KR20050082746A - Prism film and liquid crystal display - Google Patents

Abstract

A prism film structure for improving the brightness of light and a liquid crystal display device having the prism film are disclosed. Light is incident on the first surface of the prism film, and the second surface emits light incident through the first surface, and the plurality of prisms have a triangular cross section and discontinuously in one direction on the second surface. Is formed. Accordingly, the front luminance may be increased by effectively converging light in various directions incident from the first surface.

Description

Prism film and liquid crystal display {PRISM FILM AND LIQUID CRYSTAL DISPLAY}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a prism film, and more particularly, to a prism film structure and a liquid crystal display device having the same, which are applied to a liquid crystal display device to improve brightness of light.

Generally, a prism film is used as a component of a display device, for example, a rear light source for a liquid crystal display device, a film for improving brightness, a light reflecting film, and the like, and a polyester film provided with adhesiveness on at least one surface thereof is used as a base film. Ultraviolet curable resin collectively refers to the film laminated on the base film.

The prism film is used for converging the direction of light in the vertical direction to make the front luminance higher.

FIG. 1 is a perspective view (US Pat. No. 5,600,455, FIG. 10) of a backlight assembly to which a prism film 5 having a general isosceles triangle structure is applied to a liquid crystal display.

Referring to FIG. 1, light generated from the light source 2 is incident to the diffusion plate 4 through the light guide plate 3 and the reflection plate 1, and the light passing through the diffusion plate 4 is two prism films. Pass through. The prism film 5 is a prism film in which isosceles triangular prisms are continuously arranged side by side along one side of the plane from which light is emitted, for example, the x-direction, and an isosceles triangle along the y-direction located thereon. The prism films of the prism are arranged side by side in succession to increase the front brightness by converging the light in the x and y-direction in the front direction, that is, the z-direction.

However, when using two prism films in order to increase the front brightness, the price and weight are not advantageous, and when only one prism film is used, the front brightness is lowered.

Accordingly, the technical problem of the present invention is to solve such a conventional problem, and an object of the present invention is to provide a prism film capable of converging light in multiple directions.

Another object of the present invention is to provide a liquid crystal display device having the prism film described above.

Prism film for realizing the above object of the present invention, the first surface to which light is incident; A second surface emitting light incident through the first surface; And a plurality of prisms having a triangular cross section and discontinuously formed in one direction on the second surface.

According to such a prism film, the front luminance can be increased by effectively converging light in various directions incident from the first surface.

In addition, a liquid crystal display device for realizing another object of the present invention includes a liquid crystal display panel; A light source for generating light; And a prism film having a plurality of prisms discontinuously formed in one direction, and controlling the light generated from the light source to provide the light control unit to the liquid crystal display panel. The light control unit may further include a light guide plate to guide the path of the light generated from the light source, and a diffusion film for diffusing the light emitted by the light guide plate.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view of a prism film according to an embodiment of the present invention, FIG. 3A is an enlarged plan view of a portion of FIG. 2, FIG. 3B is an enlarged perspective view of a portion of FIG. 2, and FIG. 3C is a vertical sectional view of FIG. 2. to be.

Referring to FIG. 2, the prism film 10 according to the embodiment of the present invention may include a first surface 12 through which light is incident and a second surface through which light incident through the first surface 12 is emitted ( 13), a plurality of prisms 11 are discontinuously formed in one direction on the second surface (13).

The prism 11 is composed of four side surfaces having an inclination at a predetermined angle with the second surface 13 so that all the x and y-direction light incident from the first surface 12 is converged in the z-direction to the front. Improve brightness.

As shown in FIG. 3A, the prism 11 has two sides formed in a triangular shape and the other two sides formed in a trapezoidal shape, and an angle formed by crossing two sides facing each other is about 90 °. Do. The bottom of the prism 11 has a rectangular shape, and the length of the bottom long side is preferably at least 1.5 times greater than the length of the short side.

In addition, the prism 11 preferably has a base side angle of 50 to 60 degrees in the triangular side as shown in FIG. 3b, and is illustrated at 55 degrees in the present invention.

3c shows that the vertical section of the prism 11 is triangular. In particular, the vertical cross-section of the prism 11 is preferably an isosceles triangle, the triangle shape is a vertex is formed rounded, or includes both flat forms.

4 is an exploded perspective view of a liquid crystal display according to an exemplary embodiment of the present invention.

Referring to FIG. 4, the liquid crystal display according to the exemplary embodiment of the present invention polarizes the light passed by the light control unit 120 and the light control unit 120 to adjust the light generated from the light source 130. A polarizing plate (not shown) and a liquid crystal display panel 160 for displaying an image using light polarized through the polarizing plate. Reference numeral 162 denotes a color filter substrate, 164 denotes a TFT substrate, 170 denotes a source PCB, 166 denotes a source driver, and 168 denotes a gate driver.

As the light source 130, various light sources such as a cold cathode fluorescent lamp (CCFL), a light emitting diode (LED), and an external electrofluorescent lamp (EEFL) may be used.

The light control unit 120 refers to a set of films or plates that play a series of roles until the light generated from the light source 130 is adjusted to supply the adjusted light to the liquid crystal display panel 160. 4 illustrates an example.

Light generated from the light source 130 positioned on the side of the light guide plate 122 is emitted to the diffusion film 123 through the light guide plate 122 and the reflector plate 121 below the light guide plate 122, and the diffusion film 123 receives the incident light. The light is diffused to the prism film 124, and the prism film 124 converges the light incident from the diffusion film 123 in the front direction.

In addition, the prism film 124 is formed by discontinuously formed prism having four sides having a constant inclination with the prism film 124 surface toward one direction to effectively increase the front brightness by converging light in various directions. . The shape of the prism of the prism film 124 is basically the same as that of FIG.

5 is an exploded perspective view of a liquid crystal display according to another exemplary embodiment of the present invention.

Referring to FIG. 5, the liquid crystal display according to the exemplary embodiment of the present invention polarizes the light passed by the light control unit 220 and the light control unit 220 to adjust the light generated from the light source 230. A polarizing plate (not shown) and a liquid crystal display panel 260 for displaying an image using light polarized through the polarizing plate. Reference numeral 262 denotes a color filter substrate, 264 denotes a TFT substrate, 270 denotes a source PCB, 266 denotes a source driver, and 268 denotes a gate driver.

As the light source 230, various light sources such as a cold cathode fluorescent lamp (CCFL), a light emitting diode (LED), and an external electrofluorescent lamp (EEFL) may be used.

The light control unit 220 refers to a set of films or plates that play a series of roles until the light generated from the light source 230 is adjusted to supply the adjusted light to the liquid crystal display panel 160. 5 illustrates one example.

Light generated from a plurality of light sources 230 disposed in parallel to the rear surface of the liquid crystal display panel 262 is incident directly to the diffusion film 223 or is incident to the diffusion film 223 through the reflecting plate 221. The diffusion film 223 diffuses the incident light and exits the prism film 224, and the prism film 224 converges the light incident from the diffusion film 223 in the front direction.

The prism film 250 has four sides of the prism film 250 having a constant inclination and a prism is formed discontinuously in one direction, thereby converging light in various directions to effectively increase the front brightness. The prism shape formed on the prism film 250 is basically the same as that of FIG. 2.

Here, the density of the prism of the prism film 250 may not be uniform. Since the portion of the light directly above the light source 230 has a greater intensity of light incident than the portion between the light source 230 and the light source 230, the density of the prism may be varied for uniformity of overall brightness. For example, the prism density of the prism film 250 corresponding to the portion directly above the light source may be made less dense.

6 is an exploded perspective view of a liquid crystal display according to another exemplary embodiment of the present invention.

Referring to FIG. 6, in the liquid crystal display according to the exemplary embodiment of the present invention, the light source 330 and the light generated from the light source 330 are transferred to the prism film 323 by the light guide plate 322 and the reflective plate 321. The incident light and the light incident on the prism film 323 converge by the prism film 323, and the liquid crystal display panel 360 expresses an image by using the converged light. Reference numeral 362 denotes a color filter substrate, 364 denotes a TFT substrate, 370 denotes a source PCB, 366 denotes a source driver, and 368 denotes a gate driver.

The light source 330 may use various light sources such as a cold cathode fluorescent lamp (CCFL), a light emitting diode (LED), and an external electrofluorescent lamp (EEFL).

Here, the light guide plate 321 is formed with a prism pattern on one side, the light guide plate 321 and the prism formed on one side of the light guide plate 321 perpendicular to the light generated from the light source 330 with respect to the surface of the light guide plate 321. Is emitted by converging in the direction, and the emitted light is incident by the prism film 323. The prism film 323 converges the light incident by the light guide plate 322 again and emits the light to the liquid crystal display panel 360.

Here, the prism film 323 is formed with discontinuously formed prism having four sides having a predetermined inclination with the prism film surface toward one direction to effectively increase the front brightness by converging light in various directions. The prism shape of the prism film 323 is basically the same as that of FIG. 2.

The prism of the prism film 323 is positioned to face the reflecting plate 321, and the prism pattern forming direction of the prism film 323 and the prism pattern forming direction formed on the rear surface of the light guide plate 322 are preferably staggered. .

The prism film formed as described above has a first surface on which light is incident and a second surface on which light is incident through the first surface, and a plurality of prisms are discontinuously directed in one direction on the second surface. Formed. Therefore, the light in various directions can be converged, so that the front brightness is improved. As a result, it is possible to meet the high brightness, the weight reduction, and the cost reduction, which are required in recent liquid crystal display devices.

Although described with reference to the embodiments above, those skilled in the art will understand that the present invention can be variously modified and changed without departing from the spirit and scope of the invention as set forth in the claims below. Could be.

1 is a backlight assembly to which a conventional prism film is applied.

2 is a perspective view of one embodiment of the present invention.

3A is an enlarged plan view of part of FIG. 2;

3B is an enlarged perspective view of part of FIG. 2;

3C is a vertical sectional view of FIG.

4 is an exploded perspective view of a liquid crystal display device to which the prism of the present invention is applied.

5 is an exploded perspective view of another liquid crystal display device to which the prism of the present invention is applied.

6 is an exploded perspective view of another liquid crystal display device to which the prism of the present invention is applied.

<Description of the symbols for the main parts of the drawings>

10, 124: prism film 11: prism

12: first side 120: light control unit

121: reflector 122: light guide plate

123: diffusion film 13: the second surface

130: light source 160: liquid crystal display panel

Claims (19)

A first surface on which light is incident; A second surface emitting light incident through the first surface; And A prism film having a triangular cross section and including a plurality of prisms discontinuously formed in one direction on the second surface. The prism film of claim 1, wherein the triangular shape is an isosceles triangle. The prism film of claim 1, wherein the triangular shape is rounded in a region corresponding to a vertex. The prism film of claim 1, wherein the triangular shape has a flat area corresponding to a vertex. The prism film of claim 1, wherein the prism has four sides that are inclined at an angle with the second surface. The prism film of claim 5, wherein the predetermined angle is 45 degrees. 6. The prism film of claim 5, wherein two of the four sides are triangular and the rest are trapezoidal. 7. The prism film of claim 6, wherein an angle between the base and the quadrilateral of the triangular side is in a range of 50 degrees to 60 degrees. 6. The prism film of claim 5, wherein one of the four sides of the prism facing each other intersects at an angle of 90 degrees. 6. The prism film of claim 5, wherein the bottom surface of the prism has a rectangular shape having a long side of 1.5 times or more than a length of a short side. A liquid crystal display panel; A light source for generating light; And A prism film having a plurality of prisms formed discontinuously in one direction, the liquid crystal display including a light control unit for adjusting the light generated from the light source to provide to the liquid crystal display panel. The method of claim 11, wherein the light control unit, A light guide plate which guides and emits a path of light generated from the light source; And And a diffusion film for diffusing the emitted light. The liquid crystal display of claim 11, wherein the light source is positioned in parallel to a rear surface of the liquid crystal display panel. The liquid crystal display of claim 13, wherein the density of the prism is nonuniform. The liquid crystal display of claim 14, wherein the density of the prism that does not correspond to the light source is dense compared to the density of the prism corresponding to the light source. The liquid crystal display of claim 11, wherein the prism has four side surfaces that are inclined at a predetermined angle with the prism film surface. 17. The liquid crystal display of claim 16, wherein two of the four side surfaces have a triangular shape and the rest have a trapezoidal shape. The liquid crystal display of claim 17, wherein the base side angle of the side surface having the triangular shape is in a range of 50 degrees to 60 degrees. 17. The liquid crystal display device according to claim 16, wherein an angle formed by intersection of two mutually facing sides of the prism is 90 degrees.