KR102052748B1 - Liquid Crystal Display Device with Narrow Bezel Area - Google Patents

Abstract

The present invention relates to a liquid crystal display device which can reduce a bezel area by reducing an area occupied by a conventional guide panel. A light source unit for supplying light to the liquid crystal display panel; A light guide plate for converting light emitted from the light source unit into planar light; A cover bottom having a bottom portion and sidewall portions extending upwardly from an edge portion of the bottom portion to accommodate the light source portion, the light guide plate, and the liquid crystal display panel; And a support member attached to inner surfaces of sidewall portions facing each other of the cover bottom, extending toward the cover bottom along an upper portion of the light guide plate to support the liquid crystal display panel.

Description

Liquid Crystal Display Device with Narrow Bezel Area

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display, and more particularly to a liquid crystal display having a narrow bezel area.

Generally, a liquid crystal display is a device for displaying a desired image by adjusting light transmittance of liquid crystal cells arranged in a matrix according to image signal information. The display panel displays the image.

The liquid crystal display using this principle has a tendency that its application range is gradually getting wider due to features such as light weight, thinness, and low power consumption. In accordance with this trend, liquid crystal displays have been used in televisions (TVs), computer monitors, indoor / outdoor advertising displays, display units of office automation equipment, display units of audio / video devices, display units of home appliances, and the like. In particular, recently, the liquid crystal display has recently been used as a display device of a vehicle navigator system, a notebook computer, a netbook, a personal digital assistant (PDA), a mobile phone, a smart phone. Widely applied to portable display devices such as smartphones. The transmissive liquid crystal display device, which occupies most of the liquid crystal display device, displays an image by controlling an electric field applied to the liquid crystal layer to modulate the light incident from the backlight unit.

Most of the liquid crystal display devices as described above are non-emissive type display devices that display images by controlling the amount of light received from the outside, so that a backlight unit including a separate light source for irradiating light to the liquid crystal display panel is provided. need.

The backlight unit is roughly divided into a direct type and an edge type. The direct type backlight unit has a structure in which a plurality of light sources are arranged in a row on the lower surface of the diffuser plate so that light is directed directly to the front surface of the liquid crystal display. In contrast, the edge type backlight unit has a structure in which a light source is disposed to face the side surface of the light guide plate, and a plurality of optical films are disposed between the liquid crystal display panel and the light guide plate. In the edge type backlight unit, a light source irradiates light on one side of the light guide plate, and the light guide plate converts linear light or point light emitted from the light source into planar light, thereby advancing the light toward the front of the liquid crystal display.

Such an edge type backlight includes a bottom cover, a light source for supplying light from one side of the bottom cover, a light guide plate provided below the liquid crystal display panel to guide light from the light source to the liquid crystal display panel, and a lower part of the light guide plate. A reflective sheet for reflecting the reflected light to the front of the light guide plate, a plurality of optical sheets stacked on the light guide plate to supply uniform light to the liquid crystal display panel, and a guide for combining the bottom cover to support the liquid crystal display panel. Includes a panel.

CCFL (Cot Cathode Fluorescent Lamp), HCFL (Hot Cathode Fluorescent Lamp), EEFL (External Electrode Fluorescent Lamp), etc. have been used as the light source of the backlight unit. Light emitting diodes (hereinafter referred to as "LEDs") have been in the spotlight due to advantages such as high contrast ratio and long lifespan.

The guide panel is a rectangular mold frame formed by mixing glass fibers in a synthetic resin such as polycarbonate. The guide panel is formed to surround the bottom and side surfaces of the liquid crystal display panel and surround the side of the backlight unit to support the liquid crystal display panel and to display the liquid crystal display. The gap between the panel and the optical sheets is kept constant.

The backlight unit and the liquid crystal display panel as described above are packaged by an upper cover bottom and a lower cover bottom. In this case, the edge of the liquid crystal display panel is covered by the light shielding pad so that internal components are not visible or light leaks out. The portion covered by the light shielding pad is called a bezel area.

Since the bezel area is a portion where no image is displayed, and forms a screen rim of the display device, when the size of the bezel area increases, the size of the effective display area decreases by the same size. Accordingly, recent attempts have been made to make the screen of the display device visually larger by reducing the size of the bezel area to a minimum.

However, in the bezel area that forms the edge of the screen of the display device, the guide panel supports the liquid crystal display panel in a state in which the guide panel is coupled to the side of the cover bottom of the backlight unit and the side of the liquid crystal display panel. There was a limit to reducing the bezel area by the area occupied by the guide panel in.

An object of the present invention is to solve the problems of the prior art, to provide a liquid crystal display that can reduce the bezel area by reducing the area occupied by the guide panel by removing the guide panel of the backlight unit of the liquid crystal display device.

A liquid crystal display device according to an embodiment of the present invention for achieving the above object comprises a liquid crystal display panel for displaying an image; A light source unit for supplying light to the liquid crystal display panel; A light guide plate for converting light emitted from the light source unit into planar light; A cover bottom having a bottom portion and sidewall portions extending upwardly from an edge portion of the bottom portion to accommodate the light source portion, the light guide plate, and the liquid crystal display panel; And a support member attached to inner surfaces of sidewall portions facing each other of the cover bottom, extending toward the cover bottom along an upper portion of the light guide plate to support the liquid crystal display panel.

The liquid crystal display may further include a clip part attached to the outer surfaces of the side wall parts facing each other of the cover bottom and extending from the upper end of the side wall parts to the inside of the cover bottom to be positioned above the liquid crystal display panel.

The sidewall portions of the cover bottom may include a first sidewall portion to which the light source unit is attached, a second sidewall portion facing the first sidewall portion, and a first sidewall portion and the second sidewall portion facing each other. And a third sidewall portion and a fourth sidewall portion, wherein the support member is attached to an inner surface of the third sidewall portion and extends into the cover bottom, and is formed separately from the first support member. It is attached to the inner surface of the side wall portion includes a second support member extending in the cover bottom.

Each of the first support member and the second support member includes a first portion attached to an inner surface of any one of the third sidewall portion and the fourth sidewall portion of the cover bottom, and the cover from a lower end portion of the first portion. A base member including a second portion extending inwardly of the bottom; And a light blocking pad attached to an upper surface of the second portion of the base member to support the liquid crystal display panel.

The liquid crystal display may further include an optical sheet disposed between the second portions of the first and second support members and the light guide plate, wherein each of the first support member and the second support member includes the base member. It further comprises a holding member attached to the lower surface of the second portion of to keep the optical sheet from being separated.

The sidewall portions of the cover bottom may include a first sidewall portion to which the light source unit is attached, a second sidewall portion facing the first sidewall portion, and a first sidewall portion and the second sidewall portion facing each other. A third sidewall portion and a fourth sidewall portion, wherein the clip portion is attached to an outer surface of the third sidewall portion and extends from an upper end of the third sidewall portion to an upper portion of the liquid crystal display panel; And a second clip portion formed separately and attached to an outer surface of the fourth sidewall portion and extending from an upper end of the fourth sidewall portion to an upper portion of the liquid crystal display panel.

Each of the first clip portion and the second clip portion may include a first portion attached to an outer surface of a bottom portion of the cover bottom, and an outer surface of any one of a third side wall portion and a fourth side wall portion of the cover bottom. A second portion attached, a third portion attached to an upper surface of any one of the third sidewall portion and the fourth sidewall portion of the cover bottom, and a fourth portion extending from the third portion to the upper side of the liquid crystal display panel. And the fourth portion prevents the liquid crystal display panel from flowing.

In addition, the base member of the support member and the first and second krill portions are formed of thermoplastic plastic.

According to the liquid crystal display device according to the present invention, the support member is attached to the inner surface of the cover bottom, and then bent at a position spaced apart from the top surface of the cover bottom to extend into the cover bottom. Since it is supported, the size of the bezel area, which has been increased due to the thickness of the conventional guide panel, can be significantly reduced.

In addition, since the flow of the liquid crystal display panel is prevented by the first and second clip portions coupled to the cover bottom and extending above the color filter substrate of the liquid crystal display panel, the stability of the liquid crystal display device can be obtained. have.

1 is a schematic exploded perspective view of a liquid crystal display according to a first embodiment of the present invention;
FIG. 2 is a cross-sectional view taken along the line II ′ of FIG. 1, wherein the upper polarizer is formed on the color filter substrate with a width narrower than that of the color filter substrate of the liquid crystal display panel, and the lower polarizer is shielded from being attached to the support member. A cross-sectional view showing an example formed on a TFT substrate of a liquid crystal display panel between pads;
3 is a cross-sectional view taken along the line II ′ of FIG. 1, in which the upper polarizer is formed on the color filter substrate with a width narrower than that of the color filter substrate of the liquid crystal display panel, and the lower polarizer is a TFT substrate of the liquid crystal display panel. Cross section showing an example attached to the light shielding pad of the support member with,
4 is a schematic exploded perspective view of a liquid crystal display according to a second embodiment of the present invention;
FIG. 5 is a cross-sectional view taken along the line II-II 'of FIG. 4, in which the upper polarizer has both ends attached to the color filter substrate in an area of the color filter substrate of the liquid crystal display panel, and the lower polarizer is attached to the support member. A cross-sectional view showing an example formed on a TFT substrate of a liquid crystal display panel between pads;
FIG. 6 is a cross-sectional view taken along the line II-II 'of FIG. 4, in which the upper polarizing plate has both ends attached to the color filter substrate in the area of the color filter substrate of the liquid crystal display panel, and the lower polarizing plate is a TFT substrate of the liquid crystal display panel. And a cross-sectional view showing an example attached to the light shielding pad of the support member.

Hereinafter, a liquid crystal display according to exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like numbers refer to like elements throughout. In the following description, when it is determined that a detailed description of known functions or configurations related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

First, a liquid crystal display according to a first embodiment of the present invention will be described with reference to FIGS. 1 to 3. 1 is a schematic exploded perspective view of a liquid crystal display according to a first exemplary embodiment of the present invention, and FIGS. 2 and 3 are cross-sectional views taken along the line II ′ of FIG. 1.

1 to 3, a liquid crystal display according to a first embodiment of the present invention includes a cover bottom CB, a backlight unit BLU accommodated in a cover bottom CB, and a backlight unit A liquid crystal display panel LCP disposed on an upper portion of the BLU, and first and second support members SUP1 and SUP2 coupled to the cover bottom CB to support the liquid crystal display panel LCP are included.

The cover bottom CB includes a bottom portion 10a on which the backlight unit BLU is located and sidewall portions 10b, 10c, 10d, and 10e extending upward from an edge portion of the bottom portion 10a. The cover bottom CB is also formed to have an open box shape at the top, and is made of stainless steel (SUS) having excellent rigidity. The bottom portion 10a of the cover bottom CB includes a reflective sheet 20, a light guide plate 30, a light source 40, an optical sheet 50, and a liquid crystal display panel LCP constituting the backlight unit BLU, which will be described later. ) Are sequentially stacked, and the sidewall portions 10b, 10c, 10d, and 10e of the cover bottom CB are formed to have a height that can accommodate them.

The backlight unit BLU includes a light source unit 40 for supplying light to the liquid crystal display panel LCP, a light guide plate 30 for guiding light emitted from the light source unit 40, and a light guide plate 30 to supply the light to the liquid crystal display panel LCP. ) And a reflecting sheet 20 to reflect light and disposed above the light guide plate 30 to convert the light supplied from the light source 40a into a uniform surface light source and supply it to the liquid crystal display panel LCP. It includes the optical sheet 50 to be.

The light source unit 40 is of an edge type so as to face the light incident surface of the light guide plate 30. The light source unit 40 includes a printed circuit board 40a and at least one light emitting diode (LED) 40b (hereinafter referred to as a “light source”) mounted on the printed circuit board. The printed circuit board 40a is a flexible substrate having excellent bending, and a circuit is mounted therein to make the light source 40b blink. In this embodiment, the light source 40b may be configured in a top view type, in which case the flexible printed circuit board 40a is installed on the sidewall 10b of the bottom cover BC, and printing An upper portion of the light source 40b mounted on the circuit board 40a is positioned to face the light incident surface of the light guide plate 30. On the other hand, the light source 40b may be configured in a side view type. In this case, the flexible printed circuit board 40a is installed on the bottom surface 10a of the bottom cover BC, and the side surface of the light source 40b mounted on the printed circuit board 40a is the light incident surface of the light guide plate 30. Is located facing the.

Since the light guide plate 30 is positioned such that its light incident surface faces the light source 40b, light emitted from the light source 40b is incident on the light guide plate 30 through the light incident surface. In this case, the light guide plate 30 functions to direct light incident from the light source 40b to the light incident surface of the light guide plate 30 toward the upper direction of the light guide plate 30, that is, toward the liquid crystal display panel LCP. To this end, a diffusion pattern (not shown) may be formed on the bottom of the light guide plate 30 so as to scatter light directed toward the lower portion of the light guide plate 30 to face upward. The light guide plate 30 converts the light incident from the light source 40b into uniform planar light and emits the light toward the optical sheet 50 disposed on the light guide plate 30. As the light guide plate 30, a material having good refractive index and transmittance, for example, polymethylene methacrylate (PMA), polycarbonate (PC), polyethylene (PE: polyethylene), cycloolefin resin (COP) And the like, but are not limited to these materials.

Meanwhile, although the light guide plate 30 is illustrated as a rectangle in the embodiment of FIG. 1 of the present invention, a light incident surface on which light is incident from the light source 40b and an emission surface facing the liquid crystal display panel LCP are emitted. And, it may include an inclined surface connecting the entrance surface and the exit surface. In this case, the inclined surface may be formed such that the height is gradually lowered or the height is lowered at right angles in the direction from the incident surface to the exit surface, and the exit surface is formed to have a constant height.

The reflective sheet 20 is disposed between the bottom surface 10a of the cover bottom CB and the light guide plate 10 and is incident through the light incidence part 30a of the light guide plate 30 to exit below the light guide plate 30. The light is reflected toward the light guide plate 30 to increase the light efficiency and to adjust the amount of reflection of the entire incident light so that the entire emission surface has a uniform luminance distribution.

The optical sheet 50 is for diffusing and condensing light incident from the light guide plate 30 and includes a diffusion sheet 50a, a prism sheet 50b, and a protective sheet 50c. The diffusion sheet 50a is composed of a base plate and a bead-shaped coating layer formed on the base plate, and diffuses light from the light source 40b and supplies it to the liquid crystal display panel LCP. The prism sheet 50b is formed such that a prism of a triangular prism shape is formed on a top surface of the prism sheet 50b, and collects the light diffused from the diffusion sheet 50a in a direction perpendicular to the plane of the liquid crystal display panel LCP. The protective sheet 50c is formed on the prism sheet 50b to protect the prism sheet 50b which is weak to scratches.

Each of the first and second support members SUP1 and SUP2 includes a base member 60, a light blocking pad 63, and a holding pad 65.

The base member 60 is attached to an inner surface of a portion of the side wall portions 10c and 10e of the cover bottom CB, and is formed to be bent toward the inner side of the cover bottom CB to form a “b” shape. Specifically, the base member 60 is bent from the first portion 60a and the first portion 60a attached to the inner surface of the portion of the side wall portions 10c and 10e of the cover bottom CB, and the inner side of the cover bottom CB. And a second portion 60b extending to. The base member 60 is formed of a thermoplastic plastic such as polyethylene terephthalate (PET).

The light blocking pad 63 is attached to the upper surface of the second portion 60b of the base member 60 to support and fix the liquid crystal display panel LCP to be disposed thereon, and to prevent light leakage from the bezel area BA. prevent. The light blocking pad 63 partitions the display area AA where the screen is displayed and the bezel area BA which is not displayed.

The holding pad 65 is disposed on the lower surface of the second portion 60b of the base member 60 to keep the optical sheet 40 from being separated. The holding pad 65 may be spaced apart from the optical sheet 40 at a predetermined distance, or may be formed to contact or adhere to the optical sheet 40.

The liquid crystal display panel (LCP) serves to display an image, and the color filter substrate 70b is bonded to the TFT substrate 70a and the TFT substrate 70a in which a plurality of thin film transistors (TFTs) are formed in a matrix form. ) And a liquid crystal (not shown) injected between the substrates 70a and 70b.

The TFT substrate 70a is a transparent glass substrate on which a thin film transistor in matrix form is formed. A data line is connected to a source terminal of a TFT, and a gate line is connected to a gate terminal. The data line and the gate line are connected to respective driving integrated circuit chips (not shown). When a flexible printed circuit board (not shown) is connected to one side of a driving integrated circuit chip (not shown), and an electrical signal is input from the flexible printed circuit board, each data line and a gate line are connected to each other through the integrated circuit chip. An electrical signal is input. Accordingly, the TFTs disposed in the respective pixels are turned on or turned off, and a driving voltage is applied or blocked to each pixel, thereby displaying an image on the liquid crystal display panel.

Meanwhile, the TFT substrate 70a is attached to the light blocking pad 63 attached to each of the first and second support members SUP1 and SUP2. At this time, the TFT substrate 70a is attached to the light shielding pad 63 so that the light shielding pad 63 slightly protrudes to the outside of the TFT substrate 70a.

The color filter substrate 70b is disposed above the TFT substrate 70a, and is bonded to each other by the color filter substrate 70b and a sealing material (not shown). The color filter substrate 70b is a substrate in which RGB pixels, which are color pixels in which a predetermined color is expressed while light passes, are formed by a thin film process.

On the other hand, the first polarizing plate POL1 is formed on the lower surface of the TFT substrate 70a, and the second polarizing plate POL2 is attached to the upper surface of the color filter substrate 70b to polarize the light.

In the liquid crystal display of the embodiment shown in FIG. 2, the first polarizing plate POL1 is formed in a rectangular shape similar to the shape of the TFT substrate 70a of the liquid crystal display panel LCP, and the side where the light source unit 40 is disposed and The first width defined by the opposite sides is formed to have a width smaller than the width of the TFT substrate 70a of the liquid crystal display panel LCP, and the second width defined by the two opposite sides of the liquid crystal display panel (LCP) It is formed smaller than the width of the TFT substrate 70a of the LCP. Specifically, since the second width of the first polarizing plate POL1 is formed between the light shielding pads 63 of the first and second support members SUP1 and SUP2, the second width of the first polarizing plate POL1 is disposed between both sides of the TFT substrate 70a of the liquid crystal display panel. It is formed on the substrate, and becomes smaller than the width of the TFT substrate 70a.

The second polarizing plate POL2 has a rectangular shape similar to the shape of the color filter substrate 70b of the liquid crystal display panel LCP, and the first width defined by the side on which the light source unit 40 is disposed and the side opposite thereto is It is formed to have a width smaller than the width of the TFT substrate 70a of the liquid crystal display panel, and the second width defined by the remaining two opposite sides is formed smaller than the width of the TFT substrate 70a of the liquid crystal display panel LCP. .

Meanwhile, in the liquid crystal display of the exemplary embodiment illustrated in FIG. 3, the first polarizing plate POL1 is formed in a rectangular shape similar to the shape of the TFT substrate 70a of the liquid crystal display panel LCP, and the side where the light source unit 40 is disposed. And a first width defined by the side opposite thereto is formed to have a width smaller than the width of the TFT substrate 70a of the liquid crystal display panel LCP, and the second width defined by the remaining two opposite sides is the liquid crystal display. It is formed smaller than the width of the TFT substrate 70a of the panel LCP.

The second polarizing plate POL2 has a rectangular shape similar to the shape of the color filter substrate 70b of the liquid crystal display panel LCP, and the first width defined by the side on which the light source unit 40 is disposed and the side opposite thereto is It is formed to have a width equal to or greater than the width of the TFT substrate 70a of the liquid crystal display panel, and the second width defined by the remaining two opposite sides is the width of the TFT substrate 70a of the liquid crystal display panel LCP. Is greater than or equal to

According to the liquid crystal display according to the first embodiment of the present invention described above, the liquid crystal display panel LCP is attached to the inner surface of the side wall portion of the cover bottom CB and extends into the cover bottom CB. 2 is supported by the support members (SUP1, SUP2) it is possible to obtain the effect of reducing the bezel area occupied by the conventional guide panel.

In the first embodiment of the present invention described above, the first and second support members SUP1 and SUP2 support the liquid crystal display panel LCP, but the present invention is not limited thereto. The liquid crystal display panel LCP may be supported by using one support member that combines the first and second support members SUP1 and SUP2.

Next, a liquid crystal display according to a second exemplary embodiment of the present invention will be described with reference to FIGS. 4 to 6. 4 is a schematic exploded perspective view of a liquid crystal display according to a second exemplary embodiment of the present invention, and FIGS. 5 and 6 are cross-sectional views taken along the line II-II 'of FIG. 4.

4 to 6, the liquid crystal display according to the second exemplary embodiment of the present invention includes a cover bottom CB, a backlight unit BLU accommodated in the cover bottom CB, and a backlight unit It is coupled to the liquid crystal display panel LCP and the cover bottom CB disposed on the BLU, and coupled to the first and second support members SUP1 and SUP2 supporting the liquid crystal display panel LCP and the cover bottom. First and second clip parts CL1 and CL2 holding the liquid crystal display panel. The liquid crystal display device according to the second embodiment of the present invention differs from the liquid crystal display device according to the first embodiment of the present invention in that the invention of the second embodiment includes first and second parts for holding the cover bottom and the liquid crystal display panel. In addition to the clip portion, the difference will be apparent from the following description.

The cover bottom CB includes a bottom portion 100a in which the backlight unit BLU is located, and sidewall portions 100b, 100c, 100d, and 100e extending upward from an edge portion of the bottom portion 100a. The cover bottom CB is also formed to have an open box shape at the top, and is made of stainless steel (SUS) having excellent rigidity. The bottom portion 100a of the cover bottom CB includes a reflective sheet 120, a light guide plate 130, a light source 140, an optical sheet 150, and a liquid crystal display panel LCP constituting the backlight unit BLU, which will be described later. ) Are sequentially stacked, and the sidewall portions 100b, 100c, 100d, and 100e of the cover bottom CB are formed to have a height that can accommodate them.

The backlight unit BLU may include a light source unit 140 that supplies light to the liquid crystal display panel LCP, a light guide plate 130 that guides light from the light source unit 140, and supplies the light to the liquid crystal display panel LCP. A reflection sheet 120 disposed at a lower portion of the light reflector to reflect light, and an upper portion of the light guide plate 130 to convert the light supplied from the light source 140a into a uniform surface light source and supply the light to the liquid crystal display panel LCP. Optical sheet 150.

The light source unit 140 is of an edge type facing the light incident surface of the light guide plate 130. The light source unit 140 includes a printed circuit board 140a and at least one light emitting diode (LED) 140b (hereinafter referred to as a “light source”) mounted on the printed circuit board 140a. The printed circuit board 140a is a flexible substrate having excellent bending, and a circuit is mounted therein to make the light source 140b blink. In this embodiment, the light source 140b may be used in a top view type, in which case the flexible printed circuit board 140a is installed on the sidewall 100b of the bottom cover BC, and printing An upper portion of the light source 140b mounted on the circuit board 40a is positioned to face the light incident surface of the light guide plate 130. On the other hand, the light source 140b may be a side view type, in which case the flexible printed circuit board 140a is installed on the bottom surface 100a of the bottom cover BC and the printed circuit board 140a. The side surface of the light source 140b mounted at) is positioned to face the light incident surface of the light guide plate 130.

Since the light guide plate 130 is positioned so that the light incident surface thereof faces the light source 140b, the light emitted from the light source 140b is incident to the light guide plate 130 through the light incident surface. In this case, the light guide plate 130 serves to direct light incident from the light source 140b to the light incident surface of the light guide plate 130 toward the upper direction of the light guide plate 130, that is, toward the liquid crystal display panel LCP. To this end, a diffusion pattern (not shown) may be formed on the bottom of the light guide plate 130 so as to scatter light directed toward the lower portion of the light guide plate 130 to face upward. The light guide plate 130 converts the light incident from the light source 140b into uniform planar light and emits the light toward the optical sheet 150 disposed on the light guide plate 130. As the light guide plate 130, a material having good refractive index and transmittance, for example, polymethylenemethacrylate (PMA), polycarbonate (PC), polyethylene (PE: polyethylene), cycloolefin resin (COP) And the like, but are not limited to these materials.

Meanwhile, although the light guide plate 130 is illustrated as having a rectangular shape in the embodiment of FIG. 4, the light guide plate 130 has a light incident surface receiving light from the light source 140b and a light facing the liquid crystal display panel LCP. It may include an exit surface for supplying, and an inclined surface connecting the incident surface and the exit surface. In this case, the inclined surface may be formed such that the height is gradually lowered or the height is lowered at right angles in the direction from the incident surface to the exit surface, and the exit surface is formed to have a constant height.

The reflective sheet 120 is disposed between the bottom surface 100a of the cover bottom CB and the light guide plate 130, and receives the light incident through the light incidence portion of the light guide plate 130 and exits to the bottom of the light guide plate 130. By reflecting toward 130, the light efficiency is increased, and the reflection amount of the entire incident light is adjusted to make the entire emission surface have a uniform luminance distribution.

The optical sheet 150 is for diffusing and condensing light incident from the light guide plate 130 and includes a diffusion sheet 150a, a prism sheet 150b, and a protective sheet 150c. The diffusion sheet 150a is formed of a base plate and a bead-shaped coating layer formed on the base plate, and diffuses light from the light source 140b to supply to the liquid crystal display panel LCP. The prism sheet 150b is formed such that a prism of a triangular prism shape is formed on a top surface of the prism sheet 150b, and collects light diffused from the diffusion sheet 150a in a direction perpendicular to a plane of the liquid crystal display panel LCP. The protective sheet 150c protects the prism sheet 150b that is weak to scratches.

Each of the first and second support members SUP1 and SUP2 includes a base member 160, a light blocking pad 163, and a holding pad 165.

The base member 160 is attached to an inner surface of a portion of the side wall portions 100c and 100e of the cover bottom CB, and is formed to be bent toward the inner side of the cover bottom CB to form a “b” shape. Specifically, the base member 160 is bent from the first portion 160a and the first portion 160a attached to the inner surface of the sidewall portions 100c and 100e of the cover bottom CB, and the inner side of the cover bottom CB. It includes a second portion 160b extending to. The base member 160 is formed of a thermoplastic plastic such as polyethylene terephthalate (PET).

The light blocking pad 163 is attached to an upper surface of the second portion 160b of the base member 160 to support and fix the liquid crystal display panel LCP to be disposed thereon, and to prevent light leakage from the bezel area BA. prevent. The light blocking pad 163 divides the display area AA where the screen is displayed and the bezel area BA which is not displayed.

The holding pad 165 is disposed on the lower surface of the second portion 60b of the base member 160 to keep the optical sheet 140 from being separated. The holding pad 165 may be spaced apart from the optical sheet 140 at a predetermined distance or may be formed to be in contact with or attached to the optical sheet 140.

The liquid crystal display panel LCP displays an image, and a color filter substrate 170b bonded to the TFT substrate 170a and the TFT substrate 170a in which a plurality of TFTs are formed in a matrix form. ) And a liquid crystal layer (not shown) injected between the substrates 170a and 170b.

The TFT substrate 170a is a transparent glass substrate on which a matrix thin film transistor is formed, and a data line is connected to a source terminal of a TFT, and a gate line is connected to a gate terminal. The data line and the gate line are connected to respective driving integrated circuit chips (not shown). When a flexible printed circuit board (not shown) is connected to one side of a driving integrated circuit chip (not shown), and an electrical signal is input from the flexible printed circuit board, each data line and a gate line are connected to each other through the integrated circuit chip. An electrical signal is input. Accordingly, the TFTs disposed in the respective pixels are turned on or turned off, and a driving voltage is applied or blocked to each pixel, thereby displaying an image on the liquid crystal display panel.

Meanwhile, the TFT substrate 170a is attached to the light blocking pad 163 attached to each of the first and second support members SUP1 and SUP2. At this time, the TFT substrate 170a is attached to the light blocking pad 163 so that the light blocking pad 163 slightly protrudes to the outside of the TFT substrate 170a.

The color filter substrate 170b is disposed above the TFT substrate 70a, and the color filter substrate 170b and the TFT substrate 170a are bonded to each other by a sealing material (not shown). The color filter substrate 170b is a substrate in which RGB pixels, which are color pixels in which a predetermined color is expressed while light passes, are formed by a thin film process.

Meanwhile, a first polarizing plate POL1 is formed on a lower surface of the TFT substrate 170a, and a second polarizing plate POL2 is attached to an upper surface of the color filter substrate 170b to polarize light.

In the liquid crystal display of the exemplary embodiment illustrated in FIG. 5, the first polarizing plate POL1 is formed in a rectangle similar to the shape of the TFT substrate 170a of the liquid crystal display panel LCP, and the side on which the light source unit 40 is disposed and The first width defined by the opposite sides is formed to have a width smaller than the width of the TFT substrate 170a of the liquid crystal display panel LCP corresponding thereto, and the second width defined by the two opposite sides is also defined as liquid crystal. It is formed smaller than the width of the TFT substrate 170a of the display panel LCP.

The second polarizing plate POL2 has a rectangular shape similar to the shape of the color filter substrate 70b of the liquid crystal display panel LCP, and the first width defined by the side on which the light source unit 40 is disposed and the side opposite thereto is It is formed to have a width smaller than the width of the TFT substrate 70a of the liquid crystal display panel, and the second width defined by the remaining two opposite sides is also formed smaller than the width of the TFT substrate 70a of the liquid crystal display panel LCP.

Meanwhile, in the liquid crystal display of the exemplary embodiment illustrated in FIG. 6, the first polarizing plate POL1 is formed in a rectangular shape similar to the shape of the TFT substrate 170a of the liquid crystal display panel LCP, and the side where the light source unit 140 is disposed. And a first width defined by the side opposite thereto is formed to have a width smaller than the width of the TFT substrate 70a of the liquid crystal display panel LCP, and the second width defined by the two opposite sides is also defined by the liquid crystal display. It is formed smaller than the width of the TFT substrate 170a of the panel LCP.

The second polarizing plate POL2 has a rectangular shape similar to the shape of the color filter substrate 170b of the liquid crystal display panel LCP, and the first width defined by the side on which the light source unit 140 is disposed and the side opposite thereto is It is formed to have a width smaller than the width of the TFT substrate 170a of the liquid crystal display panel, and the second width defined by the two opposite sides is also formed smaller than the width of the TFT substrate 70a of the liquid crystal display panel LCP.

Each of the first and second clip portions CL1 and CL2 is formed in a “c” shape. Specifically, each of the first and second clip portions CL1 and CL2 has an outer surface of a portion of the bottom portion 100a of the cover bottom CB, an outer surface of the side wall portions 100c and 100e, and a sidewall portion 100c, The upper surface of 100e is wrapped and extends from the upper surface of the side wall portions 100c and 100e to the inside of the cover bottom CB. That is, each of the first and second clip portions CL1 and CL2 is bent from the first portion 180a and the first portion 180a that are attached to the outer surface of a portion of the bottom portion 100a of the cover bottom CB. A second portion 180b attached to the outer surface of the sidewall portions 100c and 100e of the bottom CB, and bent from the second portion 180b to be attached to the upper surface of the sidewall portions 100c and 100e of the cover bottom CB. The third part 180c may extend from an upper surface of the sidewall parts 100c and 100e to an inner side of the cover bottom CB and positioned above the color filter substrate 170b of the liquid crystal display. The first and second clip portions CL1 and CL2 are formed of a thermoplastic plastic such as polyethylene terephthalate (PET) like the first and second support members.

These first and second clip portions CL1 and CL2 are coupled to the cover bottom CB to prevent the liquid crystal display panel LCP from flowing.

According to the liquid crystal display according to the second exemplary embodiment of the present invention, the first and second support members SUP1 and SUP2 are attached to the inner surface of the sidewall of the cover bottom CB and extend into the cover bottom CB. Since the liquid crystal display panel LCP is supported, the bezel area occupied by the conventional guide panel can be reduced.

In addition, the liquid crystal display panel LCP is prevented by the first and second clip portions CL1 and CL2 coupled to the cover bottom CB and extending above the color filter substrate 170b of the liquid crystal display panel. The effect of improving the stability of the display device can be obtained.

Meanwhile, in the above-described second embodiment of the present invention, the first and second clip parts CL1 and CL2 have been described as preventing the liquid crystal display panel LCP from flowing. However, the present invention is not limited thereto. For example, the first and second clip parts CL1 and CL2 may be formed as one combined clip part to support the liquid crystal display panel LCP.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present 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.

CB: Cover Bottom BLU: Backlight Unit
LCP: liquid crystal display panel SUP1, SU2: support member
CL1, CL2: Clip portion 20, 120: Reflective sheet
30, 130: light guide plate 40, 140: light source unit
50, 150: optical sheet 60, 160: base member
63, 163: light shielding pads 65, 165: retention pad

Claims (8)

A liquid crystal display panel which displays an image and has a first polarizing plate attached to a lower surface thereof and a second polarizing plate attached to an upper surface thereof;
A light source unit for supplying light to the liquid crystal display panel;
A light guide plate for converting light emitted from the light source unit into planar light;
A first side wall portion to which the light source unit is attached, a second side wall portion disposed to face the first side wall portion, and a third side wall portion and a fourth side wall which connect the first side wall portion and the second side wall portion and face each other; A cover bottom having a portion and a bottom portion connected to the first to fourth sidewall portions to accommodate the light guide plate and the liquid crystal display panel;
A first support member attached to an inner surface of the third sidewall portion of the cover bottom and extending inward to the cover bottom in parallel to an upper surface of the light guide plate, and formed separately from the first support member and attached to an inner surface of the fourth sidewall portion And a second support member extending in the cover bottom in parallel with an upper surface of the light guide plate, the support member supporting the liquid crystal display panel; And
A first clip portion attached to an outer surface of the third sidewall portion and extending from an upper end of the third sidewall portion to an upper portion of the liquid crystal display panel, and formed separately from the first clip portion and attached to an outer surface of the fourth sidewall portion; A clip portion including a second clip portion extending from an upper end of a fourth sidewall portion to an upper portion of the liquid crystal display panel;
Each of the first clip portion and the second clip portion,
A first portion attached to an outer surface of a bottom portion of the cover bottom, a second portion extending from the first portion and attached to an outer surface of any one of a third side wall portion and a fourth side wall portion of the cover bottom, and the second portion A third portion extending from two portions to contact an upper surface of one of the third sidewall portion and the fourth sidewall portion of the cover bottom and an upper surface of one end of the liquid crystal display panel to prevent the liquid crystal display panel from flowing;
And the second polarizer is positioned between the third portion of the first clip portion and the third portion of the second clip at a predetermined distance from the third portions.
delete delete The method of claim 1,
Each of the first support member and the second support member,
A base member including a first portion attached to an inner surface of one of the third sidewall portion and the fourth sidewall portion of the cover bottom, and a second portion extending from the lower end portion of the first portion into the cover bottom; And
A light blocking pad attached to an upper surface of the second portion of the base member to support the liquid crystal display panel;
And the light blocking pad overlaps an interval formed in the third portion of the first clip portion, the third portion of the second clip and the second polarizing plate, and is formed larger than the interval.
The method of claim 4, wherein
An optical sheet disposed between the second portions of the first and second support members and the light guide plate;
Each of the first supporting member and the second supporting member further includes a holding member attached to a lower surface of the second portion of the base member so as to overlap the light shielding pad and to keep the optical sheet from being separated. Liquid crystal display device.
delete delete The method according to any one of claims 1, 4, and 5,
And the base member and the first and second clip portions of the support member are formed of thermoplastic plastic.

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