KR0127886Y1 - Illumination system of liquid crystal module - Google Patents

Abstract

The present invention improves the improved lighting device of the liquid crystal module.

Conventionally, the peripheral portion of the light guide plate exhibits a luminance higher than that of the center portion by the reflective layer provided on the outer circumference thereof, resulting in uneven luminance of the liquid crystal display device.

In the present invention, the reflective layer and the light absorbing layer are provided on the outer circumference of the light guide plate at a predetermined ratio with respect to the thickness of the light guide plate, and the light absorbing layer absorbs a predetermined amount of light so as to be uniform on the entire light guide plate.

Description

LCD lighting device

1 is a cross-sectional view showing a conventional lighting device.

2 is a cross-sectional view showing another conventional lighting device.

3 is a cross-sectional view showing a lighting device according to the present invention.

FIG. 4 is a partial perspective view illustrating the light guide plate of FIG. 3.

* Explanation of symbols for main parts of the drawings

11 light guide plate 12 light source

14 reflective layer 15 light absorbing layer

L: Liquid Crystal Display

The present invention relates to a liquid crystal module, and more particularly, to an apparatus for illuminating a liquid crystal display (LCD).

LCD is an image display device using optical anisotropy in which molecules of liquid crystal materials are rearranged under an electric field or magnetic field to change its light transmittance and refractive index. It is possible to configure a small display device, which is attracting attention as a next generation display device.

Unlike other display devices, such LCDs are non-light-emitting type, and therefore, light must be properly irradiated for image display, and reflection type using reflection of ambient light and transmission type using back light according to the light irradiation method. And semi-permeable combinations thereof. Accordingly, the liquid crystal module using the transmissive and semi-transmissive LCD is provided with a lighting device for light irradiation.

1 shows an example of such a lighting device. It is provided with a light guide plate (1) for diffusing light on the back of the LCD (L), the light source (2) to one side of the light guide plate (1) is fixed to the circuit board (PCB) by a holder (H) It is wrapped in a cover (5). The lower surface of the light guide plate 1 is provided with a reflective layer 3 for improving the brightness, and the upper portion is provided with a diffusion plate 4 for increasing its diffusion efficiency.

However, in the conventional lighting device, since the outer circumference of the light guide plate 1 is exposed to the outside, the light is lost through the light source 2 so that the brightness of the LCD L is set to be lower than the intensity. Increasing the intensity causes a problem of increased power consumption.

In order to solve such a problem, the present applicant has a lighting device of a liquid crystal module having a reflective layer 6 on the outer circumference of the light guide plate 1 except the incident side of light in the configuration of FIG. Subsequent revision) is filed on the same date as the present application.

However, in such an illumination device, since the light to be lost at the outer circumference of the light guide plate 1 is re-entered into the light guide plate 1 by the reflective layer 6, the overall luminance of the LCD L is increased by the same intensity of the light source 2. As a result, the reentrant light is concentrated at the periphery thereof, so that the luminance of the periphery is relatively higher than that of the central part. According to the inventor's consideration, the periphery of the light guide plate 1 was measured to exhibit about 10% higher luminance than the central portion. Therefore, the conventional lighting device causes the luminance unevenness of the LCD L, so that its quality and reliability cannot be guaranteed.

It is an object of the present invention to provide an illumination device of a liquid crystal module that can prevent luminance unevenness of a light guide plate by a reflective layer in view of such a conventional problem.

In order to achieve the above object, the lighting apparatus of the liquid crystal module according to the present invention includes a light source and a light guide plate for diffusing light of the light source, wherein the reflective layer and the light absorbing layer are formed on the outer circumference of the light guide plate. It is characterized in that attached to a predetermined ratio with respect to the thickness of.

According to one preferred feature of the present invention, the reflecting layer and the light absorbing layer are configured at a ratio of approximately 9: 1.

The present invention is effective in improving the quality of the liquid crystal module because the light absorbing layer absorbs a predetermined amount of light from the outer circumference of the light guide plate to suppress the luminance unevenness of the light guide plate as much as possible.

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

3 and 4, the illumination device of the liquid crystal module according to the present invention is a light guide plate 11 of transparent acrylic material for diffusing light on the back of the LCD (L) which is fixed to the circuit board (PCB) by the holder (H). ) Is provided, and a light source 12 for irradiating light is provided on the outer circumferential side of the light guide plate 11. Around the light source 12, a cover 15 for protecting the light source 12 is installed to surround the light source 12. The cover 15 protects the light source 12 and at the same time blocks the loss of light irradiated therefrom. Preferably, it is itself composed of a reflector or provided with a separate reflector on the inner surface.

The lower surface of the light guide plate 11 is formed with a reflective layer 13 to increase the brightness of the LCD (L), the upper portion is provided with a diffusion plate 14 for increasing its light diffusion efficiency.

On the other hand, the remaining outer circumference of the light guide plate 11 is provided with a reflective layer 16 for increasing the brightness of the light absorbing layer 17 and the light guide plate 11 absorbing a predetermined amount of light according to the characteristics of the present invention It is dispersed and attached at a predetermined ratio to the thickness. The ratio of the reflective layer 16 and the light absorbing layer 17 is set to a ratio that can minimize the luminance difference between the peripheral portion and the center portion of the light guide plate 11 as conventionally, in the present embodiment based on the consideration of the present inventors When the thickness of (11) is 10, the reflective layer 16 and the suction layer 17 are constituted in a ratio of approximately 9: 1. That is, according to the measurement of the present inventors, the periphery of the conventional light guide plate 11 exhibited about 10% higher luminance than the center portion, so that the width of the light absorbing layer 17 was about 1/10 of the thickness of the light guide plate 11. By setting the degree, the light of the excess luminance of the periphery of the conventional light guide plate 11 is absorbed.

On the other hand, the position of the light absorbing layer 15 may be the upper, lower, or middle portion of the outer circumference of the light guide plate 11, in view of the user's viewpoint, the light guide plate 11 is located on the back of the LCD (L), so It is preferable to construct. That is, when the light absorbing layer 17 is attached to the lower portion or the middle portion of the light guide plate 11, the light absorbing layer 17 is located at the rear side of the reflecting layer 16 at the user's point of view. The light re-entered by the reflective layer 16 located at is incident as it is, and the periphery of the light guide plate 11 is still regarded as having a somewhat higher luminance than the center portion. On the other hand, when the light absorbing layer 17 is positioned above the outer circumference of the light guide plate 11 as in the present exemplary embodiment, the light absorbing layer 17 is positioned in front of the reflective layer 16 at the user's point of view.

Thus, according to the present invention, since a predetermined amount of light is absorbed by the light absorbing layer, the luminance increase of the peripheral portion of the light guide plate by the reflecting layer is effectively prevented as in the prior art. Accordingly, while the overall brightness of the light guide plate is increased, the LCD is illuminated with uniform brightness at all levels.

Therefore, the present invention has the effect of improving the quality and reliability of the liquid crystal module.

Claims (3)

In the illuminating device of a liquid crystal module having a light source and a light guide plate for diffusing light of the light source, the reflective layer 16 and the light absorbing layer 17 on the outer circumference of the light guide plate 11 with respect to the thickness of the light guide plate 11. Illumination apparatus of a liquid crystal module, characterized in that provided at a predetermined ratio. The illuminating device according to claim 1, wherein the ratio of the reflective layer (16) to the light absorbing layer (17) is approximately 9: 1. The illuminating device according to any one of claims 1 to 3, wherein the light absorbing layer (17) is located on the outer circumference of the light guide plate (11).