KR101719279B1 - Liquid crystal display device - Google Patents

Abstract

A backlight unit including a plurality of optical sheets provided on an upper portion of the light guide plate, and a backlight unit disposed on the light guide plate. The backlight unit includes a light guide plate, A liquid crystal panel mounted on the backlight unit, at least two banding parts vertically bent in a rectangular plate shape and vertically bent upward in the inward direction, and at least two banding parts bent upward in the outward direction between the at least two banding parts A support main which is seated in the inside of the cover bottom with a rectangular frame shape including a cover bottom including at least one bracket and a first support protrusion formed with a first protruding jaw formed between the at least two bending portions, .
As a result, the support main can compensate the step generated by the bracket of the cover bottom.

Description

[0001] LIQUID CRYSTAL DISPLAY DEVICE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device, and more particularly to a lightweight and thin liquid crystal display device including a support main body with one edge opened.

A liquid crystal display device (LCD), which is advantageous for moving picture display and has a large contrast ratio and is actively used in TVs and monitors, exhibits optical anisotropy and polarization properties of a liquid crystal, And the like.

Such a liquid crystal display device has a liquid crystal panel in which a liquid crystal panel is interposed between two adjacent substrates through a liquid crystal layer as an essential component and changes the alignment direction of the liquid crystal molecules in an electric field in the liquid crystal panel to realize a difference in transmittance do.

However, since the liquid crystal panel does not have its own light emitting element, a separate light source is required to display the difference in transmittance as an image. To this end, a backlight unit having a light source is disposed on the back of the liquid crystal panel.

Such a liquid crystal display device is being used in a wide range of fields such as a desktop computer monitor and a wall-mounted television, as well as a portable computer, and it is a lightweight and thin liquid crystal display device having a large display area, Research is being actively pursued.

FIG. 1 is an exploded perspective view of a general LCD module, FIG. 2 is a view showing a step generated by a cover bottom of FIG. 1, and FIG. 3 is a view showing a pad attached to a step portion of FIG.

1, the liquid crystal display module 1 includes a liquid crystal panel 10, a backlight unit 20, a support main body 30, and a cover bottom 50.

The liquid crystal panel 10 is constituted by first and second substrates 12 and 14 which are in contact with each other with a liquid crystal layer interposed therebetween, which plays a key role in image display.

First and second polarizers (not shown) are attached to the outer surfaces of the first and second substrates 12 and 14, respectively.

A printed circuit board 18 is connected to at least one edge of the liquid crystal panel 10 via a connecting member 16 such as a flexible circuit board or a tape carrier package (TCP) And can be brought into close contact with the side surface of the main body 30 or the back surface of the cover bottom 50 appropriately.

A backlight unit 20 is provided on the back surface of the liquid crystal panel 10.

The backlight unit 20 includes a light source unit 29 arranged along at least one longitudinal edge of the support main body 30, a reflection plate 25, a light guide plate 23 resting on the reflection plate 25, A plurality of optical sheets 21 interposed between the optical sheets 21 are included.

The light source unit 29 includes a plurality of LED packages 29a and an LED printed circuit board 29b on which the plurality of LED packages 29a are spaced apart from each other by a predetermined distance. And the reflector 25 is disposed on the back surface of the light guide plate 23 and is configured to reflect light passing through the back surface of the light guide plate 23 toward the liquid crystal panel 10 Reflection.

The light guide plate 23 allows a surface light source to be provided to the liquid crystal panel 10 through light incident from a light source unit (not shown).

The liquid crystal panel 10 and the backlight unit 20 as described above are modularized through the support main 30 and the cover bottom 50.

The support main body 30 has a rectangular frame shape with one opened edge, thereby realizing a slim liquid crystal display device.

The cover bottom 50 is formed in the shape of a single plate having a rectangular shape, and four sides of the cover bottom 50 are bent vertically by a predetermined height so as to form a side surface. The side surface 51 has a vertically bent vertical portion 52, A plurality of bending portions 53 upwardly bent to the inside of the cover bottom 50 and a plurality of brackets 55 upwardly bent to the outside of the cover bottom 50.

Each of the plurality of brackets 55 is for fastening and fixing a liquid crystal display module 1 and a system case (not shown), and has at least one through hole 56.

The cover bottom 50 is coupled to the backside of the support main body 30 and the backlight unit 20 is seated in the support main body 30 and the liquid crystal panel 10 is seated thereon.

Since the brackets 55 of the cover bottoms 50 are bent upward toward the outside of the cover bottoms 50 unlike the bending portions 53, the areas of the cover bottoms 50 corresponding to the brackets 55 between the bending portions 53 A step is generated as shown in Fig.

Cracks may be generated in the liquid crystal panel 10 of the liquid crystal display module 1 due to such a stepped portion so that cracks may be generated in the bracket 55 between the bending portions 53 of the cover bottom 50 The pad 60 is attached to the corresponding stepped region as shown in FIG. 3 to compensate the stepped portion.

However, the pad 60 must be accurately attached to the stepped region between the bending portions 53 of the cover bottom 50. If the pad 60 can not be attached accurately, the liquid crystal panel 10 may be cracked cracks are generated.

Particularly, a large amount of cracks are generated in the liquid crystal panel during the test after assembling the liquid crystal display module 1 and the system case (not shown) into a liquid crystal display device. This increases the consumption of the liquid crystal panel 10, which increases the production cost and increases the process time due to reassembly.

Accordingly, an object of the present invention is to prevent cracks in the liquid crystal panel by compensating the step between the bending portions caused by the bracket of the cover bottom by the support main.

Another object of the present invention is to provide a liquid crystal display device capable of reducing the number of components and reducing the production cost by applying a support main in place of a pad that has been conventionally used for step difference compensation.

According to an aspect of the present invention, there is provided a liquid crystal display device including a reflective plate, a light guide plate disposed on the reflective plate, a light source disposed on one side of the light guide plate, A backlight unit including optical sheets; A liquid crystal panel mounted on the backlight unit; A cover bottom including at least two bending portions whose one cover edge is vertically bent in a rectangular plate shape and upwardly bent in the inward direction and at least one bracket bent upward outwardly between the at least two bending portions; And a support main which is seated inside the cover bottom in a rectangular frame shape including a partially opened one support edge formed with a first protruding jaw positioned between the at least two banding parts.

The light source unit includes a fluorescent lamp arranged along the one support edge, and a lamp housing guiding the fluorescent lamp.

Alternatively, the light source unit may include a side view type LED package, an LED printed circuit board having a plurality of LED packages spaced apart from each other by a predetermined distance, and an LED housing located above the LED printed circuit board, In the second direction.

The one partially open support edge has an upper portion covering a part of an edge of the liquid crystal panel and a side portion formed by a protrusion protruding from the inside of the upper portion and supporting a part of a back edge of the liquid crystal panel at both ends And the protruding jaw is composed of the first protruding jaw and the second protruding jaw, and the opening between the first protruding jaw and the second protruding jaw.

And one of the at least two bending portions is positioned in the opening between the first projecting jaw and the second projecting jaw.

And one of the at least two bending portions is located in the partially open region of the one support edge.

Further, each of the at least two bending portions and the first projecting jaw are located on the same line.

The thickness of the first protruding jaw is equal to the thickness of each of the at least two bending portions.

And a double-sided tape attached to the upper portion of the at least two bending portions.

According to the liquid crystal display device of the present invention, by removing the step difference through the support main, it becomes unnecessary to attach the pad in order to compensate the conventional step difference, so that the work process and the work time are shortened to increase the workability and productivity Effect.

In addition, as the use of the pad is eliminated, the number of parts can be reduced and the production cost can be reduced.

Particularly, it is possible to prevent the cracking phenomenon of the liquid crystal panel caused by the use of the pad, minimize the defect rate, and protect the expensive liquid crystal panel, thereby reducing the production cost.

1 is an exploded perspective view of a general LCD module;
Fig. 2 is a view showing a step generated by the cover bottom of Fig. 1; Fig.
Fig. 3 is a view showing a pad attached to the stepped portion of Fig. 2; Fig.
4 is an exploded perspective view of a liquid crystal display module according to an embodiment of the present invention.
5 is a cross-sectional view of a liquid crystal display module according to an embodiment of the present invention.
6 is a perspective view showing a support main according to an embodiment of the present invention;
FIG. 7 is a perspective view showing a part of a support main body and a cover bottom joined together according to an embodiment of the present invention; FIG.
8 is a plan view showing a state in which the support main and cover bottoms of FIG. 7 are combined.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

FIG. 4 is an exploded perspective view of a liquid crystal display module according to an embodiment of the present invention, and FIG. 5 is a cross-sectional view of a liquid crystal display module according to an embodiment of the present invention.

4, the liquid crystal display module 100 includes a liquid crystal panel 110, a backlight unit 120, a support main body 130 for modulating the liquid crystal panel 110 and the backlight unit 120, And a cover valve 150.

The liquid crystal panel 110 is a part that plays a key role in image display and is composed of a first substrate 112 and a second substrate 114 which are bonded to each other with a liquid crystal layer interposed therebetween.

Although not shown in the drawing, a plurality of gate lines and data lines cross each other on the inner surface of a first substrate 112, which is usually referred to as a lower substrate or an array substrate, on the premise of an active matrix system, pixels are defined, And a thin film transistor (TFT) is provided and connected in a one-to-one correspondence with the transparent pixel electrode formed in each pixel.

On the inner surface of the second substrate 114 called an upper substrate or a color substrate, a color filter of red (R), green (G), and blue (B) And a black matrix for covering non-display elements such as a gate line, a data line, and a thin film transistor.

A transparent common electrode corresponding to the pixel electrode is provided on the first substrate 112 or the second substrate 114.

The first and second polarizers 112a and 114a selectively transmit only specific light to the outer surfaces of the first and second substrates 112 and 114, respectively.

A printed circuit board 118 is connected to at least one edge of the liquid crystal panel 110 via a connection member 116 such as a flexible circuit board or a tape carrier package (TCP) To the side of the support main body 130 or to the back surface of the cover bottom 150, as shown in FIG.

When the thin film transistor selected for each gate line is turned on by the on / off signal of the gate driving circuit transmitted through the printed circuit board 118, the liquid crystal panel 110 having the above- The signal voltage is transmitted to the corresponding pixel electrode through the data line, and the alignment direction of the liquid crystal molecules is changed by the electric field between the pixel electrode and the common electrode.

On the rear surface of the liquid crystal panel 110, a backlight unit 120 is provided to supply light so that the difference in transmittance can be displayed as an image.

The backlight unit 120 includes a light source unit 129 arranged along at least one support edge 210 of the support main 130, a reflection plate 125, a light guide plate 123 resting on the reflection plate 125, And a plurality of optical sheets 121 interposed therebetween.

The light source unit 129 includes a side view LED (Light Emitting Diode) package 129a, an LED printed circuit board 129b on which a plurality of the LED packages 129a are spaced apart from each other, And a plurality of LED packages 129a and an LED housing 129c located on top of the LED printed circuit board 129b. Here, the plurality of LED packages 129a are mounted on the LED printed circuit board 129b to constitute one LED assembly or an LED array. The LED housing 129c is located above the side view type LED package 129a and concentrates some light directed toward the upper portion of the LED package 129a to the light guide plate 123. [

Meanwhile, although not shown, the LED package 129a may be replaced by a fluorescent lamp such as a cathode cathode fluorescent lamp or an external electrode fluorescent lamp, and the fluorescent lamp may be used A lamp housing for concentrating light to the light guide plate 129 is used in addition to the protection of the fluorescent lamp and surrounding the upper and lower sides of the fluorescent lamp in a state where the inside facing the light guide plate 123 is opened instead of the LED housing 129c .

The light emitted from the LED package 129a of the light source unit 129 is indirectly supplied to the liquid crystal panel 110 using the refraction and reflection of the light guide plate 123. [

The reflection plate 125 is disposed on the back surface of the light guide plate 123 and reflects light passing through the back surface of the light guide plate 123 toward the liquid crystal panel 110 to improve the brightness of light.

The light guiding plate 123 uniformly spreads the light incident from the LED package 129a to the wide area of the light guide plate 123 by progressing through the light guide plate 123 by total reflection several times to provide the surface light source to the liquid crystal panel 110 .

The light guide plate 123 may include a pattern of a specific pattern on the back surface to supply a uniform surface light source. The pattern may be formed in various shapes such as an elliptical pattern, a polygon pattern, a hologram pattern, and the like in order to guide light incident into the light guide plate 123, And may be formed on the lower surface of the base plate 123 by a printing method or an injection method.

The plurality of optical sheets 121 mounted on the light guide plate 123 include a diffusion sheet, at least one prism sheet, a protective sheet, and the like. The light guide plate 123 diffuses or condenses light, So that a more uniform planar light source is incident.

The liquid crystal panel 110 and the backlight unit 120 described above are modularized through the support main 130 and the cover bottom 150.

The liquid crystal panel 110 and the backlight unit 120 are surrounded by the support main body 130 having a rectangular shape and the cover bottoms 150 covering the back surface of the backlight unit 120 are coupled from behind, So that a lightweight and thin liquid crystal display device module 100 can be manufactured.

The light emitted from the LED package 129a of the backlight unit 120 is incident through the light incident surface of the light guide plate 123 and is then refracted toward the liquid crystal panel 110 inside the light guide plate 123, 125 and the liquid crystal panel 110 while being passed through the plurality of optical sheets 121. In this case,

The cover bottom 150 may have a rectangular plate shape and at least one edge of the cover bottom 150 may be vertically bent to form a side surface.

In the figure, four edges of the cover bottom 150 are vertically bent and four sides are provided. The first cover side portion 151 includes first and second cover edges 151 and 152 surrounding the one support edge 210 of the support main 130, Two vertical portions 152a and 152b and first to third bending portions 153a and 153b and 153c upwardly bent to the inside and first and second brackets 155a and 155b bent upward outward do.

Accordingly, the shape of the cover bottom 150 on the side of the first cover side portion 151 becomes 'C' shape by the first to third bending portions 153a, 153b and 153c.

A first bracket 155a is provided between the first bending portion 153a and the second bending portion 153b and a second bracket 155b is provided between the second bending portion 153b and the third bending portion 153c. 155b.

The first to third bending portions 153a, 153b and 153c and the first and second brackets 155a and 155b, which are upwardly bent to the inside of the cover bottom 150, .

Each of the first and second brackets 155a and 155b includes at least one through hole 156 for fastening and fixing a system case (not shown) for assembling the finished product.

Although not shown in the drawing, at least one side surface of the cover bottom 150 may be provided with one or more hooks for allowing the cover bottom 150 and the support main 130 to be fastened and fixed to each other. In this case, at least one side of the support main body 130 may be provided with a hook projection at a position corresponding to one or more hooks of the cover bottom 150. The cover bottom 150 and the support main 130 can be coupled and fixed to each other at the back surface of the support main body 130 by the at least one hook and the hook protrusion.

The support main body 130 is made of a molding material such as a synthetic resin or the like and has a square shape with one support edge 210 partially opened and the light source part 129 is located along one opened support edge 210.

The support main body 130 surrounds the edges of the liquid crystal panel 110 and the backlight unit 120.

The first cover side 151 of the cover bottom 150 is engaged with one open support edge 210 of the support main 130 so that the first and second vertical portions 152a, 152b, the first to third bending portions 153a, 153b, 153c, and the first and second brackets 155a, 155b.

The backlight unit 120 is disposed below the first to third bending portions 153a, 153b and 153c of the first cover side portion 151. The backlight unit 120 includes a side view type LED package 129a ), An LED printed circuit board 129b to which a large number of such LED packages 129a are mounted, and an LED housing 129c located above the LED printed circuit board 129b.

5 showing a cross section of one support edge 210 partially opened in the support main 130. The LED package 129a and the LED printed circuit board 129b including a plurality of side view LED packages 129a, The assembly and the LED housing 129c located at the top of the LED assembly are bounded by the second bending portion 153b formed on the first cover side portion 151 of the cover bottom 150. [

The liquid crystal panel 110 is provided on the upper part of the first cover side part 151. At this time, a double-sided tape (not shown) is formed on the first to third bending parts 153a, 153b, 153c of the first cover side part 151 The liquid crystal panel 110 can be fixed by the double-sided tape 170 when the liquid crystal panel 110 is seated.

As the liquid crystal panel 110 is fixed to the double-sided tape 170 in this way, the backlight unit 120 and the liquid crystal panel 110 can be modularized by the support main 130 and the cover bottom 150 without a top cover do.

Meanwhile, the support main body 130 may be referred to as a guide panel or a main support or a mold frame, and the cover bottom 150 may be referred to as a bottom cover.

Hereinafter, the structure of the support main applied to the present invention will be described in detail with reference to FIGS. 6 to 8. FIG. Here, one support edge 210 of the support main 130 is referred to as a first support side surface.

FIG. 6 is a perspective view showing a support main according to an embodiment of the present invention, FIG. 7 is a perspective view showing a part of a support main and a cover bottom combined with each other according to an embodiment of the present invention, And a cover bottom are combined with each other.

6, the support main body 130 includes first and third support side portions 210 and 230 opposed to each other in a rectangular shape, first and third support side portions 210 and 230, 2, and fourth support side portions 220, 240.

Each of the second to fourth support side portions 220, 230 and 240 includes side portions 222, 232 and 242 and protruding protrusions 224, 234 and 244 extending from the inside of the side portions 222, 232 and 242, Lt; / RTI >

The protrusions 224, 234, and 244 serve to separate the liquid crystal panel 10 and the backlight unit 120 from each other.

Although not shown in the drawings, the side portions 222, 232, and 242 can be divided into an upper side portion and a lower side portion with reference to the protrusions 224, 234, and 244.

The second support side portion 220 includes a side portion 222 and a protruding protrusion 224 extending from the inside of the side portion 222. The protrusion protrusion 224 protrudes from the protrusion protrusion 224, And can be divided into an upper portion and a lower portion.

The third support side portion 230 includes a side portion 232 and a protruding protrusion 234 extending from the inside of the side portion 232. The side portion 232 includes a protrusion 234, And the lower part.

Similarly, the fourth support side surface portion 240 includes a side surface portion 242 and a protruding protrusion 244 extending from the inside of the side surface portion 242. The side surface portion 242 is formed with a protruding protrusion 244, And the lower part.

The upper side of each of the second to fourth support side portions 220, 230 and 230 surrounds the edge of the liquid crystal panel 110 and the lower side covers the edge of the backlight unit 120.

234 and 244 formed on the inner side of each of the second to fourth support side portions 220, 230 and 240 as a reference, a backlight unit (not shown) is disposed below the protrusions 224, 234 and 244, The liquid crystal panel 110 is provided on the protrusions 224, 234 and 244 and the rear edge of the liquid crystal panel 110 is supported by the protrusions 224, 234 and 244.

The first support side portion 210 includes a first 1-1 side portion 210a and a 1-2 side portion 210b located at both ends of the first support side portion 210. The first support side portion 210 includes a first 1-1 side portion The first and second protrusions 214a, 214b, 216a, and 212b, which are formed so as to extend from the inside of the upper portions 212a and 212b and the upper portions 212a and 212b, And 216b.

The upper portions 212a and 212b of the first support side portion 210 partly cover one edge of the liquid crystal panel 110 and the first protrusions 214a and 214b are located on the back side of the liquid crystal panel 110 And the second protruding jaws 216a and 216b compensate for the step difference caused by the first and second brackets 155a and 155b of the cover bottom 150, .

The first bending portion 153a formed on the first cover side portion 151 of the cover bottom 150 is formed in the opening between the first protrusions 214a and 214b and the second protrusions 216a and 216b. And the third bending portion 153c are positioned.

Hereinafter, the first support side portion 210 of the support main body 130 combined with the cover bottom 150 will be described with reference to FIGS. 7 and 8. FIG. The first 1-1 side portion 210a and the 1-2 side portion 210b of the first support side portion 210 are the same as each other, so that the first 1-1 side portion 210a shown in the drawing is mainly described. do.

7 and 8, when the cover bottom 150 is coupled to the back surface of the support main body 130 on which the backlight unit 120 is mounted, the first support side surface 210 of the support main body 130 Of the cover bottom 150 in which the first and second vertical portions 152a and 152b and the first to third bending portions 153a to 153c and the first and second brackets 155a and 155b are formed, The side portion 151 is engaged.

4 and 5) having a light source unit 129, that is, a plurality of side view LED packages (129a in FIGS. 4 and 5) are mounted on the first support side surface 210, 129b, and an LED housing (129c in Figures 4 and 5) located on top of the LED printed circuit board (129b in Figures 4 and 5).

The first cover side surface portion 151 of the cover bottom 150 is engaged with the first support side surface portion 210 and the first to third bending portions 153 Each surround the LED housing (129c in Fig. 4 and Fig. 5).

The first bending portion 153a and the second bending portion 153b formed on the first cover side surface portion 151 of the cover bottom 150 and the second bending portion 153b and the third bending portion 153c, And first and second brackets 155a and 155b, respectively.

Each of the first and second brackets 155a and 155b is upwardly bent to the outside of the cover bottom 150 so that the first and second brackets 155a and 155b are positioned between the first and second bending portions 153a and 153b, The LED housing 129c is exposed through the open region and the open region is formed between the first bending portion 153b and the third bending portion 153c, Is compensated by the first support side portion 210 according to the first support side.

The second protruding protrusions 216a and 216b of the first support side surface 210 of the first support side surface portion 210 are fitted to the first and second brackets 155a and 155b of the first cover side surface portion 151, The openings between the first projecting ridges 214a and 214b and the second projecting ridges 216a and 216b of the first support side surface portion 210 correspond to the first and third bending portions of the first cover side surface portion 151 153a, and 153c, respectively.

7 and 8, the first protruding protrusion 214a formed on the first-first side surface 210a of the first support side surface 210 adjacent to the second support side surface 220, Each of the protruding jaws 216a is positioned on the same line as the first bending portion 153a of the first cover side surface portion 151. [ That is, since the second projecting step 216a is positioned between the first bending part 153a and the second bending part 153b formed on the first cover side part 151, the stepped part by the first bracket 155a can be compensated .

The first length L1 of the upper side portion 212a of the first 1-1 side portion 210a is smaller than the first length 152a formed along the first cover side portion 151 of the cover bottom 150, Is equal to the sum of the lengths of the bending portion 153a and the first bracket 155a.

Since the cover bottom 150 is coupled at the back surface of the support main 130, the first length L1 is equal to the length A minus the thickness M of the first cover side 151 of the cover bottom 150 Length.

The third length L3 of the second projecting step 216a of the first 1-1 side part 210a is equal to the length a3 of the first bracket 155a formed on the first cover side part 151, Or the first bending portion 153a and the second bending portion 153b so that the second protruding protrusion 216a of the first 1-1 side portion 210a is formed to be equal to the length between the first bending portion 153a and the second bending portion 153b, And is inserted and positioned in the open area by the first protrusion 155a.

The width W of the second projecting step 216a of the first 1-1 side portion 210a is equal to the width of each of the first projecting step 214a and the second projecting step 216a of the support main 130 Or may be formed to have a width smaller than the width of the first projecting step 214a and the second projecting step 216a.

The thickness of the second protruding protrusion 216a of the first 1-1 side portion 210a is formed to be equal to the thickness of the first bending portion 153a formed on the first cover side surface portion 151 It compensates the step by area. At this time, the thickness of the second protruding protrusion 216a of the first 1-1 side portion 210a is larger than the thickness of the first 1-1 side portion 210a (210a) located on the same line as the first bending portion 153a formed on the first cover side surface portion 151, The thickness of the first projecting step 214a of the first projecting portion 214a is preferably the same.

The first length L1 of the upper portion 212a of the first 1-1 side portion 210a is longer than the length of one support edge of the support main 30 of Figure 1 by the second length L2 And a second protruding protrusion 216a for compensating for the step difference due to the open area is extended by the second length L2 to form the first-first side surface 210a.

The upper portions 212a and 212b and the second protrusions 216a and 216b corresponding to the second length L2 in the first support side portion 210 of the support main body 130 are provided with stepped portions .

As described above, according to the present invention, by forming the step difference means integrally in the support main by extending the partially opened first support side portion, the step by the bending portion of the cover bottom is compensated to compensate the step difference by attaching the pad It is possible to prevent the liquid crystal panel from being cracked. Further, as the use of the pad is eliminated, the number of parts can be reduced, the working time can be shortened, and workability and productivity can be increased.

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

110: liquid crystal panel 120: backlight unit
121: multiple optical sheets 123: light guide plate
125: reflector 129: light source
130: support main 150: cover bulge
151: first cover side parts 153a, 153b, 153c: first, second and third bending parts
155a, 155b: first and second brackets
210: first support side part 212a, 212b: upper side part
214a, 214b: first protruding jaws 216a, 216b: second protruding jaws

Claims (9)

A backlight unit including a plurality of optical sheets provided on an upper portion of the light guide plate; a light guide plate disposed on the light guide plate;
A liquid crystal panel mounted on the backlight unit;
A cover bottom including at least two bending portions whose one cover edge is vertically bent in a rectangular plate shape and upwardly bent in the inward direction and at least one bracket bent upward outwardly between the at least two bending portions;
And a support protrusion formed on the inner side of the cover bottom in a rectangular frame shape including a partially opened one support edge having a first protruding jaw positioned between the at least two bending portions,
And the liquid crystal display device.
The method according to claim 1,
The light source unit
A fluorescent lamp arranged along the one support edge, and a lamp housing guiding the fluorescent lamp.
The method according to claim 1,
The light source unit
An LED printed circuit board on which a plurality of LED packages are mounted at a predetermined interval and an LED housing located on an upper portion of the LED printed circuit board, .
The method according to claim 1,
The one support edge, which is partially opened,
Wherein the liquid crystal panel has an upper portion covering a part of an edge of the liquid crystal panel and a side portion formed by a protrusion protruding from the inside of the upper portion and supporting a part of a rear edge of the liquid crystal panel,
The protruding jaw
The first protruding jaw and the second protruding jaw, and the opening between the first protruding jaw and the second protruding jaw.
5. The method of claim 4,
And an opening formed between the first protruding jaw and the second protruding jaw
And wherein one of the at least two bending portions is located.
The method according to claim 1,
Wherein one of the at least two bending portions
And is located in the partially open region of the one support edge.
The method according to claim 1,
Wherein each of the at least two bending portions and the first projecting jaws are located on the same line.
The method according to claim 1,
The thickness of the first protruding jaw
And the thickness of each of the at least two bending portions is equal to the thickness of each of the at least two bending portions.
The method according to claim 1,
And a double-sided tape attached to an upper portion of the at least two bending portions.

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