KR20040062201A - Backlight unit for LCD - Google Patents

Abstract

PURPOSE: A rear illumination device for a liquid crystal display device is provided to insert a light scattering and permeable material instead of a light guide plate, thereby improving a structure of a liquid crystal display and preventing loss of the brightness caused by the light guide plate. CONSTITUTION: A light source(5) emits light. A reflector(3) condenses the light in a certain direction to transmit the light emitted from the light source to a display(13). A light guide object(20) scatters and reflects the light condensed by the reflector. A reflecting plate(7) is formed under the light guide object for reflecting the scattered or reflected light to a display area.

Description

Back lighting unit for liquid crystal display device {Backlight unit for LCD}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a back lighting device, and more particularly, to a back lighting device used as a light source in a display device such as a liquid crystal display device.

Unlike a fluorescent display tube or a field emission display in a display device, a liquid crystal display is a passive display that does not display an image by emitting light by itself, and thus requires a separate light source for driving.

Since the light source provides a light source for driving on the back of the passive display, it is also called a back light, which is provided as a flat fluorescent lamp method, a direct light method, a light guide plate method, or the like according to its implementation.

Referring to the back lighting device further through the drawings, Figure 1 shows a conventional back lighting device using a light guide plate method.

As shown in the drawing, the rear lighting device is configured by arranging light sources 5 supported on the reflection shade 3 at both side portions of the light guide plate 1 having a substantially rectangular shape. Here, the light guide plate 1 serves to convert the line light source emitted from the light source 5 into a uniform surface light source according to the position, and the light source 5 is a cold cathode fluorescent lamp (CCFL). It is provided is installed inside the reflection shade (3).

In addition, the rear lighting apparatus prints a light scattering pattern 9 having a predetermined scattering pattern together with the reflecting plate 7 on one surface of the light guide plate 1 in order to achieve its effect more effectively. On one side, a diffusion unit 11 for diffusing light passing through the light guide plate 1 is disposed.

Of course, in some cases, the rear lighting device is a device for widening the viewing angle of the display unit 13, for example, when applied to a fixed display device such as a desktop computer or a television monitor, to one side of the diffusion unit 11. The reflective polarizer 15 may be disposed.

Thus, the rear lighting apparatus configured as described above is located on the rear surface of the display unit 13 such as a liquid crystal unit to provide a light source required for the operation of the display unit 13.

Referring to the schematic operation of the rear lighting apparatus, first, when the debt emitted from the line light source 5 enters the light guide plate 1, the debt is diffused into the light guide plate 1 and in the process The debt which has reached the light scattering plate 9 is scattered by the light scattering plate 9.

In this case, some scattered light passes through the light guide plate 1 and is provided to the display unit 13, and other light scattered toward the reflecting plate 7 is reflected by the reflecting plate 7 so that the light guide plate ( It is provided to the display unit 13 side through 1).

On the other hand, conventionally, various techniques have been introduced in order to further improve the function of the rear lighting device based on the above-described configuration of the rear lighting device.

For example, U. S. Patent No. 4,937, 709 provides a light scattering pattern printed on the LGP to uniformly distribute the light provided from the side of the LGP, and US Pat. No. 5,178,447 provides an irregular reflective surface on the LGP. US Patent No. 5,408,388 and US Patent No. 5,640,483 introduce a complex structure on the opposite side of the light exit plate and the exit surface of the light guide plate so as to have a desired brightness and distribution thereof. US Patent No. 4,984,144, US Patent No. 5,054,885 and US Patent No. 5,190,370 introduce a structure having a light guide plate function inside a rear lighting apparatus.

However, despite the above technical efforts, in the back lighting apparatus employing the light guide plate method, there is a problem that the light emitted from the light source causes energy loss in the process of passing through the light guide plate, thereby reducing the efficiency of the light guide plate.

Referring to this in more detail with reference to FIG. 2, when the rear lighting device is operated, first, light from the light source 5 is directly incident on the incident surface 1a of the light guide plate 1 or reflected on the inner surface of the reflector 3. Alternatively, after being scattered, the light enters the incident surface 1a.

However, in this process, the light reaching the incident surface 1a is partially entered into the light guide plate 1 according to the difference in refractive index between the air and the light guide plate 1, while part of the light is reflected. The light emitted from the light source 3 does not completely enter the light guide plate 1 and loses its light energy, resulting in a decrease in the efficiency of the light guide plate 1.

In the conventional backlighting device, the light guide plate 1 has a thickness of about 2 mm to 10 mm as it is usually made of synthetic resin such as acrylic. In other words, the conventional rear lighting apparatus, due to the light guide plate (1) occupies a certain volume, and the weight of the applied display is also heavy, causing inconvenience to the actual user.

The present invention to minimize the energy loss of the light emitted from the tube is made of acrylic or synthetic resin to improve the above problems, and also to minimize the minute luminance change generated when the light guide plate is passed to the display unit by the reflecting plate A rear lighting device for a liquid crystal display device is proposed.

1 is a view showing the structure of a conventional rear lighting apparatus using a conventional light guide plate method

2 is a view for explaining the luminance loss generated in the conventional rear lighting device

3 is a side view illustrating the structure of a rear lighting device for a liquid crystal display according to the present invention;

4 is a plan view illustrating the structure of a rear lighting device for a liquid crystal display according to the present invention;

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

5: light source 3: reflection shade

13 display unit 20 light guide

In order to achieve the above object, the present invention provides a light source for providing a display area; A reflection shade to aggregate light emitted from the light source in a predetermined direction; A light guide for diffusing or scattering the light to distribute the light into a display area; A rear lighting device for a liquid crystal display device comprising a reflector for reflecting light emitted from the light source and light scattered through the light guide member in a predetermined direction.

The light guide may be formed of a material including light scattering particles, and the light guide may be configured to have a length in a direction orthogonal to a straight line connected to the light source.

In addition, the light guide is characterized in that the material having a light transmittance, the light guide is characterized in that at least one configuration.

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

3 is a simplified structural diagram of a rear lighting device for a liquid crystal display according to the present invention, and includes a light source 5 and a reflection shade that performs light aggregation in a predetermined direction to send light emitted from the light source to the display 13 ( 3) and a light guide 20 for scattering and reflecting the light received by the reflector 3, and below the light guide 20 is scattered or reflected by the light guide 20 A reflector 7 is provided for reflecting the reflected light to the display area.

Here, the light guide 20 is a material including light scattering particles, and may be an inorganic or organic material, and a polymer material including the light scattering particles is also included. Examples of the material including the light-scattering particles include, for example, polymer particles having a core-shell structure, organic particles such as polystyrene, or inorganic particles such as silica, and combinations thereof may be used. .

In addition, the light guide 20 preferably has a light transmittance, which is to use the light transmitted through the light guide further, the light-transmitting material having the light-scattering particles include polymethyl methacrylate, polystyrene, poly Esters, polyamides, polycarbonates, polyolefins, and the like, as well as combinations thereof.

4 illustrates a plan view of a structure of a liquid crystal display according to the present invention having the structure as shown in FIG. It is preferable to configure at least one or more so as to have a length in the direction orthogonal to the straight line which is connected with the light source to be emitted shortest.

As described above, the light guide 20 used in the present invention has been generated in the process in which the light emitted from the light source 5 is diffusely reflected through the light guide plate made of acrylic or the like and transmitted to the display unit 13. Luminance loss can be reduced

The back lighting device for a liquid crystal display device according to the present invention as described above is a conventional light guide plate by inserting a light-scattering, light-transmitting material capable of performing reflection and scattering by removing the light guide plate made of a material such as acrylic This space occupies the advantage of improving the structure of the liquid crystal display device, as well as eliminating the problem of luminance loss caused by the light guide plate.

Claims (5)

To provide light to the display area, A light source; A reflection shade to aggregate light emitted from the light source in a predetermined direction; A light guide for diffusing or scattering the light to distribute the light into a display area; Reflector for reflecting the light emitted from the light source and the light scattered through the light guide in a predetermined direction Back lighting device for liquid crystal display device comprising a The method according to claim 1, The light guide is a back light device for a liquid crystal display device, characterized in that the material containing light scattering particles The method according to claim 1, The light guide is a back illumination device for a liquid crystal display device configured to have a length in a direction orthogonal to a straight line connected to the light source shortest. The method according to claim 1, The light guide is a back lighting device for a liquid crystal display device, characterized in that the material having a light transmissive The method according to claim 1, Back light apparatus for a liquid crystal display device characterized in that at least one light guide member