KR20080100017A - Polygonal inverted prism sheet and back light unit and liquid crystal display device having the same - Google Patents

Abstract

The present invention relates to a polygonal inverted prism sheet having a polygonal inverted prism acid on a light incident surface of a prism sheet to improve not only luminance but also viewing angle characteristics, and a backlight unit and a liquid crystal display device having the same. It has a plurality of inverted prism acid formed to protrude on the lower surface of the prism sheet for refracting the light incident to the upper part of the prism sheet, the inverted prism is a symmetrical hexagonal right and left when the longitudinal cross-section is based on the vertical line passing through the vertex The left and right sides of the inverted prism acid each include the first, second, and third regions of the inverted prism acid formed by bending.

Description

Polygonal counter prism sheet, backlight unit and LCD with the same

1 is a block diagram of a general backlight unit

2 is a block diagram of a prism sheet of the prior art

3 is a configuration diagram of a reverse prism sheet of the prior art

4 is a block diagram of a polygonal inverted prism sheet according to the present invention

5 is a block diagram showing a traveling path of the incident light by the inverse prism of the polygon according to the present invention

6 is a detailed configuration diagram of the inverse prism mountain of the polygon according to the present invention;

7A and 7B are schematic diagrams of simulation results showing a propagation path of incident light by a simple inverse prism acid and a polygonal inverted prism mountain according to the present invention.

8A and 8B are diagrams illustrating the propagation path characteristics of incident light by a simple inverted prism and a polygonal inverted prism;

9A and 9B are graphs showing a luminance distribution according to a viewing angle by a simple inverted prism and a polygonal inverted prism.

10A and 10B are photographs showing luminance distribution by a simple inverse prism acid and an inverted prism acid of a polygon

11 is a configuration diagram of a backlight unit having a polygonal inverse prism acid according to the present invention.

12 is a configuration diagram of a liquid crystal display device having a polygonal inverse prism acid according to the present invention.

Explanation of symbols for the main parts of the drawings

41.Light guide plate 42.Prism sheet

43. Inverse Prism Mountain 43a. Inverse Prism Mountain 1st Area

43b. Inverse prism acid second region 43c. Inverse Prism Mountain Third Zone

44. Inverse Prism Mountain Base Area 45. First Bend Point

46. 2nd bending point

The present invention relates to a prism sheet having a plurality of inverted prism peaks, and more particularly, to a polygonal inverted prism having an inverted prism peak having a polygonal structure on the light incidence plane of the prism sheet to improve not only luminance but also viewing angle characteristics. Sheets and a backlight unit and a liquid crystal display device having the same.

In general, a liquid crystal display (LCD) is a light-receiving device that does not emit light unlike CRT (Cathode-Ray Tube), so a backlight device is required to maintain uniform brightness throughout the screen.

As shown in FIG. 1, the backlight device includes a lamp 1 that is a light source, a light guide plate 2 that scatters and homogenizes light incident from the lamp 1, and is disposed below the light guide plate 2. Reflecting the light incident from (1) in the upper direction in which the liquid crystal panel (not shown) is located, the reflection sheet (3) for preventing light from leaking to the lower portion of the light guide plate (2) and the light guide plate (2) between A diffusion sheet 4 disposed on opposite surfaces of the reflective sheet 3 to increase the uniformity of light, a prism sheet 5 disposed on the diffusion sheet 4, and stability of color coordinates and It consists of a protective sheet 6 which protects the prism structure of the prism sheet 5.

Among these, the prism sheet 5 is for deriving the brightness of the light by collecting the light diffused from the diffusion sheet 4, as shown in Figure 2, to increase the light condensing efficiency of the light on the upper surface A protruding prism acid 5a is formed.

Since the conventional prism sheet 5 refracts and condenses the light diffused from the diffusion sheet 4 vertically upwards, when viewing the liquid crystal panel from the front, it is possible to see a clear image of high brightness while viewing angle. The larger the brightness is, the lower the brightness is, and due to the characteristics of the prism structure, there is a problem in that light loss due to light emission from the side.

Similarly, as shown in FIG. 3, even when the prism sheet 5 having the inverted prism acid 5b is formed on the light guide plate 2, high brightness can be realized because a method of increasing the luminance by reflection is used. There is a problem in that the viewing path is narrowed due to the limited propagation path of light and a light loss due to light emission from the side.

In addition, since the shape of the prism acid is used when manufacturing the product, the structure is susceptible to curl in a high temperature / high humidity environment.

Therefore, there exists a problem that the fall of a viewing angle characteristic and a possibility of a product abnormality are high, and the reliability of the backlight unit and liquid crystal display device using the prism sheet of a prior art is reduced.

The present invention is to solve the problems of the prior art prism sheet, the backlight unit and display devices using the same, and to improve the viewing angle characteristics as well as the brightness by having a polygonal inverted prism acid on the light incident surface of the prism sheet It is an object of the present invention to provide a polygonal inverted prism sheet and a backlight unit and a liquid crystal display device having the same.

Polygonal inverted prism sheet according to the present invention for achieving the above object is a prism sheet for condensing light incident on the lower surface to the top, a plurality of protruding to the inverse prism acid base region of the lower surface of the prism sheet An inverted prism, wherein the inverted prism is formed of a hexagon having a right and left symmetry when its longitudinal section is based on a vertical line passing through a vertex, and left and right sides of the inverted prism are respectively bent and formed It is characterized by including the acid 1,2,3 region.

Polygonal inverted prism sheet according to the present invention for achieving another object is a prism sheet for refracting the light incident on the lower surface to focus on, a plurality of protruding to the reverse prism acid base region of the lower surface of the prism sheet It has an inverted prism acid, the inverted prism acid is composed of a hexagon that is asymmetrical left and right when the longitudinal cross-section is based on a vertical line passing through the vertex, and the left and right sides of the inverted prism acid are each formed by bending the inverted prism acid And first, second and third regions.

According to another aspect of the present invention, there is provided a backlight unit having a polygonal inverted prism sheet according to an embodiment of the present invention, comprising: a light guide plate configured to uniformly emit an upward direction by diffusing, reflecting, and refracting a light beam emitted from a light source; Reflective sheet for reflecting the light beam directly below the; Diffusion sheet disposed on the opposite surface of the reflective sheet with the light guide plate therebetween to increase the uniformity of light; Vertical line disposed on the upper portion of the diffusion sheet, the longitudinal cross-section through the vertex The left and right sides of the inverted prism are formed to be symmetrical when the reference is made, and the inverted prism mountains including the first, second, and third regions of the inverted prism mountains formed by bending, respectively, protrude from the bottom surface. Prismatic sheet to be; characterized in that it comprises a protective sheet for protecting the color coordinate stability and the prism sheet.

According to another aspect of the present invention, there is provided a liquid crystal display device having a polygonal inverted prism sheet, the light guide plate of which light is emitted from a light source so that the traveling direction is changed by diffusion, reflection, and refraction so that the light exits uniformly upward. A reflection sheet for reflecting light beams directly downward, a diffusion sheet disposed on an opposite surface of the reflection sheet with the light guide plate therebetween to increase the uniformity of light, and a top surface of the diffusion sheet When the inverted prism mountain includes the first, second, and third regions of the inverted prism, the left and right sides of the inverted prism are formed by bending the left and right sides of the inverted prism, respectively, based on the vertical line passing through the vertex. A prism sheet protruding from the back, and a bag including a protective sheet protecting the prism sheet and stabilizing color coordinates And a liquid crystal panel coupled to the backlight unit and configured to adjust a transmission amount of light to be projected, arranged in an active matrix form to display an image by light projected by the backlight unit. It is characterized by.

Hereinafter, a polygonal inverted prism sheet and a preferred embodiment of the backlight unit and the liquid crystal display device having the same according to the present invention will be described in detail.

The features and advantages of the polygonal inverse prism sheet and the backlight unit and liquid crystal display device having the same according to the present invention will become apparent from the detailed description of each embodiment below.

4 is a configuration diagram of a polygonal inverted prism sheet according to the present invention, and FIG. 5 is a configuration diagram illustrating a propagation path of incident light by a polygonal inverse prism mountain according to the present invention.

6 is a detailed configuration diagram of the inverse prism acid of the polygon according to the present invention.

The prism sheet 42 according to the present invention is for refracting the light incident on the lower surface and condensing the light upward. The prism sheet 42 has a plurality of inverted prism acids 43 protruding from the lower surface.

That is, light incident by the light guide plate 41 is scattered and is uniformly emitted toward a liquid crystal panel (not shown), and the inverse prism acid is applied to the light incident surface of the prism sheet 42 opposite to the exit surface of the light guide plate 41. 43) is a structure in which a plurality of pieces are formed constantly.

Each of the inverted prismatic mountains 43 has a hexagonal shape in which the left and right sides are symmetrical when the longitudinal section thereof is referred to the vertical line passing through the vertex.

That is, the left and right sides of the inverted prism acid 43 have inverted prismatic first, second, and third regions 43a, 43b, 43c formed, respectively.

Of course, in the embodiment of the present invention, each of the inverted prism acid 43 has been described as consisting of a symmetrical lateral hexagon when the longitudinal section is based on the vertical line passing through the vertex, but when the vertical line is referred to as asymmetric Naturally, it can be formed into a phosphorus pentagon or not to form a pentagon and include more bending points.

Here, the reverse prism acid first region 43a is formed such that one end thereof extends downward from the lower surface of the prism sheet 41 (the reverse prism acid base region 44), and the reverse prism acid second region 43b. ) Is one end is bent inward from the other end of the first prism acid region (43a) is formed to extend downward inclined.

In addition, the reverse prism acid third region 43c is bent outwardly from the other end of the reverse prism mountain second region 43b and extends inclined downward, and the reverse prism acid third region left and right at the apex of the reverse prism mountain 43 ( 43c) meets.

The inverse first, second, and third prism regions 43a, 43b, 43c according to the present invention refract and condense the traveling paths of incident light in different directions.

In FIG. 5, a part of the light incident on the inverse prism acid 43 is incident on the inverse prism acid first region 43a and reflected by the inverse prism acid base region 44, and on the opposite side facing the incidence plane again. The reverse prism acid second region 43b and the reverse prism acid first region 43a are emitted through the reverse prism acid base region 44 to improve luminance.

That is, the optical loss is prevented and the luminance is increased by the secondary reflection by the reverse prism acid second region 43b and the reverse prism acid first region 43a opposite to the incident surface.

A portion of the light incident on the inverse prism acid 43 may be incident on the inverse prism acid second region 43b to be firstly refracted and then be secondarily refracted by the inverse prism acid base region 44 to increase the viewing angle characteristic. Exit in the direction.

Part of the light incident on the inverse prism acid 43 is incident on the inverse prism acid third region 43c and the advancing direction is refracted by the opposite inverse prism acid third region 43c opposite to the incident surface, thereby improving luminance. And exit through the inverse prism base region 44.

The light propagation path shown in FIG. 5 schematically shows the light propagation path by the inverted prism acid 43 of the prism sheet according to the present invention, and the propagation path of all the light is reversed by the inverse prism acid 43. It is not only emitted to the upper direction (luminance improvement direction) via the area | region 44 but the characteristic which makes it radiate | emitted also in the direction for improving a viewing angle characteristic by the inverse prism acid 2nd area | region 43b.

As described above, the prism sheet having the inverted prism acid having the polygonal structure according to the present invention has the inverse prism acid first region 43a and the inverse prism acid second region 43b of the inverse prism acid 43. The inner angle α formed by the meeting forms a thermal angle smaller than 180 °, and the internal angle β formed by the inverse prism acid second region 43b and the inverse prism acid third region 43c of the inverse prism acid 43 meets. It has an angle of greater than 180 °.

Here, the point where the inverse prism acid first region 43a and the inverse prism acid second region 43b meet is referred to as a first bending point 45, and the inverse prism acid second region 43b and the inverse prism acid agent The point where the three regions 43c meet is called the second bending point 46.

And a height h1 from the inverted prism base region 44 of the inverse prism mountain 43 to the first bend point 45 and a height from the height h3 of the vertex to the second bend point 46. The value (h3-h2) minus (h2) is formed larger than 1 micrometer.

That is, the height h1 from the inverse prism acid base region 44 of the inverse prism acid 43 to the first bending point 45 is in a range of 1 μm to 12 μm, and the inverse prism acid 43 The height h2 from the inverse prism base region 44 to the second bending point 46 is in the range of 13 μm to 23 μm.

At this time, the height h3 from the inverted prism base region 44 to the apex of the inverted prism acid 43 is 24 µm, and the length w of the inverted prism acid base region 44 is 50 µm.

Of course, the heights h1, h2, h3 and length w are not limited in this manner, and it is natural that the inverse prism sheet of the polygon can be configured differently.

For example, the length w may be determined within a range of 20 μm to 80 μm, and preferably, the length w is formed to 50 μm or 25 μm or 24 μm.

By calculating the internal angle θ of the second prism acid region 43b with respect to the inverse prism acid base region 44 of the inverse prism acid 43 through this range, a value in the range of 0 ° to 43.73 ° can be obtained. have.

Here, when the internal angle θ is 0 °, the reverse prism acid second region 43b is formed horizontally on the reverse prism acid base region 44.

Therefore, the part (i), that is, the reverse prism acid second region 43b is formed with a predetermined size of inclination with respect to the reverse prism acid base region 44.

Therefore, even if the height h3 and the length w are different, the present invention can be implemented using the inner angle θ.

The inner angle δ formed by the inverse prism acid base region 44 of the inverse prism acid 43 and the inverse prism acid first region 43a is 40 ° to 55 °.

The interior of the apex of the inverted prism mountain 43 where the inverted prism acid third region 43c and the inverse opposite prism acid third region 43c opposes is 50 ° to 80 °, preferably 68 °. to be.

And the prism sheet having the inverse prism acid of the polygon according to the present invention is made of a material having a refractive index of 1.52 ~ 1.62. Such a material is a material that enables UV curing, and mono- or di-acrylates such as urethane acrylate and epoxy acrylate. And polyolefin-based mixtures such as polyester, polysiloxane, and polyether.

In the prism sheet having the polygonal inverted prism acid structure according to the embodiment of the present invention, the propagation path of all the light is reversed through the inverted prism acid base region 44 by the inverted prism acid 43 (the luminance improvement direction). It is not only emitted by the light source, but also by the inverse prism second region 43b to be emitted in a direction for improving the viewing angle characteristic, thereby allowing a user to secure a wide viewing angle and at the same time, a light due to a problem of a general prism structure. The occurrence of losses can also be prevented.

The propagation path, refraction, and reflection characteristics of the light of the prism sheet having the inverse prism acid of the polygon according to the present invention are as follows.

7A and 7B are simulation results showing the propagation path of incident light by the simple inverse prism acid and the inverted prism acid of the polygonal structure according to the present invention, and FIGS. 8A and 8B are the simple inverse prism acid and the inverse prism of the polygonal structure. It is a block diagram which shows the propagation path characteristic of incident light by an acid.

9A and 9B are graphs showing luminance distributions according to viewing angles of a simple inverse prism acid and an inverted prism acid of a polygon, and FIGS. 10A and 10B are photographs showing luminance distributions of a simple prism acid and an inverse prism acid of a polygon. .

In FIG. 7A, in the case of a prism sheet having a simple inverse prism acid, it can be seen that the change in the propagation path of the incident light is concentrated only in the upward direction for improving luminance.

In contrast, the advancing path of the incident light by the inverted prism acid of the polygonal structure according to the present invention is not deflected only in the luminance improvement direction as shown in FIG. 7B, but the propagation path of the light is changed in the luminance improvement direction and the viewing angle improvement direction. Able to know.

Similarly, in FIG. 8A, in the case of the prism sheet having a simple inverse prism acid, it can be seen that the change in the propagation path of the incident light is concentrated only in the (-y) direction for improving luminance.

On the contrary, in FIG. 8B, the propagation path of the incident light by the inverted prism acid of the polygonal structure according to the present invention is emitted in both directions (+ y) (-y) without being deflected to one side, and in the second prism acid region. It can be seen that the structure further increases the luminance by the secondary reflection.

Therefore, when looking at the luminance distribution according to the viewing angle, in the case of a prism sheet having a simple inverse prism acid, since the light is deflected in the (-y) direction, it is biased in the (-y) direction rather than the measurement position, and is irregularly emitted to the surroundings. It can be seen that there are many rays.

On the other hand, in the case of the prism sheet having the inverse prism acid of the polygonal structure according to the present invention, since the light is emitted evenly in the (+ y) (-y) direction, the viewing angle is more advantageous, and the unnecessary light rays are reduced. It can be seen that.

The photographs showing the luminance distribution by the simple prism acid and the inverse prism acid of the polygon are compared as follows.

As shown in Fig. 10A, in the case of a prism sheet having a simple inverse prism acid, the light amount of the (A) part is relatively clear and the luminance of the (B) part is weaker because the light beam is emitted in an unnecessary direction.

In contrast, the luminance distribution by the inverse prism acid of the polygon has a uniform luminance distribution in the regions (A ') and (B') due to the low loss of light as shown in FIG. 10B.

The prism sheet according to the embodiment of the present invention described above can be applied not only to the backlight for the liquid crystal display device but also to increase the luminance of the backlight using the organic EL display device which emits light.

Hereinafter, a backlight unit and a liquid crystal display device using a prism sheet having a polygonal inverse prism acid according to the present invention will be described.

11 is a configuration diagram of a backlight unit having a polygonal inverse prism acid according to the present invention, and FIG. 12 is a configuration diagram of a liquid crystal display device having a polygonal inverse prism acid according to the present invention.

As shown in FIG. 11, the backlight unit according to the present invention includes an incident surface to which light rays irradiated from a light source are incident, and the light traveling through the incident surface is changed in the direction of movement by diffusion, reflection, and refraction, thereby providing a uniform upper surface. The light guide plate 100 to be emitted in the direction, the reflective sheet 400 for reflecting light beams directly below, and the light guide plate 100 are disposed on the opposite surface of the reflective sheet 400 with the light uniformity therebetween. Diffusion sheet 200 to increase the, and is disposed on top of the diffusion sheet 200, the longitudinal section is made of a symmetrical symmetrical with respect to the vertical line passing through the vertex, the left and the The right side has a prism sheet 300 formed by protruding the inverted prism mountains including the first, second, and third regions of the inverted prism mountains formed by bending, respectively, and the stability of the color coordinates and the prism sheet 300. It comprises and consists of the protective sheet 500 which protects.

Of course, as already described, the backlight unit is constructed using a prism sheet having an inverted prism acid having an inverted prism acid, which is formed in an asymmetrical right and left when the inverted prism acid is based on a vertical line, or which has more bend points. Of course you can.

In addition, the liquid crystal display device according to the present invention includes an incident surface on which light rays irradiated from the light source are incident, as shown in FIG. 12, and the traveling direction of the light rays traveling through the incident surface is changed by diffusion, reflection, and refraction, thereby providing uniformity. The light guide plate 100 to be emitted in the upper direction, the reflective sheet 400 for reflecting the light beams directly downward, and the light guide plate 100 interposed therebetween are disposed on the opposite surface of the reflective sheet 400 Diffusion sheet 200 to increase the uniformity of the, and is disposed on the upper portion of the diffusion sheet 200, the longitudinal cross-section is made of a hexagonal symmetrical with respect to the vertical line passing through the vertex, and the On the left and right sides, the prism sheet 300 including the inverted prism mountains including the first, second and third regions of the inverted prism mountains, respectively, is formed to protrude from the lower surface, and the stability of the color coordinate and the prism The backlight unit including the protective sheet 500 to protect the sheet 300 and the liquid crystal cells coupled with the backlight unit to adjust the amount of light to be projected are arranged in an active matrix to be projected by the backlight unit. And a liquid crystal panel 600 for displaying an image by the light.

Likewise, the backlight unit and the liquid crystal display device are constructed by forming the inverted prism acid into a seven-sided asymmetry with respect to the vertical line, or by using a prism sheet having an inverted prism acid having more bending points than the seven-angle. Of course you can.

According to the embodiment of the present invention, the prism sheet having the inverted prism acid structure of the polygon, the backlight unit, and the liquid crystal display device have all the paths of propagation of the light passing through the inverted prism acid base area by the inverted prism acid of the polygons. Not only in the direction of improvement, but also in the direction to improve the viewing angle characteristics by the second prism mountain region, allowing the user to secure a wide viewing angle and at the same time The occurrence of losses can also be prevented.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

The polygonal inverted prism sheet and the backlight unit and the liquid crystal display device having the same according to the present invention have the following effects.

By having an inverted prism mountain having a polygonal structure on the light incident surface of the prism sheet, not only the luminance but also the viewing angle characteristic can be improved.

That is, all the paths of light travel in the direction of increasing brightness by the inverse prism of the polygon, thereby improving the brightness.

In addition, by the second prism acid region to be emitted in the direction for improving the viewing angle characteristics, it is possible to ensure a wide viewing angle for the user and at the same time prevent the occurrence of light loss due to problems of the general prism structure. .

Claims (16)

In the prism sheet for refracting the light incident on the lower surface to focus on the upper, It has a plurality of inverse prism acid formed to protrude in the inverse prism acid base region of the lower surface of the prism sheet, the inverse prism acid, When the longitudinal section is based on a vertical line passing through the vertex, the left and right sides of the inverted prism are formed symmetrically, and the left and right sides of the inverted prism include the inverted prismatic mountains 1, 2, and 3 respectively. Polygonal inverted prism sheet characterized by. In the prism sheet for refracting the light incident on the lower surface to focus on the upper, It has a plurality of inverse prism acid formed to protrude in the inverse prism acid base region of the lower surface of the prism sheet, the inverse prism acid, When the longitudinal section is based on a vertical line passing through the vertex, the left and right sides of the inverted prism are formed asymmetrically, and the left and right sides of the inverted prism include the inverted prismatic mountains 1, 2, and 3 respectively. Polygonal inverted prism sheet characterized by. The light incident on the incidence plane of the inverse prism acid is according to claim 1 or 2, A polygonal inverse prism sheet, which is secondarily reflected by an inverse prism acid second region on the side opposite to the incident surface. The reverse prism acid first region of claim 1 or 2, wherein one end of the reverse prism acid region extends inclined downward from the reverse prism acid base region of the lower surface of the prism sheet, One end of the inverted prism acid region is formed to be bent inwardly from the other end of the inverse first prism acid region and to be inclined downward; The inverse prism acid third region is bent outwardly from the other end of the inverse prism acid second region and is inclined downward so that the inverted prism acid third region on the left and right contacts the vertex of the inverse prism mountain. . The method according to claim 1 or 2, An inner angle α formed by the inverse prism acid first region and the inverse prism acid second region forms a thermal angle smaller than 180 °, and an internal angle β formed by the inverse prism acid second region and the inverse prism acid third region. A polygonal inverted prism sheet, characterized by a right angle greater than 180 °. The method according to claim 1 or 2, The height h1 from the inverse prism base region to the first bending point where the first and second inverse prism regions meet; The height h3 minus the height h2 from the height h3 of the vertex to the second bending point where the inverse prism acid second region and the inverse prism acid third region meet is formed to be larger than 1 μm. Polygonal inverted prism sheet. 7. The height h1 from the inverse prism acid base region to the first bend point is in the range of 1 μm to 12 μm, and the height h2 from the inverse prism acid base area to the second bend point. Is a polygonal inverted prism sheet, characterized in that it ranges from 13 μm to 23 μm. 7. The polygonal inverted prism sheet according to claim 6, wherein the height h3 from the inverted prism base region to the vertex is 24 m. 7. The polygonal inverse prism sheet according to claim 6, wherein the length (w) of the inverse prism acid base region (44) is 50 mu m or 24 mu m or 25 mu m. The polygonal inverted prism sheet according to claim 1 or 2, wherein the inner angle θ of the inverse prism acid second region with respect to the inverse prism acid base region is in a range of 0 ° to 43.73 °. The polygonal inverted prism sheet according to claim 1 or 2, wherein an inner angle δ formed by the inverse prism acid base region and the inverse prism acid first region is 40 to 60 degrees. 3. The polygonal shape according to claim 1 or 2, wherein the angle of the vertex of the inverted prism mountain where the inverse prism acid third region and the opposite inverse prism acid third region opposite thereto is 50 to 80 degrees. Reverse prism sheet. The polygonal inverted prism sheet according to claim 1 or 2, wherein an inner corner of the vertex of the inverted prism mountain where the inverse prism acid third region and the opposite inverted prism acid third region opposite thereto is 68 °. . The polygonal inverse prism sheet according to claim 1 or 2, wherein the prism sheet having the polygonal inverse prism acid is made of a material having a refractive index of 1.52 to 1.62. A light guide plate for uniformly radiating the light emitted from the light source to the upward direction by diffusion, reflection, and refraction; A reflection sheet for reflecting light rays directly below; A diffusion sheet disposed on an opposite surface of the reflective sheet with the light guide plate therebetween to increase uniformity of light; Disposed on top of the diffusion sheet, the left and right sides of the inverted prism are symmetrical when the longitudinal section is based on a vertical line passing through the vertex, and the left and right sides of the inverted prism are respectively formed by the inverse prism; A prism sheet having a reverse prism acid including 2,3 regions protruding from the lower surface thereof; And a protective sheet for protecting the color coordinates and the prism sheet. A light guide plate for uniformly radiating the light emitted from the light source by the diffusion, reflection, and refraction so that the light is uniformly emitted upward, a reflection sheet for reflecting the light beam directly below, and the light guide plate disposed therebetween. A diffuser sheet disposed on an opposite surface of the reflective sheet to increase light uniformity, and a diffuser sheet disposed on an upper portion of the diffuser sheet, the left and right sides of which are longitudinally symmetrical with respect to a vertical line passing through a vertex, On the left and right sides of the prism acid, a prism sheet formed by protruding the reverse prism acid including the first, second, and third regions of the reverse prism mountains formed by bending, respectively, and stability of color coordinates and protection of the prism sheet A backlight unit comprising a sheet; And a liquid crystal panel coupled to the backlight unit and configured to adjust a transmission amount of light to be projected, arranged in an active matrix form to display an image by the light projected by the backlight unit. A liquid crystal display device having a polygonal inverted prism sheet.

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