KR101859966B1 - Module for liquid crystal display - Google Patents

Abstract

According to an embodiment of the present invention, there is provided a liquid crystal display comprising: a light source; optical sheets disposed between the light source and the liquid crystal panel; and a light source disposed between the light source and the optical sheets, A cover case disposed under the light guide plate; a top case coupled to the cover bottom while surrounding the optical sheets and the side surface of the light guide plate; And a clip which couples the cover bottom and the top case with the side surface of the cover bottom interposed therebetween.

Description

A liquid crystal display module (Module for liquid crystal display)

The present invention relates to a liquid crystal display module constituting a liquid crystal display device.

BACKGROUND ART [0002] Liquid crystal display devices are becoming increasingly widespread due to features such as light weight, thinness, and low power consumption driving. This liquid crystal display device is used as a portable computer such as a notebook PC, an office automation device, an audio / video device, and an indoor / outdoor advertisement display device. A transmissive liquid crystal display device that occupies most of the liquid crystal display device controls an electric field applied to the liquid crystal layer to modulate light incident from the backlight unit to display an image.

The backlight unit is divided into a direct type and an edge type. The edge type backlight unit has a structure in which a light source is disposed so as to face the side face of the light guide plate and a plurality of optical sheets are disposed between the liquid crystal panel and the light guide plate. In the edge type backlight unit, a light source irradiates light to one side of a light guide plate, and a light guide plate converts a linear light source or a point light source into a planar light source and irradiates the liquid crystal panel. The direct-type backlight unit has a structure in which a plurality of light sources are disposed under the liquid crystal panel, and irradiates light diffused through the diffusion plate to the liquid crystal panel.

The backlight unit has a liquid crystal panel mounted thereon, which is wrapped with a case top and a bottom cover to constitute a liquid crystal display module. In order to reduce the size of the bezel, a liquid crystal display module having such a structure is manufactured by fastening a case top and a bottom cover by screwing (hereinafter, referred to as a top type) screws from above the case top, The case top and the bottom cover were tightened.

However, in the case of the top type, there is a limitation in reducing the size of the bezel due to the size of the screw head, and in the case of the side type, there is a limit in reducing the thickness of the liquid crystal display module due to the size of the screw head. As a result, there is a limitation in reducing the size of the bezel or slimming the product with the top or side-side fastening method as in the present embodiment.

The present invention provides a liquid crystal display module that is reduced in size of a bezel and reduced in thickness of a product.

According to an embodiment of the present invention, there is provided a liquid crystal display comprising: a light source; optical sheets disposed between the light source and the liquid crystal panel; and a light source disposed between the light source and the optical sheets, A cover case disposed under the light guide plate; a top case coupled to the cover bottom while surrounding the optical sheets and the side surface of the light guide plate; And a clip which couples the cover bottom and the top case with the side surface of the cover bottom interposed therebetween.

The liquid crystal display module may further include a housing, wherein the housing includes a supporting portion disposed between the cover bottom and the light guide plate and protruding toward the light guide plate, wherein the light guide plate has an edge surface supported by the supporting portion, do.

Wherein the cover bottom includes a first coupling hole formed in a space between the supporting portion and the cover bottom and a second coupling hole formed in a side wall of the cover bottom, And one end of the clip is fastened to the first engagement hole and the other end of the clip is fastened to the second engagement hole and the third engagement hole.

The third coupling hole is formed in a recess provided in the top case, or the light source is welded while standing on the housing.

The cover bottom includes a protrusion that is bent toward the light guide plate, and the edge plane of the light guide plate is supported by the protrusion.

The clip includes a bending portion protruding inward.

According to an embodiment of the present invention, a cover bottom for accommodating a light guide plate and an optical sheet, and a top case coupled to the light guide plate and the cover bottom while covering the side surface of the optical sheet are coupled to each other via a clip. Therefore, the cover bottom and the top case can be easily engaged, and the space occupied by the coupling means can be reduced, thereby reducing the size and thickness of the bezel of the apparatus.

1 is a schematic view for explaining an edge type backlight unit.
2 is a cross-sectional view of a liquid crystal display module according to a first embodiment of the present invention.
3 is a view for explaining how the cover bottom and the top case are coupled via a clip.
Figure 4 is a cross-sectional view of a clip having a bending portion.
5 is a cross-sectional view of a liquid crystal display module according to a second embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. Like reference numerals throughout the specification denote substantially identical components. In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 and 2 are views illustrating a liquid crystal display module according to an embodiment of the present invention. 1 and 2, the liquid crystal display module of the present invention includes a liquid crystal panel (PNL) and an edge type backlight unit disposed under the liquid crystal panel (PNL).

The liquid crystal panel (PNL) includes a liquid crystal layer formed between an upper glass substrate and a lower glass substrate and may be implemented in any liquid crystal mode.

The edge type backlight unit includes a light source LS, a light guide plate LGP, and a plurality of optical sheets OPS to uniformly distribute light from the light source LS through the light guide plate LGP and the optical sheets OPS And converts the light into a light of a planar light source type to supply the light to the liquid crystal panel (PNL).

The light source LS includes at least one light source of a lamp such as a light emitting diode (LED), a cold cathode fluorescent lamp (CCFL), and an external electrode fluorescent lamp (EEFL) . The light source LS is arranged to face the side (or the light entrance surface) of the light guide plate LGP and supplies light from the side of the light guide plate LGP. The light guide plate LGP is a transparent plate made of, for example, polymethacrylate (PMMA), which converts light from a point light source or a circular light source into a surface light source. The optical sheets OPS include one or more prism sheets and one or more diffusion sheets to diffuse the light incident from the light guide plate LGP and reflect light at an angle substantially perpendicular to the light incident surface of the liquid crystal panel PNL. Thereby refracting the traveling path of the lens.

The liquid crystal panel PNL and the backlight unit are assembled together as a guide panel 21, a housing 23, a cover bottom 25 and a case top 27 to be implemented as a liquid crystal module (LCM). At this time, the cover bottom 25 and the case top 27 are fastened with the clip 31.

The guide panel 21 supports the edge surface of the liquid crystal panel PNL below the edge including the side surface and the bottom surface of the liquid crystal panel PNL. The guide panel 21 also supports the liquid crystal panel PNL and maintains a constant gap between the liquid crystal panel PNL and the optical sheets OPS. The guide panel 21 is made of a plastic material which can be molded into a mold such as polycarbonate (PC).

The case top 27 surrounds the side surfaces of the guide panel 21 and the cover bottom 25 and is fastened to the cover bottom 25 with a clip 31. [ The case top 27 and the cover bottom 25 are made of a metal plate material such as an electro galvanized steel sheet EGI, stainless steel (SUS), galvalume SGLC, aluminum plated steel plate (aka ALCOSTA), tin plated steel plate Can be produced.

The housing 23 has an L-shaped cross section and is fixed to one side of the cover bottom 25. This housing 23 can be screwed to the cover bottom 25 and is made of an electrogalvanized steel sheet EGI, stainless steel (SUS), galvalume (SGLC), aluminum plated steel sheet (aka ALCOSTA) , A tin-plated steel sheet (SPTE), or the like. The housing 23 supports the light guide plate LGP by eliminating the step formed on the bottom surface of the cover bottom 25 and conveys the heat from the light source LS provided on one side to the cover bottom 25, .

Such a housing 23 includes a side wall 231 and a supporting portion 233. The side wall 231 of the housing 23 is in contact with the side wall 251 of the cover bottom 25 while being in contact with each other. The supporting portion 233 is disposed at a position facing the first coupling hole h1 to which the clip 31 is coupled and is formed by bending the clip 31 and protruding toward the light guide plate LGP. Accordingly, an empty space is provided between the supporting portion 233 and the first engaging hole h1 provided in the cover bottom 25. Therefore, when the clip 31 is engaged with the first engaging hole h1, it is possible to prevent the clip 31 from being interfered with by the housing 23. The upper surface of the support portion 233 is formed as a flat surface to support the edge surface of the light guide plate LGP from below.

On the other hand, a light source LS is disposed on the side wall 231 of the housing 23. Accordingly, the light source LS is disposed on the side surface of the light guide plate LGP to constitute an edge type backlight module. The light source LS may be coupled to the side wall 231 of the housing 23 via a heat radiation sheet or may be welded to the housing 23 when the side wall 231 is not formed.

The side wall 231 of the housing 23 provided with the light source LS is in contact with the side wall 251 of the cover bottom 25 as described above. Accordingly, the heat generated during the operation of the light source LS can be conducted to the cover bottom 25 through the housing 23, thereby directly radiating heat. Thus, the operation reliability of the light source LS can be secured.

The cover bottom 25 includes a first engaging hole h1 and a second engaging hole h2 to which the clip 31 is fastened. A third coupling hole h3 facing the second coupling hole h2 is formed in the top case 27 coupled to the side wall 251 of the cover bottom 25.

3 is a view for explaining how the top case 27 and the cover bottom 25 are fastened by the clip 31 according to the embodiment of the present invention.

As illustrated in FIG. 3, the cover bottom 25 is bent at its end to form an "L" shape. And a second coupling hole h2 is formed in the sidewall 251 formed by bending.

 The case top 27 has an L shape in cross section so as to be combined with the cover bottom 25 while wrapping the side of the optical sheet OPS and the light guide plate LGP housed in the cover bottom 25 . The side walls 271 of the case top 27 are engaged with each other while facing the side walls 251 of the cover bottom 25.

On the other hand, a side wall 271 of the case top 27 is provided with a recess 271a into which the clip 31 is inserted. A third coupling hole h3 is formed in the bottom surface of the recess 271a for coupling the clip 31. The third coupling hole h3 is formed in the bottom surface of the cover bottom 25, And faces the second engaging hole h2 provided in the cover bottom 25. [

On the other hand, the clip 31 has an L shape conforming to the sectional shape of the cover bottom 25. The clip 31 is engaged while covering the side surfaces of the case bottom 27 and the cover bottom 25 and one side of the clip 31 is engaged with the first engagement hole h1 provided at the bottom of the cover bottom 25 And the other is engaged over the second engagement hole h2 and the third engagement hole h3. Thus, the case top 27 and the cover tabs 25 are engaged with each other by the elastic force of the clip 31. At this time, since the clip 31 is seated on the recess 271a provided in the case top 27, the clip 31 is prevented from protruding out of the case top 27 due to mechanical interference, .

On the other hand, the clip 31 may have different lengths in the first direction and the second direction in consideration of the convenience of the coupling and the interference of the spatial mechanism. 2, the housing 23 and the cover bottom 25 are laminated in a first direction (y-axis direction in the figure), while a second direction (x-axis direction in the drawing) The cover bottom 25, the housing 23, and the light source LS are stacked to make it easier to utilize the space than the first direction. In consideration of this, the length of the clip 31 in the second direction is longer than the length in the first direction so that the clip 31 can be easily fastened, but free from the interference of the mechanism.

4 shows another embodiment in which the coupling force of the clip 31 is increased. As illustrated in Fig. 4, the clip 31 may further comprise a bending portion 31a. Such a bending portion 31a is formed by partially bending the leg of the clip 31 into the clip. When the clip 31 is fastened, the bending portion 31a acts so that an elastic force is directed to the outside of the clip, so that the binding force of the clip 31 is increased. That is, the clip 31 is engaged while enclosing the case top 27 and the cover bottom 25 on the side surfaces. Therefore, at this time, a binding force is generated toward the inside of the clip 31. The bending portion 31a serves as a shaft, and the leg is bent in an arcuate shape. The elastic force is added to the clip 31 so that the coupling force for the clip 31 to engage the case top 27 and the cover bottom 25 also increases.

5 shows a liquid crystal display module according to a second embodiment of the present invention. The second embodiment of FIG. 5 differs from the first embodiment in that the housing 23 supporting the light guide plate LGP is not used.

In Fig. 5, the cover bottom 25 is configured to include a bent projection 25a. The projecting portion 25a may be formed by pressing a part of the cover bottom 25 and projecting inward, and the upper surface thereof forms a flat bottom surface. Accordingly, even if there is a step on the bottom surface of the cover bottom 25, the light guide plate LGP can be supported without the housing, and the light guide plate LGP can be damaged due to the clip 31 coupled to the first engagement hole h1. Can also be prevented.

The light source LS is installed on the side wall 251 of the cover bottom 25. The light source LS is fixed to the side wall 251 of the cover bottom 25 via the heat radiation sheet hS so that the light source LS can be separated from the side wall 251 of the cover bottom 25 by a predetermined thickness have. This makes it possible to prevent the clip 31 fastened to the second engagement hole h2 and the third engagement hole h3 from directly contacting the light source LS.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

Claims (7)

A light source,
Optical sheets disposed between the light source and the liquid crystal panel,
A light guide plate disposed between the light source and the optical sheets to convert light from the light source into light of a planar light source type and to irradiate the light onto the optical sheets;
A cover bottom disposed under the light guide plate,
A top case coupled to the cover bottom while covering the optical sheets and side surfaces of the light guide plate,
And a clip for engaging the cover bottom and the top case while surrounding the side surface of the cover bottom and the side surface of the top case,
Wherein the cover bottom includes a first engaging hole formed on a bottom surface of the cover bottom and a second engaging hole formed on a side wall of the cover bottom,
Wherein the top case includes a third engaging hole formed at a position facing the second engaging hole,
Wherein one end of the clip is fastened to the first engagement hole and the other fastener is fastened to the second engagement hole and the third engagement hole. The method according to claim 1,
And a supporting part disposed between the cover bottom and the light guide plate and protruding toward the light guide plate,
Wherein the light guide plate has an edge surface supported by the supporting portion. 3. The method of claim 2,
The first coupling hole
And a liquid crystal display module formed in a space between the supporting part and the cover bottom. The method according to claim 1,
And the third coupling hole is formed in a recess provided in the top case. 3. The method of claim 2,
Wherein the light source is welded while being erected on the housing. The method according to claim 1,
Wherein the cover bottom includes a protrusion that is bent toward the light guide plate,
Wherein the light guide plate is supported on the edge surface by the protrusions. The method according to claim 1,
Wherein the clip includes a bending portion protruding inward.

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