to display an image,

In the method for manufacturing a liquid crystal display panel in which light is transmitted to a display area in which a liquid crystal layer having a uniform thickness is sealed by a seal line to display an image,

Forming a counter electrode on a transparent upper substrate and manufacturing a switching element and a pixel electrode on the transparent lower substrate; A plurality of first pillars are formed on the counter electrode of the upper substrate, and a plurality of second pillars are formed on the pixel electrode of the lower substrate at a position corresponding to the first pillar, and the thickness of the first pillar and the second pillar is A second step formed to be the same as the thickness of the liquid crystal layer; A third step of depositing an alignment layer on the upper substrate and the lower substrate and performing a rubbing process; A fourth step of bonding the upper substrate and the lower substrate to make the first pillar and the second pillar contact each other; And a fifth step of forming a liquid crystal layer between the upper substrate and the lower substrate.

Advantages, features and preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

1 is a view showing an upper substrate of a liquid crystal display panel according to the present invention, Figure 2 is a view showing a lower substrate. 3 is a cross-sectional view showing that the upper substrate and the lower substrate are coupled. Referring to Figures 1, 2 and 3 as follows.

In the liquid crystal display panel, a liquid crystal layer is formed between the upper substrate 10 and the lower substrate 20 and forms an image by blocking or transmitting light in a region where the liquid crystal layer is formed. The pixel electrode and the switching element are formed on the lower substrate 20 of the liquid crystal display panel, and the opposite electrode facing the pixel electrode is formed on the upper substrate 10 so that the lower substrate 20 and the upper substrate 10 are uniformly formed. Allow an electric field to form. The liquid crystal array of the liquid crystal layer is changed by the change of the formed electric field. The lower substrate 20 is connected to a driving circuit for transmitting a signal to the pixel electrode and the switching element.

Then, pillars 11 and 21 having half heights of cell gaps arbitrarily set are formed on each of the upper substrate 10 and the lower substrate 20. The shape of the pillars 11 and 21 is such that the upper and lower portions have a dam shape having a flat and rectangular shape such that the lower area of the pillars 11 and 21 has a wider shape than the upper area. In addition, when the liquid crystal used in the liquid crystal display panel is TN (Twsist Nematic) mode, when the 90 degree super twisted nematic (STN) mode is 270 degrees rubbing, the pillar 11 formed on the upper substrate 10. The longitudinal direction of the to be perpendicular to the longitudinal direction of the column 21 is formed on the lower substrate (20).

The pillars 11 and 21 are formed on the upper substrate 10 and the lower substrate 20 using a photolithography process, and after the pillars 11 and 21 are formed, rubbing treatment of the alignment layer is performed, followed by the upper substrate 10 and the lower substrate. The substrate 20 is bonded, the liquid crystal is injected and sealed to complete the liquid crystal display panel.

A process of manufacturing a liquid crystal display panel by forming pillars on the upper substrate 10 and the lower substrate 20 will now be described in detail.

First, a polymer compound of a predetermined thickness is coated on the upper substrate 10 or the lower substrate 20, and the pillars 11 and 21 have a dam shape described above at a predetermined position using a photoresist. When the pillars 11 and 21 have a dam shape, the pillars of the upper substrate 10 and the lower substrate 20 do not shift even when an alignment error occurs in the process of bonding the upper substrate 10 and the lower substrate 20 together. The cell gap can be kept constant. If the pillars 11 and 21 have a cylindrical shape, when the alignment error occurs, the pillars 11 formed on the upper substrate 10 and the pillars 21 formed on the lower substrate 20 may be displaced. The cell gap cannot be maintained.

Then, an alignment layer is applied to the upper substrate 10 and the lower substrate 20 on which the pillars 11 and 21 are formed, and a rubbing process is performed. The alignment film is a film in which the liquid crystal molecules of the liquid crystal layer have a constant arrangement, and determines the direction in which the alignment layer is arranged through the rubbing process.

In the rubbing process, the rubbing process is performed in the longitudinal direction of the pillars 11 and 21 which are directions indicated by the arrows shown in FIGS. 1 and 2, and the rubbing shadow is applied to the upper substrate 10 and the lower substrate 20 during the rubbing process. Try to reduce the area where the phenomenon appears. In addition, the positions at which the pillars 11 and 21 are formed are limited above the black matrix between the pixels, and thus the point at which the rubbing shadow phenomenon occurs is a black matrix in which light is blocked, thereby not affecting the displayed image.

In addition, the pillars 11 and 21 are formed on the upper substrate 10 and the lower substrate 20 so that the pillars 11 and 21 have a height that is about half the height of the cell gap. ), The impact applied during the rubbing process is alleviated, and thus the amount of foreign matter generated during the rubbing process is reduced. The heights of the pillars 11 and 21 formed on the upper substrate 10 and the lower substrate 20 are not the same, and the heights of the pillars 11 and 21 to be joined may be the height of the cell gap.

After the rubbing process is completed, a seal line is formed on the upper substrate 10 and the lower substrate 20 to encapsulate the liquid crystal in the liquid crystal display panel. Then, the upper substrate 10 and the lower substrate 20 are bonded together and the liquid crystal is injected. To complete the liquid crystal display panel. When the liquid crystal is in the TN mode, the coupling between the pillars 11 and 21 formed on the upper substrate 10 and the lower substrate 20 is as shown in FIG. 3.

4 is a view showing a column formed in a portion where a liquid crystal layer is formed as an embodiment of a liquid crystal display panel according to the present invention. A description with reference to FIG. 4 is as follows.

As shown in FIG. 4A, the height of the pillar 21 formed in the display area of the liquid crystal display panel is lower than the gap between the cell gaps, and is formed only on one of the upper substrate 10 and the lower substrate 20. The pillar 21 is formed only on one of the two substrates, and the pillar 21 formed in the display area is prevented from contacting the opposing substrate so that the pillar is formed in the display area. ) And the lower substrate 20 serves to prevent contact failure caused by contact. The height of the pillars formed in the seal line is configured to be equal to the gap of the cell gap so that the cell gap of the liquid crystal display panel is maintained by the pillars formed in the seal line.

In addition, as shown in FIG. 4B, pillars 11 and 21 lower than half of the cell gap are formed on the upper substrate 10 and the lower substrate 20 so that the pillars 11 and 21 do not contact each other. It can have the same effect.

According to the liquid crystal display panel according to the present invention and a method for manufacturing the same, a pillar is formed on the upper substrate and the lower substrate to maintain the cell gap at regular intervals, thereby reducing the impact and friction during the rubbing process, thereby preventing the loss of the alignment layer and the loss of the pillar. Since it is possible to suppress foreign substances generated during the rubbing process, it is possible to improve the quality of the display screen of the liquid crystal display panel.

In addition, the position at which the pillar is formed is limited to the upper portion of the black matrix located between the pixel and the pixel so as not to disturb the transmission of light and to prevent the rubbing shadow phenomenon caused by the pillar.

In addition, the pillars to be formed have the shape of a dam so that even if an alignment error occurs when the upper substrate and the lower substrate are bonded, the pillars to be coupled are not misaligned, thereby maintaining an appropriate cell gap.

While the preferred embodiments of the present invention have been described using specific terms, such descriptions are for illustrative purposes only, and it is understood that various changes and modifications may be made without departing from the spirit and scope of the following claims. Should be done.

1 is a view showing an upper substrate of a liquid crystal display panel according to the present invention.

2 is a view showing a lower substrate of the liquid crystal display panel according to the present invention.

3 is a cross-sectional view showing that the upper substrate and the lower substrate of the liquid crystal display panel according to the present invention are coupled.

4 is a view showing a column formed in a portion where a liquid crystal layer is formed as an embodiment of a liquid crystal display panel according to the present invention.

*** Explanation of symbols in drawings ***

10: upper substrate 11: pillar

20: lower substrate 21: pillar

Claims (13)

In a liquid crystal display panel in which light is transmitted to a display area in which a liquid crystal layer having a uniform thickness is sealed by a seal line to display an image, An upper substrate on which a plurality of first pillars are formed; And And a lower substrate having a plurality of second pillars contacting the plurality of first pillars, wherein the sum of the heights of the first pillar and the second pillar becomes the thickness of the liquid crystal layer. panel. The method of claim 1, And the first and second pillars have a flat top and a rectangular shape, and a lower top has a dam shape that is thicker than the top. The method of claim 1, And the first pillar formed on the upper substrate and the second pillar formed on the lower substrate are positioned in directions perpendicular to each other. The method of claim 1, The first pillar and the second pillar is formed in the black matrix region, the liquid crystal display panel. In a liquid crystal display panel in which light is transmitted to a display area in which a liquid crystal layer having a uniform thickness is sealed by a seal line to display an image, Upper substrate; And a lower substrate, wherein a pillar is formed only on any one of the upper substrate and the lower substrate, and the height of the pillar is lower than the thickness of the liquid crystal layer. In a liquid crystal display panel in which light is transmitted to a display area in which a liquid crystal layer having a uniform thickness is sealed by a seal line to display an image, An upper substrate on which a plurality of first pillars are formed; And And a lower substrate on which a plurality of second pillars are formed, wherein the thickness of the liquid crystal layer is thicker than the sum of the heights of the first pillar and the second pillar. In the method for manufacturing a liquid crystal display panel in which light is transmitted to a display area in which a liquid crystal layer having a uniform thickness is sealed by a seal line to display an image, Forming a counter electrode on a transparent upper substrate and manufacturing a switching element and a pixel electrode on the transparent lower substrate; A plurality of first pillars are formed on the opposing electrode of the upper substrate, and a plurality of second pillars are formed on a position corresponding to the first pillar on the pixel electrode of the lower substrate. A second step in which the thickness of the pillar is equal to the thickness of the liquid crystal layer; A third step of depositing an alignment layer on the upper substrate and the lower substrate and performing a rubbing process; A fourth step of bonding the upper substrate and the lower substrate so that the first pillar and the second pillar come into contact with each other; And And a fifth step of forming a liquid crystal layer between the upper substrate and the lower substrate. The method of claim 7, wherein The first pillar and the second pillar is a liquid crystal display panel manufacturing method characterized in that the upper portion is flat and rectangular shape and the lower portion is formed in a dam shape thicker than the upper portion. The method of claim 7, wherein In the second step, the first pillar formed on the upper substrate and the second pillar formed on the lower substrate are formed in a direction crossing each other. The method of claim 7, wherein The method of claim 2, wherein the first pillar and the second pillar are formed by a photolithography process. The method of claim 7, wherein In the third step, the direction of the rubbing process is a liquid crystal display panel manufacturing method characterized in that the progress in the longitudinal direction of the first pillar and the second pillar. In the method for manufacturing a liquid crystal display panel in which light is transmitted to a display area in which a liquid crystal layer having a uniform thickness is sealed by a seal line to display an image, Forming a counter electrode on a transparent upper substrate and manufacturing a switching element and a pixel electrode on the transparent lower substrate; A second step of forming a pillar on an upper portion of the counter electrode of the upper substrate or on an upper portion of the pixel electrode of the lower substrate, wherein the thickness of the liquid crystal layer is thicker than the thickness of the pillar; A third step of depositing an alignment layer on the upper substrate and the lower substrate and performing a rubbing process; A fourth step of bonding the upper substrate and the lower substrate to each other; And And a fifth step of forming a liquid crystal layer between the upper substrate and the lower substrate. In the method for manufacturing a liquid crystal display panel in which light is transmitted to a display area in which a liquid crystal layer having a uniform thickness is sealed by a seal line to display an image, Forming a counter electrode on a transparent upper substrate and manufacturing a switching element and a pixel electrode on the transparent lower substrate; A plurality of first pillars are formed on the opposing electrode of the upper substrate, and a plurality of second pillars are formed on a position corresponding to the first pillar on the pixel electrode of the lower substrate. A second step of thickening the height of the first pillar and the second pillar; A third step of depositing an alignment layer on the upper substrate and the lower substrate and performing a rubbing process; A fourth step of bonding the upper substrate and the lower substrate to each other; And And a fifth step of forming a liquid crystal layer between the upper substrate and the lower substrate.