KR101001972B1 - Liquid Crystal Display Unit - Google Patents

Abstract

The present invention relates to a liquid crystal display device including a backlight unit in which a light guide plate and an optical sheet are disposed to correspond to each other. The optical sheet includes a plurality of diffusion protrusions protruding from one surface, and the diffusion protrusions have a plurality of boundaries. And a plurality of inclined surfaces interconnected by the regions and inclined with respect to the optical sheet surface. As a result, light supplied from the light guide plate is diffused effectively, thereby providing a liquid crystal display device having high luminance.

Optical Sheet, Diffusion Sheet

Description

Liquid Crystal Display Unit

1 is a cross-sectional view showing a cross section of an optical sheet of a liquid crystal display device according to the prior art;

2 is an exploded perspective view showing a liquid crystal display device according to the present invention;

3A is a perspective view illustrating an optical sheet of a liquid crystal display according to a first embodiment of the present invention;

3B is a sectional view showing a cross section of the optical sheet according to FIG. 3A;

4 is a graph showing light emitted from a light guide plate in the liquid crystal display according to the present invention;

5A is a perspective view illustrating an optical sheet of a liquid crystal display according to a second embodiment of the present invention;

FIG. 5B is a sectional view showing a cross section of the optical sheet according to FIG. 5A; FIG.

6 is a cross-sectional view showing a cross section of an optical sheet of a liquid crystal display according to a third embodiment of the present invention;

7 is a cross-sectional view illustrating a cross section of an optical sheet of a liquid crystal display according to a fourth exemplary embodiment of the present invention.

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

                 1: light guide plate 2: optical sheet                 

                21: diffusion sheet 22: protective sheet

                23: base film 25: diffusion projection

               26: diffusion protrusion 28: support protrusion

               30: support protrusion

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device, and more particularly, to a liquid crystal display device in which light supplied from a light guide plate is effectively diffused to express high luminance.

In general, a liquid crystal display device is a display device using a modulation of light by liquid crystal, a liquid crystal display panel for displaying an image by controlling the amount of light from the outside, and a backlight unit for supplying light to the liquid crystal display panel; And a chassis frame for accommodating and combining the liquid crystal display panel and the backlight unit.

The backlight unit may include a light source for substantially emitting light, a light guide plate for guiding the light emitted from the light source toward the liquid crystal display panel, an optical sheet and a prism sheet disposed corresponding to the light guide plate.

The optical sheet diffuses light from the light guide plate uniformly and transmits it in the direction of the prism sheet and the liquid crystal display panel, and the light from the light guide plate diffuses light lightly so that the user can see a natural screen. It is divided into a protective sheet to protect the prism structure. In general, the diffusion sheet is disposed adjacent to the light guide plate, and the protective sheet is laminated on the prism sheet. In addition, the prism sheet refracts the light passing through the diffusion sheet to impart linearity to collect light toward the liquid crystal display panel.

1 is a cross-sectional view showing a cross section of an optical sheet of a liquid crystal display device according to the prior art. As shown in the drawing, the optical sheet has a form in which a base film 100 and a binder 200 such as acrylic and beads 300 are coated on both surfaces of the base film 100. The upper surface is coated by adjusting the size and density of the beads 300 according to the use of the diffusion sheet and the protective sheet, the lower surface is a coating to prevent damage to the light guide plate, the protective sheet is a prism sheet Since it is intended to prevent the damage of, but is not shown in the drawings, the binder 200 containing a small amount and beads of a small size for the upper surface is coated. This configuration is in the form of embossed beads 300 protruding from the binder 200 layer.

Looking at the operation of the optical sheet described above, the light supplied from the light guide plate (not shown) is not uniformly supplied in the normal direction of the light guide plate surface, but light is emitted to the light guide plate in a direction inclined at a large angle with the normal direction. Here, the light of the above-mentioned shape is partially refracted by the diffusion sheet formed in the form of a spherical embossing, but some of the light is reflected back to the light guide plate, and the reflected light is again provided under the light guide plate Is reflected and supplied to the diffusion sheet to be diffused.

Therefore, when the light is diffused by the beads 300 formed on the upper surface of the diffusion sheet and supplied to the prism sheet (not shown), the peak value is closer to the axis perpendicular to the diffusion sheet surface than the shape of the light emitted from the light guide plate. Is formed. The light passing through the diffusion sheet is given straightness through refraction while passing through the prism sheet, and diffuses again through the protective sheet to supply natural light.

However, in the optical sheet having the above-described structure, the beads 300 are expensive, and when the beads 300 and the binder 200 are coated on the base film 100, the beads 300 are formed due to the fluidity of the beads 300. It is easy to aggregate and has a high incidence of appearance defects, and goes through complicated processes such as crude liquid, coating, drying, and aging, making it difficult to manage each step, and increasing the brightness of the diffusion sheet.

In order to solve this problem, a method of forming a film such as resin on a base film and then performing a spherical embossing process has been proposed. However, even in the case of embossing a resin film, the manufacturing cost is reduced, but the luminance of the diffusion sheet is increased. The difficult problem still exists.

Accordingly, an object of the present invention is to solve such a conventional problem, and to provide a liquid crystal display device having high luminance by effectively diffusing light supplied from a light guide plate.

The object of the present invention is a liquid crystal display device comprising a backlight unit in which a light guide plate and an optical sheet are disposed to correspond to each other, wherein the optical sheet includes a plurality of diffusion protrusions protruding from one surface of the liquid crystal display. The projection is achieved by a liquid crystal display device characterized by having a plurality of inclined surfaces which are connected to each other by a plurality of boundary regions and are inclined with respect to the optical sheet surface.

Here, the optical sheet includes a resin layer formed on the base film and the base film surface, and the diffusion protrusion is preferably formed in the resin layer can be formed by a simple method of diffusion projections.

The boundary region may have a small radius of curvature, and the inclined surface may have a large radius of curvature.

On the other hand, the diffusion projection is preferably a tip region is a polygonal pyramid shape, or the tip portion is partially spherical because it can efficiently diffuse the light supplied from the light guide plate and increase the transmittance.

In addition, the optical sheet may further include a support protrusion protruding from the other surface. Here, a bind layer is formed on the other surface of the optical sheet, the support protrusion may be formed by beads included in the bind layer, a resin layer is formed on the other surface of the optical sheet, and the support protrusion is formed of a resin film. It may be formed by embossing.

Prior to the description, in the various embodiments, components having the same configuration will be representatively described in the first embodiment using the same reference numerals, and in other embodiments, different configurations from the first embodiment will be described. do.

2 is an exploded perspective view showing a liquid crystal display according to the present invention. As shown in the figure, the liquid crystal display device includes a liquid crystal display panel 4 for displaying an image by adjusting the amount of light coming from the outside, a light source 11 for substantially emitting light, and a light emitted from the light source 11. And a light guide plate 1 for guiding light in the direction of the liquid crystal display panel 4, an optical sheet 2, a prism sheet 3, and the like disposed corresponding to the light guide plate 1.

The optical sheet 21 largely diffuses the light emitted from the light guide plate 1 uniformly and transmits it to the front direction of the prism sheet 3 and the liquid crystal display panel 4 and the light guide plate 1. The light is divided into a protective sheet 22 that diffuses the light weakly so that the user can see a natural screen and protects the prism structure of the prism sheet 3. In general, the diffusion sheet 21 is disposed adjacent to the light guide plate 1, and the protective sheet 22 is laminated and disposed on the prism sheet 3. In addition, the prism sheet 22 refracts the light passing through the diffusion sheet 21 to impart straightness to collect light toward the liquid crystal display panel 4.

3A is a perspective view illustrating an optical sheet of a liquid crystal display according to a first embodiment of the present invention, and FIG. 3B is a cross-sectional view illustrating a cross section of the optical sheet according to FIG. 3A. As shown in the figure, the optical sheet 2 includes a base film 23 and a diffusion protrusion 25 formed on the upper surface of the base film 23. In general, the base film 23 is formed of a transparent thin film such as polyester or polycarbonate. The diffusion protrusion 25 is formed by applying the resin film 24 to the base film 23 and embossing. The diffusion protrusion 25 is formed by a plurality of inclined surfaces 25a and 25c connected by the plurality of boundary regions 25b. In general, the boundary regions 25b have a very small radius of curvature and are inclined surfaces 25a and 25c. ) The radius of curvature is very large. Meanwhile, the tip region of the diffusion protrusion 25 may be formed in a polygonal pyramid shape. At this time, when the radius of curvature of the boundary region 25b is provided close to "0", and the radius of curvature of the boundary surfaces 25a and 25c is close to infinity, the boundary region 25b is formed as a boundary line and the boundary surfaces 25a and 25c. ) Forms an almost flat surface, and thus, as shown in FIG. 3B, a longitudinal section about the vertex of the diffusion protrusion 25 may be formed in a pentagonal shape. That is, the diffusion protrusion 25 has a tetrahedron having a trapezoidal longitudinal section formed by the inclined surface 25a having a first slope, and a square pyramid formed by an inclined surface 25c having a second slope different from the first slope on the upper surface of the hexahedron. This includes the formed configuration.

The manufacturing method of the above-mentioned diffusion sheet 2 is demonstrated as follows. First, the resin film 24 is formed on the base film 23, and the resin film 24 uses one that is cured through irradiation of UV. The diffusion protrusion according to the present invention is applied to the resin film 24 by using a roller (not shown) having an intaglio with respect to the shape of the diffusion protrusion 25 according to the present invention on the resin film 24 formed on the base film 23 ( After implementing the form of 25), the resin film 24 is cured by irradiating UV. The roller having the intaglio with respect to the shape of the diffusion protrusion 25 is used by applying a pattern having the intaglio to the roller through a holography method. According to this method, it is possible to form diffusion protrusions on the optical sheet by a simple method.

4 is a graph illustrating light emitted from the light guide plate in the liquid crystal display according to the present invention. As shown in the figure, the light supplied from the backlight is emitted from the light guide plate 1 in a state inclined at a large angle with respect to the normal direction of the surface of the light guide plate 1. In addition, due to the arrangement of the light source, the shape of light is asymmetrically formed in the transverse direction with the backlight, which is a light source, when the light source is disposed on one side of the light guide plate 1, but symmetrically in the longitudinal direction of the backlight. Since it is formed, it is preferable to diffuse light in the horizontal direction with respect to the backlight.

When the above-mentioned light passes through the diffusion sheet 21, the angle of inclination with respect to the normal direction of the light guide plate 1 surface is reduced, and the straightness is imposed further through the prism sheet 3, thereby normalizing the light guide plate 1 surface. More light in the direction increases the front luminance. According to the related art, the light emitted from the light guide plate 1 is partially reflected back to the light guide plate 1 by the diffusion protrusion (300 of FIG. 1), and the reflected light is provided on the lower part of the light guide plate 1 (not shown). In the present invention, the light supplied from the light guide plate 1 is refracted in an arbitrary direction without being reflected by the plurality of inclined surfaces 25a of the diffusion protrusion 25 in the present invention. By diffusing, the light transmittance is also increased, and the front luminance is further increased.

5A is a perspective view illustrating an optical sheet of a liquid crystal display according to a second exemplary embodiment of the present invention, and FIG. 5B is a cross-sectional view illustrating a cross section of the optical sheet according to FIG. 5A. As shown in the figure, the diffusion protrusion 26 of the optical sheet 2 has a plurality of inclined surfaces 26a and a tip portion of the diffused surface 26a which is connected to the inclined surface 26a about the boundary area 26b. It is characterized by forming. That is, the diffusion protrusion 26 includes a hexahedron having a trapezoidal longitudinal cross section formed by the plurality of inclined surfaces 26a, and a configuration in which a partial sphere 26c is formed on the hexahedron. Of course, the second embodiment can also obtain the above-described action of the diffusion sheet.

6 is a cross-sectional view illustrating a cross section of an optical sheet of a liquid crystal display according to a third exemplary embodiment of the present invention. As shown in the drawing, the optical sheet 2 has a diffusion protrusion 25 formed on an upper surface of the base film 23, and a light guide plate 1 in contact with the optical sheet 2 on the lower surface of the base film 23. Or a support protrusion 28 for protecting the damage of the prism sheet 3. The support protrusion 28 is formed by the beads contained in the bind 27 layer applied to the base film 23. This ensures a distance from the light guide plate 1 or the prism sheet 3 on which the optical sheet 2 is laminated.

According to the third embodiment of the present invention, when the diffusion film is manufactured, the resin film 24 having the diffusion protrusion 25 may be cured by adjusting the thermosetting temperature when the binder 27 is thermally cured. In contrast, the resin film 24 having the diffusion protrusion 25 may not be UV cured. The diffusion sheet 21 disposed corresponding to the light guide plate 1 of the optical sheet 2 by the support protrusion 28 described above is provided with minimal contact with the light guide plate 1, thereby preventing damage to the light guide plate 1. In addition, since the gap between the light guide plate 1 and the diffusion sheet 21 is generated, it is possible to prevent the diffusion of heat generated from the light guide plate 1, thereby reducing the sheet-to-sheet diffusion. In addition, in the case of the protective sheet 22 disposed corresponding to the prism sheet 3, the area between the protective sheet 22 and the prism sheet 3 is reduced by the support protrusions 28, so that the prism sheet 3 is provided. It can also prevent damage.

7 is a cross-sectional view illustrating a cross section of an optical sheet of a liquid crystal display according to a fourth exemplary embodiment of the present invention. As shown in the figure, the light guide plate 1 in contact with the optical sheet 2 is a support protrusion 30 formed on the lower surface of the base film 23 in order to protect the prism sheet 3 from damage. The support protrusion 30 is coated with the resin film 29 on the base film 23 similarly to the diffusion protrusion 25, and the support protrusion 30 is embossed with a coarse distribution compared to the diffusion protrusion 25. It is formed in the form. Also in the fourth embodiment according to the present invention, the effects of the third embodiment of the present invention described above can be obtained.

In the above description, the shape of the cross section of the diffusion protrusion may be a quadrangular shape, and may also have a polygonal shape or more than a rectangular shape.

As described above, according to the present invention, a liquid crystal display device having high luminance is provided by the optical sheet effectively diffusing light supplied from the light guide plate.

Claims (8)

A liquid crystal display device comprising a backlight unit in which a light guide plate and an optical sheet are disposed to correspond to each other. The optical sheet includes a plurality of diffusion protrusions protruding from one surface, Wherein each of the diffusion protrusions is connected to each other by a boundary area and is inclined with respect to an upper surface of the optical sheet and has a first inclined surface and a second inclined surface having different inclinations. The method of claim 1 And the optical sheet includes a base film and a resin layer formed on a surface of the base film, and the diffusion protrusion is formed on the resin layer. The method of claim 2, The boundary area has a small radius of curvature, and the first and second inclined surfaces have a large radius of curvature. The method of claim 3, The diffusion protrusion is a liquid crystal display, characterized in that the tip region is a polygonal pyramid shape. The method of claim 3, And the diffusion protrusions are partially spherical in shape. 6. The method according to any one of claims 1 to 5, The optical sheet further comprises a support protrusion protruding from the other surface. The method of claim 6, The optical sheet is a liquid crystal display, characterized in that a bind layer is formed on the other side, and the support protrusion is formed by beads included in the bind layer. The method of claim 6, A resin layer is formed on the other surface of the optical sheet, and the support protrusion is formed by embossing a resin film.

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