KR100448508B1 - Backlight device structure of an lcd module, specially regarding to forming a predetermined reflection preventing film in a rib area of a mold frame - Google Patents

Abstract

PURPOSE: A backlight device structure of an LCD module is provided to print a surface of a rib area of a mold frame with black ink, and to totally cut off residual images of a rib reflecting on an LCD panel, thereby preventing a reflecting plate from being transformed and improving optical uniformity. CONSTITUTION: A reflection preventing film(10b) is coated in a rib area(10a) of a mold frame(10) to cut off light transmitted to a specific area of an LCD panel(7) corresponding to the rib area(10a) of the mold frame(10). The reflection preventing film(10b) is coated on a front side of the LCD panel(7) of the rib area(10a) instead of a rear side of the rib area(10a).

Description

Backlight structure of LCD module

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a backlight device of an LCD (Liquid Crystal Display (LCD) module), and more particularly, to forming a predetermined anti-reflection film in a rib area of a mold frame, thereby forming a mold frame reflected on an LCD panel. It relates to a backlight device structure of the LCD module to properly remove the afterimage.

In recent information society, the development of LCD module is developing remarkably and its role is also getting bigger.

However, since the LCD module is a light-receiving element that does not emit light by itself, a backlight device for supplying light is absolutely required in a commonly used transmissive LCD module. The backlight device is largely composed of a light guide plate, a lamp structure, and a mold frame. It is mounted on the back of the LCD panel and contributes greatly to the appearance quality of the LCD module.

1 is a cross-sectional view schematically showing the structure of a backlight device of a conventional LCD module that performs this function, FIG. 2 is a front view of FIG. 1, and FIG. 3 is a perspective view thereof.

As shown in FIG. 1, a diffuser plate 4 is attached to a front surface of the light guide plate 3 to improve uniformity of brightness, and a reflector plate 5 capable of reflecting light is attached to a rear surface thereof. The mold frame 6 is installed by extending from one side of the light guide plate 3 to the rear surface of the reflector plate 5.

In addition, the lamp (2) for emitting light is formed along the other side of the light guide plate (3), the lamp reflector (1) wraps the lamp (2) in a semi-circular shape so that the light emitted from the lamp (2) does not flow out have.

In the backlight device of the conventional LCD module having such a structure, the light emitted from the lamp 2 is reflected by the lamp reflector 1 surrounding the lamp 2 and is incident into the light guide plate 3 or directly into the light guide plate 3. Incident inside.

As such, light incident on the light guide plate 3 is reflected to the LCD panel 7 through the diffuser plate 4, and some of the light, for example, about 5%, passes through the rear surface of the reflector plate 5.

However, at this time, the light passing through the rear surface of the reflector 5 is reflected by ribs 6a of the mold frame 6 and enters the reflector 5 again. As a result, as shown in FIG. 2, the ribs 6a are brightly seen when viewed from the front of the LCD panel 7, thereby causing a problem that the overall optical uniformity of the LCD module is reduced.

Accordingly, in the conventional case, as shown in FIG. 3, the black ink 5a is printed and coated on the rear surface of the reflecting plate 5, thereby absorbing the residual image of the rib 6a, thereby allowing the LCD panel ( 7) It is preventing the issue where the rib shines brightly.

However, there are some serious problems with the backlight device of the conventional LCD module having such a structure.

First, as described above, black ink is printed and coated on the rear surface of the reflecting plate to absorb the residual image of the ribs, so that the LCD panel has a high temperature / high humidity, for example, a temperature of 37 ° C. to 43 ° C. and 90%. When operating at a humidity of the, the deformation of the reflector is triggered, there is a problem that the quality of the entire LCD module is sharply reduced.

Second, even if black ink is printed and coated on the reflector in this way, when the brightness of the lamp is increased, the afterimage of the mold frame is brightly reflected on the LCD panel, and thus there is a serious problem that the optical uniformity of the LCD module is rapidly reduced. .

Third, due to such a decrease in the uniformity, there is a serious problem that the appearance quality of the product is sharply lowered by lowering the luminance characteristics of the whole product.

Accordingly, an object of the present invention is to print black ink on the surface of the rib region of the mold frame instead of the conventional reflector, and to block the residual image of the rib reflected on the LCD panel, thereby preventing deformation of the reflector in high temperature / high humidity operation. It is to provide a backlight structure of the LCD module.

In addition, another object of the present invention, as described above, by printing a black ink on the surface of the rib region of the mold frame, thereby preventing the non-sintering of the residual image of the rib through it, thereby improving the optical uniformity of the whole device, As a result, it is to provide a backlight structure of the LCD module that can properly improve the appearance quality of the product.

1 is a cross-sectional view schematically showing the structure of a backlight device of a conventional LCD module.

2 is a plan view of FIG.

3 is a perspective view of FIG. 1;

Figure 4 is a perspective view schematically showing the structure of a backlight device of the LCD module according to the present invention.

The present invention for achieving the above object is a lamp reflecting plate wrapped around the lamp, a plurality of reflecting dots are formed on one side of the lamp reflecting plate and formed on the lower surface to guide the light incident from the lamp and the lamp reflecting plate A light guide plate, a reflection plate installed under the light guide plate to reflect light leaked from the light guide plate, a mold frame extending from a side of the light guide plate to a predetermined portion of the light guide plate, and installed on the light guide plate, A backlight module of an LCD module including a diffuser plate for diffusing and condensing guided light, wherein the rib area of the mold frame is blocked so that light transmitted to a specific area of the LCD panel corresponding to the rib area of the mold frame is blocked. It characterized in that the anti-reflection film is coated.

Preferably, the anti-reflection film is coated on the entire LCD panel side of the rib region.

Preferably, the anti-reflection film is coated by a roll coating method.

Preferably, the coating thickness of the anti-reflection film is characterized in that 1mm-2mm.

More preferably, the coating thickness of the anti-reflection film is characterized in that 1.5mm.

Accordingly, in the present invention, the deformation of the reflector is prevented in advance, and the phenomenon that the rib region of the mold frame is reflected on the LCD panel is prevented.

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

4 is a perspective view schematically showing the structure of a backlight device of the LCD module according to the present invention.

As shown, in the backlight unit structure of the LCD module according to the present invention, the mold frame may be blocked so that light transmitted to a specific area of the LCD panel 7 corresponding to the rib 10a area of the mold frame 10 may be blocked. The anti-reflection film 10b is coated on the rib 10a region of the 10.

At this time, preferably, the anti-reflection film 10b is coated on the entire surface of the LCD panel 7 side of the rib 10a region, not the rear surface of the rib 10a region. Accordingly, the light reflection prevention function of the antireflection film 10b obtains a better effect. Conventional ink or the like may be used as the anti-reflection film 10b.

Here, according to the feature of the present invention, the anti-reflection film 10b is coated by a roll coating method. Accordingly, the anti-reflection film 10b may maintain a uniform thickness throughout the entire area to be coated.

Further, according to a feature of the present invention, the coating thickness of the antireflection film 10b is maintained at 1 mm-2 mm, more preferably 1.5 mm. Thereby, the afterimage of the rib 10a of the mold frame 10 reflected on the LCD panel 7 is appropriately removed. The coating thickness of this anti-reflection film 10b may be appropriately selected depending on the aperture of the LCD panel 7.

At this time, the anti-reflection film 10b maintains the color of the gray to black system with high light absorption.

Hereinafter, the operation of the invention having this structure will be described in more detail.

First, light emitted from the lamp 2 is transmitted to the light guide plate 3.

At this time, as described above, the anti-reflection film 10b is formed in the rib 10a area of the mold frame 10, and thus, the light reflected toward the LCD panel 7 corresponding to the rib 10a area is Shut off properly.

In the conventional case, ink was printed on the reflecting plate to prevent such non-incidence of the rib area, and as a result, a problem arises that deformation of the reflecting plate is triggered when the LCD panel performs a high temperature / high humidity operation.

In addition, in the conventional case, even though ink is printed on the reflecting plate, when the brightness of the lamp is increased, a serious problem that the rib area is reflected on the LCD panel has been caused.

However, in the case of the present invention, as described above, the antireflection film 10b is coated on the rib 10a area of the mold frame 10 instead of the reflecting plate 5, so that the total amount of light reflected by the rib 10a area is reflected. By blocking and absorbing, deformation of the reflecting plate 5 can be prevented beforehand.

In addition, in the present invention, the rib 10a region of the mold frame 10 is uncoated beforehand with the antireflection film 10b, and the light reflected from the rib 10a area is blocked entirely by the antireflection film 10b. By absorbing, the non-penetration phenomenon of the residual image of the rib 10a caused by the increase in the brightness of the lamp 2 can be canceled and removed as appropriate.

As described above, in the present invention, by coating the anti-reflection film on the rib region of the mold frame, the afterimage of the ribs reflected on the LCD panel can be remarkably removed, whereby the optical uniformity of the entire apparatus can be adequately secured.

In addition, by ensuring the uniformity of the device, the appearance quality can also be significantly improved.

This invention exhibits useful effects throughout LCD modules of all types to be manufactured in production lines.

And while certain embodiments of the invention have been described and illustrated, it will be apparent that the invention may be embodied in various modifications by those skilled in the art.

Such modified embodiments should not be understood individually from the technical spirit or point of view of the present invention and such modified embodiments should fall within the scope of the appended claims of the present invention.

As described in detail above, in the backlight unit structure of the LCD module according to the present invention, by printing black ink on the surface of the rib region of the mold frame instead of the conventional reflector, by blocking all the residual image of the rib on the LCD panel, In the high temperature / high humidity operation of the LCD panel, the deformation of the reflector can be prevented in advance, and second, the optical uniformity of the entire device can be appropriately improved.

Claims (5)

A lamp reflector surrounding the lamp, a light guide plate inserted into one side of the lamp reflector, and a plurality of reflecting dots formed on a lower surface of the lamp reflector to guide light incident from the lamp and the lamp reflector; A reflection plate reflecting light leaking from the light guide plate, a mold frame extending from one side of the light guide plate to a predetermined portion of the light guide plate, and a diffusion plate installed on the light guide plate to diffuse and collect light guided from the light guide plate. In the backlight device of the LCD module comprising: And an anti-reflection coating is coated on the rib area of the mold frame so that light transmitted to a specific area of the LCD panel corresponding to the rib area of the mold frame is blocked. The backlight structure of an LCD module according to claim 1, wherein the anti-reflection film is coated on the entire surface of the rib panel toward the LCD panel. The backlight structure of an LCD module according to claim 1, wherein said anti-reflection film is coated by a roll coating method. The backlight structure of an LCD module according to claim 1, wherein the coating thickness of the anti-reflection film is 1mm-2mm. 5. The back light device structure of claim 4, wherein the coating thickness of the anti-reflection film is 1.5 mm.

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