KR20140068734A - Liquid crystal display apparatus - Google Patents

Abstract

According to one embodiment of the present invention, disclosed is a liquid crystal display device which includes a case which includes a bending part, a backlight unit whose one side is restricted in the bending part and which includes a reflection unit, a light guide panel, and an optical sheet which are successively received in the case, a control member which is combined with a sidewall which is opposite to the bending part and restricts the other side of the backlight unit, and a liquid crystal display panel which is located on the backlight unit.

Description

[0001] The present invention relates to a liquid crystal display apparatus,

The present invention relates to a liquid crystal display device with reduced bezel size.

BACKGROUND ART In general, a liquid crystal display (LCD) is a device for displaying a desired image by adjusting the light transmittance of liquid crystal cells arranged in a matrix according to image signal information, The panel displays the image.

The liquid crystal display device using such a principle has a tendency of widening its application range due to features such as light weight, thinness and low power consumption driving. In accordance with this trend, liquid crystal display devices are used in office automation equipment, audio / video equipment, and the like. In this liquid crystal display device, the light transmission amount is adjusted according to a signal applied to a plurality of control switches arranged in a matrix form to display a desired image on a screen.

2. Description of the Related Art In recent years, liquid crystal display devices have been extensively applied to computer monitors, televisions, display devices of vehicle navigator systems, and portable display devices such as notebook computers and cellular phones.

Since most of the liquid crystal display devices described above are non-emissive type display devices that display an image by adjusting the amount of a light source coming from the outside, a backlight unit including a separate light source for irradiating light to the liquid crystal display panel need.

The backlight unit includes an LED element as a light source, a light guide plate coupled with a light exit surface of the LED element, and a plurality of sheets provided on the light guide plate.

Generally, the backlight unit and the liquid crystal panel are packed by the upper case and the lower case while being supported by the guide panel. At this time, the edge of the liquid crystal panel is covered with a shielding tape, and this portion forms a bezel.

Since the bezel is the portion of the screen where the image is not displayed, it forms the border of the screen, and nowadays, the liquid crystal display device is attempting to visually enlarge the screen by minimizing the size of the bezel.

However, since the backlight unit and the liquid crystal display panel are supported while the guide panel is disposed in the bezel area forming the rim of the screen, there is a limitation in reducing the bezel area due to the volume of the guide panel itself.

The present invention has been made in view of such background, and aims to reduce the size of a bezel of a liquid crystal display device.

According to an embodiment of the present invention, there is provided a backlight unit including a case including a bending portion, a backlight unit including a reflection plate, a light guide plate, and an optical sheet sequentially housed in the case while being restrained by the bending portion, An intermittent member fastened to a side wall positioned on the opposite side of the backlight unit and restraining the other side of the backlight unit, and a liquid crystal display panel disposed above the backlight unit.

The bending portion may be formed by bending the case into a 'C' shape.

The intermittent member may have a first part parallel to the sidewall and a second part orthogonal to the first part to form an 'a' shape. The intermittent member is fixed to the side wall by double-sided tape, bolt connection or spot welding.

The liquid crystal display device of one embodiment further includes a light shielding tape disposed on the upper surface of the bending portion and the upper surface of the intermittent member to fix the liquid crystal display panel and prevent light leakage.

At least one of the upper polarizer and the lower polarizer is protruded from the liquid crystal display panel and the upper polarizer or the lower polarizer is protruded, A sealing material for preventing light leakage is formed.

According to another embodiment of the present invention, there is provided a backlight unit including a case including a bending portion, a backlight unit including a reflection plate, a light guide plate, and an optical sheet sequentially housed in the case while being restrained by the bending portion, And a liquid crystal display panel including a liquid crystal display panel positioned above the backlight unit. The liquid crystal display panel includes a backlight unit and a backlight unit.

The mounting member may include a stepped portion that mates with the projection provided in the case.

In one embodiment of the present invention, the bending portion provided in the case may constrain one side of the backlight unit and the other side may constrain the intermittent member or the mounting member to stably fix the backlight unit without the guide panel. Therefore, the size of the bezel that has been enlarged due to the volume of the guide panel in the past can be drastically reduced.

1 is a schematic exploded perspective view of a liquid crystal display device according to a first embodiment of the present invention.
2 is a schematic cross-sectional view taken along line II-II 'of FIG.
3 is a schematic cross-sectional view taken along line III-III 'of FIG.
4 is a view for explaining the arrangement relationship between the liquid crystal display panel and the polarizing plate.
5 is a view showing an embodiment in which only the upper polarizer is protruded from the liquid crystal display panel and the lower polarizer is formed inside the light shielding tape.
6 is a diagram for explaining the process of modularizing the liquid crystal display of the first embodiment.
7 is a schematic exploded perspective view of a liquid crystal display device according to a second embodiment of the present invention.
8 is a schematic cross-sectional view taken along line VIII-VIII 'of FIG.
9 is a schematic cross-sectional view taken along line IX-IX 'of Fig.
10 is a view showing a mounting member coupled to a case by a double injection.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. Like reference numerals throughout the specification denote substantially identical components. In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a schematic exploded perspective view of a liquid crystal display device according to a first embodiment of the present invention, and FIGS. 2 and 3 are schematic cross-sectional views taken along lines II-II 'and III-III' of FIG.

1 to 3, the liquid crystal display device of this embodiment includes a case 10, a backlight unit 40 accommodated in a case, and a liquid crystal display panel 75 disposed on the backlight unit 40. [

The case 10 is formed in a box shape by including a storage portion 10a in which the backlight unit 40 is located. The reflector 20, the light guide plate 30, the light source 50, and the optical sheet 48 constituting the backlight unit 40 are sequentially stacked in the housing portion 10a. The case 10 further includes a bending portion 10b for restricting one side of the backlight unit 40. [ The bending portion 10b may be formed by bending a portion of the case into a 'C' shape as illustrated in FIG. The bending portion 10b restrains the edges of the reflection plate 20, the light guide plate 30 and the optical sheet 48 located in the housing portion 10a so that when the backlight unit 40 is positioned in the housing portion 10a , Thereby preventing flow.

Further, the bending portion 10b supports the edge of the liquid crystal display panel 75 when the liquid crystal display panel 75 is positioned on the backlight unit 40. The case 10 including the bending portion 10b is made of a strong sus.

The backlight unit 40 includes a light source 50 for supplying light to the liquid crystal display panel 75, a light guide plate 30 for guiding light emitted from the light source 50 to the liquid crystal display panel 75, a light guide plate 30, And an optical sheet 48 for converting the light supplied from the light source 50 into a uniform surface light source and supplying the same to the liquid crystal display panel 75 .

The reflective sheet 20 is placed on the bottom surface 101 of the case 10 and the light guide plate 30 and the optical sheet 48 are sequentially placed thereon. The reflective sheet 20 is positioned below the light guide plate 10 and reflects the light traveling down the light guide plate 30 to the light guide plate 30 to increase the light efficiency and adjust the reflection amount of the entire incident light, So as to have a uniform luminance distribution.

The light source 50 is arranged in an edge type so as to face the light incidence surface 301 of the light guide plate 30. The light source 50 includes a light emitting diode 50a and a flexible printed circuit board 50b on which the light emitting diode is mounted. The flexible printed circuit board 50b is a flexible board having excellent warpage, and a circuit is mounted inside the flexible printed circuit board 50b, thereby blinking the light emitting diode 50a. In this embodiment, the light source 50 is a side view type in which the flexible printed circuit board 50b is located on top and below which the light emitting diode 50a faces the light incoming surface 301 of the light guide plate 30 do. 2, in the non-display area BA, the light emitting diode 50a is located opposite to the light-incoming surface 301 of the light guide plate 30, and the flexible printed circuit board 50b ) Is folded and positioned. At this time, the flexible printed circuit board 50b is attached to the upper portion of the light shielding tape 60 and remains fixed.

The light guide plate 30 is positioned such that the light source 50 is positioned to face the light incidence surface 301 so that light enters the light guide plate 30 from the light source 50 through the light incidence surface 301, To the liquid crystal display panel 75. [

The light guide plate 30 includes a light incidence surface 301 receiving light from the light emitting diode 50a, an exit surface 302 facing the liquid crystal display panel 75 to supply light, an incidence surface 301, And an inclined surface 303 that slants the bezel area 302 in a bezel area BA. The inclined surface 303 is formed such that the height gradually decreases from the incident surface 301 toward the emitting surface 302 and the height of the emitting surface 302 is constant in the display area AA. On the other hand, the optical sheet 48 is disposed on the exit surface 302 at a height corresponding to a lowered height in the display area AA. Thus, it is possible to modularize the device slim while reducing the weight by reducing the thickness of the device. The light guide plate 10 may be made of PMMA (Polymethylmethacrylate), which has a high strength and is not easily deformed or broken, and has a high transmittance.

The optical sheet 48 is disposed above the light exit surface 302 of the light guide plate 30. The optical sheet 48 is for diffusing and condensing the light incident from the light guide plate 130 and includes a diffusion sheet 48a, a prism sheet 48b and a protective sheet 48c. The diffusion sheet 48a is composed of a base plate and a bead coating layer formed on the base plate. The diffusion sheet 48a diffuses light from the light source 41 and supplies the light to the liquid crystal display panel 75. The prism sheet 48b is formed so that prisms in a triangular prism shape are arranged on the upper surface of the prism sheet 48b. The prism sheet 48b condenses light diffused by the diffusion sheet 48a in a direction perpendicular to the plane of the liquid crystal display panel 75 above. The protective sheet 48c protects the prism sheet 48b which is weak against scratching.

The backlight unit 40 having such a configuration is accommodated in the storage portion 10a of the case 10 while one of the backlight unit 40 is confined in the bending portion 10b. The other of the backlight unit 40 is restrained by the intermittent member 53 so that the backlight unit 40 is stably housed in the case 10. [

The intermittent member 53 has an A-shaped cross-section. The intermittent member 53 is coupled to the side wall 110 constituting the case 10 so as to restrain the edge of the backlight unit 40.

The intermittent member 53 is constituted by a first part 53a parallel to the side wall 110 and a second part 53b orthogonal to the first part 53a. The intermittent member 53 is attached to the case 10 such that the first part 53a is coupled to the side wall 110 and the second part 53b is extended toward the inside.

The backlight unit 40 is accommodated in the case 10 while one side is restrained by the bending portion 10b and the other side is restrained by the intermittent member 53 and stably housed in the case 10 do.

3, the intermittent member 53 is fixed to the side wall 110 by the double-sided tape 55, but it can also be coupled through bolt connection or spot welding. The intermittent member 53 is made of a sus as in the case 10 in consideration of structural stability.

Shielding tape 60 is positioned on the upper surface of the bending portion 10b and the upper surface of the intermittent member 53 to fix the liquid crystal display panel 75 and prevent light from leaking into the non-display area BA. The light shielding tape 60 divides the display area AA where the screen is displayed and the non-display area BA that is not displayed.

The liquid crystal display panel 75 includes a TFT substrate 73 composed of a plurality of TFTs (thin film transistors), a color filter substrate 71 bonded on the TFT substrate 73, (Not shown).

The TFT substrate 73 is a transparent glass substrate on which a thin film transistor on a matrix is formed. A data line is connected to the source terminal, and a gate line is connected to the gate terminal. The data lines and the gate lines are connected to an integrated circuit chip (not shown). When a flexible printed circuit board (not shown) is connected to one side of the integrated circuit chip (not shown) and an electrical signal is input from the flexible printed circuit board, electric power is supplied to each data line and the gate line through the integrated circuit chip And a TFT disposed in each pixel is turned on or off to apply or cut a driving voltage to each pixel.

On the TFT substrate 73, a color filter substrate 71 is bonded. The color filter substrate 71 is a substrate on which R, G, and B pixels, which are color pixels through which light passes and a predetermined color is expressed, are formed by a thin film process. On the surfaces of the color filter substrate 71 and the TFT substrate 73, a lower polarizer plate 731 and an upper polarizer plate 711 are attached to polarize light.

4 is a view for explaining the arrangement relationship between the liquid crystal display panel 75 and the polarizing plate 77. Fig. 4, the liquid crystal display panel 75 includes a first long side 75a where the light source 50 is disposed, a second long side 75b facing the first long side, a first short side 75c, And a second short side 75d extending in the longitudinal direction.

The polarizing plate 77 has a rectangular shape similar to the liquid crystal display panel 75 and has a first transverse side 77a corresponding to the first long side 75a and a second transverse side 77a corresponding to the second long side 75b, A first longitudinal side 77c corresponding to the first transverse side 75c and a second longitudinal side 77d corresponding to the first transverse side and a second transverse side 75d, .

The second long side 75b and the second long side 77a are separated by a first distance d1 and the first short side 75c and the first longitudinal side 77c are separated by a second distance d2, The second short side 75d and the second long side 77d are separated by a third distance d3.

Therefore, the polarizing plate 77 is protruded from the liquid crystal display panel 75 in the remaining three directions except the side where the light source is disposed (see Figs. 2 and 3). In this embodiment, the sealing member 83 is disposed in a space formed as the polarizing plate 77 protrudes. The sealing member 83 seals between the TFT substrate 73 and the color filter substrate 71 and is located at the edge of the non-display area BA to prevent light leakage.

5 shows an embodiment in which only the upper polarizer 711 protrudes from the liquid crystal display panel 75 and the lower polarizer 731 is formed inside the light shielding tape 60. [ According to this embodiment, as the lower polarizing plate 731 is located inside the shielding tape 60, the height is reduced, and the apparatus can be slim.

6 is a view for explaining the process of modularizing the liquid crystal display device of the first embodiment described above.

As illustrated in FIG. 6, the backlight unit 40 including the reflection plate 20, the light guide plate, and the optical sheet 48 has one edge thereof aligned with the bending portion 10b, And is housed in the case 10 so that one side of the backlight unit 40 is confined to the bending portion 10b (see FIG. 6 (A)).

After the backlight unit 40 is housed in the case 10, the intermittent member 53 is engaged with the other side wall 110 facing the bending portion 10b. Thus, the other part of the backlight unit 40 is also restrained, and the backlight unit 40 is fixed by the bending part 10b and the intermittent member 53 (see Fig. 6 (c)).

 After the backlight unit 40 is housed in the case 10, the liquid crystal display panel 75 is fixed on the liquid crystal display panel 75 using the shielding tape 60. [

FIG. 7 is a schematic exploded perspective view of a liquid crystal display device according to a second embodiment of the present invention, and FIGS. 8 and 9 are schematic cross-sectional views taken along lines VIII-VIII 'and IX-IX' of FIG.

In the second embodiment, only the intermittent member 53 of the first embodiment is different in that it is composed of the mounting member (93).

As illustrated in Fig. 9, the case 10 includes a bending portion 10b, and restrains one side of the backlight unit 40. As shown in Fig. The other side of the backlight unit 40 is restrained by the mounting member 93 so that the backlight unit 40 is stably fixed to the case 10. [

The mounting member 93 is formed to constrain the backlight unit 40 while forming the other side wall facing the bending portion 10b. The mounting member 93 includes a first step portion 93a and a second step portion 93b. The first step jaw portion 93a is formed on the bottom surface 931 and cooperates with the projection 105 formed on the bottom of the case 10. [ The protrusion 105 is used as an aligning means when the mounting member 93 is engaged with the case 10 and also improves the structural stability of the mounting member 93. [ A double-sided tape 55 is positioned between the first step jaw portion 93a and the projection 105 to engage the two.

And the second step portion 93b is formed on the inner side. The second stage jaw 93b restrains the edge of the backlight unit 40 when the mounting member 93 is engaged.

Thus, the backlight unit 40 is accommodated in the case 10 while one side is restrained by the bending portion 10b and the other side is restrained by the mounting member 93, do.

10 is a view showing a state in which the mounting member 93 is coupled to the case of the double injection case. Since the mounting member 93 is coupled to the case 10 by the double injection molding, it can be more stably fixed than when it is fixed by the double-sided tape.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

Claims (11)

A case including a bending portion,
A backlight unit including a reflection plate, a light guide plate, and an optical sheet sequentially housed in the case while one of them is confined to the bending portion;
An interlocking member fastened to a side wall located on the opposite side of the bending portion to confine the other side of the backlight unit;
The liquid crystal display panel
And the liquid crystal display device. The method according to claim 1,
And the bending portion bends the case to a 'C' shape. The method according to claim 1,
Wherein the intermittent member has a first part parallel to the sidewall and a second part orthogonal to the first part, thereby forming a 'A' shape. The method of claim 3,
Wherein the intermittent member is fixed to the side wall by double-sided tape, bolt connection or spot welding. The method according to claim 1,
And a light shielding tape disposed on the upper surface of the bending portion and the upper surface of the intermittent member to fix the liquid crystal display panel and prevent light leakage. The method according to claim 1,
Wherein the liquid crystal display panel includes an upper polarizer and a lower polarizer,
Wherein at least one of the upper polarizer and the lower polarizer is protruded from the liquid crystal display panel,
Wherein a sealant for preventing light leakage is formed in a space formed by protruding the upper polarizer or the lower polarizer. A case including a bending portion,
A backlight unit including a reflection plate, a light guide plate, and an optical sheet sequentially housed in the case while one of them is confined to the bending portion;
A mounting member which forms a side wall positioned on the opposite side of the bending portion and restrains the other side of the backlight unit,
The liquid crystal display panel
And the liquid crystal display device. 8. The method of claim 7,
And the bending portion bends the case to a 'C' shape. The method according to claim 1,
Wherein the mounting member includes a stepped portion that mates with a projection provided in the case. 8. The method of claim 7,
And a light shielding tape disposed on the upper surface of the bending portion and the upper surface of the intermittent member to fix the liquid crystal display panel and prevent light leakage. 8. The method of claim 7,
Wherein the liquid crystal display panel includes an upper polarizer and a lower polarizer,
Wherein at least one of the upper polarizer and the lower polarizer is protruded from the liquid crystal display panel,
Wherein a sealant for preventing light leakage is formed in a space formed by protruding the upper polarizer or the lower polarizer.

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