KR100914244B1 - The backlight aapparatus - Google Patents

Abstract

A backlight structure which a light source evenly lights is provided to prevent the formation by the light to a light guide panel and reduce the production cost of the backlight. An upper scratch is formed in a bottom place of a top light guide plate(10). A lower part light guide plate(20) is located in the bottom of the top light guide plate. A lower part scratch is formed in the bottom of the light source is delivered to the top light guide plate. A protrusion is formed in both sides of the stepped projection. A dark part is not generated in LED.

Description

Backlight Structure {The Backlight Aapparatus}

The present invention relates to a backlight structure, and more particularly, the connection between the lower light guide plate and the lower light guide plate is made conveniently, and the light source of the LED is illuminated on the connected portion of the lower light guide plate and the lower light guide plate to the connected portion. The present invention relates to a backlight structure that can be illuminated.

In addition, the present invention relates to a backlight structure capable of lowering a production cost of a backlight by removing a reflective sheet disposed between the lower light guide plate and the lower light guide plate.

In general, the liquid crystal display device is one of the flat panel display devices most widely used at present, and is one of the flat panel display devices on which the field generating electrodes are formed, and the two display panels on which the field generating electrodes are formed and the liquid crystal interposed therebetween. The display device is made of a layer to adjust the transmittance of light passing through the liquid crystal layer by rearranging the liquid crystal molecules of the liquid crystal layer by applying a voltage to the electrode.

Such a liquid crystal display includes a backlight unit that generates light and a liquid crystal panel that displays an image using light generated by the backlight unit.

The liquid crystal panel of the liquid crystal display displays image information by blocking or passing light generated from the backlight unit without emitting light. Therefore, the liquid crystal display device requires a light source, and the backlight unit positioned behind the liquid crystal panel is used as the surface light.

The backlight unit is composed of a lamp, a reflecting plate, a light guide plate, and an optical film, and the optical film is composed of a reflecting film, a diffusion film, and a prism film.

Liquid crystal display devices are used in various ways for displays, such as notebooks, monitors, TVs, mobile phones, etc., depending on the intended use.

1 is a cross-sectional view showing a conventional backlight structure for a flat panel display.

As shown in the figure, the light guide plate 10 is formed narrower gradually from one side to the other side, the lamp 20 is provided only on one side of the light guide plate 10, the light emitted from the lamp 20 10) The lamp reflector 30 is installed to be collected to one side, the lamp reflector 30 is formed long from the one side of the lamp 20 to the bottom of the light guide plate 10.

A reflective sheet 40 is formed at the bottom of the lamp reflector 30, and the reflective sheet 40 reflects light emitted to the light guide plate 10 toward the opposite side of the screen.

A diffuser sheet 60 is uniformly stacked on the upper part of the light guide plate 10 to uniformize the light emitted from the light guide plate 10 and at the same time process the entire light smoothly.

A prism 70 is installed on the diffusion sheet 60, and the prism 70 includes a vertical prism 71 and a horizontal prism 72.

The prism 70 serves to enhance the brightness by refracting and condensing the light whose brightness is lowered by the diffusion sheet 60, and has a fine pitch of the mountain shape, the bottom is vertical and the top is horizontal. Usually, it is composed of two pieces.

A protective sheet 80 is installed on the upper portion of the prism 70, and the protective sheet 80 is used to protect the prism 70 because it is very sensitive to impacts, stains, foreign matters, and the like. 71, 72) also eliminates the interference phenomenon.

Recently, as the performance of the prism 70 is improved, products that do not use the protective sheet 80 are also produced.

In the case of the flat panel display configured as described above, the shape of the light guide plate 10 installed in the backlight unit has the shape of a right triangle so that the light reaches when the light of the lamp 20 is irradiated to one side of the light guide plate 10. Since the size is limited, there is a problem in that the size of the light guide plate 10 does not increase indefinitely.

That is, since the distance the light reaches when the light is incident on the light guide plate 10 is limited, the shape of the light guide plate 10 is to take the shape of a right triangle to draw the light to the maximum.

However, as the distance that light reaches is limited, it is difficult to produce the size of the flat panel display to a desired size, so there is a problem that the current maximum size is not more than 100.

An object of the present invention is to provide a backlight structure in which the lower light guide plate and the lower light guide plate are conveniently connected, and the light source of the LED is also illuminated on the connected part of the lower light guide plate and the lower light guide plate so that the light source is evenly illuminated. There is this.

In addition, it is an object of the present invention to provide a backlight structure that can reduce the production cost of the backlight by removing the reflective sheet installed between the lower light guide plate and the lower light guide plate.

The present invention for achieving the above object in the backlight structure,

An upper light guide plate having an upper scratch formed thereon; A lower light guide plate having a lower scratch formed at a lower portion thereof, and having stepped portions at both sides thereof, the lower light guide plate being installed below the upper light guide plate; An LED fixed to the PCB substrate so that the light source is illuminated on the stepped portion when the lower LGP and the lower LGP are connected; It provides a backlight structure characterized in that the reflective sheet is installed so that the light source is reflected in the lower direction of the lower light guide plate.

In addition, the upper edge of the lower light guide plate provides a backlight structure characterized in that the inclined surface is formed to prevent the line formed by the light on the upper light guide plate when the LED light source is shining.

In addition, the stepped 22 of the lower light guide plate 20 provides a backlight structure characterized in that the stepped scratch (22a) is formed.

In the backlight structure according to the present invention, the lower light guide plate and the lower light guide plate are easily connected, and the light source of the LED is also illuminated at the connected part of the lower light guide plate and the lower light guide plate so that the light source is evenly generated because the dark portion does not occur. There is an advantage to the light.

In addition, by removing the reflective sheet installed between the lower light guide plate and the lower light guide plate, there is an advantage that the production cost of the backlight can be lowered and the work can be conveniently performed in large size.

In addition, an inclined surface is formed at an upper edge of the lower light guide plate, thereby preventing the formation of lines by light in the upper light guide plate.

Hereinafter, the backlight structure according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a cross-sectional view showing a backlight structure of the present invention, Figure 3 is a cross-sectional view showing a structure in which the light of FIG.

The backlight of the present invention is largely composed of an upper light guide plate 10, a lower light guide plate 20, an LED 30, and a reflective sheet 40.

The upper light guide plate 10 is formed in a predetermined shape as shown in FIG. 2 so that the upper scratch 11 is formed at the bottom thereof so that the light source can be evenly spread.

In addition, the lower light guide plate 20 is positioned at the bottom of the upper light guide plate 10, and a lower scratch 21 is formed at the bottom so that the light source emitted from the side can be evenly spread and transferred to the upper light guide plate 10.

In addition, the stepped portions 22 are formed at both sides of the lower light guide plate 20.

The step 22 is formed to correspond to the other lower light guide plate 20, and the stepped scratch 22a is formed at one side of the step 22 so that the light source can be evenly spread to the lower light guide plate 20.

The LED 30 is installed on both sides of the lower light guide plate 20 and is fixed to the PCB substrate 31 so that a light source can be illuminated from both sides of the lower light guide plate 20 to the inside.

The LED 30 does not generate a dark portion by illuminating the light source on the stepped scratch 22a formed at the stepped light so that the light source can be evenly reflected when the lower light guide plate 20 and the other lower light guide plate 20 are connected and installed. To be installed.

The reflective sheet 40 is installed in the lower direction of the lower scratch 21 formed in the lower light guide plate 20 so that all light sources can be emitted toward the lower light guide plate 20 when the light source of the LED 30 is illuminated. Reflects.

The operation of the backlight structure according to the present invention configured as described above will be described.

As shown in FIG. 2, the lower light guide plate 20 is positioned at the bottom of the upper light guide plate 10. In this case, the lower light guide plate 20 may be installed by connecting two lower light guide plates 20. ) Can be configured.

In this case, connecting the lower light guide plate 20 is a technique that can be easily connected by anyone skilled in the art, so a description of this part will be omitted.

As shown in FIG. 2, the lower light guide plate 20 is installed at the bottom of the upper light guide plate 10, and the LEDs 30 fixed to the PCB 31 are installed at both sides of the lower light guide plate 20.

The reflective sheet 40 is sequentially installed in the bottom of the lower light guide plate 20 so that a light source emitted from the LED 30 may be illuminated by the lower light guide plate 20 and then directed toward the upper light guide plate 10.

Power is applied to the LED 30 in the state configured as described above. At this time, since the configuration for applying power to the LED 30 can be easily configured by anyone skilled in the art, the configuration and description thereof will be omitted.

When the LED 30 receives power, the light source is illuminated inside the lower light guide plate 20. At this time, the light source is lowered by the reflective sheet 40 installed under the lower light guide plate 20. To prevent the loss of

In addition, since the light source is reflected on the stepped 22 formed on one side of the lower light guide plate 20 and the stepped scratch 22a formed on the stepped 22, the dark source is not formed because the light source is illuminated even without a separate reflection sheet. All.

That is, the light source is evenly transmitted to the entire lower light guide plate while minimizing the loss of the light source.

In addition, since the light source emitted from the LED 30 is a portion where the amount of other light sources is collected the most when the light guide plate 20 and the lower light guide plate 20 are in close contact with each other, the light guide plate 10 is transferred to the upper light guide plate 10. Formation of the string by the light source can be prevented from being generated by the light source by the inclined surface 23 formed on the lower light guide plate 20.

Since the light source transmitted to the upper light guide plate 10 is evenly transmitted through the above operation, the weight of the upper light guide plate is less than the volume even when the size of the upper light guide plate is greater than 100 (Inch).

As described above, in the backlight structure according to the present invention, the lower light guide plate 20 and the lower light guide plate 20 are conveniently connected, and the light source of the LED 30 is connected to the lower light guide plate 20 and the lower light guide plate ( Since the light is also made to be connected to the part of 20), there is an advantage that the light source is evenly illuminated since no dark part occurs.

In addition, by removing the reflective sheet installed between the lower light guide plate 20 and the lower light guide plate 20, there is an advantage that the production cost of the backlight can be lowered and the work can be conveniently performed in large size.

In addition, the inclined surface 23 is formed at the upper edge of the lower light guide plate 20 to prevent the formation of lines by the light source when viewed from the upper light guide plate 10.

1 is a cross-sectional view showing a conventional backlight structure for a flat panel display.

2 is a cross-sectional view showing a backlight structure of the present invention.

* Description of the symbols for the main parts of the drawings *

10: upper conduit plate 11: upper scratch

20: lower light guide plate 21: lower scratch

22: step 22a: step scratch

23: slope 30: LED

31: PCB 40: Reflective Sheet

Claims (3)

In the backlight structure consisting of an upper light guide plate, a lower light guide plate and an LED, The light scattered by the LED 30 fixed to the PCB 31 and the stepped on both sides of the lower light guide plate 20 in which the ordinary lower scratch 21 is formed at the bottom so that the light is reflected by the reflective sheet 40. 22 is formed, and the inclined surface 23 is formed at the upper edge of the lower light guide plate 20 to prevent the lines formed by the light on the upper light guide plate 10 when the LED 30 light source is illuminated. , The lower light guide plate 20 is a backlight structure, characterized in that installed in the bottom of the upper light guide plate (10). delete delete

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