KR20150052587A - Back light unit and liquid crystal display device using the same - Google Patents

Abstract

The present invention relates to a back light unit and a liquid crystal display device using the same, which prevents malfunction such as bright lines or an escape of light in the left / right side of an incident light part of a back light and improves reliability, by altering shape or prefabricated structures of a light guide plate, comprising: at least one light source which generates light, arranged in at least one side of the inside of a support main; a light guide panel which outputs light by altering the traveling direction of an incident light of the incident light part, facing luminous surfaces of each light emitting source to the front surface, equipped in the support main; multiple optical sheets outputting lights vertically from the a light guide plate and an incident light surface by being arranged at the light guide plate; and a shading tape which fixes the light guide plate and the multiple optical sheets by being attached at the exterior part of the optical sheet arranged at the most front side and some parts in the front side of the support main, with at least one of the left and right sides from the incident light part of the light guide plate separated from the inside of the support main, forming and maintaining a gap.

Description

BACK LIGHT UNIT AND LIQUID CRYSTAL DISPLAY DEVICE USING THE SAME [0002]

A backlight unit according to the present invention is a backlight unit that changes the shape of a light guide plate and its assembling structure so as to prevent defects such as a bright line and a light leak which may occur in the left / And a liquid crystal display using the same.

BACKGROUND ART Demands for video display devices have been increasing in various forms as an information society has developed. In recent years, a liquid crystal display, a field emission display, a plasma display panel, Various flat panel display devices such as a light emitting display are utilized.

Of the flat panel display devices, liquid crystal display devices are widely used because they can operate at low power and have excellent image quality.

In a liquid crystal display device, a liquid crystal panel composed of two substrates facing each other and liquid crystal interposed therebetween is used. A liquid crystal panel corresponds to a non-light emitting type liquid crystal panel and receives light from a backlight unit to display an image.

The backlight unit is divided into an edge type backlight unit and a direct type backlight unit according to the position of the light source. BACKGROUND ART [0002] In recent years, a backlight unit using a light emitting diode as a light source, which is advantageous in terms of power consumption, weight, brightness, etc., is being developed instead of a fluorescent lamp, in accordance with the tendency of downsizing, thinning and lightening of the backlight unit. In particular, an edge-type backlight unit which allows a light emitting diode to supply light from a side surface of a backlight unit in order to realize a lightweight, thin, high-brightness backlight unit has been mainly developed.

Since the portable liquid crystal display device is developed and commercialized as a Narrow Bezel type which is advantageous for light weight and thinness, the edge type backlight unit to be applied thereto has also been inevitably formed according to the nero bezel type.

However, the nero bezel type edge type backlight unit has a problem in that defects such as a bright line and a light spot are generated on the left and right sides of the light-incident portion.

Light emitted from a light source such as a light emitting diode is incident on the light incident portion of the light guide plate and is emitted to the front surface of the light guide plate. Light directed toward the left / right side of the light guide plate light entrance portion is incident on the inner side of the support main or bottom case And is reflected to the front surface. At this time, the light reflected / emitted from the left / right side of the light-entering portion should be shielded with a light-shielding tape or the like because it appears to be defective such as light spots or bright lines on the front surface thereof. However, since the backlight unit of the nero-bezel type has a narrow light shielding width on the left and right sides, the light reflected and emitted from the left and right side surfaces can not be shielded properly, resulting in defects such as bright lines and light spots.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a backlight unit capable of preventing defects such as a bright line and a light spot which may occur in the left / And a liquid crystal display device using the backlight unit.

According to an aspect of the present invention, there is provided a backlight unit including at least one light source disposed on at least one side of a support main body to generate light; A light guide plate housed in the support main body and changing the traveling direction of light incident on the light incident portion facing the light emitting surface of each light source to change the front direction and emitting light; A plurality of optical sheets arranged on the light guide plate and vertically emitting light from the light guide plate and the light entrance surface; And a light shielding tape adhered to a front outer portion of the optical sheet and a front portion of the support main disposed on the frontmost surface and fixing the light guide plate and the plurality of optical sheets, And at least one side surface is spaced apart from the inner side surface of the support main body so that a gap is formed and held.

And a front portion of the light-incident portion facing the light guide plate light-incident portion is spaced apart from one surface of the support main, and a predetermined gap is formed and maintained.

At least one side surface of the light guide plate sandwiching portion is formed to be inclined at a predetermined slope, and a front surface portion of the light guide plate sandwiching portion is inclined at a predetermined slope.

Characterized in that at least one inner side surface of the inner side surfaces of the support main body is inclined at a preset predetermined inclination.

And the internal side inclination of the support main is formed and maintained different from or different from at least one side inclination of the light guide plate.

According to another aspect of the present invention, there is provided a liquid crystal display device including a liquid crystal panel for displaying an image and a backlight unit for providing light to a rear surface of the liquid crystal panel, At least one light source disposed on at least one side of the main body to generate light; A light guide plate housed in the support main body and changing the traveling direction of light incident on the light incident portion facing the light emitting surface of each light source to change the front direction and emitting light; A plurality of optical sheets arranged on the light guide plate and vertically emitting light from the light guide plate and the light entrance surface; And a light shielding tape adhered to a front outer portion of the optical sheet and a front portion of the support main disposed on the frontmost surface and fixing the light guide plate and the plurality of optical sheets, And at least one side surface is spaced apart from the inner side surface of the support main body so that a gap is formed and held.

And a front portion of the light-incident portion facing the light guide plate light-incident portion is spaced apart from one surface of the support main, and a predetermined gap is formed and maintained.

At least one side surface of the light guide plate sandwiching portion is formed to be inclined at a predetermined slope, and a front surface portion of the light guide plate sandwiching portion is inclined at a predetermined slope.

Characterized in that at least one inner side surface of the inner side surfaces of the support main body is inclined at a preset predetermined inclination.

And the internal side inclination of the support main is formed and maintained different from or different from at least one side inclination of the light guide plate.

The backlight unit of the present invention having various technical features as described above and the liquid crystal display device using the same can be manufactured by changing the shape of the light guide plate of the backlight unit or the assembling structure thereof, And defects such as light leakage can be prevented and the reliability thereof can be improved.

1 is an exploded perspective view schematically showing a liquid crystal display device provided with a backlight unit according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view showing a cutting plane II 'in FIG. 1; FIG.
3 is another cross-sectional view showing a cutting plane II 'in FIG. 1;
4 is another cross-sectional view showing a cutting plane II 'in Fig. 1;
5 is another cross-sectional view showing a cutting plane II 'in Fig. 1;

Hereinafter, a backlight unit according to an embodiment of the present invention and a liquid crystal display using the same will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view schematically showing a liquid crystal display device provided with a backlight unit according to an embodiment of the present invention.

The liquid crystal display device shown in Fig. 1 includes a liquid crystal panel 20 for displaying an image; At least one drive integrated circuit (33) for driving the liquid crystal panel (20); (Flexible Printed Circuit Board) 30 for transmitting data signals and control signals to the liquid crystal panel 20 and at least one driving integrated circuit 33 and a liquid crystal panel 20, And a backlight unit (10).

The liquid crystal panel 20 includes a liquid crystal formed between the lower substrate 20a and the upper substrate 20b, the lower substrate 20a and the upper substrate 20b, a gap between the lower substrate 20a and the upper substrate 20b And a spacer (not shown) that keeps the gap constant.

To describe the liquid crystal panel 20 briefly, the upper substrate 20b of the liquid crystal panel 20 includes a color filter; Black matrix; And a common electrode. The lower substrate 20a includes a thin film transistor formed in each cell region defined by data lines and gate lines, and a pixel electrode connected to the thin film transistor. The common electrode may be formed on the lower substrate 20a instead of the upper substrate 20b depending on the mode of the liquid crystal.

One end of the lower substrate 20a extends longer than one end of the upper substrate 20b. A drive integrated circuit 33 in the form of a chip is disposed on one end of the lower substrate 20a in a chip on glass manner and a first flexible circuit board (30) is attached. As shown in FIG. 1, the driving integrated circuit 33 may be mounted on one surface of the first flexible circuit board 30 (Component Inside Type) instead of the lower substrate 20a. The driving integrated circuit 33 receives external data signals and control signals from the first flexible printed circuit 20 and generates a video signal (or a gray scale voltage) for driving the liquid crystal panel 20 And supplies it to the liquid crystal panel 20.

The first flexible circuit board 30 is a circuit board on which a complicated circuit is formed on a flexible insulating film, and is a substrate using a heat-resistant plastic film such as PET (polyester) or PI (polyimide). The first flexible circuit board 30 is advantageously used for small size liquid crystal display devices because of its flexibility and effective use of spaces and stereoscopic wiring.

The backlight unit 10 disposed on the back surface of the liquid crystal panel 20 includes at least one light source 4 disposed on at least one side of the interior of the support main body 2 to generate light, A second flexible printed circuit board 6 for transmitting signals and a light guide plate 8 for receiving and outputting the light emitted from the light source 4 by changing the traveling direction of the light received in the support main 2 and entering the light- A plurality of optical sheets 7 disposed on the light guide plate 8 for vertically emitting light from the light guide plate 8 and the light incidence surface thereof, a front outer portion of the optical sheet disposed on the frontmost surface, The light shielding tape 3 for fixing the light guide plate 8 and the plurality of optical sheets 7 and the inner structure including the support main body 2 and the front surface of the support main body 2 And a bottom case 5 in which the liquid crystal panel 20 assembled therein is housed and seated .

Here, at least one of the left and right side surfaces of the light guide plate 8 is spaced apart from the inner side surface of the support main body 2 with respect to the light incident portion, so that a predetermined gap is formed and maintained. Light generated from the light source 4 is incident on the light entering portion of the light guide plate 8 and is emitted to the front surface of the light guide plate 8. At this time, the light incident from the light-incident portion of the light guide plate 8 is directed to the right and left side directions. Thus, after the light directed to the left and right lateral sides of the light guide plate 8 does not directly reach the inner side surface of the support main body 2 but reaches the inner side surface of the support main body 2 through the predetermined gap, A gap is formed and held so as to be reflected from the inner surface of the substrate 2. The structure of the light guide plate 8 and the support main body 2 will be described later in detail with reference to the accompanying drawings.

Each of the plurality of light sources 4 is attached to the front surface or back surface of the second flexible printed circuit board 6 and disposed on the inner side surface of the support main body 2. At this time, each of the plurality of light sources 4 is positioned to face the side light incoming surface of the light guide plate 8. Here, as the plurality of light sources 4, a light emitting diode may be used. The plurality of light sources 4, that is, the light emitting diodes 4 are turned on by the driving power supplied through the second flexible printed circuit board 6 to be incident on the light guide plate 8 and the light entrance surfaces of the respective optical sheets 7 Light is irradiated.

The light guide plate 8 is positioned inside the support main body 2, and the light entrance portions on one side face the light emission surfaces of the light sources 4. Thus, the light guide plate 8 converts the traveling path of the light emitted from each light source 4 to the light incidence surface, and diffuses the light to the front surface, that is, the entire back surface area of the liquid crystal panel 20. As described above, at least one side surface of the right and left side surfaces of the light guide plate 8 is spaced apart from the inner side surface of the support main body 2 with respect to the light incident portion, so that a predetermined gap is formed and maintained. Further, the front portion of the light-incoming portion facing the light-incoming portion of the light guide plate 8 is also spaced apart from the inner side surface of the support main 2, so that a predetermined gap can be formed and maintained. The light guide plate 8 is attached and fixed to the support main body 2 or the bottom case 5 by a fixing structure such as a separate adhesive member or a screw.

The plurality of optical sheets 7 diffuses through the light guide plate 8 and adjusts the optical path so that the incident light is perpendicularly irradiated to the liquid crystal panel 20. To this end, the plurality of optical sheets 7 may be at least one prism sheet, a diffusing sheet, a polarizing sheet and a protective sheet for collecting light diffused by the light guide plate 8. At this time, the types of sheets to be stacked and the order in which the sheets are stacked can be converted and set according to the intended use of the backlight unit 10. [

The support main body 2 is formed in a rectangular frame-like structure so as to accommodate a plurality of optical sheets 7 including the light guide plate 8. On the inner bottom surface of the support main body 2, a reflective sheet 9 is disposed.

The bottom case 5 also has a square frame structure in which the liquid crystal display module in which the liquid crystal panel 20 including the light guide plate 8 and the support main body 2 are housed. The bottom case 5 is made of a metal material or a plastic material having a high strength and is partially plated, and can be manufactured through a mold process. The support main body 2 or the bottom case 5 may be formed of either one of them, not both of them, depending on the purpose of use of the product or the necessity.

The light shielding tape 3 is disposed on the support main body 2 so as to cover the plurality of light sources 4 and the second flexible circuit board 6, the light guide plate 8, the optical sheets 7, Is fixed so as not to be detached from the support main body 2. The light shielding tape 3 is coated with an adhesive on both sides to fix the backlight unit 10 and the liquid crystal panel 20 to each other. The entirety is made of black so as to prevent the light emitted from the front outer portion of the backlight unit 10 from leaking to the outside.

2 is a cross-sectional view taken along the line I-I 'in FIG.

1 and 2, at least one side surface of the right and left side surfaces of the light guide plate 8 is spaced apart from the inner side surface of the support main body 2 to form and maintain a predetermined gap a . In addition, the front portion of the light-incoming portion facing the light-incoming portion of the light guide plate 8 is also spaced apart from the inner side surface of the support main 2, so that a predetermined gap is formed and maintained. Here, the "a" interval may be any one of 0.01 mm to 0.9 mm.

The light generated from each light source 4 is incident on the light entering portion of the light guide plate 8, and the path of the incident light is changed to the front direction of the light guide plate 8 to be emitted. In this process, the light incident into the light guide plate 8 is also directed toward the left and right sides of the light guide plate 8. In order to allow the light directed toward the left and right lateral sides of the light guide plate 8 to reach the inner side surface of the support main body 2 through the gap a at a predetermined interval and then to be reflected at the inner side of the support main body 2, Is formed and maintained. The arrows in Fig. 2 show, by way of example, the direction in which light travels.

When the light directed in the left and right directions in the light guide plate 8 directly reaches the inner surface of the support main body 2, the light propagating direction is the same and defective phenomena such as light spots and bright lines may occur. However, when the light directed toward the left and right sides of the light guide plate 8 passes through the gap a having a predetermined gap, the light refraction index may be variously changed and the light propagation path may be variously dispersed. Thus, defective phenomena such as light spots and bright lines in the left and right side surfaces of the front surface of the light guide plate 8 and the front surface portion of the light incident portion can be reduced.

3 is another cross-sectional view showing a section taken along line I-I 'of FIG.

1 and 3, at least one side surface of the right and left side surfaces of the light guide plate 8 is spaced apart from the inner side surface of the support main body 2 so as to form and maintain a predetermined gap a . In addition, the front portion of the light-incoming portion facing the light-incoming portion of the light guide plate 8 is also spaced apart from the inner side surface of the support main 2, so that a predetermined gap is formed and maintained.

Also, at least one side of the right and left side surfaces of the light guide plate 8 is formed to be inclined at a predetermined slope? At this time, the front portion of the light-incident portion facing the light-incident portion of the light guide plate 8 may also be formed to be inclined at a predetermined slope? An arrow in Fig. 3 shows an example in which light travels.

The light incident into the light guide plate 8 is directed toward the left and right sides of the light guide plate 8 in a process in which the path of the light incident on the light entrance portion of the light guide plate 8 is changed and emitted toward the front direction of the light guide plate 8 do. In order to allow the light directed toward the left and right lateral sides of the light guide plate 8 to reach the inner side surface of the support main body 2 through the gap a at a predetermined interval and then to be reflected at the inner side of the support main body 2, Is formed and maintained.

Light directed toward the right and left sides of the light guide plate 8 or the like directed toward the left and right sides of the light guide plate 8 and the light incident portion facing the light guide plate 8 are inclined at a predetermined inclination? The refractive index can be further diversified through the inclination and the gap (a), and the light propagation path can be further diversely dispersed. This makes it possible to further reduce defective phenomena such as light spots and bright lines on the left and right sides of the front surface of the light guide plate 8 and the front surface portion of the light entrance portion.

4 is another cross-sectional view showing the section taken along line I-I 'of FIG.

1 and 4, at least one side of the right and left side surfaces of the light guide plate 8 is spaced apart from the inner side surface of the support main body 2 so as to form and maintain a predetermined gap a . Also, at least one side of the right and left side surfaces of the light guide plate 8 is formed to be inclined at a predetermined slope?

In addition, the inner side surface of the support main body 2 may be formed to be inclined at a predetermined slope. The inner side inclination of the support main body 2 may be the same as or different from that of the left and right side surfaces of the light guide plate 8.

When the light traveling in the right and left lateral directions in the light guide plate 8 is reflected by the inner side surface of the support main body 2 having a predetermined inclination after passing through the gap a with a predetermined inclination, The light propagation path can be more variously dispersed. Thus, defects such as light spots and bright lines in the left and right side surfaces of the front surface of the light guide plate 8 and the front surface portion of the light entrance portion can be further reduced.

5 is another cross-sectional view showing a section taken along line I-I 'of FIG.

1 and 5, at least one side surface of the right and left side surfaces of the light guide plate 8 is spaced apart from the inner side surface of the support main body 2 to form and maintain a predetermined gap a . The plurality of optical sheets 7 can also be spaced apart from the inner side surface of the support main body 2 to form and maintain a predetermined gap a.

At least one side surface of each of the right and left side surfaces of the light guide plate 8 is inclined at a predetermined slope β and the inner side surface of the support main surface 2 is inclined at a predetermined slope .

When at least one side surface of the light guide plate 8 and the inner side surface of the support main body 2 are inclined at a predetermined slope, the reflection surface on which the light is reflected is a light- It can be made as far as possible. Here, the interval "a" in Fig. 5 may be any one of 0.01 mm to 0.9 mm, and the interval "b " may be any interval of 0.01 mm to 0.5 mm. The "c" interval may also be any one of 0.01 mm to 0.5 mm.

As shown in Fig. 5, when the side reflecting surface on which light is reflected from at least one side is moved away from the light emitting surface which is the image display area A / A (keeping the interval b + c) It is possible to prevent the occurrence of defective phenomena such as light spots and bright lines in the left and right side surfaces of the front surface of the light guide plate 8 and the front surface portion of the light incident portion.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Will be apparent to those of ordinary skill in the art.

2: Support main 3: Shading tape
4: Light source 5: Bottom case
6: second flexible circuit board 7: optical sheet
8: light guide plate 9: reflective sheet
10: backlight unit 20: liquid crystal panel
30: first flexible printed circuit board 33: drive integrated circuit

Claims (10)

At least one light source disposed on at least one side of the interior of the support main to generate light;
A light guide plate housed in the support main body and changing the traveling direction of light incident on the light incident portion facing the light emitting surface of each light source to change the front direction and emitting light;
A plurality of optical sheets arranged on the light guide plate and vertically emitting light from the light guide plate and the light entrance surface; And
And a light shielding tape attached to a front outer surface of the optical sheet and a front surface of the support main surface, the light shielding plate fixing the light guide plate and the plurality of optical sheets,
Wherein at least one of the left and right side surfaces of the light guide plate sandwiched portion is spaced apart from an inner side surface of the support main to form and maintain a gap therebetween. The method according to claim 1,
The front portion of the light-incident portion facing the light-guide plate light-
Wherein a gap is formed and maintained at a predetermined interval apart from one of the inner surfaces of the support main body. 3. The method of claim 2,
Wherein at least one side surface of each of the right and left side surfaces from the light guide plate light-incident portion is formed to be inclined at a predetermined slope,
Wherein the front portion of the light guide plate light-incident portion is formed to be inclined at a preset predetermined inclination. The method of claim 3,
Wherein at least one inner side surface of the inner side surfaces of the support main body is inclined at a preset predetermined inclination. 5. The method of claim 4,
The inner side slope of the support main
Wherein the light guide plate is formed and maintained at the same or different from at least one side inclination of the light guide plate. A liquid crystal panel for displaying an image, and a backlight unit for providing light to the back surface of the liquid crystal panel,
The backlight unit
At least one light source disposed on at least one side of the interior of the support main to generate light;
A light guide plate housed in the support main body and changing the traveling direction of light incident on the light incident portion facing the light emitting surface of each light source to change the front direction and emitting light;
A plurality of optical sheets arranged on the light guide plate and vertically emitting light from the light guide plate and the light entrance surface; And
And a light shielding tape attached to a front outer surface of the optical sheet and a front surface of the support main surface, the light shielding plate fixing the light guide plate and the plurality of optical sheets,
Wherein at least one of the left and right side surfaces of the light guide plate sandwiched portion is spaced apart from an inner side surface of the support main to form and maintain a gap therebetween. The method according to claim 6,
The front portion of the light-incident portion facing the light-guide plate light-
Wherein a gap is formed and maintained at a predetermined interval apart from one surface of the support main body. 8. The method of claim 7,
Wherein at least one side surface of each of the right and left side surfaces from the light guide plate light-incident portion is formed to be inclined at a predetermined slope,
Wherein the front surface of the light guide plate light-incident portion is inclined at a predetermined slope. 9. The method of claim 8,
Wherein at least one inner side surface of the inner side surfaces of the support main body is inclined at a preset predetermined inclination. 10. The method of claim 9,
The inner side slope of the support main
Wherein the light guide plate is formed and maintained at the same or different from at least one side slope of the light guide plate.

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