KR101413897B1 - Light guide plate and light guide plate module for back light unit - Google Patents

Abstract

The present invention relates to a light guide plate for a backlight and a light guide plate module, which are designed so that the width of the upper surface of the light entrance portion is smaller than the width of the lower surface of the light entrance portion, thereby shifting the total reflected light path, Can be increased.

Further, since the upper surfaces of the light emitting portions of the light guide plates are continuously connected, the light is uniformly emitted from the entire light guide plate module.

In addition, the present invention can increase the amount of light emitted upward from the light guide plate by forming a pattern of a plurality of grooves or protrusions having a triangular cross section on the lower surface of the light entrance portion of the light guide plate.

In addition, according to the present invention, a pattern or a plurality of microlens patterns formed of a plurality of stripe-shaped triangular prisms is formed on the light emitting portion of the light guide plate, so that light emitted from the light emitting portion of the light guide plate can be directly emitted It is effective.

Light, incident, protrusion, pattern, boundary, light quantity, total reflection

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a light guide plate and a light guide plate module,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a light guide plate and a light guide plate module for a backlight capable of increasing an amount of light emitted upward from a light guide plate.

In general, a flat panel display can be classified into a light emitting type flat panel display device and a light receiving type flat panel display device, and a flat panel cathode ray tube, a plasma display panel, an electroluminescence element, And a light emitting diode, and a light receiving type flat panel display device typically has a liquid crystal display device.

A liquid crystal display device is a display device which can display a desired image by individually supplying data signals according to image information to pixels arranged in a matrix form and adjusting the light transmittance of the pixels, Since a light can not be emitted to form an image, a backlight unit (backlight unit) is provided on the back surface so that an image can be displayed even in a dark place.

Therefore, the liquid crystal display device comprises a liquid crystal panel in which pixels are arranged in a matrix form, a backlight unit for emitting light to the liquid crystal panel, and a case for coupling and protecting the liquid crystal panel and the backlight unit.

The liquid crystal panel further includes two substrates bonded together to maintain a uniform cell gap, and a liquid crystal layer formed between the substrates.

1 is a cross-sectional view showing a schematic configuration of a backlight unit according to the related art, and includes a light source 10 for emitting light; A light guide plate 20 for converting the line light emitted from the light source 10 into uniform surface light and emitting the converted light; And a diffusion plate 30 located above the light guide plate 20 and uniformly diffusing the light emitted from the light guide plate 20 and emitting the light upward.

The liquid crystal panel 40 is positioned on the diffusion plate 30 of the backlight unit.

FIG. 2 is a conceptual view for explaining a state in which light is emitted from the light guide plate of the backlight unit according to the related art. The light source 10 is located on the side of the light guide plate 20, City) is located.

The light emitted from the light source 10 is totally reflected by the light guide plate 20 and is transmitted to the upper portion of the light guide plate 20 through the light guide plate 20, The component c emitted from the light guide plate 200 can be classified into a component c and a component d emitted from the light guide plate 200 and a component e transmitted through the light guide plate 20 and emitted to the lower portion of the light guide plate 20. The light is reflected by the reflector positioned under the light guide plate 20 and proceeds to the upper portion of the light guide plate 20.

In the light guide plate of the backlight unit according to the related art, when the light source is a light emitting diode, the light guide plate region, which is close to the light source 20 as compared with the entire region of the light guide plate 20, As shown in FIG.

Therefore, the light guide plate of the backlight unit according to the related art has a problem that a uniform luminance can not be obtained on the liquid crystal panel.

3 is a conceptual view for explaining a schematic configuration of a light guide panel module applied to a large-area backlight unit according to the related art. In order to supply light to a large-area liquid crystal panel, a backlight unit applied to a large- And a light guide plate module 50 in which a plurality of light guide plates 51 are arranged and light sources 52 are provided on the side surfaces of the plurality of light guide plates 51.

That is, each of the plurality of light guide plates 51 is rectangular, and light sources 52 are installed on the side surfaces of the plurality of light guide plates 51.

FIG. 4 is a conceptual view for explaining the brightness distribution on the interface of the light guide plate module according to the related art. As described above, the light guide plates 51 of the light guide plate module are provided with light sources on the sides, The entire light guide plate module emits light through the light guide plates 51 of the folded light guide.

Here, a minute gap is formed between the plurality of light guide plates 51, and a boundary between the light guide plates 51 is created.

At this time, the light sources existing between the plurality of light guide plates 51 emit light to the side, so that no light is emitted onto the light guide plate module surface, so that the boundary portion between the plurality of light guide plates 51 in the whole light guide plate module is relatively Lt; / RTI >

When the light intensity emitted from the light sources existing between the plurality of light guide plates 51 spreads uniformly into the light guide plate module, the brightness of the boundary between the relatively dark light guide plates 51 can be compensated However, in the opposite case, there is a problem in that the brightness at the boundary between the plurality of light guide plates 51 can not be lowered.

FIG. 5 is a photograph of a light guide plate module according to the related art, in which two light guide plates are photographed in the light guide plate module, that is, the boundary between the first and second light guide plates 51a and 51b appears dark.

The present invention solves the problem that the brightness of the light guide plate is lowered.

Preferred embodiments of the present invention are,
A light incident portion in which light of a light source is incident on a side surface;
And a light emitting portion connected to the light-entering portion and emitting upward the light incident on the light-entering portion,
Wherein the light-incident portion has a structure protruding from a side surface of the light-

Each of the upper surface and the lower surface of the light-incident portion is formed with a step difference from the upper surface and the lower surface of the light emitting portion, and the width of the upper surface of the light-entering portion is smaller than the width of the lower surface of the light- A light guide plate for backlight is provided.

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According to another preferred embodiment of the present invention,
A plurality of light guide plates arrayed;
And a light source mounted on a side surface of each of the plurality of light guide plates,
Wherein each of the plurality of light guide plates comprises:
A light incident portion in which light of a light source is incident on a side surface;
And a light emitting portion connected to the light-entering portion and emitting upward the light incident on the light-entering portion,
Wherein the light-incident portion protrudes from one side of the light-emitting portion,
A protrusion is formed on the other side of the light emitting portion,

Each of the upper surface and the lower surface of the light-incident portion is formed with a step difference from the upper surface and the lower surface of the light emitting portion, and the width of the upper surface of the light-entering portion is smaller than the width of the lower surface of the light- A light guide plate module for a backlight is provided.

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According to the present invention, the width of the upper surface of the light-incident portion is designed to be smaller than the width of the lower surface of the light-incident portion, thereby increasing the amount of light emitted upward from the light guide plate by shifting the light path.

In addition, the present invention has the effect of uniformly emitting light from the entire light guide plate module by continuously connecting the upper surfaces of the light emitting portions of the light guide plates.

In addition, the present invention has the effect of increasing the amount of light emitted upward from the light guide plate by forming a pattern of a plurality of grooves or protrusions having a triangular cross section on the lower surface of the light entrance portion of the light guide plate.

In addition, according to the present invention, a pattern or a plurality of microlens patterns formed of a plurality of stripe-shaped triangular prisms is formed on the light emitting portion of the light guide plate, so that light emitted from the light emitting portion of the light guide plate can be directly emitted It is effective.

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

FIG. 6 is a schematic cross-sectional view of a light guide plate for a backlight of a display according to the present invention, in which a light guide plate 100 for backlight includes a light entrance portion in which light from a light source 200 is incident on a side surface; And a light emitting unit connected to the light emitting unit and emitting upward the light incident on the light emitting unit, wherein the light emitting unit protrudes from a side surface of the light emitting unit.

Here, the light-incident portion and the lower surface of the light-emitting portion exist on the same horizontal line P, and the upper surface of the light-incident portion and the light-emitting portion exist on different horizontal lines P1 and P2.

7 is a sectional view of another exemplary embodiment of a light guide plate for a backlight of a display according to the present invention in which the light incident portion 110 protrudes from the side surface of the light exit portion 120, And the upper surfaces of the light-incident portion 110 and the light-emitting portion 120 are present on the other horizontal lines K3 and K4.

Each of the upper and lower surfaces of the light-incident portion 110 is formed with a step difference from the upper surface and the lower surface of the light-emitting portion 120, and the light- 120).

Here, the width W1 of the upper surface of the light-incident portion 110 is smaller than the width W2 of the lower surface of the light-incident portion 110.

7, the width W1 of the upper surface of the light-incident portion 110 is greater than the width W1 of the light-incident portion 110, as shown in FIG. 7, Is designed to be smaller than the width W2 of the lower surface of the light emitting portion 110 as shown in FIG. 8, the lower surface region 130 of the light emitting portion 120 close to the light entering portion 110 does not exist .

At this time, when the light emitted from the light source is totally reflected by the light-incident portion 110 and travels along the 'A' path, if there is a lower surface region 130 of the light-emitting portion close to the light-incident portion 110, Passes through the lower surface region 130 of the light emitting portion in the vicinity of the light emitting portion 110 and is totally reflected on the lower surface of the light emitting portion 120 and proceeds to the 'C' path.

However, since the lower surface region 130 of the light emitting portion in the vicinity of the light-incident portion 110 is not present, the light is totally reflected on the lower surface of the light-incident portion 110 and proceeds to the path of 'B'.

As a result, in the present invention, the width W1 of the upper surface of the light-incident portion 110 is designed to be smaller than the width W2 of the lower surface of the light-incident portion 110, (Shifted from the 'C' path to the 'B' path), the amount of light emitted upward from the light guide plate can be increased.

9 is a schematic cross-sectional view for explaining a backlight light guide panel module of a display according to the present invention, in which the light guide plate module includes a plurality of light guide plates 150.160 arranged; And a light source 200 mounted on a side of each of the plurality of light guide plates 150 and 160.

9, the light-incident portions protrude from one side of the light-emitting portions 121 and 122 of the first and second light guide plates 150 and 160 as shown in FIG. 9, and the first and second light guide plates 150 and 160, Protrusions 141 and 142 are formed on the other sides of the light emitting portions 121 and 122 of the light emitting diodes 150 and 160, respectively.

At this time, when the first and second light guide plates 150 and 160 are arrayed, the protrusion 141 formed in the light emitting portion 121 of the first light guide plate 150 is separated from the light incident portion 112 .

That is, the light guide plates of the light guide plate module of the present invention are arranged such that some of the protrusions formed in the light emitting portions of the light guide plates are positioned above the light entrance portions of the adjacent light guide plates.

A light source 200 for emitting light to the light-incident portions 111 and 112 is mounted between the first and second light guide plates 150 and 160, respectively.

At this time, the light source 200 is optically coupled to the light entrance portions of the first and second light guide plates 150 and 160.

The stepped portion formed on one side surface 122a of the light emitting portion 160 and the upper surface 112a of the light entering portion 112 in the second light guide plate 160 is formed by a light emitting The protruding portion 140 is positioned on the upper portion of the light-incident portion 112 and the upper surface of the first and second light guide plates 150 and 160 coincides with the shape of the protrusion 140 formed on the other side of the light- They are placed on the same horizontal line.

9, the upper surfaces of the light emitting portions 121 and 122 of the first and second light guide plates 150 and 160 are continuously connected to each other so that light is also emitted from the boundary between the first and second light guide plates 150 and 160, The light can be uniformly emitted from the entire module.

The height H1 from the upper surface of each of the light incident portions 111 and 112 formed on one side of the first and second light guide plates 150 and 160 to the lower surface of the light emitting portions 121 and 122 is greater than the height H1 between the first and second light guide plates The height H2 from the lower surface of the protrusions 141 and 142 formed on the other side of the light emitting portions 121 and 122 to the lower surface of the light emitting portions 121 and 122 is preferably equal to or less than the height H2.

10A and 10B are schematic plan views showing a light source and an optical coupler according to the present invention. A light source 200 is composed of a plurality of light emitting diodes 210 arranged in an array, A plurality of optical couplers 180 are optically coupled to each of the plurality of light emitting diodes 210 of the light guide plate 210. The plurality of optical couplers 180 are arranged on the end face of the light entrance portion of the light guide plate have.

The arrayed plurality of optical couplers 180 preferably have a narrow top width and a wide bottom width.

11A and 11B are schematic perspective views of an optical coupler formed on a light guide plate for backlight of a display according to the present invention, in which the optical coupler is arranged on one side of the light-incident portion of the light guide plate, (Coupling).

Each of the optical couplers preferably has a shape of a square pillar 181 as shown in Fig. 11A or a shape of a pillar 182 as shown in Fig. 11B, the width of which is narrower than the width of the bottom.

12A and 12B are schematic partial cross-sectional views illustrating a pattern formed on the lower surface of the light-incident portion according to the present invention, wherein a pattern of a plurality of grooves or protrusions having a triangular cross-section is formed on the lower surface of the light-

The amount of light emitted upward from the light guide plate can be increased by the plurality of grooves or protrusions.

12A illustrates a pattern 190a formed of a plurality of grooves formed on the lower surface of the light-incident portion, and FIG. 12B illustrates a pattern 190b formed of a plurality of protrusions formed on a lower surface of the light- .

At this time, it is preferable that the pattern 190a including a plurality of grooves formed on the lower surface of the light-entering portion has a sawtooth shape.

FIG. 13 is a partial cross-sectional view for explaining the inclination angle of the pattern formed on the lower surface of the light-incident portion according to the present invention, and a groove 190a1 having a triangular cross section is formed on the lower surface of the light-

Here, the total amount of light reflected from the sidewalls of the groove 190a1 can be adjusted by adjusting the angles [alpha] 1, [alpha] 2 between the lower surface of the light-incident portion and the sidewalls of the groove 190a1.

Therefore, it is possible to design the amount of light emitted to the upper portion of the light guide plate to be optimal by adjusting the angles? 1 and? 2 formed between the lower surface of the light-incoming portion and the sidewall of the groove 190a1.

14A and 14B are schematic perspective views showing a pattern formed on the light emitting portion according to the present invention. The present invention is characterized in that a pattern made of a plurality of stripe-shaped triangular columns or a plurality of micro lenses When the pattern is formed, the light emitted from the light emitting portion of the light guide plate can be directly emitted to the upper portion.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1 is a cross-sectional view showing a schematic configuration of a backlight unit according to the related art

2 is a conceptual diagram illustrating a state in which light is emitted from a light guide plate of a backlight unit according to a related art;

3 is a conceptual diagram for explaining a schematic configuration of a light guide plate module applied to a large area backlight unit according to the related art

FIG. 4 is a conceptual diagram for explaining the brightness distribution at the interface of the LGP module according to the related art

5 is a photograph showing a photograph of the light guide plate module according to the related art

6 is a schematic cross-sectional view of a light guide plate for backlight of a display according to the present invention

7 is another cross-sectional view of a backlight light-guide plate of a display according to the present invention

8 is a conceptual diagram for explaining the phenomenon that light is emitted from the backlighting light guide plate of the display of FIG.

9 is a schematic cross-sectional view for explaining a light guide plate module for backlight of a display according to the present invention

10A and 10B are schematic plan views showing a light source and an optical coupler according to the present invention.

11A and 11B are schematic perspective views of an optical coupler formed on a light guide plate for backlight of a display according to the present invention

12A and 12B are schematic partial sectional views showing a pattern formed on the lower surface of the light-

13 is a partial cross-sectional view for explaining the inclination angle of the pattern formed on the lower surface of the light-

14A and 14B are schematic perspective views showing a pattern formed on the light emitting portion according to the present invention.

Claims (16)

delete delete delete delete A plurality of light guide plates arrayed; And a light source mounted on a side surface of each of the plurality of light guide plates, Wherein each of the plurality of light guide plates comprises: A light incident portion in which light of a light source is incident on a side surface; And a light emitting portion connected to the light-entering portion and emitting upward the light incident on the light-entering portion, Wherein the light-incident portion protrudes from one side of the light-emitting portion, A protrusion is formed on the other side of the light emitting portion, Wherein the upper surface and the lower surface of each of the light-incident portions are stepped from the upper surface and the lower surface of the light emitting portion, the width of the upper surface of the light-entering portion is smaller than the width of the lower surface of the light- The light- The height from the upper surface of the light-entering portion to the lower surface of the light- Wherein a height of the protrusion formed on the other side of the light emitting portion is less than or equal to a height from a lower surface of the light emitting portion to a lower surface of the light emitting portion. The method of claim 5, The light- Wherein a part of the protrusions formed on the light emitting portions of the light guide plates are arranged on the upper portions of the light incident portions of the adjacent light guide plates. The method of claim 6, The upper surface of the light guide plates, Wherein the light guide plate is placed on the same horizontal line. delete The method according to one of claims 5 to 7, The light source includes: Wherein the light guide plate is optically coupled to the light incident portion of each of the light guide plates. The method according to one of claims 5 to 7, The light source includes: Wherein the plurality of light emitting diodes are arranged in a matrix form. The method of claim 10, A plurality of optical couplers are optically coupled to each of the plurality of light emitting diodes, Wherein the plurality of optical couplers are arranged at end surfaces of the light-incident portion of the light guide plate. The method of claim 11, The plurality of optical couplers, Wherein the light guide plate has a top width narrower and a bottom width wide. A plurality of light guide plates arrayed; And a light source mounted on a side surface of each of the plurality of light guide plates, Wherein each of the plurality of light guide plates comprises: A light incident portion in which light of a light source is incident on a side surface; And a light emitting portion connected to the light-entering portion and emitting upward the light incident on the light-entering portion, Wherein the light-incident portion protrudes from one side of the light-emitting portion, A protrusion is formed on the other side of the light emitting portion, Wherein the upper surface and the lower surface of each of the light-incident portions are stepped from the upper surface and the lower surface of the light emitting portion, the width of the upper surface of the light-entering portion is smaller than the width of the lower surface of the light- On the lower surface of the light-incoming portion of each of the light guide plates, Wherein a pattern of a plurality of grooves or protrusions having a triangular cross section is formed on the light guide plate module. 14. The method of claim 13, The light- Wherein a part of the protrusions formed on the light emitting portions of the light guide plates are arranged on the upper portions of the light incident portions of the adjacent light guide plates. 15. The method of claim 14, The upper surface of the light guide plates, Wherein the light guide plate is placed on the same horizontal line. The method according to one of claims 13 to 15, On top of the light emitting portions of the light guide plates, Wherein a plurality of stripe-shaped triangular prisms or a plurality of microlens patterns are formed on the light guide plate.

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