KR20160065368A - Backlight unit and liquid crystal display device having the same, and fabricating method thereof - Google Patents

Abstract

According to an embodiment of the present invention, a backlight unit includes: a cover bottom comprising a first vertical part and a second horizontal part vertically curved from the first vertical part in order to reduce a bezel of a light entrance part and improve a hot spot phenomenon; and a light source printed circuit board (PCB) disposed on an inside surface of the first vertical part of the cover bottom and comprising a laminated structure including an insulation layer and a conductive layer. The inside surface of the first vertical part is a fundamental layer of the light source PCB.

Description

BACKLIT UNIT AND LIQUID CRYSTAL DISPLAY DEVICE HAVING THE SAME AND FABRICATING METHOD THEREOF BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a backlight unit,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a backlight unit, a liquid crystal display using the same and a method of manufacturing the same, and more particularly, to a backlight unit which realizes a narrow bezel and improves hot spot phenomenon, And a method for producing the same.

In general, a liquid crystal display displays an image by adjusting the light transmittance of a liquid crystal having dielectric anisotropy using an electric field.

Fig. 1 is a cross-sectional view of a light-incoming portion of a backlight unit of a conventional liquid crystal display device, and Fig. 2 is a cross-sectional view taken along line II-II in Fig.

1, a backlight unit of a conventional liquid crystal display device includes an optical sheet 45, a light guide plate 50, a reflection sheet 60, a light source 25, a light source package 27, a cover bottom 30, and a guide panel 40.

Specifically, the light guide plate 50 is for emitting light incident from the light source 25 toward the liquid crystal panel (not shown), and is made of plastic material such as PMMA (Poly Methyl Methacrylate) or glass .

The optical sheet 45 is disposed on the upper side of the light guide plate 50 and includes at least one light guide plate 50. The light guide plate 50 diffuses and condenses the light and provides the light to the liquid crystal panel (not shown).

The reflective sheet 60 is disposed below the light guide plate 50 to reflect light leaking from the light guide plate 50 to a liquid crystal panel (not shown).

The cover bottom 30 includes a first vertical portion and a second horizontal portion bent vertically from the first vertical portion. A storage space is formed inside the cover bottom 30 to cover the reflective sheet 60, the light guide plate 50, and the optical sheet 45, .

The guide panel 40 is for supporting the light guide plate 50 and the optical sheet 45 and includes a second horizontal portion for supporting the light guide plate 50 and the optical sheet 45 and a first vertical portion of the cover bottom 30 And a second vertical portion surrounding the second vertical portion.

Although not shown in the drawings, the lower surface of the second horizontal portion of the guide panel 40 and the light guide plate 50 are fixed by a double-sided tape.

The light source 25 is composed of a plurality of light emitting diodes (LED) packages and is mounted on the light source package 27.

In addition, the light source unit 27 supplies the power source supplied from the outside to the light source 25.

At this time, the light source package 27, on which the light source 25 is mounted, is attached to the inside of the first vertical portion of the cover bottom 30 by the double-

More specifically, as shown in Fig. 2, the light source package 27 includes a conductive layer 27a, an insulating layer 27b, and a base layer 27c, and has a laminated structure.

The insulating layer 27b is formed of a ceramic material so as to insulate the conductive layer 27a from the base layer 27c to form a basic The layer 27a is made of a metal such as aluminum (Al) to maintain the rigidity of the light source package 27. [

In recent years, in order to realize a slim design of a final product such as a monitor or a TV, a liquid crystal display device has been proposed as a bezel which is defined as a width of a non-display area outside a display area It is required to be formed small.

As shown in the figure, the backlight unit of the conventional liquid crystal display device has a structure in which the thickness of the base layer 27c of the light source package 27 and the thickness of the double-sided adhesive tape 27 that bonds the light source package 27 to the first vertical portion of the cover bottom 30 There is a limitation in reducing the distance a1 from the outer surface of the first vertical portion of the cover bottom 30 to the outer surface of the light source package 27 due to the thickness of the light shielding portion 29. [

That is, there is a limit in reducing a bezel that is the width of the non-display area NAA of the light-incident portion.

The light source 25 is incident on the light guide plate 50 with a predetermined radiation angle. The area of the light source 25 is relatively bright and the light from the light source 25 is not irradiated The area between each light source 25, which is not in the dark, appears to be relatively dark.

That is, a hot spot phenomenon occurs in which a region within a certain radiation angle at which light is emitted is relatively bright.

Such a hot spot phenomenon causes a problem of non-uniformity of brightness and poor appearance.

If the interval b1 from the boundary between the active area AA and the non-display area NAA to the end of the light guide plate 50 is reduced to reduce the bezel of the light-incident part, A problem arises that the radiation angle at which the light of the light source is irradiated narrows and the hot spot phenomenon is further intensified.

Disclosure of Invention Technical Problem [8] The present invention has been made to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a backlight unit having reduced bezel and improved hot spot phenomenon, .

In order to achieve the above-mentioned object, there is provided a plasma display device comprising: a cover bottom made of a first vertical portion and a first horizontal portion bent vertically from the first vertical portion; and an insulating layer and a conductive layer disposed on an inner surface of the first vertical portion Wherein the first vertical portion includes a light source substrate having a laminated structure, and the inner surface of the first vertical portion is a base layer of the light source package.

A light guide plate disposed at a predetermined distance from the plurality of light sources; at least one optical sheet disposed at an upper portion of the light guide plate; and a light guide plate disposed at a lower portion of the light guide plate, And a guide panel formed of a sheet, a second horizontal portion coupled with an exit surface of the light guide plate, and a second vertical portion bent perpendicularly from the second horizontal portion and extending in the direction of the first vertical portion.

And the cover bottom is made of a metal material.

And the second horizontal portion extends in an upper direction of the optical sheet to fix the optical sheet.

A light source package having a cover bottom made of a first vertical portion and a second horizontal portion bent vertically from the first vertical portion and a laminated structure disposed on an inner surface of the first vertical portion and including an insulating layer and a conductive layer, A light guide plate disposed at a predetermined distance from the plurality of light sources, at least one optical sheet disposed at an upper portion of the light guide plate, a reflective sheet disposed under the light guide plate and seated in the first horizontal portion, A guide panel including a second horizontal portion coupled to an exit surface of the light guide plate and a second vertical portion bent perpendicularly from the second horizontal portion and extending in the first vertical direction, and a liquid crystal panel disposed on the upper portion of the second horizontal portion And the inner surface of the first vertical portion is a base layer of the light source package.

And the cover bottom is made of a metal material.

A step of forming an insulating layer and a conductive layer on a part of the cover bottom plate in sequence; patterning a circuit of a light source package on the conductive layer; mounting a light source on the conductive layer; And a cover bottom including a first vertical portion having a conductive layer formed thereon and a first horizontal portion extending perpendicularly to the first vertical portion.

The cover bottom plate is made of a metal material.

In the backlight unit according to the embodiment of the present invention, a liquid crystal display having the same, and a method of manufacturing the same, a part of the inner surface of the cover bottom is used as a base layer of the light source package, thereby reducing the thickness of the light source package, As the light source package is mounted, the double-sided tape for fixing the light source package to the cover bottom can be removed, thereby reducing the bezel of the light-receiving section.

In addition, it is possible to reduce the width of the bezel and at the same time to keep the gap between the light source and the light guide plate constant, thereby improving the hot spot phenomenon.

1 is a cross-sectional view of a light-incoming portion of a backlight unit of a conventional liquid crystal display device.
2 is a cross-sectional view taken along the line II-II in FIG.
3 is a sectional view of the light-incident portion of the backlight unit of the liquid crystal display device of the present invention.
4 is a cross-sectional view taken along line IV-IV in FIG.

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

Fig. 3 is a cross-sectional view of the light-incident portion of the backlight unit of the liquid crystal display device of the present invention, and Fig. 4 is a cross-sectional view taken along the line IV-IV of Fig.

The backlight unit of the embodiment of the present invention includes an optical sheet 145, a light guide plate 150, a reflection sheet 160, a light source 125, a light source package 127, a cover bottom 130, Panel 140 as shown in FIG.

Specifically, the light guide plate 150 is spaced apart from the plurality of light sources 125 by a predetermined distance and emits light incident from the light source 125 toward the liquid crystal panel (not shown).

Also, the light guide plate 150 may be formed of plastic material such as PMMA (Poly Methyl Methacrylate) or glass.

The optical sheet 145 is disposed on the light guide plate 150 and includes at least one light guide plate 150. The light guide plate 150 diffuses and condenses the light and provides the light to the liquid crystal panel (not shown).

The reflective sheet 160 is disposed below the light guide plate 150 to reflect light leaking from the light guide plate 150 to a liquid crystal panel (not shown).

The cover bottom 130 includes a first vertical portion and a second horizontal portion that is vertically bent from the first vertical portion. A storage space is formed inside the cover bottom 130 to cover the reflective sheet 160, the light guide plate 150, .

The guide panel 140 is for supporting the light guide plate 150 and the optical sheet 145 and includes a second horizontal portion for supporting the light guide plate 150 and the optical sheet 145 and a second horizontal portion for supporting the first vertical portion of the cover bottom 130 And a second vertical portion.

In particular, the second horizontal portion of the guide panel 140 extends upward in the optical sheet 145 to fix the optical sheet 145.

Although not shown in the drawing, the lower surface of the second horizontal portion of the guide panel 140 and the light guide plate 150 can be fixed by a double-sided tape.

The light source 125 may include a plurality of light emitting diodes (LED) packages.

In addition, the light source unit 127 supplies the power source supplied from the outside to the light source 125.

4, the light source package 127 of the embodiment of the present invention is disposed on the inner side surface 130a of the first vertical portion of the cover bottom 130 and includes the insulating layer 127b and the conductive layer 127a As shown in FIG.

In addition, the inner surface 130a of the first vertical portion of the cover bottom 130 is a base layer of the light source package 127.

Specifically, by using the inner surface 130a of the cover bottom 130 as a base layer of the light source package 127, the light source package 127 need not have a separate base layer.

Therefore, the thickness of the light source package 127 can be reduced, and the distance a2 from the outer surface of the first vertical portion of the cover bottom 130 to the outer surface of the light source package 127 can be reduced. That is, a bezel that is the width of the non-display area NAA of the light-incident portion can be reduced.

In addition, the bezel of the light-incident portion can be reduced without reducing the interval b2 from the boundary between the display area AA (active area) and the non-display area NAA to the end of the light guide plate 150, The hot spot phenomenon occurring due to the narrowing of the radiation angle at which the light of the light source is irradiated can be improved.

The conductive layer 127a is formed of a thin material such as copper or the like and forms a circuit of the light source package 127 to supply external power to the light source 125. [

The insulating layer 127b is made of ceramics or the like to insulate the conductive layer 127a from the inner surface 130a of the first vertical portion of the cover bottom 130 as a base layer.

Since the inner surface 130a of the first vertical portion of the cover bottom 130 as a base layer is formed of a metal such as aluminum to maintain the rigidity of the light source package 127, In order to use the inner surface 130a as a base layer of the light source package 127, the cover bottom 130 is preferably formed of a metal such as aluminum (Al).

 It is also possible to pattern the light source package 127 directly on the cover bottom 130 instead of fixing or welding the cover 125 to the cover bottom 130 after mounting the light source 125 on the light source package 127, (Surface Mounting Technology: SMT).

Thus, there is no need to use or weld the double-sided tape to fix the light source package 127 to the cover bottom 130, and the effect of reducing the bezel of the light-incoming portion by the thickness of the double- have.

In addition, the bezel of the light-incident portion can be reduced without reducing the interval b2 from the boundary between the display area AA (active area) and the non-display area NAA to the end of the light guide plate 150, The hot spot phenomenon occurring due to the narrowing of the radiation angle at which the light of the light source is irradiated can be improved.

Further, a liquid crystal display device of the embodiment of the present invention is manufactured by disposing a liquid crystal panel (not shown) on the upper surface of the second horizontal portion of the guide panel 140.

At this time, the liquid crystal display device of the embodiment of the present invention can be manufactured by disposing a liquid crystal panel (not shown) on the above-described backlight unit.

Specifically, the liquid crystal panel (not shown) is disposed above the second horizontal portion of the guide panel 140 and can be fixed by a double-sided tape.

A liquid crystal panel (not shown) is composed of a thin film transistor substrate (not shown) and a color filter substrate (not shown) bonded together facing each other with a liquid crystal layer sandwiched therebetween. A polarizing member (not shown) may be attached.

Next, a method of manufacturing the backlight unit of the embodiment of the present invention will be described.

A method of manufacturing a backlight unit according to an embodiment of the present invention includes the steps of sequentially forming an insulating layer 127b and a conductive layer 127a on a part of a cover plate of a cover bottom 130, A step of mounting a light source 125 on the conductive layer 127a and a step of mounting the cover bottom 130 to a first vertical portion in which the insulating layer 127b and the conductive layer 127a are formed, And a first horizontal portion extending perpendicularly to the first portion.

Specifically, the insulating layer 127b and the conductive layer 127a are sequentially patterned on a part of the original plate of the cover bottom 130 before the cover bottom 130 is formed.

The insulating layer 127b is formed of a material such as ceramic to insulate the inner surface of the first vertical portion of the conductive layer 127a and the cover bottom 130 as a base layer, (Cu) or the like, and is formed as a thin layer.

Since the inner surface 130a of the first vertical portion of the cover bottom 130 as a base layer is formed of a metal such as aluminum to maintain the rigidity of the light source package 127, In order to use the inner side surface 130a as a base layer of the light source package 127, it is preferable that the original plate of the cover bottom 130 is formed of a metal such as aluminum (Al).

Next, a circuit of the light source package 127 is printed on the conductive layer 127a, and the light source 125 is mounted on the conductive layer 127a on which the circuit is printed.

Accordingly, the light source unit 127 can supply an external power source to the light source 125.

Next, the circular plate of the cover bottom 130 on which the light source package 127 and the light source 125 are mounted is cut and bent to form the first vertical portion and the first vertical portion where the insulating layer 127b and the conductive layer 127a are formed, And is formed as a first horizontal portion which is vertically bent.

Therefore, the method of manufacturing the backlight unit of the embodiment of the present invention uses the inner surface 130a of the cover bottom 130 as a base layer of the light source package 127, so that the light source package 127 does not need to include a base layer separately do.

The thickness of the light source package 127 can be reduced and the distance a2 from the outer surface of the first vertical portion of the cover bottom 130 to the outer surface of the light source package 127 can be reduced. That is, a bezel that is the width of the non-display area NAA of the light-incident portion can be reduced.

It is also possible to pattern the light source package 127 directly on the cover bottom 130 instead of fixing or welding the cover 125 to the cover bottom 130 after mounting the light source 125 on the light source package 127, It is not necessary to use or weld the double-sided tape to fix the light source package 127 to the cover bottom 130 because the surface mount technology (SMT) of the double-sided tape 125 is made by the thickness or solder thickness of the double- Bezel of the light-receiving part can be reduced.

In addition, the bezel of the light-incident portion can be reduced without reducing the interval b2 from the boundary between the display area AA (active area) and the non-display area NAA to the end of the light guide plate 150, The hot spot phenomenon occurring due to the narrowing of the radiation angle at which the light of the light source is irradiated can be improved.

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

125: light source 127: light source
130: cover bottom 140: guide panel
145: optical sheet 160: reflective sheet
127a: conductive layer 127b: insulating layer

Claims (8)

A cover bottom comprising a first vertical portion and a first horizontal portion bent vertically from the first vertical portion; And
And a light source package disposed on an inner surface of the first vertical portion and having a laminated structure including an insulating layer and a conductive layer,
And the inner surface of the first vertical portion is a base layer of the light source package.
The method according to claim 1,
A plurality of light sources mounted on the light source housing;
A light guide plate spaced apart from the plurality of light sources at a predetermined interval;
At least one optical sheet disposed on the light guide plate;
A reflective sheet disposed under the light guide plate and seated on the first horizontal portion; And
A second horizontal portion coupled to an exit surface of the light guide plate, and a second vertical portion bent in a direction perpendicular to the first vertical portion from the second horizontal portion,
And a backlight unit.
The method according to claim 1,
Wherein the cover bottom is made of a metal material.
The method according to claim 1,
And the second horizontal portion extends toward the upper portion of the optical sheet to fix the optical sheet.
A cover bottom consisting of a first vertical part and a second horizontal part bent vertically from the first vertical part;
A light source package disposed on an inner surface of the first vertical portion and having a laminated structure including an insulating layer and a conductive layer;
A plurality of light sources mounted on the light source housing;
A light guide plate spaced apart from the plurality of light sources at a predetermined interval;
At least one optical sheet disposed on the light guide plate;
A reflective sheet disposed under the light guide plate and seated on the first horizontal portion;
A guide panel including a second horizontal portion coupled with an exit surface of the light guide plate, and a second vertical portion bent perpendicularly from the second horizontal portion and extending in a first vertical direction; And
And a liquid crystal panel disposed above the second horizontal portion,
And the inner surface of the first vertical portion is a base layer of the light source.
6. The method of claim 5,
Wherein the cover bottom is made of a metal material.
Sequentially forming an insulating layer and a conductive layer on a part of the cover bottom original plate;
Patterning a circuit of the light source package on the conductive layer;
Mounting a light source on the conductive layer; And
Forming a cover bottom plate into a cover bottom comprising a first vertical portion having the insulating layer and the conductive layer formed thereon and a first horizontal portion extending perpendicularly to the first vertical portion;
Wherein the backlight unit comprises:
8. The method of claim 7,
Wherein the cover bottom plate is made of a metal material.

Images