KR101222960B1 - Liquid Crystal Display Device And Method of Assembling the same - Google Patents

Abstract

The present invention relates to a liquid crystal display device and an assembly method thereof.

According to an exemplary embodiment of the present invention, a liquid crystal display device includes: a liquid crystal panel; A light emitting diode array comprising a support and at least one light source protruding from the support, at least one exposure hole, at least one first screw hole, and at least one light source positioned on the light emitting diode array to expose the light source. A backlight unit for irradiating light to the liquid crystal panel, including a reflecting plate including a fastening hole and at least one second screw hole and a support side fixed to both sides of the reflecting plate, and including at least one protrusion inserted into the fastening hole. and; A cover bottom disposed below the reflector; At least one first screw inserted into the first screw hole to fasten the support and the reflector; And at least one second screw inserted into the second screw hole to fasten the support side and the cover bottom, wherein the heads of the first and second screws face the liquid crystal panel.

Description

Liquid Crystal Display Device And Method of Assembling the same}

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

2 is an exploded perspective view of a liquid crystal display according to an exemplary embodiment of the present invention.

3 is a plan view of a reflector according to an embodiment of the present invention.

4 is a perspective view of a support side according to an embodiment of the present invention.

5 is a cross-sectional view illustrating a front fastening method according to an embodiment of the present invention.

Description of the Related Art

2, 102 liquid crystal display panel 4, 104 support main

6, 106: case top 10, 110: optical sheet

12, 112: diffuser plate 14, 114: reflective sheet

114A: first screw hole 114B: fastening hole

114C: exposed hole 116A: second screw hole

116B: projection 16, 116: support side

117: support 118: light source array

119: cluster 20, 120: cover bottom

130: first screw 140: second screw

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device, and more particularly, to a liquid crystal display device capable of preventing damage to a diffusion plate and an optical sheet.

In general, a liquid crystal display ("LCD") is a representative flat panel display that displays an image by adjusting the amount of light beam transmitted to correspond to an image signal. Particularly, the application range of LCDs is gradually widening due to characteristics such as weight reduction, thinning, and driving of low power consumption. According to this trend, LCDs are being applied as display devices for office automation devices and notebook computers. In addition, the LCD is proceeding in the direction of a large screen, a high definition, and a low power consumption in response to a user's demand.

However, since the liquid crystal display itself is a light-receiving device that displays an image by controlling the amount of light emitted from the outside, that is, it requires a backlight unit that is a separate light source for irradiating light to the LCD panel.

The light source included in the backlight unit is appropriately selected according to the size and purpose of use of the liquid crystal display device. The main light sources are EL (Electroluminescent), Light Emitting Diodes (LED), and Cold Cathode Fluorescence Lamps; CCFL). In the related art, cold cathode tube lamps are mainly used because of their long life and excellent spectral characteristics.

Meanwhile, the backlight unit is classified into an edge type and a direct type according to the position of the light source with respect to the display surface. Among these, the direct type backlight unit has been widely used in large liquid crystal display devices of 30 inches or more because of high light utilization, easy handling, and no limitation on the size of the display surface.

1 is an exploded perspective view of a liquid crystal display device having a conventional direct type backlight unit.

Referring to FIG. 1, a conventional liquid crystal display device includes a cold cathode tube lamp 15 for irradiating light onto a liquid crystal panel 2, and a support side 16 formed of a mold for supporting the cold cathode tube lamp 15. ), A cover bottom 20 fastened to one side of the support side 16 and supporting the liquid crystal display module, a reflective plate 14 stacked on the cover bottom 20, and a plurality of irradiated from the cold cathode tube lamps 15. A diffuser plate 12 for diffusing light to mitigate light non-uniformity, an optical sheet 10 stacked on top of the diffuser plate 12 to change the exit angle of light irradiated from the diffuser plate 12, and a cover The support main 4 is fastened to the bottom 20 and accommodates the reflecting plate 14, the cold cathode tube lamps 15, the diffusion plate 12, and the optical sheet 10. In addition, a liquid crystal panel 2 is mounted on the support main 4, and an upper portion of the support main 4 is wrapped around the edge of the liquid crystal panel 2 and the outside of the support main 4 to fix the liquid crystal panel 2. And a case top 6 engaged with the side 16 and the cover bottom 20.

The conventional liquid crystal display device having such a structure has a problem that power consumption is increased by requiring a separate inverter for driving a cold cathode tube lamp, and also has a problem that is contrary to the recent light weight and thinning trend of the liquid crystal display device. have. In order to solve this problem, a light emitting diode that is advantageous in terms of power consumption, weight, and brightness has been proposed as a light source used in a backlight unit.

On the other hand, the liquid crystal display device using the light emitting diode also has a screw fastening operation on the rear surface to ensure that the support side is fastened to the cover bottom, as in the conventional liquid crystal display device using a cold cathode tube lamp. That is, the support side is fixed to the cover bottom and the screw through the screw hole formed on the back of the cover bottom.

However, a liquid crystal display device using a light emitting diode further includes a separate front screw fastening operation for fixing the light source array to the reflector, unlike a liquid crystal display device using a conventional cold cathode tube lamp.

Therefore, a liquid crystal display using a light emitting diode requires a first front fastening so that the screw head is directed toward the liquid crystal panel in order for the light source array to be fixed to the reflecting plate, and then the screw head to fasten the support side to the cover bottom. Requires a second back fastening to face away from the liquid crystal panel. As described above, the liquid crystal display should be turned to the back side for the second back fastening.

For this reason, the liquid crystal display device is to be turned from the front to the back for screw work, there is a problem that the number of work between work increases, the work efficiency is reduced by that.

Accordingly, it is an object of the present invention to provide a liquid crystal display device and a method for assembling thereof, which can improve work efficiency by reducing work man-hours.

In order to achieve the above object, the liquid crystal display device according to an embodiment of the present invention

A liquid crystal panel; A backlight unit for irradiating light to the liquid crystal panel including at least one light source and a light source array including a support for supporting the light source, a reflecting plate, and support sides fixing both sides of the reflecting plate; A cover bottom disposed below the reflector; At least one first screw coupling the reflector to the support of the light source array; At least one second screw fastening the support side to the cover bottom; The heads of the first and second screws are directed toward the liquid crystal panel.

The backlight unit may include a diffuser plate disposed on an upper portion of the reflective plate to mitigate nonuniformity of reflected light; And an optical sheet disposed on an upper portion of the diffuser plate to change an emission angle of light from the diffuser plate. The backlight unit may be disposed on a rear surface of the diffuser plate to deflect the diffuser plate. It is characterized in that it further comprises at least one or more warp prevention body for preventing.

The light source array is a light emitting diode array, and the light emitting diode array includes a plurality of clusters arranged regularly along a matrix, and each light emitting diode chip is provided in one cluster to implement R, G, and B colors. It is characterized by.

The reflector may include at least one first screw hole into which the first screw is inserted; At least one exposure hole for exposing the cluster to the liquid crystal panel; At least one fastening hole for fixing to the support side is characterized in that it is provided.

The support side may include at least one second screw hole into which the second screw is inserted; At least one protrusion is inserted into the fastening hole of the reflector.

The protrusion is formed on the inner side wall of the support side.

In addition, the assembly method of the liquid crystal display device according to the embodiment of the present invention to achieve the above object is as follows.

A method of assembling the liquid crystal panel with at least one light source and a backlight unit for irradiating light to the liquid crystal panel, including a light source array including a support for supporting the light source, a reflector and support sides fixing both sides of the reflector, at least Assembling the support of the reflector and the light source array using one or more first screws, and fastening the reflector and the support with the first screw with the head of the first screw facing the liquid crystal panel. Wow; Assembling the cover bottom and the support side disposed below the reflecting plate using at least one second screw, with the head of the second screw facing the liquid crystal panel, the cover bottom with the second screw And fastening the support side.

The method of assembling the liquid crystal display device includes disposing a diffusion plate on top of the reflection plate to mitigate non-uniformity of light from the reflection plate; And disposing an optical sheet on top of the diffuser plate to change the exit angle of the light from the diffuser plate.

The method of assembling the liquid crystal display device may further include arranging at least one warp preventing body on a rear surface of the diffusion plate to prevent bending of the diffusion plate.

The light source array is a light emitting diode array, and the light emitting diode array includes a plurality of clusters arranged regularly along a matrix, and each light emitting diode chip is provided in one cluster to implement R, G, and B colors. It is characterized by.

Assembling the reflective plate and the light emitting diode array includes inserting the at least one first screw into a corresponding first screw hole; And exposing the plurality of clusters toward the liquid crystal panel through exposure holes corresponding to the plurality of clusters.

Assembling the support side and the cover bottom, characterized in that for inserting the at least one second screw into the corresponding second screw hole.

Other objects and features of the present invention in addition to the above objects will become apparent from the description of the embodiments with reference to the accompanying drawings.

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

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

2, a liquid crystal display according to an exemplary embodiment of the present invention includes a liquid crystal panel 102, a backlight unit for irradiating light to the liquid crystal panel 102, a backlight unit, and a liquid crystal panel 102. The support main 104 and the cover bottom 120 fastened to one side of the support main 104 to support the backlight unit and the liquid crystal panel 102, the edges of the liquid crystal panel 102, and the support main 104 of the support main 104. And a case top 106 surrounding the sidewalls.

In the liquid crystal panel 102, liquid crystal cells are arranged in an active matrix between upper and lower substrates, and thin film transistors for switching video signals are provided in each of the liquid crystal cells. . Since the refractive index of each of the liquid crystal cells is changed according to the video signal, an image corresponding to the video signal is displayed. On the lower substrate of the liquid crystal panel 102, a tape carrier package (not shown) in which a driver integrated circuit for applying a driving signal to a thin film transistor is mounted is attached. In addition, polarizing sheets (not shown) are disposed on the front and rear surfaces of the liquid crystal panel 102, respectively. Here, the polarizing sheet serves to improve the viewing angle of the image displayed by the liquid crystal cells.

The backlight unit includes a light source array 118 that irradiates light onto the liquid crystal panel 102, and a diffuser plate 112 that is disposed to face the plurality of lamps 119 and diffuses light emitted from the plurality of lamps 136. ), A reflector 114 disposed between the light source array 118 and the diffuser plate to reflect the light generated by the light source array 118 toward the diffuser plate, and a diffuser plate 112 mounted on the diffuser plate 112. The optical sheet 110 for changing the exit angle of the light from the () and improve the scattering and condensing efficiency of the light.

The light source array 118 is a light emitting diode array, and the light emitting diode array includes a plurality of light emitting diode lamps 119 regularly arranged along a matrix and a support 117 supporting the same. Here, a part constituting one LED lamp 119 is called a cluster, and three LED chips for implementing R, G, and B colors are provided in one cluster. Since the LED lamp 119 operates at 5V DC, a separate inverter is not required, and the driving control unit (not shown) divides all the LED chips in the LED array into R group, G group, and B group at the same time. By controlling the current, desired white light is obtained.

The reflector plate 114 is fastened to the light source array 118 through a screw. The reflector plate 114 has a plurality of exposure holes that allow the cluster 119 of the light source array 118 to be exposed toward the liquid crystal panel 102, and also has a plurality of fastenings for fixing itself to the support side 116. It is provided with a hole. This will be described in detail with reference to FIG. 3.

The support side 116 is engaged with both side ends of the cover bottom 120 to fix the reflecting plate 114 and to prevent light leakage of the light reflected from the reflecting plate 114. The support side 116 is fastened to the cover bottom 120 through a screw, and fixes the reflector 114 through a protrusion inserted into the fastening hole of the reflector 114. This will be described in detail with reference to FIG. 4.

The diffuser plate 112 may have beads formed on at least one of a front surface and a back surface of the diffuser plate 112 so as to easily scatter light emitted from the light source array 118. It is supported by being seated on one side of the edge. In addition, since the diffusion plate 112 is also enlarged as the liquid crystal panel 102 is enlarged, a plurality of warp preventing members 113 are provided on the rear surface of the diffusion plate 112 to prevent bending of the diffusion plate 112. .

The optical sheet 110 is disposed above the diffuser plate 112 to generate a traveling direction of light incident obliquely from the surface of the diffuser plate 112 so that the optical sheet 110 is vertically advanced toward the liquid crystal panel 102.

The case top 106 is manufactured in the form of a square strip having a flat portion and a side portion bent at a right angle. The case top 106 surrounds the edge of the liquid crystal panel 102 and the side surfaces of the cover bottom 120 and the support side 116.

The support main 104 is a plastic mold, and the side wall surface thereof is formed into a stepped stepped surface. On the stepped stepped surface of the support main 104, a backlight unit and a liquid crystal panel 102 are stacked.

The cover bottom 120 is fastened to one side to which the backlight unit of the support side 116 is inserted to protect the backlight unit and to support the support side 116. The cover bottom 120 is formed of a metal material serves to reinforce the firmness of the support side 116 formed of a plastic material.

3 is a plan view of a reflector according to an embodiment of the present invention.

Referring to FIG. 3, the reflector plate 114 includes a plurality of screw holes 114A to be fastened to the light source array 118 through screws.

The screw plate 114A is fastened to the light source array 118 by the screw holes 114A. At this time, the cluster 119 of the light source array 118 is formed by a plurality of exposure holes 114C provided in the reflector plate 114. Is exposed toward the liquid crystal panel 102. To this end, the exposure hole 114C is provided on the front surface of the reflector plate 114 so as to correspond to the cluster 119 of the light source array 118. In addition, the reflector plate 114 is provided with a plurality of fastening holes 114B for fixing itself to the support side 116. The fastening holes 114B are provided at both ends of the reflecting plate 114 adjacent to the support side 116 and allow the inner surface protrusions of the support side 116 to be described later to be inserted.

4 is a perspective view of a support side according to an embodiment of the present invention.

Referring to FIG. 4, the support side 116 includes a screw hole 116A formed to be engaged with the cover bottom 120 positioned on the rear surface, and a protrusion 116B formed to fix the reflector plate 114. It is provided.

A plurality of screw holes 116A are formed on the front surface of the support side 116, and thus, the front surface fastening is possible when the cover holes 120 are fastened to both ends of the cover bottom 120.

A plurality of protrusions 116B are formed on the inner side of the support side 116, that is, the surface opposite to the reflecting plate 114, and are inserted into the fastening holes 114B formed on both sides of the reflecting plate 114. Through this, the reflector plate 114 is fixed to the support side 116, 116.

5 is a cross-sectional view illustrating a front fastening method according to an embodiment of the present invention.

Referring to FIG. 5, the present invention is not limited to the fastening of the reflective plate 114 and the light source array 118, but also to the front fastening method when the support side 116 and the cover bottom 120 are fastened. It is by.

First, a method of coupling the reflector plate 114 and the light source array 118 will be described. The reflecting plate 114 and the light source array 118 are brought into close contact with each other. Accordingly, the plurality of clusters 119 each including a plurality of light emitting diode chips are exposed toward the liquid crystal panel through the exposure hole of the reflecting plate 114, and the portion where the cluster 119 does not exist, that is, the support 117 is It is in close contact with the reflector plate 114. Subsequently, the reflective plate 114 and the support 117 are fastened by using the plurality of first screws 130 and the plurality of first screw holes 114A formed on the front surface of the reflective plate 114. At this time, the head of the first screw (114A) is toward the liquid crystal panel, this fastening method is defined as a front fastening method.

Next, look at the fastening method of the support side 116 and the cover bottom 120 as follows. The support side 116 is in close contact with both sides of the cover bottom 120. In this process, as described above, the plurality of protrusions 116B formed on the inner side of the support side 116 are inserted into the fastening holes 114B of the reflecting plate 114 corresponding to the support plate 114. To (116).

Subsequently, unlike the conventional method of fastening the back side, that is, the method of fastening the support side 116 and the cover bottom 120 through a screw hole formed in the cover bottom 120 by rotating the liquid crystal display, the support is performed by the front fastening method. The side 116 and the cover bottom 120 are fastened.

That is, the support side 116 and the cover bottom 120 are fastened by using the plurality of second screws 140 and correspondingly the second screw holes 116A formed in the front surface of the support side 116. . At this time, the head direction of the second screw 140 is directed toward the liquid crystal panel like the first screw 130.

As described above, the liquid crystal display and the assembly method thereof according to the embodiment of the present invention are not only connected to the reflector plate and the light source array (primary screw operation) but also to the support side and cover bottom (secondary screw operation). The front fastening method, that is, the screw head is fastened toward the liquid crystal panel, thereby eliminating the process of turning the liquid crystal display from the front side to the back side during the second screw operation, thereby reducing the work time between operations. In addition, this can improve work efficiency.

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 (15)

A liquid crystal panel; A light emitting diode array comprising a support and at least one light source protruding from the support, at least one exposure hole, at least one first screw hole, and at least one light source positioned on the light emitting diode array to expose the light source. A backlight unit for irradiating light to the liquid crystal panel, including a reflecting plate including a fastening hole and at least one second screw hole and a support side fixed to both sides of the reflecting plate, and including at least one protrusion inserted into the fastening hole. and; A cover bottom disposed below the reflector; At least one first screw inserted into the first screw hole to fasten the support and the reflector; At least one second screw inserted into the second screw hole to fasten the support side to the cover bottom; And the heads of the first and second screws face the liquid crystal panel. The method of claim 1, The backlight unit includes: A diffuser plate disposed on the reflective plate to mitigate nonuniformity of the reflected light; And an optical sheet disposed above the diffuser plate to change an exit angle of light from the diffuser plate. The method of claim 2, And at least one or more warpage preventing elements disposed on a rear surface of the diffusion plate to prevent warpage of the diffusion plate. delete The method of claim 1, The light emitting diode array includes a plurality of clusters arranged regularly along rows and columns, and each of the light emitting diode arrays includes a light emitting diode chip for implementing R, G, and B colors. Device. delete delete The method of claim 1, The projection is And an inner wall of the support side. LED array comprising a support and at least one light source protruding from the support, at least one exposure hole, at least one first screw hole and at least one fastening hole and at least one second screw hole In the method of assembling the liquid crystal panel with a backlight unit for irradiating light to the liquid crystal panel including a support side including at least one or more projections, Positioning the reflector on the LED array so that the exposure hole corresponds to the light source, and inserting the first screw into the first screw hole with the head of the first screw facing the liquid crystal panel. Fastening the reflector and the support; Fastening the support side to both sides of the reflective plate by inserting the protrusion into the fastening hole; The cover bottom is positioned below the reflector plate and the support side, and the cover bottom and the support side are inserted by inserting the second screw into the second screw hole with the head of the second screw facing the liquid crystal panel. Assembling the liquid crystal display device comprising the step of fastening. The method of claim 9, Disposing a diffuser plate on top of the reflector plate to mitigate non-uniformity of light from the reflector plate; And arranging an optical sheet on top of the diffuser plate to change the exit angle of light from the diffuser plate. 11. The method of claim 10, And arranging at least one warp preventing body on a back surface of the diffusion plate to prevent bending of the diffusion plate. delete The method of claim 9, The light emitting diode array includes a plurality of clusters arranged regularly along a matrix, and each of the light emitting diode arrays includes respective light emitting diode chips for implementing R, G, and B colors. Assembly method. delete delete

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