KR101451741B1 - Liquid crystal display device - Google Patents

Abstract

The present invention relates to a lamp wire fixing structure of a liquid crystal display device having a narrow bezel, comprising: a liquid crystal panel; A lamp provided on the lower side of the liquid crystal panel for providing light and having a wire to which a voltage is applied from the outside; A bottom surface of which at least one side of the lamp is provided with a receiving groove for receiving the lamp wire on a rear surface on which the lamp is disposed and a main supporter constituting a side wall extending from an end of the bottom surface, And the like.

Main support, lamp wire, storage groove, through hole

Description

[0001] LIQUID CRYSTAL DISPLAY DEVICE [0002]

The present invention relates to a liquid crystal display, and more particularly to a lamp wire fixing structure of a liquid crystal display having a narrow bezel.

In the 21st century, the field of display has been rapidly developed as it enters the information age and processes a large amount of information accordingly and displays the information on the screen. In recent years, a thin film transistor (TFT) liquid crystal display device having excellent performance such as thinning, lightening, and low power consumption has been developed and replaced with an existing CRT (Cathode Ray Tube) .

In general, a liquid crystal display device has optical anisotropy having directionality and a polarizing property in which molecular alignment direction is changed according to the size when the liquid crystal is placed in an electric field because the molecular structure of the liquid crystal is arranged in an elongated shape. Accordingly, the liquid crystal display device has a liquid crystal panel composed of a pair of transparent insulating substrates, each of which has electric field generating electrodes formed on the surfaces thereof facing each other with a liquid crystal layer interposed therebetween as an essential component, The arrangement direction of the molecules is artificially adjusted and a variety of images are displayed using the transmittance of the changed light.

However, the liquid crystal panel is required to have a separate light source because it is a light receiving element having no light emitting element. In order to compensate for this, a back-light unit having a fluorescent lamp is provided on the rear surface of the liquid crystal panel, and by irradiating light toward the front surface of the liquid crystal panel, Of the image can be displayed.

1 is an exploded perspective view of a general liquid crystal display device, and is a plate type in which lamps are provided on both sides of a light guide plate. 2 is a partial sectional view showing the fastening state of Fig. 1. Fig.

As shown in FIGS. 1 and 2, the liquid crystal display device basically includes a main support 30 for maintaining a balance of force throughout the structure, and pixels on the upper side thereof are arranged in a matrix form A gate driver 20 and a data driver 70 connected to the side surfaces of the liquid crystal panel 10 and driving the same, and an upper cover 60 for protecting the gate driver 20 and the data driver 70, And a lower cover 50 for protecting the backlight unit 40 to provide light to the liquid crystal panel 10 on the lower side.

First, lamps 43 are provided on both sides of the lower cover 50, which serve as a lamp housing. The lamps 43 are provided at both sides with low voltage and / or high voltage And a wire 43b are connected.

Before the lamp 43 is fastened, the bottom surface of the lower cover 50 may be provided with a reflector 43 for reflecting the light from the lamp 43 to the liquid crystal panel 10 on the upper surface or the front surface, (Not shown).

A light guide plate 41 for guiding light from the lamps 43 provided on both sides of the lower cover 50 to the liquid crystal panel 10 is provided on the lower cover 50.

In order to improve the characteristics of light transmitted through the light guide plate 41, a diffusion plate (or a diffusion sheet) for obtaining a uniform luminance according to the viewing angle is provided on the upper side of the light guide plate 41, An optical member 49 including a prism sheet and a protective sheet for protecting the prism sheet is additionally provided.

A main support 30 having a rectangular frame shape is fastened to the four side edges of the optical member 49 such as a diffusion plate. More specifically, the main support 30 is fastened to the outer periphery of the lower cover 50, and its main role is to balance the force acting on the entire structure of the liquid crystal display device.

On the main support 30, a liquid crystal panel 10 for displaying an image as shown in the figure is provided. The liquid crystal panel 10 includes a TFT array substrate, a color filter substrate, and a liquid crystal layer formed between the TFT array substrate and the color filter substrate so as to maintain a uniform cell gap therebetween.

Here, a plurality of data lines arranged at a predetermined interval in the longitudinal direction and a plurality of gate lines arranged at a predetermined distance in the lateral direction cross each other on the array substrate, and a pixel is defined in the area where the gate lines cross each other. The pixels are arranged in a matrix form. Further, a color filter layer of red (R), green (G), and blue (B) is formed on the color filter substrate at corresponding positions of the pixels to prevent light from leaking into the color filter layers, A black matrix is formed between the color filter layers to prevent interference.

The gate driver 20 and the data driver 70 are coupled to the liquid crystal panel 10 in various forms to supply scan signals and image information to gate lines and data lines formed on the liquid crystal panel 10, (10) are driven.

Also, an upper cover 60, which surrounds the edge of the liquid crystal panel 10 and the side of the main support 30, is fastened. The upper cover 60 is fastened to the main support 30 through a hook or the like to complete the liquid crystal display device.

2, a wire 43b for applying a voltage to the lamp 43 is fixed by a double-sided tape or the like attached to the lamp housing side wall of the lower cover 50, There are some restrictions on reducing the width of the bezel, which is the outermost border area that is not implemented.

For example, in the case of a model requiring a narrow bezel, the problem becomes more serious as the number of the lamps provided on one side of the lower cover increases, or when the lamps are disposed on many areas of the four edge regions have.

In addition, workability is deteriorated by fixing the wire with reference to the side wall marking part of the lower cover without a clear assembly reference.

Further, when fixing the wire to the side wall of the lower cover, the tape is first fixed using a double-sided tape or the like, and then the tape is attached again to both ends of the wire, thereby increasing the number of parts and cost.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a liquid crystal display device having a lamp wire fixing structure in a liquid crystal display device requiring a narrow bezel.

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A liquid crystal display according to an embodiment of the present invention includes a liquid crystal panel; A lamp provided on the lower side of the liquid crystal panel for providing light and having a wire to which a voltage is applied from the outside; And a main support having a bottom surface on which at least one side of the lamp is disposed and a rear surface corresponding to an area in which the lamp is disposed, the bottom surface having a through hole through which the wire is received and the side wall extending from an edge of the bottom surface. .

As a result of the above configuration, the present invention can reduce the width of the bezel, which is the outer frame portion where the image is not realized, so as to bring the image area wide.

In addition, workability is improved by presenting a clear assembly standard such as a receiving groove, and as a result, cost will be saved.

Furthermore, by not using a tape or the like for finally fixing the wire to the side wall of the lower cover as compared with the conventional one, the cost therefor will be reduced.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

FIG. 3 is an exploded perspective view of the liquid crystal display device according to the first embodiment of the present invention, FIG. 4 is a partial cutaway view showing the fastening state of FIG. 3, and FIG. 5 is a rear view of the main support shown in FIG.

3 to 5, the liquid crystal display device of the present invention includes a liquid crystal panel 150 on which an image is formed, and a liquid crystal panel 150 provided below the liquid crystal panel 150, A lamp 125 provided with wires 125a and 125b and a bottom surface on which a receiving groove 101 for receiving the lamp wires 125a and 125b is formed, And a main support 100 having elongated sidewalls. Here, the liquid crystal panel 150 includes a gate driver 160 and a data driver 170, which are respectively connected to the sides of the liquid crystal panel 150 to apply signals.

First, a main support 100 made of a molding material such as a synthetic resin has a structure in which a middle region is opened. At this time, the bottom surface of the four-sided edge region is formed of a frame having a predetermined width, and the sidewall extends from an end portion of the bottom surface. Here, the thickness of the sidewall or the width of the sidewall may be formed to be significantly smaller (or thinner) as the sidewall is narrower when the bezel, which is the outer frame portion where the image is not implemented, is narrower.

When the main support 100 is formed with a narrow bezel, the bottom surface of the bottom surface of the main support 100 is formed with a receiving groove 101 having a predetermined height along its edge region . At this time, the receiving groove 101 providing a clear assembly reference may have a linear structure, for example, and may be formed on at least one edge region of the four-sided edge region depending on the position of the lamp 125. The receiving groove 101 may have various shapes such as a rectangular shape and a circular shape depending on the outer shapes of the lamp wires 125a and 125b.

Normally, the receiving grooves 101 of the main support 100 are formed at the same time when the frame of the main support 100 is formed, and can be formed by injecting molds such as plastic into the molds, curing them, and injecting them.

The bottom plate 110 is supported on a bottom surface of the main support 100. The bottom plate 110 is a kind of press mold, which facilitates heat dissipation from the lamp 125 provided on at least one side of the main support 100.

Reflectors 112a and 112b are provided on the main support 100 provided with the bottom plate 110. [ The reflection plates 112a and 112b are provided on at least one side of the main support 100 and include a reflection plate 112b having a shape of a lamp housing that can be detached and surround the periphery of the lamp 121 have. Thereby, the light provided from the lamp 125 is guided to the light guide plate 120 without loss. The reflection plates 112a and 112b use a film coated with silver (Ag), aluminum (Al) or the like, and the thickness of the film is about 75 to 200 mu m. The light reflectance of the visible light on the reflection plates 112a and 112b is about 90 to 97%, and as the coated film is thicker, the reflectance is high. However, these characteristics are different for each model of the liquid crystal display device.

A lamp 125 is fastened to one side wall of the main support 100 provided with the bottom plate 110. At this time, assuming that the lamp 125 is formed in an L shape as in the present invention, the ramp 125 is provided in all four edge regions of the main support 100.

Of course, the lamps 121 are connected to wires 125a and 125b for applying a voltage to the electrode portions at both ends. The high voltage and low voltage wires 125a and 125b connected to the high voltage and low voltage parts are connected to an external inverter (not shown) through a connector, invertor).

In the present invention, the high-voltage wire 125b constituting the high-voltage portion is designed to be short in comparison with the low-voltage wire 125a constituting the low-voltage portion, if one side of the L-shaped lamp 125 becomes a high- . Of course, the opposite is also true, but this is in consideration of the electrical influence between the high voltage wire 125b and the bottom plate 110 and the like.

The low pressure wire 125a extended from the other side of the lamp 125 is received and fixed in the receiving groove 101 formed along the back edge region of the main support 100. [ At this time, the low-pressure wire 125a can be smoothly fixed in operation by a double-sided tape or the like formed additionally in the receiving groove 101 providing a clear assembly reference.

A light guide plate 120 is mounted on the upper surface of the bottom plate 110 provided on the main support 100 with the middle area open. The light guide plate 120 is made of PMMA (polymethylmethacrylate), and is transparent to uniformly distribute the light to the entire screen of the liquid crystal panel 150 by passing light from the lamp 125 located on the side. The light provided from the lamp 125 is incident on the light guide plate 120 and passes through the light guide plate 120 and is reflected by the reflection plates 112a and 112b provided below the light guide plate 120 to uniformly distribute the light in the vertical direction It plays the role of sending.

Further, on the light guide plate 120, an optical member 121 for improving the characteristics of light transmitted through the light guide plate 120 is provided. At this time, the optical member 121 is provided with a diffusion plate or a diffusion sheet for obtaining a uniform luminance according to the viewing angle, and a prism sheet used for the purpose of increasing the front luminance of the light transmitted through the diffusion plate, A protective sheet that protects the prism sheet and prevents wrinkles or flow of the diffuser plate and the prism sheet due to external force.

A guide panel 130 having a rectangular shape is fastened to four sides of the optical member 121. The guide panel 130 includes a horizontal frame having a rectangular frame shape and a side frame partially extended from the end of the horizontal frame. The side frame is fastened to the outer frame fastening portion of the main support 100 have.

On the guide panel 130, a liquid crystal panel 150 for displaying an image is mounted. The liquid crystal panel 150 is composed of a thin film transistor array substrate, a color filter substrate, and a liquid crystal layer formed between the two substrates so as to maintain a uniform cell gap therebetween. In addition, the liquid crystal panel 150 may further include a polarizing sheet (not shown) on the front and back surfaces thereof to improve the viewing angle of the image displayed by the liquid crystal cells.

The upper cover 180 covers the four sides of the liquid crystal panel 150 and the side surface of the main support 100 as described above. At this time, the upper cover 180 is fastened to the main support 100 through a hook or the like.

As a result of the configuration of the first embodiment as described above, even if a plurality of lamps 125 are provided on at least one side edge region of the liquid crystal display device, the storage grooves 101 The lamp wires 125a and 125b are fixed through the through holes 125a and 125b. As a result, the narrow bezel can be maintained.

However, in the liquid crystal display according to the first embodiment, when the components are combined to form a (thin) shape, the liquid crystal display device according to the first embodiment may be designed on the basis of the design of a mold such as the main support 100, The thickness of the main support 100 or the like may be constrained inevitably so that it is difficult to form the receiving groove 101 on the back surface of the main support 100. [

Considering this point, a liquid crystal display according to a second embodiment of the present invention is proposed.

FIG. 6 is an exploded perspective view of a liquid crystal display device according to a second embodiment of the present invention, and FIG. 7 is a fragmentary sectional view showing the fastening state of FIG.

6 and 7, the liquid crystal display according to the second embodiment of the present invention includes a liquid crystal panel 250 on which an image is formed, and a liquid crystal panel 250 provided below the liquid crystal panel 250 to provide light A lamp 225 having wires 225a and 225b to which a voltage is externally applied and a bottom surface in which a through hole 201 for accommodating the lamp wires 225a and 225b is formed in a rear edge region, And a main support 200 constituting sidewalls extending from the edge region of the bottom surface. Here, the liquid crystal panel 250 includes a gate driver 260 and a data driver 270, which are connected to the sides of the liquid crystal panel 250 and apply signals, respectively.

Here, the main support 200 made of synthetic resin or the like has a structure in which the middle region is opened. At this time, a bottom surface of a frame having a predetermined width (or width) is formed in the four-sided edge region, and a sidewall extending from an end portion of the bottom surface is formed. Here, the width of the rim of the side wall may be formed to be considerably thin if the bezel which is the rim of the outer rim where the image is not implemented is narrow.

As described above, preferably, the main support 200 has a through-hole 201 formed in the back surface of the bottom surface of the main support 200 along the edge region thereof, when the main support 200 is a narrow bezel. In this case, the through-hole 201 may have a straight-line structure, and depending on the position of the lamp 225, the through-hole 201 may be formed only in one side edge region of the four side edge regions, The through holes 201 may be formed in all of them. The through holes 201 may be formed in various shapes such as a rectangle or a circle depending on the outline of the wires 225a and 225b.

Usually, the through holes 201 of the main support 200 are formed at the same time when the frame of the main support 200 is formed. Molds such as plastic may be injected into the mold at the time of manufacturing and then cured and injected.

Further, the bottom plate 210 is provided on a bottom surface of the main support 200, which is formed as an edge region, and is open at a middle portion thereof. Such a bottom plate 210 can facilitate the release of heat from the lamp 225 provided on at least one side of the main support 200 as a kind of press mold.

On the main support 200 provided with the bottom plate 210, reflection plates 212a and 212b are provided. The reflectors 212a and 212b are provided on at least one side of the main support 200 and include a reflector 212b having a shape of a lamp housing surrounding the periphery of the lamp 225 as well as being removable. Thereby, the light provided from the lamp 225 is guided to the light guide plate 220 without loss. The reflection plates 212a and 212b use a film coated with silver (Ag), aluminum (Al) or the like, and the thickness of the film is about 75 to 200 mu m. The light reflectance of the visible light in the reflection plate 212 is about 90 to 97%. The thicker the coated film, the higher the reflectance. However, these characteristics can be applied to different models of the liquid crystal display device.

A lamp 225 is fastened to one side wall of the main support 200. At this time, when the lamp 225 is shaped like an L as in the present invention, the ramp 225 is provided on all four sides of the main support 200.

Of course, the wires 225a and 225b for applying voltage to the electrode portions of both ends of the lamp 225 are connected. At this time, one side will be a high voltage portion to which a high voltage is applied and the other side is a low pressure portion to which a low voltage is applied, The high-voltage and low-voltage wires 225a and 225b connected to the high-voltage and low-voltage sections receive a voltage from an external inverter through the connector.

Here, assuming that one side of the L-shaped lamp 225 is a high-pressure portion and the other side is a low-pressure portion, a high-voltage wire 225a, which is a high- But it may be reversed. This may be a consideration of mutual electrical effects between the voltage applied lamp wires 225a and 225b and the bottom plate 210, for example.

The low voltage wire 225a extended from the other side of the lamp 225 is received and fixed in the through hole 201 formed along the back edge region of the main support 200. [ At this time, the low-voltage wire 225a may be easily fixed by a double-sided tape or the like which is additionally formed on the bottom plate 210 exposed through the through hole 201 to the outside.

A light guide plate 220 is mounted on an upper side of the bottom plate 210 provided on the main support 200 where the lamp 225 is fastened and the middle area is opened. The light guide plate 220 is a transparent plate for distributing light uniformly over the entire screen of the liquid crystal panel 250 by passing light from the lamp 225 located on the side of the PMMA. The light provided from the lamp 225 is incident on the light guide plate 220 and passes through the light guide plate 220 and is reflected by the reflection plates 212a and 212b provided below the light guide plate 220 to uniformly distribute the light in the vertical direction It plays the role of sending.

An optical member 221 is provided on the light guide plate 220 to improve the characteristics of light transmitted through the light guide plate 220. At this time, the optical member 221 is provided with a diffusion plate or diffusion sheet for obtaining a uniform luminance according to the viewing angle, and a prism sheet used for the purpose of increasing the front luminance of the light transmitted through the diffusion plate. A protective sheet for protecting the prism sheet and preventing wrinkling or flow of the diffuser plate and the prism sheet due to external force.

A guide panel 230 having a rectangular shape is fastened to four sides of the optical member 221. The guide panel 230 is composed of a horizontal frame having a rectangular frame shape and a side frame partially extended from an end portion of the horizontal frame. The side frame is fastened to a fastening portion formed on the outer periphery of the main support 200 .

On the guide panel 230, a liquid crystal panel 250 for displaying an image is mounted. The liquid crystal panel 250 is composed of a thin film transistor array substrate and a color filter substrate bonded together so that a uniform cell gap is maintained opposite to each other, and a liquid crystal layer formed between the two substrates. At this time, the liquid crystal panel 250 may further include a polarizing sheet (not shown) on the front and back surfaces thereof, thereby improving the viewing angle of the image displayed by the liquid crystal cells.

The upper cover 280 covers the four sides of the liquid crystal panel 250 and the side surfaces of the guide panel 230 or the main support 200. At this time, the upper cover 280 and the main support 200 are fastened to each other by hooks or the like.

As a result of the second embodiment as described above, the liquid crystal display device according to the present invention can achieve a (thin) thin structure while maintaining a narrow bezel.

1 is an exploded perspective view of a general liquid crystal display device

Fig. 2 is a partial cutaway view showing the fastening state of Fig. 1

3 is an exploded perspective view of the liquid crystal display device according to the first embodiment of the present invention.

Fig. 4 is a partial cutaway view showing the fastening state of Fig. 3

5 is a rear view of the main support shown in Fig. 3

6 is an exploded perspective view of a liquid crystal display device according to a second embodiment of the present invention.

Fig. 7 is a partial cutaway view showing the fastening state of Fig. 6

Claims (6)

delete delete delete A liquid crystal panel; A lamp provided on the lower side of the liquid crystal panel to provide light and equipped with a wire to which a voltage is applied from the outside; A main support having a bottom surface formed with at least one side of the lamp and a through hole through which the wire is received and a sidewall extending from an edge of the bottom surface, and a main support. The liquid crystal display device according to claim 4, wherein the through holes of the main support are formed in a circular shape or a rectangular shape according to the outer shape of the wire. The liquid crystal display of claim 4, wherein a bottom plate for discharging heat from the lamp to the outside can be additionally formed on the bottom surface of the main surf.

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