KR100485010B1 - LCD Display - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device, wherein a reflection unit is formed between two or more light emitting lamps installed in a lamp reflection cover to individually reflect light generated from each light emitting lamp to generate light absorption between light emitting lamps. It can be expected to improve the light efficiency by preventing the.

Description

LCD Display

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device, and more particularly, to a liquid crystal display device capable of improving light efficiency incident on a light guide plate by individually reflecting light generated from respective light emitting lamps.

In general, the development of the liquid crystal display device in the information society has been remarkably developed and its role is becoming important. LCD is a light-receiving element that does not emit light by itself, and thus it is difficult to use it in a dark place. Therefore, a backlight device is required in a commonly used LCD, and thus the role and function of the lamp assembly are becoming more important. .

This is because the size, weight, quantity of light and the like of the liquid crystal display device vary depending on the structure of the lamp assembly, and thus greatly affect the mechanical and optical characteristics of the liquid crystal display device.

In addition, replacement of the lamp assembly due to deterioration of the light emitting lamp is also an important task. In order to improve the exchangeability of the lamp assembly, a sliding method in which the lamp assembly itself is manufactured as a set and inserted into one or both ends of the light guide plate is recently used. To this end, the protective sheet, the prism sheet, the diffusion sheet, the light guide plate, and the reflecting plate are sequentially assembled based on the mold frame, and then the lamp assembly is installed on one or both end surfaces of the light guide plate.

On the other hand, in order to obtain high brightness, the lamp assembly is usually made of a structure in which two light emitting lamps are wrapped in a lamp reflecting cover is deposited on the inner surface (Ag).

As shown in FIG. 1, the top chassis 10 surrounds an edge region of the LCD panel 13 except for a data display region displaying data.

Here, looking at the cross section of A-A 'of Figure 1 as follows.

As shown in FIG. 2, the mold frame 16 accommodates the LCD panel 13 which displays an image on the upper surface of the mold frame 16 while forming a skeleton of the LCD module, and the lower surface of the mold frame 16. The sheet containing the light guide plate 21, the protective sheet 24, the prism sheet 23, the diffusion sheet 22, and the reflective sheet 20 is accommodated.

Further, a lamp assembly including two light emitting lamps 18 and a lamp reflecting cover 17 containing two light emitting lamps 18 is installed at one or both ends of the light guide plate 21. The top sash 10 is fixed to cover the upper edge and the edge of the mold frame 16 integrally, the back sash 19 covers the entire lower surface of the reflective sheet 20 and is fixed to the mold frame 16. It is.

The LCD panel 13 includes a TFT substrate 12 having a TFT element formed thereon and a color filter substrate 11 attached to an upper surface of the TFT substrate 12 and having a color filter pattern formed on the lower surface thereof. Is electrically connected to the printed circuit board 15 by the drive tap IC 14.

The light guide plate 21 is to uniformly transmit the light from the light emitting lamps 18 to the rear surface of the LCD panel 13, and is generally a transparent acrylic material having a thickness of several millimeters. Printing and V-shaped grooves are formed.

The reflective sheet 20, which is one of the sheets, is installed under the light guide plate 21 to reflect light from the light emitting lamps 18 exiting from the bottom of the light guide plate 21 toward the light guide plate 21. Made of polyester (PET) material.

The diffusion sheet 22 is positioned above the light guide plate 21 to diffuse light irradiated through the light guide plate 21, and the prism sheet 23 condenses the diffused light again and goes straight to the LCD panel 13. It can be installed more than one.

The protective sheet 24 is positioned on the prism sheet 23 to protect sheets that are sensitive to dust or scratches.

Looking at the path of the light generated from the light emitting lamps in the LCD module of the structure as follows.

First, light generated from the light emitting lamps 18 is directly projected through the side end of the light guide plate 21 or reflected by the lamp reflection cover 17 and indirectly through the side end of the light guide plate 21. Projected.

The light projected into the light guide plate 21 is reflected toward the diffusion sheet 22 through dots and V-shaped grooves or is projected to the back surface of the light guide plate 21 and then back to the diffusion sheet 22 by the reflection sheet 20. Is reflected.

Subsequently, the light diffused while passing through the diffusion sheet 22 is collected while passing through the prism sheet 23 to pass through the LCD panel 13 through the protective sheet 24.

However, since the two light emitting lamps are spaced apart from each other by a predetermined distance in one lamp reflecting cover, as shown in FIG. 3, light generated from the light emitting lamps is absorbed into the space between the light emitting lamps, thereby reducing light efficiency. There was a problem.

Accordingly, it is an object of the present invention to prevent a decrease in light efficiency due to absorption of light generated between light emitting lamps.

In order to achieve the above object, the present invention provides a mold frame that surrounds and supports edges of an LCD panel, a prism sheet, a diffusion sheet, a light guide plate, and a reflective sheet, and at least two light emitting lamps installed at one or both ends of the light guide plate. And a lamp reflection cover which surrounds the light emitting lamps to open a predetermined area in the long axis length direction of the light emitting lamps and reflects the light generated from the light emitting lamps to the light guide plate, and the mold frame and the LCD panel except the display area of the LCD panel. And a back sash mounted on the bottom surface of the mold frame, wherein a reflector is formed between the light emitting lamps installed in the lamp reflection cover to separately reflect light from each light emitting lamp to the light guide plate. It features.

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

As shown in FIG. 4, the mold frame 36 accommodates an LCD panel 33 which displays an image on the upper surface of the mold frame 36 while forming a skeleton of the LCD module, and the lower surface of the mold frame 36. The sheet containing the light guide plate 43, the protective sheet 47, the prism sheet 45, the diffusion sheet 44, and the reflective sheet 42 is accommodated.

Further, a lamp assembly including two light emitting lamps 46 and a lamp reflecting cover 38 accommodating two light emitting lamps 46 is installed at one or both ends of the light guide plate 43. The top sash 30 is fixed and integrally covers the upper edge and the edge of the mold frame 36, and the back sash 41 covers the entire lower surface of the reflective sheet 42 and is fixed to the mold frame 36. do.

The LCD panel 33 is composed of a TFT substrate 32 having a TFT element formed thereon, and a color filter substrate 31 attached to an upper surface of the TFT substrate 32 and having a color filter pattern formed on the lower surface thereof. Is electrically connected to the printed circuit board 35 by the driving tap IC 34.

The light guide plate 43 is for uniformly transmitting the light from the light emitting lamps 46 to the back of the LCD panel 33. Generally, the light guide plate 43 is a transparent acrylic material having a thickness of several millimeters. Printing or V-shaped grooves are formed.

The reflective sheet 42, which is one of the sheets, is installed at the lower part of the light guide plate 43 to reflect light from the light emitting lamps 46 exiting from the lower part of the light guide plate 43 toward the light guide plate 43. Made of polyester (PET) material.

The diffusion sheet 44 is positioned above the light guide plate 43 to diffuse light irradiated through the light guide plate 43, and the prism sheet 45 condenses the diffused light again and goes straight to the LCD panel 33. It can be installed more than one.

The protective sheet 47 is positioned on the prism sheet 45 to protect sheets that are sensitive to dust or scratches.

According to the present invention, the reflector 39 is installed between the light emitting lamps 46 spaced apart from each other in the lamp reflecting cover 38 so that the light generated from the respective light emitting lamps 46 is reflected. Since the light is intercepted and reflected by the light guide plate 43 individually, the light absorption phenomenon generated between the light emitting lamps 46 is prevented, thereby reducing the light efficiency.

4 and 5, according to another modification of the present invention, the lamp reflecting cover 54 includes a first lamp reflecting cover 50 and a second covering each of the light emitting lamps 46, respectively. The lamp reflection cover 52 is formed, and the first lamp reflection cover 50 and the second lamp reflection cover 52 are bonded to each other by an adhesive 51 to prevent flow.

Of course, the flow prevention of the first lamp reflection cover 50 and the second lamp reflection cover 52 is possible by assembling and combining within the LCD module itself without using the adhesive 51.

Each of the first lamp reflection cover 50 and the second lamp reflection cover 52 has a thickness of 0.2 to 0.3 mm. This is because the distance between the light emitting lamps 46 can be minimized, thereby minimizing the thickness of the light guide plate 43 depending on the distance between the light emitting lamps 46.

In this way, each of the light emitting lamps 46 is covered with the first lamp reflecting cover 50 and the second lamp reflecting cover 52, so that the light generated from the respective light emitting lamps 46 reflects the first lamp, respectively. Since the light is reflected between the cover 50 and the second lamp reflection cover 52, the light absorption phenomenon between the light emitting lamps 46 is prevented, thereby improving light efficiency.

As such, by forming the reflecting portion between the light emitting lamps, the light absorption phenomenon generated between the light emitting lamps is prevented, thereby improving the light efficiency.

As described above, the present invention forms a reflector between two or more light emitting lamps installed in the lamp reflection cover to individually reflect light generated from each light emitting lamp to absorb light generated between the light emitting lamps. By preventing the light efficiency is improved.

1 is a plan view schematically showing an LCD module according to the prior art.

2 is a cross-sectional view taken along the line AA ′ of FIG. 1;

Figure 3 is a state diagram schematically showing the light flow of the light emitting lamp in the lamp reflection cover according to the prior art.

4 is a schematic cross-sectional view of an LCD panel according to the technique of the present invention;

5 is a perspective view schematically showing a modification of the lamp reflection cover according to the technique of the present invention.

Claims (4)

A mold frame for accommodating an LCD panel, a prism sheet, a diffusion sheet, a light guide plate, a reflection sheet, and the like; A reflection cover coupled to an upper surface and a lower surface of the light guide plate to surround a side surface of the light guide plate; At least two light emitting lamps disposed on the side surface of the light guide plate surrounded by the reflective cover; And And a reflector extending from the reflective cover to the light emitting lamps to prevent absorption of light generated by the light emitting lamp and spaced apart from the side surface of the light guide plate. The liquid crystal display of claim 1, wherein the reflective cover comprises a first reflective cover and a second reflective cover which are installed corresponding to the respective light emitting lamps. The liquid crystal display of claim 2, wherein the first reflective cover is coupled to the second reflective cover by an adhesive. The liquid crystal display device according to claim 2, wherein a thickness of the first reflective cover and the second reflective cover is 0.2 to 0.3 mm.