KR19980026045A - Method of orienting liquid crystal - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display, and more particularly, to a method of orienting a liquid crystal using a magnetic field and light. Rubbing of an orientation film is often used as a means for imparting directionality to a liquid crystal, but there are problems such as generation of dust by a rubbing cloth and generation of static electricity by friction. The manufacturing method according to the present invention compensates for such disadvantages and applies a magnetic field and light to the alignment layer in place of the rubbing process so that the molecules of the alignment layer are aligned in a desired direction so that the liquid crystal layer can be aligned in the same direction.

Description

Method of orienting liquid crystal

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display, and more particularly, to a method of orienting a liquid crystal using a magnetic field and light.

The physical structure of the liquid crystal display device can be broadly divided into a thin film transistor substrate, a color filter substrate, and a liquid crystal material sealed between two substrates.

Generally, in order to align the liquid crystal uniformly and obtain a pretilt angle, an alignment film is applied to each of the two substrates, and a rubbing process is performed to make the liquid crystal molecules have a directionality. The line inclination angle refers to an angle formed by the long axis of the substrate and the liquid crystal molecules.

Hereinafter, a method of aligning the liquid crystal will be described in more detail with reference to the accompanying drawings.

1 is a cross-sectional view showing a conventional liquid crystal alignment method.

As shown in Fig. 1, in the conventional alignment method, an alignment film 8 is applied to a substrate 2, and the surface of the alignment film 8 is rubbed with a rubbing cloth 6 using a roller 4 in a predetermined direction. In this process, the liquid crystal which has been irregularly arranged is oriented in a certain direction, and a square crystal is formed.

However, this conventional method has various problems.

First, the rubbing cloth generates a lot of dust. This lowers the reliability of the liquid crystal display device.

Second, the rubbing of the rubbing cloth induces large static electricity. Static electricity causes damage to the thin film transistor.

Third, since the rubbing process is performed in a constant direction, it is impossible to form a multidomain. The multi-region is an important factor in improving the viewing angle of the liquid crystal display device.

Therefore, the present invention aims at improving the reliability of a final liquid crystal display device and improving the viewing angle by aligning liquid crystal in a manner different from rubbing.

1 is a view showing a conventional liquid crystal alignment method,

2 to 3 are views showing a method of aligning liquid crystal according to an embodiment of the present invention.

Description of the Related Art [0002]

2: substrate 4: roller 6: rubbing cloth

8: Orientation film 10: Electro magnet 12: External light source

In order to accomplish the above object, there is provided a method of aligning liquid crystal according to the present invention, which comprises applying an organic alignment layer, applying an external electric field or a magnetic field to a substrate coated with the alignment layer, and irradiating light.

In the liquid crystal alignment method according to the present invention, liquid crystal molecules having a desired angle of incidence can be obtained by controlling the external magnetic field or electric field and the direction of light when forming the alignment layer.

Embodiments of the liquid crystal alignment method according to the present invention will now be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention.

2 to 3 are views showing a method of aligning liquid crystal according to an embodiment of the present invention.

As shown in FIG. 2, first, a photo polymer, a polymer, a monomer, a dye, or the like, which is a substance having a high dielectric anisotropy or high anisotropy of permeability, is applied to the substrate 2 or mixed.

Methods for forming the alignment film 8 include a spray method, a dip method, a printing method, and the like, but the printing method is mainly used in consideration of mass production.

Next, the substrate 2 coated with the orientation film 8 is placed in the electromagnet 10 to apply an external magnetic field. At this time, the direction [theta] of the magnetic field can be from -90 DEG to + 90 DEG with respect to the normal direction of the substrate as shown in FIG.

Polymers, monomers, and photopolymers have different values of permittivity, permeability, etc. depending on the direction of the molecules. These molecules have the property of arranging them vertically or parallel to the direction of the electric field or magnetic field externally applied.

Next, the light 12 is irradiated in a state where an external magnetic field is applied. Strong ultraviolet light, visible light or infrared light is used as the light source, and polarized light is used or unpolarized light is used if necessary. The direction of light? Can be from -90 占 to + 90 占 with respect to the normal direction of the substrate 2 like the direction? Of the magnetic field or electric field as shown in Fig.

Molecules aligned by the magnetic field are crosslinked by external light, or other reactions, to fix molecules that are already arranged. After the orientation of the molecule is fixed, the directionality is maintained even if the external magnetic field 10 is removed.

When the liquid crystal layer is coated on the alignment film 8 in which the molecules are arranged anisotropically, the liquid crystal molecules are aligned in the same manner as the molecules of the alignment film 8. Therefore, when the directions of the magnetic field and light are adjusted, Can be easily obtained.

In the liquid crystal alignment method as described above, the organic alignment layer is coated on the substrate and the inclination angle of the molecules of the alignment layer is adjusted by externally applying a magnetic field or an electric field and light, and thus the angle of the liquid crystal molecules can be adjusted.

Therefore, in the liquid crystal alignment method according to the present invention, generation of dust and static electricity due to rubbing in the alignment process can be eliminated.

By appropriately adjusting the direction of the external magnetic field or electric field, the incident direction and the polarization direction of the irradiating light, it is possible to easily make the multiple regions by locally determining the orientation direction, and to appropriately adjust the pretilt angle.

Such a process is also applicable in the case of forming an anisotropic film other than the manufacture of a liquid crystal display device.

Claims (4)

Applying an organic alignment layer to the substrate, Applying an external magnetic field or an electric field to the substrate coated with the alignment film, Irradiating the substrate with light in a state in which the magnetic field or the electric field is applied / RTI > The method of claim 1, wherein the direction of the magnetic field or electric field has a range of -90 to + 90 relative to the normal direction of the substrate. The liquid crystal alignment method according to claim 1, wherein the incident angle of light has a range of -90 ° to + 90 ° with respect to a normal direction of the substrate. The liquid crystal alignment method according to claim 1 or 3, wherein the light source is an ultraviolet ray, a visible ray or an infrared ray.