KR101203451B1 - Liquid crystal display device module - Google Patents

Abstract

The present invention relates to a backlight unit for a liquid crystal display device, and more particularly to a method of fixing a light guide plate.

A feature of the present invention is to further constitute a film in which silver (Ag) is deposited on an adhesive double-sided tape for fixing the light guide plate on the support main.

Thus, there is an effect of improving the problem that the brightness of the light guide plate incident light portion, which is generated when the light guide plate is attached to the support main using a conventional general adhesive double-sided tape.

Light guide plate, support main, adhesive double sided tape, liquid crystal display device.

Description

Liquid crystal display device module

1 is an exploded perspective view schematically showing a support main and a backlight unit;

FIG. 2 is a cross-sectional view schematically illustrating a state in which a liquid crystal display module including FIG. 1 is assembled and fastened. FIG.

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

4 is a cross-sectional view schematically illustrating a state in which the liquid crystal display module of FIG. 3 is assembled and fastened.

FIG. 5 is a view schematically showing the structure of a double-coated adhesive tape on which silver (Ag) deposited films are formed;

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

110: support main 122: reflector

126: light guide plate 128: optical sheet

130 liquid crystal panel 140 cover cover

150: top cover

152: adhesive double-coated tape with a film deposited silver (Ag)

The present invention relates to a backlight unit for a liquid crystal display device, and more particularly to a method of fixing a light guide plate.

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.

In addition, a general liquid crystal display device is modularized to prevent light loss in addition to the protection of the liquid crystal panel and the backlight unit, and FIG. 1 is a schematic diagram of a support main and a backlight unit for modularizing the backlight unit. Exploded perspective view.

The backlight unit (not shown) includes a fluorescent lamp (not shown) arranged along the inner longitudinal direction of the support main 10, and a lamp housing 33 for guiding the fluorescent lamp (not shown). 10) a reflection plate 22 of a white or silver sheet interposed on an upper surface, a light guide plate 26 seated on the reflection plate 22 and fixed by the support main 10, and a plurality of optical sheets 28 covering the same. ).

In this case, the light guide plate 26 is fixed through the support main 10 and an adhesive double-sided tape (not shown), which will be described in more detail with reference to FIG. 2.

As shown in FIG. 2, the backlight unit (not shown) is framed and modularized by the support main 10. That is, the backlight unit (not shown) includes a fluorescent lamp (not shown) and the fluorescent lamp (not shown). A lamp housing (not shown) for guiding the plurality of lamp housings is arranged along the longitudinal direction of the support main 10, and at one side of the fluorescent lamp (not shown), a reflecting plate 22, a light guide plate 26, and a plurality of optical sheets ( 28) are stacked in order and bordered.

In this case, the light guide plate 26 is composed of a light incident portion provided with the fluorescent lamp (not shown) is thick and thinner toward the farther away from the fluorescent lamp (not shown), both sides for adhesion to the side of the light incident portion The tape 52 is fixed to the support main 10 without flow.

However, such a double-sided tape 52 for adhesion is generally black, and absorbs the light that reaches the light incident portion of the light guide plate 26.

As a result, the luminance near the light incident part of the light guide plate 26 is lowered, resulting in a darker color.

The present invention is to solve the above problems, the first object is to effectively fix the light guide plate.

Moreover, it is a 2nd objective to improve the problem that the brightness of the light incident part of a light guide plate falls.

In order to achieve the object as described above, the present invention is covered covertum; A support main formed on the cover bottom; A fluorescent lamp arranged in a longitudinal direction at one edge of the support main, and a lamp housing for guiding the fluorescent lamp; A backlight unit including a reflective plate and a light guide plate sequentially formed on the cover bottom, and a plurality of optical sheets; A liquid crystal panel mounted on the backlight unit; A liquid crystal display module including a top cover bordering an edge of the liquid crystal panel and assembled to the support main and the cover bottom, and further comprising a film on which silver (Ag) is deposited to fix the light guide plate to the support main. To provide.

The adhesive double-coated tape is composed of an insulating layer on both sides of the film on which silver (Ag) is deposited and an adhesive part respectively formed on the outside of the insulating layer, and the light guide plate is configured to receive light emitted from a light source. And a light incident part, and a light incident part thinner as it moves away from the light incident part.

In addition, the adhesive double-sided tape is characterized in that attached to the side of the light incident portion of the light guide plate.

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

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

As shown, the liquid crystal display module includes a liquid crystal panel 130, a backlight unit 120, a support main 110, a cover bottom 140, and a top cover 150.

That is, the backlight unit 120 and the liquid crystal panel 130 are stacked on the upper surface of the support main body 110 having a rectangular frame shape, and the cover bottom 140 is coupled along the rear surface of the support main 110. And the top cover 150 to the edge of the liquid crystal panel 130 to be fixed to both of the support main 110 and the cover bottom 140 is assembled and fastened.

The liquid crystal panel 130 is connected to the driving circuits 134a and 134b through at least one edge of the flexible circuit board 132 to the side of the support main 110 or the back cover 140 in the modularization process. The driving circuits 134a and 134b are respectively moved to the gate driving circuit 134b and the data lines (not shown) to scan-transfer the on / off signal of the thin film transistor to the plurality of gate lines (not shown). It is divided into a data driver circuit 134a which transmits an image signal for each frame and is connected to two adjacent edges of the liquid crystal panel 130, respectively.

Therefore, when the thin film transistor selected for each gate line is turned on by the on / off signal voltage of the gate driver circuit 134b which is scanned and transmitted, the signal voltage of the data driver circuit 134a is transferred to the corresponding pixel electrode through the data line. As a result, the arrangement direction of the liquid crystal molecules is changed by the vertical electric field between the pixel electrode and the common electrode, indicating a difference in transmittance.

The backlight unit 120 arranges fluorescent lamps 124 including lamp holders at both ends of the support main 110 along an inner side of one edge of the support main 110, and a white or silver sheet interposed on the upper surface of the support main 110. The reflective plate 122 includes a light guide plate 126 mounted on the reflective plate 122, fixed by the support main, and a plurality of optical sheets 128 covering the reflective plate 122.

In this case, the light guide plate 126 is fixed to the support main 110 through an adhesive double-sided tape (not shown) provided with a film on which silver (Ag) is deposited.

In addition, a lamp housing 133 for guiding the fluorescent lamp 124 is provided.

As a result, the light emitted from the fluorescent lamp 124 is incident on the side of the light guide plate 126 by the lamp housing 133 to be refracted toward the liquid crystal panel 130, and has uniform luminance while passing through the optical sheet 128. It is processed to a high quality of and is supplied to the liquid crystal panel 130.

The above-described configuration is similar to a general liquid crystal display module, but the present invention particularly includes an adhesive double-sided tape provided with a film deposited with silver when the light guide plate 126 is fixed inside the support main 110. It is characterized by using). This will be described in more detail with reference to FIG. 4.

4 is a cross-sectional view schematically illustrating a state in which the liquid crystal display module of FIG. 3 is assembled and fastened.

As shown, the reflecting plate 122, the light guide plate 126, the optical sheets 128 are stacked on the light guide plate 126, the support main 110 supporting the liquid crystal panel 130, and a rear surface thereof. The cover bottom 140 is coupled and the top cover 150 bordering the edge of the liquid crystal panel 130 is coupled to the support main 110 and the cover bottom 140.

In this case, the light guide plate 126 is fixed through the side surface of the support main 110 and an adhesive double-sided tape 152. In detail, the light guide plate 126 is the fluorescent lamp (124 of FIG. 3). Is provided with a light incident portion is thick and is composed of a light-receiving portion that is thinner farther away from the fluorescent lamp (124 of Figure 3), to the support main 110 through a double-sided tape 152 for bonding to the side of the light incident portion It will be fixed without flow.

As shown in FIG. 5, the adhesive double-sided tape 152 has an insulating layer made of polyethylene-based resin with the adhesive part 156 interposed between both sides of the film 154 on which silver (Ag) is deposited. 158 and an outer side of the insulating layer 158, respectively, and an adhesive part 156 for bonding to the support main 110.

The insulating layer 158 is selected from one of polyethylene-based resins such as polyethylene terephthalate (PET), polyvinyl chloride (PVC), and polycarbonate (PC).

As such, by further configuring the film 154 on which silver (Ag) is deposited on the adhesive double-sided tape 154, the light incident on the light incident region of the light guide plate 126 of FIG. 4 is transferred to the adhesive double-sided tape 152. As the light passes through the adhesive part 156 and the insulating layer 158, the silver (Ag) reaches the deposited film 154 and is reflected by the silver to be incident again into the light guide plate (126 in FIG. 4). Done.

As a result, the adhesive double-sided tape (52 of FIG. 2) attached to the light-receiving portion of the light guide plate (26 of FIG. 2) is made of black, so that the light guide plate (26) of light incident into the light guide plate (26 of FIG. Light incident on the incident light incident portion of FIG. 2) 26 is absorbed by the adhesive double-sided tape (52 of FIG. 2), so that the luminance near the incident light incident portion of the light guide plate 26 of FIG. Can be prevented.

As described above, the light guide plate 126 of FIG. 4 is bonded to the side surface of the support main (110 of FIG. 4) through an adhesive double-sided tape 152 provided with a film 154 on which silver (Ag) is deposited. The light guide plate (126 in FIG. 4) can be efficiently fixed by fixing to the light guide plate.

In addition, the light incident on the incident light incident part is reflected back into the light guide plate (126 of FIG. 4) through the film 154 on which silver (Ag) provided on the adhesive double-sided tape 152 is deposited. By using the double-sided tape (52 in FIG. 2), it is possible to solve the problem that the luminance around the light incident part of the light guide plate (26 in FIG. 2) is lowered.

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, the light guide plate is adhered to and fixed to the side surface of the support main through an adhesive double-sided tape provided with a film on which silver is deposited, so that the light guide plate can be stably fixed. By using the adhesive double-sided tape of there is an effect that can solve the problem that the brightness around the light incident portion of the light guide plate is lowered.

Claims (4)

Covertum; A support main formed on the cover bottom; A fluorescent lamp arranged in a longitudinal direction at one edge of the support main, and a lamp housing for guiding the fluorescent lamp; A backlight unit including a reflective plate and a light guide plate sequentially formed on the cover bottom, and a plurality of optical sheets; A liquid crystal panel mounted on the backlight unit; The top cover which is bounded by the edge of the liquid crystal panel and assembled to the support main and cover bottom And an adhesive double-coated tape having a film on which silver (Ag) is deposited to fix the light guide plate to the support main. The method of claim 1, The adhesive double-sided tape comprises an insulating layer on both sides of the film on which the silver (Ag) is deposited and an adhesive part respectively formed on an outer side of the insulating layer. The method of claim 1, The light guide plate may include a light incident part to which light emitted from a light source is incident, and a light incident part that is thinned away from the light incident part. The method of claim 3, wherein The adhesive double-sided tape is attached to the side of the light incident portion of the light guide plate.

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