KR200171937Y1 - Liquid crystal display device - Google Patents

Abstract

In order to eliminate the difference in color generated in the display area and the periphery of the liquid crystal display device, the electrode pattern formed on only one side of the upper panel or the lower panel, the electrode pattern on the lower or upper panel facing the electrode pattern The dummy pattern is formed in parallel to each other so as to prevent the difference in the body color appearing on the surface of the liquid crystal display device due to the presence or absence of the electrode pattern and the resulting display defect.

Description

Liquid crystal display element

1 is a plan view showing an electrode pattern according to the present invention,

A common electrode formed on the lower panel of FIG.

FIG. 1B shows a segment electrode formed on the upper panel.

2 is a cross-sectional view showing the configuration of a general liquid crystal display element.

3 is a plan view showing an electrode pattern used in a conventional liquid crystal display element.

* Explanation of symbols for main parts of the drawings

1 common electrode 1A segment electrode

3, 30: dummy pattern 52: upper panel

53: lower panel 54: frit seal

[Industrial use]

The present invention relates to a liquid crystal display device, and more particularly, to a liquid crystal display device that can prevent the difference between the body color generated in the display area and its periphery.

[Prior art]

In general, a liquid crystal display element performs predetermined display by disturbing external light by using a liquid crystal twisted by an external impact, in particular an electric field.

As shown in FIG. 2, the liquid crystal display device includes upper and lower panels 52 and 53 formed so as to have a common shape, segment electrodes 50 and 51, and a matrix, and the upper and lower panels described above. The seal frit 54 which not only maintains 52 and 53 at a predetermined interval but also is fixed, the alignment film 55 coated on the upper side of the common and segment electrodes 50 and 51, and the upper and lower parts described above. It consists of upper and lower polarizing plates 56 and 57 attached to the outside of the panels 52 and 53.

The common electrode 50 described above extends outside the seal frit 54 to form a lead pattern 58. The lead pattern 58 is attached with a film 60 on which the driver chip 59 is mounted. It is done.

Of course, although not shown, the driver chip as described above is also connected to the segment electrode 51 through a film, and the film 60 has a common pattern formed on the segment electrodes 50 and 51. A pattern (not shown) having the same pitch as 58 is formed.

That is, when a signal is applied to the common and segment electrodes 50 and 51 through the driver chip 59, an electric field is formed in a predetermined pixel where the common electrode 50 and the segment electrode 51 cross each other. In addition, the liquid crystal of the portion is twisted to pass the light of the backlight (not shown).

Here, since the directions of the light passing through the upper and lower polarizers 56 and 57 are orthogonal to each other, the light twisted by the liquid crystal passes through the upper polarizer 56 and the untwisted light is the upper polarizer ( By not passing through 56, only the selected pixels can be displayed.

[Problem trying to solve]

However, in the conventional liquid crystal display device, as shown in FIG. 3, a display area in which the common and segment electrodes 50 and 51 cross each other, and the common electrode 50 or the segment electrode 51 are respectively attached to the driver chip. The difference in body color is shown between the periphery with only the lead pattern 58 formed only in one panel for connection.

This phenomenon is particularly apparent when the liquid crystal display is not driven. In this case, the common and segment electrodes 50 and 51 formed on the upper and lower panels 52 and 53 overlap in the display area, whereas the upper part is surrounded by the upper part. Alternatively, since only one lead pattern 58 is visible in the lower panel, the contrast may appear differently on the surface of the liquid crystal display due to the difference in thickness of indium tin oxide (ITO) forming the electrode.

In addition, the above-mentioned difference in contrast is similarly generated in the part in which an electrode or a pattern is formed and the part in which it is not formed at all.

In addition, the conventional liquid crystal display device has a problem in that static electricity is generated at the ends of the common electrode 50 and the segment electrode 51 connected to the driver chip.

Such static electricity is generated by an instantaneous voltage, in particular, when a driving voltage is applied, which remains and emits light even during continuous driving of the liquid crystal display, thereby degrading display characteristics of the liquid crystal display.

[Means to solve the problem]

An object of the present invention is to solve the above-described problems of the prior art, and to provide a liquid crystal display device capable of preventing the difference in body color and the resulting display defect due to the presence or absence of an electrode pattern.

Accordingly, the present invention provides a liquid crystal display device in which an electric field is formed in a liquid crystal cell to drive a dielectric anisotropic liquid crystal, and has an upper portion opposed to the lead pattern with respect to the lead pattern formed on only one side of the upper panel or the lower panel. Alternatively, a dummy pattern may be formed on the lower panel in parallel with the lead pattern to form a constant contrast between the display area and the periphery thereof.

In the above-described configuration of the present invention, the ends of the common electrode and the segment electrode connected to the driver chip are extended to the frit seal, and a dummy pattern is similarly formed on the upper or lower panel facing the extension part.

Naturally, the above-described dummy pattern does not have electrical connection with the common and segment electrodes. Therefore, the dummy pattern merely improves the difference in color generated in the display area and the peripheral portion of the liquid crystal display device.

In addition, the static electricity generated at the ends of the common and segment electrodes and the afterglow thereof are not buried in the frit seal.

EXAMPLE

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.

FIG. 1 is a plan view showing an electrode pattern of a liquid crystal display device according to the present invention. FIG. 1A illustrates a common electrode 1 formed on a lower panel 53, and FIG. The electrode 1A is shown.

The common electrode 1 and the segment electrode 1A described above are arranged to intersect with each other, and have a lead pattern 2 extending out of the seal frit 54 and connected to the driver chip 59.

In the liquid crystal display device having the above-described configuration, the present invention is provided at the periphery of the upper panel 52 or the lower panel 53 except for the display area where the common electrode 1 and the segment electrode 1A cross each other. The dummy pattern 3 is formed, which eliminates the difference in contrast between the display area and its periphery.

More specifically, the present invention opposes an electrode pattern formed on only one side of the upper panel 52 or the lower panel 53, more specifically, the lower panel 53 or the upper panel facing each other. A dummy pattern 3 formed in parallel with the lead pattern 2 is formed at 52.

Here, the dummy pattern 3 overlaps the lead pattern 2 at its periphery, similarly to the display area where the common electrode 1 and the segment electrode 1A overlap.

Therefore, according to the present invention, the thickness of ITO, which forms the electrode in both the display area and the peripheral part, becomes the same, so that the difference in body color is eliminated.

In this case, the dummy pattern 3 is naturally formed of ITO like the common and segment electrodes 1 and 1A, and coincides with the corresponding lead pattern 2 when viewed from the front side of the liquid crystal display element. It is arrange | positioned so that it may overlap.

In addition, the liquid crystal display of the present embodiment is used to remove the afterglow phenomenon in the display area due to the static electricity generated at the ends of the common and segment electrodes 1 and 1A. The end is extended to the frit seal 54 and formed.

Therefore, the afterglow phenomenon is concealed by the frit seal 54 and is not visible to the naked eye, which can further improve the reliability of the product.

On the other hand, according to the embodiment, unlike the segment electrode 1A in which the dummy pattern 3 is formed, the color difference occurs in the extension part of the common electrode 1 as in the prior art. As described above, a dummy pattern 30 is formed on the upper panel 52 to overcome the difference in body color.

[Effect of design]

Through the embodiments described above, it can be seen that the liquid crystal display device according to the present invention has improved body color and more improved display characteristics than before.

More specifically, the present invention eliminates the difference in color generated in the display area and its periphery, thereby increasing the reliability of the product.

In addition, according to the present invention, by eliminating the afterglow phenomenon caused by the instantaneous voltage during driving of the liquid crystal display device, it is also obtained an advantage that can improve the display defects generated during the initial drive.

Claims (4)

In the liquid crystal display element which consists of the upper and lower panels in which the common and segment electrodes were formed, the liquid crystal inherent between the said upper and lower panels, and the seal frit which seals the said liquid crystal between the upper and lower panels, Characterized in that the dummy pattern 3 is formed in the lower panel 53 or the upper panel 52 opposite to the electrode pattern formed on only one side of the upper panel 52 or the lower panel 53. Liquid crystal display device. 2. A liquid crystal display device as claimed in claim 1, wherein the common electrode (1) and the segment electrode (1A) are formed by extending their ends to the seal frit (54). 3. The liquid crystal display device according to claim 2, wherein the common electrode (1) is formed by forming a dummy pattern (30) on the upper panel (52) opposite the extension portion. The liquid crystal display device according to claim 1 or 3, wherein the dummy patterns (3, 30) are formed so as to overlap each other in correspondence with the opposite electrode patterns.