KR101230325B1 - Liquid crystal display device module - Google Patents

Abstract

The present invention relates to a liquid crystal display module, and more particularly, to a ground portion of a lamp housing.

A feature of the present invention is to configure a "U" shaped grounding portion protruding from both ends of the lower surface of the lamp housing, and the "U" shaped grounding portion is fastened to the cover bottom through a screw.

As a result, there is an effect of solving the problem of the increase in the process cost and the production yield, which is generated by using the conductive tape, which is a conventional lamp housing grounding method, and the effect of solving problems such as poor grounding.

In addition, there is an effect that can prevent damage to the optical sheet by the heat generated in the fluorescent lamp.

Lamp Housing, Grounding, Cover Bottom, LCD

Description

Liquid crystal display device module

1 is an exploded perspective view schematically showing a structure of a general liquid crystal display module.

2A is a cross-sectional view of FIG. 1.

FIG. 2B is a schematic illustration of the back side of FIG. 1; FIG.

3 is an exploded perspective view schematically showing a structure of a liquid crystal display module according to an embodiment of the present invention.

4 is a view schematically showing the structure of the lamp housing of FIG.

FIG. 5 is a schematic illustration of the rear surface structure of the lamp housing of FIG. 4; FIG.

<Description of the symbols for the main parts of the drawings>

111: liquid crystal panel 113: top case

115: flexible circuit board 117: printed circuit board

120: backlight unit 121: optical sheet

123: light guide plate 125: reflecting plate

127: support main 129: fluorescent lamp

133: lamp housing 135: cover bottom

The present invention relates to a liquid crystal display module, and more particularly, to a ground portion of a lamp housing.

The image realization principle of a general liquid crystal display device uses the optical anisotropy and polarization property of the liquid crystal. The liquid crystal has a thin and long molecular structure and polarization in which the direction of the molecular array changes according to its size when placed in an electric field and an anisotropy having an orientation in the array. It has a nature. The liquid crystal display is an essential component of a liquid crystal panel composed of a pair of transparent insulating substrates, each having a liquid crystal layer interposed therebetween, and having a field generating electrode formed therebetween. Various images are displayed by artificially adjusting the arrangement direction of the molecules and using the light transmittance which is changed at this time.

Since the liquid crystal panel does not have a light emitting element, it requires a separate light source. As a result, a backlight unit having a fluorescent lamp is provided on the rear surface to irradiate light toward the front of the liquid crystal panel, thereby realizing an image of identifiable luminance.

1 is an exploded view schematically illustrating a structure of a general liquid crystal display module.

The general LCD module includes a liquid crystal panel 11, a backlight unit 20, a support main 27, a cover bottom 35, and a top case 13.

That is, as shown in the figure, the backlight unit 20 and the liquid crystal panel 11 are stacked on the upper surface of the support main 27 having a rectangular frame shape, and the shape of the support main 27 is prevented. The cover bottom 35 is coupled along the rear surface of the one open edge of the support main 27, and the top case 13 bordering the edge of the liquid crystal panel 11 is fixed to the support main 27 to fix all of them. ) And the cover bottom 35 is assembled and fastened.

At this time, a printed circuit board 17 connected through a flexible printed circuit board 15 is connected along at least one side of the liquid crystal panel 11, and the backlight unit 20 is connected to the backlight unit 20. A fluorescent lamp 29 including a lamp holder 31 at both ends and arranged along an inner side of the opened one edge of the support main 27 and a white or silver sheet interposed on the upper surface of the support main 27. The reflection plate 25, the light guide plate 23 mounted on the reflection plate 25, and a plurality of optical sheets 21 covering the same are included.

One side of the reflective plate 25 is provided with a lamp housing 33 for guiding the fluorescent lamp 29, the printed circuit board 17 is bent to the back cover cover 35 is configured.

In the printed circuit board 17 mounting the driving integrated circuit, electromagnetic waves are generated due to the use of high frequency, and in the liquid crystal display module, a fluorescent lamp mounted inside the liquid crystal display module to display an image. (29) is to be driven. In order to drive the fluorescent lamp 29, a high voltage AC voltage is used.

At this time, the electromagnetic induction phenomenon is generated by the high voltage applied to drive the fluorescent lamp 29, the electromagnetic wave is generated in the lamp housing 33 in contact with the fluorescent lamp 29.

In addition, the top case 13 is a metal material which is seated on the liquid crystal panel 11 and is in contact with the liquid crystal panel 11. The top case 13 also has an interference with the liquid crystal panel 11. Electromagnetic waves are generated.

The above-mentioned electromagnetic waves act as wave noise and periodic noise, thereby disturbing operating characteristics of the liquid crystal display device.

Therefore, in order to prevent the electromagnetic waves, the printed circuit board 17, the lamp housing 33, and the top case 13 are shielded from electromagnetic waves by grounding through a metal module.

FIG. 2A is a schematic cross-sectional view of the cross section of FIG. 1. FIG.

As illustrated, a plurality of optical sheets 21 including a reflecting plate 25, a light guide plate 23, and a diffusion plate are stacked therein, and a fluorescent lamp 29 configured at one side of the light guide plate 23. In addition, a lamp housing 33 for guiding the fluorescent lamp 29, a support main 27 supporting the liquid crystal panel 11, and a cover bottom 35 are coupled to the rear surface thereof, and the edge of the liquid crystal panel 11 is combined. The top case 13 bordering the support main 27 and the cover bottom 35 is coupled.

The printed circuit board 17 formed at one side of the liquid crystal panel 11 is bent to the rear surface of the cover bottom 35.

In this case, the lamp housing 33 is grounded through the cover bottom 35 and the conductive tape 40 to prevent electromagnetic waves, and the top case 13 is hooked on the cover bottom 35 and the side surface. Due to the assembly and fastening is grounded.

In addition, as shown in FIG. 2B, the printed circuit board 17 is bent to the rear of the cover bottom 35 to be grounded by fastening the cover bottom 35 and the screw 45.

However, as described above, the conductive tape 40 used for grounding has a disadvantage in that it cannot be reused because the adhesive strength is decreased during the reassembly process, thereby increasing the process cost and lowering the production yield. There is a problem in that wave noise and periodic noise occur.

The present invention is to solve the above problems, and to improve the grounding structure of the lamp housing to reduce the process cost and production yield, and to solve the problems caused by poor grounding.

In order to achieve the object as described above, the present invention is covered cover; A support main formed on the cover bottom and having at least one edge open; A lamp housing which is arranged in the longitudinal direction at an open edge of the support main, a lamp housing which guides the fluorescent lamp and includes a “U” shaped grounding portion; A backlight unit including a reflective plate, a light guide plate, and a plurality of optical sheets sequentially formed on the cover bottom; A liquid crystal panel mounted on the backlight unit; And a top case which is edged to the edge of the liquid crystal panel and is assembled to the support main and the cover bottom, wherein the “U” shaped grounding portion extends from both ends of the bottom surface of the lamp housing and the bottom surface. It provides a liquid crystal display module including a second connecting portion protruding outwardly of the lamp housing vertically from the first connecting portion so as not to face the first and the third connecting portion of the "U" shape formed at one end of the second connecting portion. do.
At this time, the lamp housing is composed of the lower surface and the upper surface, and the outer surface perpendicular to the upper and lower surfaces, characterized in that the "U" shaped ground portion of the protruding structure is configured at both ends of the lower surface, The "U" shaped grounding unit is characterized in that the ground through the cover bottom and screw fastening.
The printed circuit board is bent to the bottom of the cover bottom, and grounded by screwing the cover bottom, and the top case is grounded by assembling and grounding due to the cover bottom and a hook. It is done.
The cover bottom and the "U" shaped grounding part are grounded through the screw fastening, and the support main is assembled and fastened with the cover bottom, and the screw has the cover bottom and the support main and the "U" shaped. Penetrates through the third connection.

delete

delete

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

3 is a diagram schematically illustrating a structure of a liquid crystal display module according to an exemplary embodiment of the present invention.

The LCD module includes a liquid crystal panel 111, a backlight unit 120, a support main 127, a cover bottom 135, and a top case 113.

That is, as shown in the figure, the backlight unit 120 and the liquid crystal panel 111 are superimposed on the upper surface of the support main 127 having a rectangular frame shape, and the shape of the support main 127 is prevented. The cover bottom 135 is coupled along the rear surface of the one open edge of the support main 127, and the support case 127 is provided with a top case 113 bordering the edge of the liquid crystal panel 111 to fix all of them. And cover cover 135 and assembly fastening.

At this time, a printed circuit board 117 connected through a flexible printed circuit board 115 is connected along at least one side of the liquid crystal panel 111, and the printed circuit board 117 is connected. ) Is bent to the back of the cover bottom 135 is configured.

The backlight unit 120 is arranged along the length direction inside the opened one edge of the support main 127, and interposed with the fluorescent lamp 129 including the lamp holder 131 at both ends and the upper surface of the support main 127. It includes a reflector plate 125 of the white or silver sheet, the light guide plate 123 is mounted on the reflector plate 125 and a plurality of optical sheets 121 covering them.

In addition, one side of the reflector plate 125 is provided with a lamp housing 133 for guiding the fluorescent lamp 129, the ground portion is formed at both ends of the lamp housing 133.

4 is a view schematically showing the structure of the lamp housing of FIG.

As shown, the lamp housing 133 has a structure in which one surface is opened in order to emit light F, and a fluorescent lamp (129 of FIG. 4) is mounted therein so that the top and bottom of the fluorescent lamp (129 of FIG. 4) are mounted. And a lower surface, an upper surface parallel to the lower surface, and an outer surface perpendicular to the lower surface and the upper surface to guide the outer side.

In addition, at both ends of the lower surface of the lamp housing 133, a "U" shaped grounding portion having a protruding structure is formed.

FIG. 5 is a view schematically illustrating a rear surface of a grounding structure of a lamp housing having a “U” shaped grounding portion of FIG. 4, wherein the cover bottom 135 and the U ”shaped grounding portion of the lamp housing 133 are fastened with screws. As a result, the lamp housing 133 is grounded.

The screw is a screw configured to be fastened to the liquid crystal display module by fastening the cover bottom 135 to the support main 127. The number of screws that are conventionally used does not change, and the lamp housing 133 in the related art. Since the conductive tape used for grounding is not used, the process cost can be reduced.

In addition, since the fluorescent lamp (129 of FIG. 4) mounted inside the lamp housing 133 emits a large amount of heat around the fluorescent lamp, an optical component is formed on the fluorescent lamp (129 of FIG. 4). Wrinkles occur in the sheet (121 of FIG. 4). However, by contacting the lamp housing 133 and the cover bottom 135, the heat conduction to the cover bottom 135 can be prevented from occurring.

At this time, the electromagnetic wave generated in the printed circuit board (117 of FIG. 4) is grounded by fastening a screw to the back of the cover bottom 135, the top case 113 is a hook formed on the cover bottom 135 and the side ( It is grounded by assembling and fastening by hook.

As described above, by forming a "U" shaped grounding portion protruding from both ends of the lower surface of the lamp housing 133, the reassembly process is easy, wave noise and periodic noise due to poor grounding This can solve problems.

The present invention is not limited to the above embodiments, and various modifications can be made without departing from the spirit of the present invention.

As described above, according to the present invention by forming a "U" shaped grounding portion of the structure protruding on both ends of the lower surface of the lamp housing, the lamp housing using a conventional screw without using a conventional conductive tape Since it can be grounded, the reassembly process is easy to reduce the process cost and increase the production yield, there is an effect that can solve problems such as wave noise (Noise) and periodic noise due to poor grounding.

In addition, there is an effect that can prevent damage to the optical sheet by the heat generated in the fluorescent lamp.

Claims (7)

Covertum; A support main formed on the cover bottom and having at least one edge open; A lamp housing which is arranged in the longitudinal direction at an open edge of the support main, a lamp housing which guides the fluorescent lamp and includes a “U” shaped grounding portion; A backlight unit including a reflective plate, a light guide plate, and a plurality of optical sheets sequentially formed on the cover bottom; A liquid crystal panel mounted on the backlight unit; A top case rim of the liquid crystal panel and assembled to the support main and cover bottom Wherein the “U” shaped grounding portion protrudes outwardly of the lamp housing vertically from the first connection portion so as not to face the first connection portion and the lower surface extending from both ends of the lower surface of the lamp housing. And a third connection portion having a “U” shape formed at one end of the second connection portion and the second connection portion, wherein the “U” shaped ground portion is grounded through the screwing with the cover bottom and the screw is connected with the cover bottom. And a support U and a support main and a cover bottom are assembled to each other by penetrating through the support main and the third connection part of the “U” shape. The method of claim 1, The lamp housing includes the lower surface, an upper surface facing the lower surface, the upper surface, and an outer surface perpendicular to the lower surface, and both ends of the lower surface of the “U” shaped protruding portion protrude. Liquid crystal display module, characterized in that configured. delete The method of claim 1, And a printed circuit board bent to the bottom of the cover bottom and grounded through the screw fastening with the cover bottom. The method of claim 1, And the top case is grounded by assembling and fastening due to the cover bottom and a hook. delete delete

Images