KR100687358B1 - Prism ligtht guide plate and LCD - Google Patents

Abstract

The disclosed prism light guide plate is formed on a light guide plate for guiding incident light, a lower prism formed on one surface of the light guide plate and reflecting light incident to the inside of the light guide plate to the other side, and collects and transmits light reflected by the lower prism. By including a multi-stage upper prism to reduce the overall thickness and assembly process of the backlight unit, while providing its original characteristics can be maintained.

Light Guide Plate, Prism

Description

Prismatic light guide plate and liquid crystal display using the same {Prism ligtht guide plate and LCD}

1 is a cross-sectional view showing a conventional liquid crystal display device;

2 is a perspective view showing a prism light guide plate according to an embodiment of the present invention;

3 is a view showing the lower prism of FIG.

4 is a view showing the luminance of the reflected light by the lower prism of FIG.

5 is a view showing an elliptical embossing prism of the upper prism of FIG.

FIG. 6 is a view showing a sawtooth prism having a round shape among the upper prisms of FIG. 2; FIG.

<Description of Symbols for Main Parts of Drawings>

100 ... Prism LGP 110 ... LGP

120 ... lower prism 130 ... upper prism

131,133 ... Embossing Prism 132,134 ... Sawtooth Prism

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a prism light guide plate and a liquid crystal display device employing the same, and more particularly, to a prism light guide plate that is used in a backlight unit of a liquid crystal display device and includes functions of a diffusion sheet and a prism sheet.

Liquid crystal display (Liquid Crystal Display) is one of the image display mechanism, has been developed based on the advantages that it is light and short, low voltage drive and low power consumption compared to the other CRT (image display mechanism). In particular, since the thin film transistor liquid crystal display device realizes high quality, large size, and color that is comparable to a CRT, it is recently applied to various fields in the notebook PC and monitor market as well as various fields.

On the other hand, unlike the CRT, the liquid crystal display is not a display device that emits light by itself, and thus requires a separate light source. Accordingly, in order to visually express an image, a conventional liquid crystal display device arranges a backlight unit having a fluorescent lamp CCFL on a rear surface of the liquid crystal panel.

FIG. 1 is a cross-sectional view of a typical liquid crystal display, and the backlight unit will be described with reference to the following.

On the side of the fluorescent lamp 1, which is a light source, a light guide plate 2 for scattering and homogenizing light is disposed. The fluorescent lamp 1 is surrounded by a lamp reflector 3, and the light emitted from the fluorescent lamp 1 is reflected directly or by the lamp reflector 3 and enters the light guide plate 2.

The diffusion sheet 5 is disposed on the upper surface of the light guide plate 2, and the reflecting plate 4 is disposed on the lower surface thereof.

The diffusion sheet 5 is for increasing the uniformity of light incident on the liquid crystal panel 10, and the reflecting plate 4 emits light outside the light guide plate 2, that is, light leaks from the fluorescent lamp 1. This is to prevent leakage.

On the upper surface of the diffusion sheet 5, a pair of prism sheets 6 and 7 are arranged to switch the light propagation path and derive the brightness thereof. On the upper surfaces of the prism sheets 6 and 7, a protective sheet 8 is arranged for protecting the shape of the prism sheets 6 and 7.

The liquid crystal panel 10 is spaced apart from the upper portion of the protective sheet 8, and each of the above components is placed in the mold frame 9 and supported by the bezel 11.

In the liquid crystal display device configured as described above, light emitted from the fluorescent lamp 1 is reflected directly or by the lamp reflector 3 and is incident on the light guide plate 2, and then the diffusion sheet 5 and the prism sheet 6, 7) incident on the liquid crystal panel 10 to form a predetermined image. At this time, the light emitted from the fluorescent lamp 1 is incident on the light guide plate 2 while being prevented from leaking to the outside by the reflecting plate 4 and scattered evenly, and the scattered light is further scattered by the diffusion sheet 5. After homogenization, the traveling path is switched at a predetermined angle while passing through the prism sheets 6 and 7, and then enters the liquid crystal panel 10.

However, the above-described conventional backlight unit must use the diffusion sheet 5 to improve the uniformity, and also use the prism sheets 6 and 7 for high brightness, and the diffusion sheet 5 and the prism sheet 6 The use of (7) has a problem of limiting the thickness reduction of the backlight unit.

In addition, since the diffusion sheet 5 and the prism sheets 6 and 7 have a high thermal expansion coefficient at high temperatures and are stretched, wrinkles are generated on the surface thereof. Therefore, the use of the diffusion sheet 5 and the prism sheets 6 and 7 is a backlight unit. There is a problem that may cause the deterioration of the characteristics.

In addition, the use of the diffusion sheet 5 and the prism sheets 6 and 7 not only complicates the assembly process of the backlight unit but also has a problem that may cause a defect in cutting and assembly.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to provide an improved prism light guide plate of a backlight unit which can reduce the thickness of the backlight unit and prevent the degradation of its characteristics.

In addition, another object of the present invention is to provide an improved backlight unit prism light guide plate which can reduce an assembly process and a defective rate of the backlight unit.

Prism light guide plate of the present invention for achieving the above object, the light guide plate for guiding the incident light; A lower prism formed on one surface of the light guide plate to reflect light incident to the inside of the light guide plate to the other side; And a multi-level upper prism formed on the other surface of the light guide plate and collecting and transmitting the light reflected by the lower prism.

Here, the multi-stage upper prism is preferably provided with a sawtooth prism on the embossing prism.

In addition, the embossing prism is preferably any one of a plurality of semi-circles and ellipses are formed continuously.

In addition, the sawtooth prism is preferably in the shape of any one of an isosceles triangle and a triangle with different base angles.

In addition, the vertex angle of the sawtooth prism is preferably within 80 ~ 100 °.

In addition, the upper portion of the sawtooth prism is preferably a round shape.

In addition, the radius of curvature of the round is preferably within 1 ~ 25㎛.

In addition, the lower prism and the upper prism are preferably formed in a direction perpendicular to each other.

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

2 is a perspective view illustrating a prism light guide plate according to an embodiment of the present invention.

Referring to the drawings, the prism light guide plate 100 includes a light guide plate 110, a lower prism 120, and an upper prism 130.

The light guide plate 110 diffuses the light incident from a lamp (not shown) provided at the side of the light guide plate 110 to transmit the light to the liquid crystal panel (not shown).

The lower prism 120 is formed on one surface of the light guide plate 110 to change the traveling direction of the light so that the light incident from the lamp proceeds to the liquid crystal panel. That is, when light incident from the lamp reaches the lower prism 120, the lower prism 120 reflects the light and directs the light toward the liquid crystal panel. The reason for changing the light traveling direction as described above is to improve the uniformity of the light. The lower prism 120 has a continuous triangular pattern, and the lower prism 120 pattern of the portion adjacent to the lamp is more than the center portion as shown in FIG. 3 so that the light incident from the lamp is uniformly reflected to the light guide plate 110. The shorter the pitch (b> a), the more light is reflected. That is, in order to send more light to both sides than the central portion where the light is relatively large, the pitch of the lower end prism 120 both side end pattern is formed short. As such, when the pitches of both side end patterns of the lower prism 120 are formed to be short, the luminance n becomes uniform than the conventional luminance m as shown in FIG. 4.

The upper prism 130 is formed on the other surface of the light guide plate 110 to increase the luminance of the light by collecting and refracting the incident light. The upper prism 130 of the present invention is formed in multiple steps to further increase the brightness.

As one embodiment of the multi-stage upper prism 130, the present invention illustrates that embossing prisms 131 and 133 are formed on the other surface of the light guide plate 110, and saw tooth prisms 132 and 134 are formed thereon.

The embossing prisms 131 and 133 are formed in a plurality of semicircles or elliptical shapes as shown in FIG. 5, and diffuse light transmitted from the light guide plate 110 to secure uniformity of luminance and widen the viewing angle, and to form a pattern of the light guide plate 110. It serves to hide.

The tooth prisms 132 and 134 are for condensing and refracting light diffused through the embossing prisms 131 and 133 to increase luminance. That is, the light is diffused in both the horizontal and vertical directions while passing through the embossing prisms 131 and 133, thereby refraction and condensing the light having low luminance by the sawtooth prism 132 and 134 to improve the brightness.

These tooth prisms 132 and 134 have a triangular or similar shape. Here, the triangle or the like can also be expressed as a "mountain" shape.

Here, the triangular sawtooth prism 132 may have an isosceles triangle or a triangle shape with different base angles. At this time, the vertex angle of the sawtooth prism 132 having a triangular shape is preferably within 80 ~ 100 °. This represents an appropriate angle for uniform refraction of light.

In addition, the sawtooth prism 134 having a shape similar to a triangle refers to a shape in which a vertex portion is rounded as shown in FIG. 6, and a radius of curvature of the rounded portion may be within 1 to 25 μm. The reason for rounding the vertex is as described above to improve the viewing angle and to prevent the crushing of the tooth prism 134.

Meanwhile, the lower prism 120 and the upper prism 130 are formed in directions perpendicular to each other. The reason why the lower prism 120 and the upper prism 130 are arranged to be orthogonal to each other is for the upper prism 130 to condense and refract the light reflected by the lower prism 120 uniformly.

According to the prism light guide plate 100 having such a structure, light incident from the lamp is uniformly reflected by the lower prism 120 to the light guide plate 110, and the light incident on the light guide plate 110 is directed to the upper prism 130. It is sent by the embossing prism (131,133) and the tooth prism (132,134) of the upper prism 130 and is uniformly sent to the liquid crystal panel with high brightness through diffusion and refraction.

As described above, the prism light guide plate of the present invention provides an upper prism formed in multiple stages to serve as a conventional prism sheet and a diffusion sheet on the light guide plate, and provides a lower prism under the light guide plate to serve as a conventional reflective sheet, while maintaining its characteristics. The overall thickness of the backlight unit and the assembly process can be reduced.

The liquid crystal display device employing such a prism light guide plate includes a liquid crystal panel, a backlight unit disposed on a rear surface of the liquid crystal panel, a driving circuit unit for applying a driving signal to the liquid crystal panel, and a chassis unit for assembling the liquid crystal panel and the backlight unit.

The backlight unit includes a lamp for emitting light and a prism light guide plate provided at the lamp side.

The prism light guide plate is formed on a light guide plate for guiding light incident from a lamp, a lower prism formed on one surface of the light guide plate and reflecting light incident into the light guide plate to the other side, and formed on the other surface of the light guide plate, and reflects light reflected by the lower prism. And a prism light guide plate having an upper prism that focuses and transmits.

Here, the upper prism has a shape in which the sawtooth shape is provided in multiple stages on the embossing shape.

As for the liquid crystal display device employing the prism light guide plate described above, the liquid crystal panel, the backlight portion, the driving circuit portion, and the chassis portion are conventional techniques, and the prism light guide plate of the backlight portion is shown in FIG. The drawings of the configuration will be omitted.

According to the prism light guide plate of the present invention as described above, by providing the upper prism and the lower prism formed in multiple stages in the light guide plate constituting the backlight unit to reduce the overall thickness and the assembly process of the backlight unit, the original characteristics can be maintained Provide effect.

It is to be understood that the invention is not limited to that described above and illustrated in the drawings, and that more modifications and variations are possible within the scope of the following claims.

Claims (9)

A light guide plate for guiding incident light; A lower prism having a continuous triangular pattern on one surface of the light guide plate, the pattern having a shape in which a pitch becomes shorter from a central portion to both sides, thereby reflecting light incident into the light guide plate to the other side; And A sawtooth prism is formed on the other surface of the light guide plate on the embossing prism, and comprises a multi-stage upper prism for collecting and transmitting the light reflected by the lower prism. delete The method of claim 2, The embossing prism is a prism light guide plate, characterized in that any one of a plurality of semi-circles and ellipses are formed continuously. The method of claim 2, The sawtooth prism is a prism light guide plate, characterized in that the shape of any one of an isosceles triangle and the triangle with a different base surface. The method of claim 4, wherein The vertex angle of the sawtooth prism is a prism light guide plate, characterized in that less than 80 ~ 100 °. The method of claim 2, The upper portion of the sawtooth prism is a prism light guide plate, characterized in that the round shape. The method of claim 6, The radius of curvature of the round is a prism light guide plate, characterized in that less than 1 ~ 25㎛. The method of claim 1, The lower prism and the upper prism are formed in a direction perpendicular to each other prism light guide plate. A liquid crystal display device comprising a liquid crystal panel, a backlight unit provided on a rear surface of the liquid crystal panel, a driving circuit unit for applying a driving signal to the liquid crystal panel, and a chassis unit for assembling the liquid crystal panel and the backlight unit. The backlight unit, Lamps that emit light; And The light guide plate is provided at the side of the lamp and has a light guide plate for guiding light incident from the lamp, and has a triangular pattern continuous on one surface of the light guide plate, and the pattern has a shape in which the pitch becomes shorter from the center to both sides. A prism light guide plate having a lower prism that reflects light incident to the other side and the other surface of the light guide plate, and a prism light guide plate having an upper prism formed in a multi-step shape on an embossed shape to collect and transmit the light reflected by the lower prism; Liquid crystal display device comprising a.

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