KR20200075402A - Liquid Crystal Display Device - Google Patents

Abstract

The present invention provides a liquid crystal display device including: a liquid crystal panel including first and second substrates, a liquid crystal layer disposed between the first and second substrates, and side sealants protruding from the side surfaces of the first and second substrates; a backlight unit disposed under the liquid crystal panel; a first frame surrounding a lower surface of the backlight unit; a second frame surrounding the side surface of the backlight unit; a pad disposed on the second frame; and a set frame surrounding the liquid crystal panel and the first and second frames, and having a groove corresponding to the side sealant formed on at least one sidewall. In the present invention, damage to the side sealant and leakage of liquid crystal from the liquid crystal panel is prevented.

Description

Liquid Crystal Display Device {Liquid Crystal Display Device}

The present invention relates to a liquid crystal display device, in particular, by forming a groove corresponding to a side sealant (side sealant) in the set frame, damage to the side sealant and leakage of the liquid crystal are prevented and a narrow bezel (narrow bezel) It relates to a liquid crystal display device to be implemented.

2. Description of the Related Art As the era of information society has rapidly advanced, a display field displaying a large amount of information and displaying it has been developed. Flat panel display (flat panel display) has been developed to meet the times of thinning, lightening, and low power consumption. ) Has emerged.

Accordingly, a thin film transistor liquid crystal display (TFT-LCD) having excellent color reproducibility and thinness was developed. The liquid crystal display device displays an image using optical anisotropy and polarization properties of liquid crystal molecules. In general, a liquid crystal display device is composed of a liquid crystal panel and a backlight unit and three frames surrounding the front, side, and back surfaces of the liquid crystal panel and the backlight unit. Recently, a smart phone or a tablet PC, etc. For use in portable terminals, liquid crystal display devices comprising a liquid crystal panel and a backlight unit and two frames surrounding side and rear surfaces of the backlight unit have been proposed.

However, in a liquid crystal display device including two frames, a liquid crystal panel is disposed on an upper portion of a frame surrounding a side surface of a backlight unit, and a side surface of a liquid crystal panel having a side sealant to prevent leakage of liquid crystal is exposed outside the frame.

When a liquid crystal display device is applied to a portable terminal, it is combined with a set frame surrounding the side and back surfaces of the liquid crystal display device. When performing environmental tests such as high temperature and high humidity, the side wall of the set frame contracts or deforms, and the side of the liquid crystal panel There is a problem in that the sealant can be contacted, and as a result, an external force is added to the side sealant and the side sealant is damaged.

In addition, there is a problem in that the liquid crystal of the liquid crystal panel leaks through the damaged side sealant.

In order to prevent this, when the separation distance between the set frame and the liquid crystal panel is increased, a bezel area in which an image is not displayed increases, making it difficult to implement a narrow bezel.

The present invention is proposed to solve this problem, and by forming a groove corresponding to the side sealant of the liquid crystal panel on the sidewall of the set frame, damage to the side sealant and leakage of the liquid crystal of the liquid crystal panel are prevented. It is an object to provide a liquid crystal display device.

In addition, the present invention, by forming a groove in the form corresponding to the side sealant of the liquid crystal panel on the sidewall of the set frame, the separation distance between the set frame and the liquid crystal panel is reduced to provide a liquid crystal display device that implements a narrow bezel Do it for a different purpose.

In order to solve the above problems, the present invention, the first and second substrates, the liquid crystal layer disposed between the first and second substrates, and a side sealant protruding from the side surfaces of the first and second substrates And a liquid crystal panel comprising a; A backlight unit disposed under the liquid crystal panel; A first frame surrounding the lower surface of the backlight unit; A second frame surrounding the side of the backlight unit; A pad disposed on the second frame; There is provided a liquid crystal display device including a set frame surrounding the liquid crystal panel and the first and second frames and having grooves corresponding to the side sealant formed on at least one side wall.

Further, the outer surface of the side sealant may have a curved surface shape, and the inner surface of the groove may have a curved surface shape corresponding to the outer surface of the side sealant.

In addition, the outer surface of the side sealant may have a first radius of curvature, and the inner surface of the groove may have a second radius of curvature greater than or equal to the first radius of curvature.

In addition, the width between the upper and lower portions of the side sealant may have a first length, and the width between the upper and lower portions of the groove may have a second length greater than or equal to the first length.

In addition, the backlight unit, a light source for emitting light; A light guide plate disposed on the side of the light source and transforming the linear light of the light source into planar light; A reflector disposed under the light guide plate; It may include an optical film disposed on the light guide plate.

And, the set frame, the bottom plate corresponding to the lower surface of the first frame; It includes first to fourth side walls extending from four sides of the bottom plate, and the grooves may be formed on the second to fourth side walls except for the first side walls corresponding to the light source.

In addition, the backlight unit, a light source for emitting light; A diffusion plate disposed on the light source and diffusing light of the light source; It may include an optical film disposed on the diffusion plate.

And, the set frame, the bottom plate corresponding to the lower surface of the first frame; It includes first to fourth side walls extending from four sides of the bottom plate, and the grooves may be formed in the first to fourth side walls.

In addition, the liquid crystal display device may further include an adhesive layer and a pad disposed between the liquid crystal panel and the second frame.

Further, a protrusion corresponding to the backlight unit may be formed on the at least one side wall of the set frame.

On the other hand, the present invention, the first and second substrates, a liquid crystal panel disposed between the first and second substrates, and a liquid crystal panel including side sealants protruding from the side surfaces of the first and second substrates, and ; A backlight unit disposed under the liquid crystal panel; A first frame surrounding the lower surface of the backlight unit; A second frame surrounding the side of the backlight unit; A pad disposed on the second frame; There is provided a liquid crystal display device including a set frame surrounding the liquid crystal panel and the first and second frames and forming a protrusion corresponding to the backlight unit on at least one side wall.

Further, the distance between the outer surface of the second frame and the inner surface of the protrusion may be smaller than the distance between the outer surface of the side sealant and the inner surface of the at least one side wall of the set frame.

The present invention has the effect of preventing breakage of the side sealant and leakage of the liquid crystal of the liquid crystal panel accordingly by forming a groove in the same shape as the side sealant of the liquid crystal panel on the sidewall of the set frame.

In addition, the present invention has the effect of forming a groove in the same shape as the side sealant of the liquid crystal panel on the sidewall of the set frame, thereby reducing the separation distance between the set frame and the liquid crystal panel to achieve a narrow bezel.

1 is a cross-sectional view showing a liquid crystal display device according to a first embodiment of the present invention.
FIG. 2 is an enlarged view of part A of FIG. 1.
3A and 3B are views showing a contracted state and a deformed state of a set frame of a liquid crystal display device according to a first embodiment of the present invention, respectively.
4 is a cross-sectional view showing a liquid crystal display device according to a second embodiment of the present invention.

Hereinafter, a liquid crystal display device according to the present invention will be described with reference to the accompanying drawings.

1 is a cross-sectional view showing a liquid crystal display device according to a first embodiment of the present invention, and FIG. 2 is an enlarged view of part A of FIG. 1.

1 and 2, the liquid crystal display device 110 according to the first embodiment of the present invention includes a liquid crystal panel 120, a backlight unit 140, and first and second frames 160 and 162. ), a set frame 170.

The liquid crystal panel 120 displays an image using a gate voltage and a data voltage.

To this end, the liquid crystal panel 120 includes first and second substrates 122 and 124 spaced apart from each other and a liquid crystal layer (not shown) disposed between the first and second substrates 122 and 124. do.

Although not illustrated, a gate wiring and a data wiring defining a pixel intersecting each other are disposed on the inner surface of the first substrate 122, and each pixel has a thin film transistor connected to the gate wiring and data wiring, and a pixel electrode connected to the thin film transistor. It can be placed.

A common electrode may be disposed on the inner surface of the second substrate 124.

The first polarizing film 126 is disposed on the outer surface of the first substrate 122, and the second polarizing film 128 is disposed on the outer surface of the second substrate 124, and the first and second substrates 122 and 124 are disposed. ) A side sealant 130 is disposed on a side surface.

The first polarizing film 126 serves to selectively pass only light of a specific polarization among the non-polarized light supplied from the backlight unit 140, and the second polarizing film 128 is the first polarizing film 126 and the liquid crystal The light passing through the layer serves to selectively pass only light of a specific polarization. The polarization axes of the first and second polarizing films 126 and 128 may be vertical or parallel.

The side sealant 130 is disposed on the side surfaces of the first and second substrates 122 and 124, and protects the side surfaces of the first and second substrates 122 and 124 exposed to the outside, and the first and second The liquid crystal of the liquid crystal layer between the two substrates 122 and 124 serves to prevent leakage of the liquid crystal to the outside.

The backlight unit 140 is disposed under the liquid crystal panel 120 to supply light to the liquid crystal panel 120.

To this end, the backlight unit 140 includes a light emitting diode (LED) 142, a light emitting diode printed circuit board (PCB) 144, a light guide plate 146, a reflector 148, and an optical film. 150.

The light emitting diode 142 is disposed on the side of the light guide plate 146 and serves as a light source that supplies red, green, and blue light to the light guide plate 146.

In the first embodiment of FIG. 1, the edge type backlight unit 140 in which the light emitting diode 142 is disposed on the side of the light guide plate 146 is exemplified, but in the direct type backlight unit of another embodiment, the light emitting diode emits light. It may be disposed under the diffusion plate to diffuse.

Further, in another embodiment, a fluorescent lamp may be used as a light source.

The light-emitting diode printed circuit board 144 supplies power to the light-emitting diode 142 to drive the light-emitting diode 142, and serves to discharge heat of the light-emitting diode 142 to the outside through the first frame 160. You may.

The light guide plate 146 receives the linear light of the light emitting diode 142 through the light incident surface (side), transforms the linear light of the light emitting diode 142 into planar light through reflection and refraction, and converts the planar light to the light output surface ( The upper surface) to the liquid crystal panel 120.

The reflector 148 is disposed on the lower surface of the light guide plate 146 and reflects light emitted to the lower surface of the light guide plate 146 toward the light exit surface of the light guide plate 146.

The optical film 150 diffuses and condenses planar light emitted to the light exiting surface of the light guide plate 146 to be uniform, and may include a plurality of diffusion sheets and a plurality of light collecting sheets.

In another embodiment, the optical film 150 may be attached to the first polarizing film 126 of the liquid crystal panel 120, or the first polarizing film 126 and the optical film 150 may be integrated.

The first and second frames 160 and 162 modularize the liquid crystal panel 120 and the backlight unit 140.

The first frame 160, which is also called a cover bottom or bottom cover, has a plate shape and is disposed to surround side and bottom surfaces of the backlight unit 140.

The second frame 162, also referred to as a guide panel, main support, mold frame, or middle cabinet, has a rectangular frame shape with a bent portion at the top, and is arranged to surround the side edges of the backlight unit 140 and the upper edge. Combine with the frame 160.

The liquid crystal panel 120 is supported by the second frame 162, and a pad 164 for absorbing shock and vibration may be disposed between the bent portion of the second frame 162 and the liquid crystal panel 120. .

Although not shown, an adhesive layer is disposed between the pad 164 and the liquid crystal panel 120, and the liquid crystal panel 120 may be attached to a bent portion of the second frame 162 through the adhesive layer and the pad 164. have.

Here, the pad 164 may be disposed along four sides of the liquid crystal panel 120.

The set frame 170 is disposed to surround the lower surfaces of the first and second frames 160 and 162 and the side surfaces of the first and second frames 160 and 162 and the liquid crystal panel 120. The bottom plate 172 corresponding to the lower surfaces of the first and second frames 160 and 162, and the side surfaces of the first and second frames 160 and 162 and the liquid crystal panel 120 and corresponding to the side surfaces of the bottom plate 172 It includes the first to fourth side walls 174 extending from four sides.

Here, the side sealant 130 of the liquid crystal panel 120 may have a semi-cylindrical shape protruding from four sides of the first and second substrates 122 and 124 and connected to each other. The cross section may be a semi-circle or a semi-ellipse shape, and the outer surface of the side sealant 130 may be a curved shape.

In addition, a groove 176 in a shape corresponding to the side sealant 130 is formed on the sidewall 174 of the set frame 170 facing the side sealant 130, and the groove 176 has a sidewall 174 It may have a semi-cylindrical shape recessed from the inner surface, the cross section of the groove 176 may be a semi-circular or semi-elliptical shape, the inner surface of the groove 176 is a curved surface shape corresponding to the outer surface of the side sealant 130 Can.

Specifically, the outer surface of the side sealant 130 has a first radius of curvature (R1) and the width (thickness) between the top and bottom portions of the side sealant 130 may have a first length (D1), the groove The inner surface of (176) has a second radius of curvature (R2) greater than or equal to the first radius of curvature (R1) (R1≤R2), and the width between the top and bottom of the groove 176 is greater than the first length (D1). It may have a second length D2 equal to or greater than (D1≤D2).

For example, the third length D3, which is the depth of the groove 176 between the inner surface of the sidewall 174 and the bottom surface of the groove 176, may be about 0.5 mm.

On the other hand, for example, the groove 176 is not formed on the left and right sidewalls 174 of the set frame 170 corresponding to the light emitting diode 142, the right and left sidewalls 174 of the other set frame 170, the front side Sidewalls (not shown) and rear sidewalls (not shown) may be formed.

In another embodiment in which the four-side wall 174 and the liquid crystal panel 120 are disposed close to each other, such as the direct type, the groove 176 may be formed on the four-side wall 174 of the set frame 170. That is, the groove 176 may be formed on at least one side wall 174 of the set frame 170.

In the liquid crystal display device 110 according to the first embodiment of the present invention, the sidewall 174 of the set frame 170 surrounding the liquid crystal panel 120 has a form corresponding to the outer surface of the side sealant 130. By forming the groove 176 having an inner surface, the set frame 170 is contracted or deformed by an external force P so that the sidewall 174 of the set frame 170 is a side seal 130 of the liquid crystal panel 120 Even in the case of contact, the contact area is increased and the external force (P) is dispersed.

Accordingly, damage to the side sealant 130 of the liquid crystal panel 120 due to contact of the side wall 174 of the set frame 170 is prevented, and thus leakage of liquid crystal of the liquid crystal layer of the liquid crystal panel 120 is prevented. do.

In addition, since the side sealant 130 of the liquid crystal panel 120 and the sidewall 174 of the set frame 170 are sufficiently separated by the groove 176 of the side wall 174 of the set frame 170, the liquid crystal panel ( The distance GD between the side sealant 130 of 120 and the inner surface of the side wall 174 of the set frame 170 other than the groove 176 can be minimized, and as a result, the cutting area is reduced to narrow A narrow bezel can be implemented.

The contact between the side sealant 130 of the liquid crystal panel 120 and the groove 176 of the sidewall 174 of the set frame 170 due to the contraction or deformation of the set frame 170 will be described with reference to the drawings.

3A and 3B are views showing a contracted state and a deformed state of a set frame of a liquid crystal display device according to a first embodiment of the present invention, respectively, and will be described with reference to FIGS. 1 and 2 together.

As shown in Figure 3a, when performing an environmental test, such as high temperature and high humidity for the liquid crystal display device 110 according to the first embodiment of the present invention, the bottom plate 172 of the set frame 170 contracts As a result, the side wall 174 of the shift frame 170 moves inward by an external force P, and the inner surface of the groove 176 of the side wall 174 of the set frame 170 has a liquid crystal panel 120. ) May contact the outer surface of the side sealant 130.

At this time, since the outer surface of the side sealant 130 of the liquid crystal panel 120 and the inner surface of the groove 176 of the side wall 174 of the set frame 170 have a corresponding curved surface shape, the side sealant 130 The contact area between the outer surface and the inner surface of the groove 176 of the side wall 174 of the set frame 170 increases, thereby dispersing the external force P, resulting in contact of the side wall 174 of the set frame 170. Damage to the side sealant 130 of the liquid crystal panel 120 is prevented, and thus leakage of liquid crystal from the liquid crystal layer of the liquid crystal panel 120 is prevented.

As shown in FIG. 3B, when performing an environmental test such as high temperature and high humidity with respect to the liquid crystal display device 110 according to the first embodiment of the present invention, sidewalls 174 of the set frame 170 may be deformed. As a result, the side wall 174 of the shift frame 170 is inclined inward by the external force P, and the inner surface of the groove 176 of the side wall 174 of the set frame 170 has a liquid crystal panel 120. It may contact the outer surface of the side sealant 130.

At this time, since the outer surface of the side sealant 130 of the liquid crystal panel 120 and the inner surface of the groove 176 of the side wall 174 of the set frame 170 have a corresponding curved surface shape, the side sealant 130 The contact area between the outer surface and the inner surface of the groove 176 of the side wall 174 of the set frame 170 increases, thereby dispersing the external force P, resulting in contact of the side wall 174 of the set frame 170. Damage to the side sealant 130 of the liquid crystal panel 120 is prevented, and thus leakage of liquid crystal from the liquid crystal layer of the liquid crystal panel 120 is prevented.

Meanwhile, in another embodiment, a protrusion corresponding to the backlight unit may be formed on the sidewall of the set frame to prevent damage to the side sealant, which will be described with reference to the drawings.

4 is a cross-sectional view showing a liquid crystal display device according to a second embodiment of the present invention, and description of the same parts as in the first embodiment will be omitted.

4, the liquid crystal display device 210 according to the second embodiment of the present invention, the liquid crystal panel 220, the backlight unit 240, the first and second frames (260, 262), a set It includes a frame 270.

The liquid crystal panel 220 displaying an image using the gate voltage and the data voltage is between the first and second substrates 222 and 224 spaced apart from each other and the first and second substrates 222 and 224. It includes a liquid crystal layer (not shown) to be disposed.

The first polarizing film 226 is disposed on the outer surface of the first substrate 222, and the second polarizing film 228 is disposed on the outer surface of the second substrate 224, and the first and second substrates 222, 224 ) A side sealant 230 is disposed on the side surface.

The side sealant 230 disposed on the side surfaces of the first and second substrates 222 and 224 protects the side surfaces of the first and second substrates 222 and 224 exposed to the outside, and the first and second The liquid crystal of the liquid crystal layer between the substrates 222 and 224 serves to prevent leakage of the liquid crystal to the outside.

The backlight unit 240, which is disposed under the liquid crystal panel 220 and supplies light to the liquid crystal panel 220, includes a light emitting diode (LED) 242 and a light emitting diode printed circuit board (PCB). ) 244, a light guide plate 246, a reflector 248, and an optical film 250.

The light emitting diode 242 is disposed on the side of the light guide plate 246 and serves as a light source that supplies red, green, and blue light to the light guide plate 246.

The light emitting diode printed circuit board 244 supplies power to the light emitting diode 242 to drive the light emitting diode 242, and serves to discharge heat of the light emitting diode 242 to the outside through the first frame 260. You may.

The light guide plate 246 receives the linear light of the light emitting diode 242 through the light incident surface (side), transforms the linear light of the light emitting diode 242 into planar light through reflection and refraction, and converts the planar light to the light output surface ( The upper surface) to the liquid crystal panel 220.

The reflector 248 is disposed on the lower surface of the light guide plate 246 and reflects light emitted to the lower surface of the light guide plate 246 in the direction of the light exit surface of the light guide plate 246.

The optical film 250 diffuses and collects the planar light emitted to the light exiting surface of the light guide plate 246 to be uniform, and may include a plurality of diffusion sheets and a plurality of light collecting sheets.

The first and second frames 260 and 262 modularize the liquid crystal panel 220 and the backlight unit 240.

The first frame 260, which is also called a cover bottom or bottom cover, has a plate shape and is disposed to surround side and bottom surfaces of the backlight unit 240.

The second frame 262, also called a guide panel, a main support, a mold frame, or a middle cabinet, has a rectangular frame shape with a bent portion at the top, and is arranged to surround the side portions of the backlight unit 240 and the top edge. Combine with the frame 260.

The liquid crystal panel 220 is supported by the second frame 262, and a pad 264 for absorbing shock and vibration may be disposed between the bent portion of the second frame 262 and the liquid crystal panel 220. .

The set frame 270 is disposed to surround the lower surfaces of the first and second frames 260 and 262 and the side surfaces of the first and second frames 260 and 262 and the liquid crystal panel 220, The bottom plate 272 corresponding to the lower surfaces of the first and second frames 260 and 262 and the side surfaces of the first and second frames 260 and 262 and the liquid crystal panel 220 and corresponding to the side surfaces of the bottom plate 272 It includes first to fourth side walls 274 extending from four sides.

Here, the side sealant 230 of the liquid crystal panel 220 may have a semi-cylindrical shape protruding from the four sides of the first and second substrates 222 and 224 and connected to each other. The cross section may be a semi-circle or a semi-ellipse shape, and the outer surface of the side sealant 230 may be a curved shape.

In addition, a protruding portion 278 is formed on the sidewall 274 of the set frame 270 facing the first and second frames 260 and 262 surrounding the side surface of the backlight unit 240, and the protruding portion 278 The inner surface of the side wall 274 may protrude toward the backlight unit 240, and the cross section of the protruding portion 278 may have a semi-circle, semi-ellipse or square shape.

Specifically, the distance between the outer surface of the second frame 262 and the inner surface of the protrusion 278 of the set frame 270 is between the outer surface of the side sealant 130 and the inner surface of the side wall 274 of the set frame 270. It can be smaller than the distance.

Meanwhile, the protruding portion 278 is not formed on the left side wall 274 of the set frame 270 corresponding to the light emitting diode 242, and the right side wall 274 of the other set frame 270, the front side wall (not shown) ), may be formed on the rear sidewall (not shown).

In another embodiment in which the four-side wall 274 and the liquid crystal panel 220 are disposed close to each other, such as the direct type, the protrusion 278 may be formed on the four-side wall 274 of the set frame 270. That is, the protrusion 278 may be formed on at least one side wall 274 of the set frame 270.

In the liquid crystal display device 210 according to the second embodiment of the present invention, the first and the first side surrounding the side surface of the backlight unit 240 on the side wall 274 of the set frame 270 surrounding the liquid crystal panel 220. By forming the protrusions 278 corresponding to the outer surfaces of the second frames 260 and 262, the set frame 270 is contracted or deformed by the external force P so that the side walls 274 of the set frame 270 are liquid crystal panels. Before contacting the side sealant 230 of the 220, the protrusion 278 may contact the first or second frames 260 and 262.

That is, even when the set frame 270 contracts or deforms, the protrusions 278 contact the first or second frames 260 and 262 first, so that the side walls 274 and the side of the set frame 270 are side by side. The contact of the sealant 230 can be prevented.

Accordingly, damage to the side sealant 230 of the liquid crystal panel 220 due to contact of the side walls 274 of the set frame 270 is prevented, and thus leakage of liquid crystal from the liquid crystal layer of the liquid crystal panel 120 is prevented. do.

In the second embodiment, the protrusion 278 is formed on the side wall 274 of the set frame 270 as an example, but in another embodiment, the backlight unit 240 corresponds to the side wall 274 of the set frame 270. Grooves of a shape corresponding to the protruding portion 278 and the side sealant 230 may be formed.

Although described above with reference to preferred embodiments of the present invention, those skilled in the art variously modify and change the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. You can understand that you can.

110: liquid crystal display device 120: liquid crystal panel
122, 124: first and second substrates 126, 128 first and second polarizing films
130: side sealant 140: backlight unit
142: light-emitting diode 144: light-emitting diode printed circuit board
146: light guide plate 148: reflector
150: optical film 160, 162: first and second frames
164: pad 170: set frame
172: bottom plate 174: side wall
176: home

Claims (12)

A liquid crystal panel including first and second substrates, a liquid crystal layer disposed between the first and second substrates, and a side sealant protruding from side surfaces of the first and second substrates;
A backlight unit disposed under the liquid crystal panel;
A first frame surrounding the lower surface of the backlight unit;
A second frame surrounding the side of the backlight unit;
A pad disposed on the second frame;
A set frame that surrounds the liquid crystal panel and the first and second frames, and a groove corresponding to the side sealant is formed on at least one side wall.
A liquid crystal display device comprising a.
According to claim 1,
The liquid crystal display device having an outer surface of the side sealant having a curved surface, and an inner surface of the groove having a curved surface corresponding to the outer surface of the side sealant.
According to claim 2,
A liquid crystal display device having an outer surface of the side sealant having a first radius of curvature, and an inner surface of the groove having a second radius of curvature greater than or equal to the first radius of curvature.
According to claim 2,
A liquid crystal display device having a width between a top portion and a bottom portion of the side sealant having a first length, and a width between a top portion and a bottom portion of the groove having a second length greater than or equal to the first length.
According to claim 1,
The backlight unit,
A light source that emits light;
A light guide plate disposed on the side of the light source and transforming the linear light of the light source into planar light;
A reflector disposed under the light guide plate;
Optical film disposed on the light guide plate
A liquid crystal display device comprising a.
The method of claim 5,
The set frame,
A bottom plate corresponding to a lower surface of the first frame;
First to fourth side walls extending from four sides of the bottom plate
Including,
The grooves are formed on the second to fourth side walls, respectively, except for the first side wall corresponding to the light source.
According to claim 1,
The backlight unit,
A light source that emits light;
A diffusion plate disposed on the light source to diffuse light of the light source;
Optical film disposed on the diffusion plate
A liquid crystal display device comprising a.
The method of claim 7,
The set frame,
A bottom plate corresponding to a lower surface of the first frame;
First to fourth side walls extending from four sides of the bottom plate
Including,
The grooves are formed on the first to fourth side walls, respectively.
According to claim 1,
A liquid crystal display device further comprising an adhesive layer and a pad disposed between the liquid crystal panel and the second frame.
According to claim 1,
A liquid crystal display device having a protrusion corresponding to the backlight unit is formed on the at least one side wall of the set frame.
A liquid crystal panel including first and second substrates, a liquid crystal layer disposed between the first and second substrates, and a side sealant protruding from side surfaces of the first and second substrates;
A backlight unit disposed under the liquid crystal panel;
A first frame surrounding the lower surface of the backlight unit;
A second frame surrounding the side of the backlight unit;
A pad disposed on the second frame;
A set frame surrounding the liquid crystal panel and the first and second frames, and forming a protrusion corresponding to the backlight unit on at least one side wall.
A liquid crystal display device comprising a.
The method of claim 11,
The distance between the outer surface of the second frame and the inner surface of the protrusion is smaller than the distance between the outer surface of the side sealant and the inner surface of the at least one side wall of the set frame.

Images