KR20070063677A - Liquid crystal display and assembling method the same - Google Patents

Abstract

An LCD(Liquid Crystal Display) and a method for assembling the same are provided to shorten the process time, by integrally forming an inverter receiving part within a top chassis so as to omit a process of joining the inverter receiving part to the top chassis during an assembling process of the LCD. A backlight assembly supplies light to an LCD panel. The backlight assembly is contained and fixed within a mold frame, and the LCD panel is placed on the mold frame. An inverter drives a light source included in the backlight assembly. A top chassis(10) fixes an upper surface of the LCD panel, and has an inverter receiving part(20) in which an inverter is placed. The inverter receiving part is protruded from one side surface of the top chassis.

Description

Liquid crystal display device and assembly method thereof {LIQUID CRYSTAL DISPLAY AND ASSEMBLING METHOD THE SAME}

1 is a perspective view illustrating a method of assembling a top chassis and an inverter fixed chassis of a conventional LCD.

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

3 is a perspective view of the inverter.

4 is a plan view illustrating a top chassis of the liquid crystal display shown in FIG. 2.

5 is a flowchart sequentially illustrating a method of assembling a liquid crystal display according to an exemplary embodiment of the present invention.

<Brief Description of Drawings>

10, 100: top chassis 20: the inverter housing

22: guide wall 23: first guide groove

24: second guide groove 30: liquid crystal display panel

31: color filter substrate 32: thin film transistor substrate

41: gate printed circuit board 42: gate TCP

43: gate drive IC 44: data TCP

45: data driver IC 46: data printed circuit board

51: reflective sheet 52: light guide plate

53: diffusion sheet 54: prism sheet

56: protective sheet 60: mold frame

61: panel seating part 70: bottom chassis

80: inverter 81: female connector

82, 92: conductive lines 83, 93: male connector

90: light source 91: light source accommodating portion

101: second boss fastening hole 102: boss

103: hole for hook engagement 111: hook

112: second boss fastening hole

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 and an assembly method thereof, which can simplify the assembling process of the liquid crystal display device.

In general, as the modern society becomes information socialized, the importance of the liquid crystal display, which is one of the information display devices, is gradually increasing. Cathode ray tube (CRT), which is widely used so far, has many advantages in terms of performance and price, but has many disadvantages in terms of thinning or low power. On the other hand, the liquid crystal display device is more expensive in terms of price, but has been attracting attention as an alternative means of overcoming the disadvantages of the CRT due to advantages such as miniaturization, light weight, thinness, and low power consumption.

 Recently, in order to reduce the thickness of the liquid crystal display, each member constituting the liquid crystal display, for example, a backlight, a connector, a printed circuit board (PCB), or a combination structure thereof, has been continuously studied. It is a trend.

As described above, a liquid crystal display device includes a liquid crystal display panel for displaying an image by applying an image signal largely, a panel driver for driving the liquid crystal display panel, a backlight assembly for providing light to the liquid crystal display panel, and a tower for storing and fixing them. Chassis and bottom chassis.

The liquid crystal display panel is composed of liquid crystal cells arranged in a matrix form between two substrates and switch elements for switching the signals supplied to the liquid crystal cells, respectively. The panel driver includes a gate driver for driving the gate line of the liquid crystal display panel, a data driver for driving the data line of the liquid crystal display panel, a timing controller for controlling the gate driver and the data driver, a liquid crystal display panel and the driving circuit. It is composed of a power supply unit for supplying power signals required for driving of the. The backlight assembly includes a light source for generating light, a light guide plate for guiding the light generated from the light source toward the liquid crystal display panel, a reflective sheet for increasing the light efficiency, and various optical sheets. In addition, an inverter for supplying power to the light source is provided. The inverter converts a DC input voltage into an AC voltage and outputs it.

1 is a perspective view illustrating a method of assembling a top chassis and an inverter fixed chassis of a conventional liquid crystal display.

Referring to FIG. 1, the inverter fixed chassis 110 in which the inverter 80 is accommodated is mounted to the top chassis 100. At this time, the inverter fixed chassis 110 is formed with a first boss fastening hole 112 for fastening the hook 111 and the boss for fastening with the top chassis 100, the lower portion of the top chassis 100 is the inverter fixed chassis The hook coupling hole 103 for fastening the hook 110 and the second boss fastening hole 101 for fastening the boss are formed. After the hook 111 is fastened to the hook coupling hole 103 of the top chassis 100, the first and second boss fastening holes 101 and 112 are aligned, and then the top chassis is connected through the boss 102. 100) and the inverter fixed chassis 110 are combined.

However, there is a problem in that a process of assembling the top chassis and the inverter fixed chassis is added, and when the inverter fixed chassis is attached to the top chassis, only the hook and the boss are fastened.

In order to solve the above problems, it is an object of the present invention to provide a liquid crystal display device and a method of assembling thereof by simplifying the assembly process of the liquid crystal display device by integrating the top chassis and the inverter housing.

In order to achieve the above object, the present invention is a liquid crystal display panel; A backlight assembly supplying light to the liquid crystal display panel; A mold frame in which the backlight assembly is accommodated and fixed and the liquid crystal display panel is mounted; An inverter for driving a light source included in the backlight assembly; Provided is a liquid crystal display device having a top chassis on which an upper surface of the liquid crystal display panel is fixed and an inverter accommodating portion for accommodating the inverter is formed.

The inverter accommodating portion is formed to protrude on one side of the top chassis.

The inverter housing further includes a guide wall for preventing the inverter from flowing left and right.

The inverter accommodating part further includes a first guide groove into which a conductive line electrically connecting the light source and the inverter is inserted, and a second guide groove into which a conductive line electrically connecting the power supply unit and the inverter is inserted.

The inverter is attached to the adhesive member for fixing the inverter to the inverter housing.

And a bottom chassis coupled to the top chassis, and further comprising a conductive tape fixing the bottom chassis and the top chassis and reinforcing the ground of the liquid crystal display panel.

And in order to achieve the above object, the present invention comprises the steps of storing the inverter in the inverter housing formed in the top chassis; Receiving and fixing the backlight assembly to the mold frame; Mounting a liquid crystal display panel and a printed circuit board connected to the liquid crystal display panel on the mold frame; A method of assembling a liquid crystal display device comprising fixing an outer portion of an upper surface of the liquid crystal display panel and fastening a bottom chassis and the top chassis with the liquid crystal display panel and the mold frame interposed therebetween.

The storing of the inverter further includes attaching an adhesive member to the inverter and accommodating the inverter having the adhesive member attached to the inverter accommodating portion.

The storing and fixing of the backlight assembly to the mold frame further includes electrically connecting the light source included in the backlight assembly to the inverter.

The mounting of the printed circuit board on the mold frame further includes electrically connecting the printed circuit board and the inverter.

After the step of fastening the bottom chassis and the top chassis, further comprising connecting the bottom chassis and the top chassis with conductive tape to fix the bottom chassis and the top chassis and to reinforce the ground of the printed circuit board. .

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 2 to 5.

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

2, a liquid crystal display according to an exemplary embodiment of the present invention includes a liquid crystal display panel 30 for displaying an image, a backlight assembly for supplying light to the liquid crystal display panel 30, and a backlight assembly for receiving and fixing the liquid crystal display. An inverter 80 driving the mold frame 60 on which the panel 30 is mounted and the light source 90 included in the backlight assembly and an upper surface of the liquid crystal display panel 30 and accommodating the inverter 80. The top chassis 10 in which the accommodating part 20 is formed is provided.

Specifically, the liquid crystal display panel 30 includes a thin film transistor substrate 32 and a color filter substrate 31 facing the thin film transistor substrate 32. A liquid crystal (not shown) is injected between the thin film transistor substrate 32 and the color filter substrate 31 and an image is displayed by controlling the light transmittance of the liquid crystal using a thin film transistor (TFT) as a switching element. .

In the thin film transistor substrate 32, a thin film transistor is formed in a pixel region formed by crossing a gate line and a data line. The thin film transistor transfers the image signal supplied from the data line to the pixel electrode in response to the scan signal supplied from the gate line. The pixel electrode applies a pixel voltage to the liquid crystal using the image signal charged therein.

The color filter substrate 31 includes a color filter divided by a black matrix to display an image through light incident through liquid crystal.

In order to drive the liquid crystal display panel 30 further includes a panel driver including a gate driver IC 43 for driving a gate line formed in the liquid crystal display panel 30 and a data driver IC 45 for driving a data line. do. The gate driver IC 43 is mounted on a film tape carrier package (TCP) 42 and is electrically connected to the liquid crystal display panel 30 through a TAB process. Alternatively, the liquid crystal display panel 30 may be directly mounted in the form of a chip on glass (COG) or integrated in the liquid crystal display panel. The data driver IC 45 is mounted on the data TCP 44 in the form of a film and electrically connected to the liquid crystal display panel 30 through a TAB process. Alternatively, the liquid crystal display panel 30 may be directly mounted in the form of a chip on glass (COG). The gate driving IC 43 receives a timing signal and a power signal supplied from the gate printed circuit board 41 to generate a gate driving signal and supply the gate driving signal to the gate line. The data driving IC 45 receives the timing signal, the image signal, and the power signal applied from the data printed circuit board 46 to generate the data driving signal and supply it to the data line.

The backlight assembly includes a light source 90, a reflective sheet 51 for preventing external emission of light generated from the light source 90, a light guide plate 52 for guiding light, and light guided by the light guide plate 52. It is composed of sheets such as a diffusion sheet 53 for diffusing, a prism sheet 54 for collecting the diffused light, and a protective sheet 56 for protecting the surface of the prism sheet 54. Provide light.

The light source 90 has an edge type for injecting light of a cold cathode fluorescent lamp (CCFL) installed on the side of the light guide plate 52 parallel to the liquid crystal display panel 30 to the liquid crystal panel by the light guide plate. -lighting) method. Alternatively, instead of using the light guide plate 52, a plurality of fluorescent lamps are disposed on the rear side of the diffusion sheet disposed in parallel with the liquid crystal display panel 30 to directly enter the light of the fluorescent lamp into the liquid crystal display panel 30. It also uses direct-lighting.

The reflective sheet 51 serves to reflect the light emitted from the light source 90 to the light guide plate 52 and the light emitted downward.

The light guide plate 52 is for uniformly transmitting the light from the light source 90 to the screen display area. The light guide plate 52 is a transparent acrylic material having a thickness of about several mm, and has a plurality of dots on the lower surface for uniform reflection of light. B V-shaped grooves (not shown) are formed. The light guide plate 52 is formed to have a size corresponding to that of the liquid crystal display panel 30. At this time, the light guide plate 52 is unnecessary for the light source 90 using the direct type method.

The diffusion sheet 53 and the prism sheet 54 are suitably combined in two or three pieces to diffuse or condense the light from the light guide plate 52 to improve brightness or to improve viewing angle. The protective sheet 56 is installed on the diffusion sheet 53 or the prism sheet 54 to protect the sheets sensitive to dust or scratches and to prevent the flow of the sheets when only the backlight assembly is transported.

3 is a perspective view of the inverter.

Referring to FIG. 3, an inverter 80 for driving a light source 90 may be connected to a male connector 93 formed on a conductive line branched from a light source 90 to supply power to the light source 90 at one end thereof. A female connector 81 for fastening is formed, and a male connector 83 is formed at the end of the conductive wire and the conductive wire for supplying power to the inverter 80 on the other side. The inverter 80 converts the DC power input from the DC / DC converter mounted on the power supply unit or the data printed circuit board 46 into an AC power and supplies it to the light source 90.

The mold frame 60 may include a sheet storage unit accommodating optical sheets, a light source accommodating unit 91 accommodating the light source 90, and a printed circuit board accommodating the gate and data printed circuit boards 41 and 46. And a panel mounting portion 61 on which the liquid crystal display panel is mounted. In the sheet storage portion, the reflective sheet 51, the light guide plate 52, the diffusion sheet 53, the prism sheet 54, and the like are sequentially stacked and stored. The light source 90 is accommodated in the light source accommodating part 91 formed at one side of the mold frame 60. The liquid crystal display panel 30 is mounted on the panel mounting portion 61 formed on the upper surface of the mold frame 60. In addition, the gate and the data printed circuit boards 41 and 46 are accommodated in the printed circuit board accommodating portion formed on the rear surface of the mold frame 60.

The mold frame 60 is fixedly received in the bottom chassis 70. The bottom chassis 70 is formed of a metal material to protect the backlight assembly.

4 is a perspective view illustrating a top chassis of a liquid crystal display according to an exemplary embodiment of the present invention.

Referring to FIG. 4, an inverter accommodating portion 20 accommodating the inverter 80 is formed on one side of the top chassis 10. The inverter accommodating part 20 is formed to protrude from the top chassis 10. The inverter accommodating portion 20 guides the inverter 80 to be accurately stored in the inverter accommodating portion 20 and electrically stores the guide wall 22 for preventing left and right flow, and the inverter 80 and the light source 90. The first guide groove 23 and the inverter 80 and the power supply unit (not shown) or the data printed circuit board 46 electrically connecting the first guide groove 23 to insert the conductive line 92 to be inserted into It has a second guide groove 24 to be inserted. At this time, before the inverter 80 is accommodated in the inverter housing 20, an adhesive member is attached to firmly fix the inverter 80 and the inverter housing 20.

Conductive tape connecting the top chassis 10 and the bottom chassis 70 to the left and right sides of the inverter accommodating portion 20 to reinforce the ground of the printed circuit board after the top chassis 10 and the bottom chassis 70 are fastened. Attach.

When the top chassis and the inverter housing unit are integrally formed as described above, the process of assembling the inverter housing unit to the top chassis is omitted, thereby improving the process yield and preventing the inverter housing unit from being separated from the top chassis by external impact.

5 is a flowchart sequentially illustrating a method of assembling a liquid crystal display according to an exemplary embodiment of the present invention.

Referring to FIG. 5, the method of assembling a liquid crystal display according to an exemplary embodiment of the present invention includes storing an inverter in an inverter accommodating portion formed in a top chassis (S1), and fixing and storing a backlight assembly in a mold frame (S2). ), And mounting the liquid crystal display panel and the printed circuit board connected to the liquid crystal display panel to the mold frame (S3), and fixing the outer portion of the upper surface of the liquid crystal display panel with the liquid crystal display panel and the mold frame interposed therebetween. And the step of fastening the top chassis (S4).

First, a top chassis in which an inverter accommodating portion for accommodating an inverter is formed is provided. The inverter is stored and fixed in the inverter accommodating portion formed in the top chassis. At this time, the inverter coats the adhesive member and stores the inverter in the inverter accommodating portion to fix the inverter firmly.

Next, the reflective sheet, the light guide plate, the diffusion sheet, the prism sheet, and the like are sequentially stored in the housing of the mold frame. The liquid crystal display panel is mounted on the panel mounting portion. At this time, the gate and the data printed circuit board connected to the liquid crystal display panel are accommodated and fixed to the printed circuit board accommodating part formed on the rear surface of the mold frame.

Next, the inverter and the light source of the backlight assembly are electrically connected. The male connector formed at one end of the conductive line connected to the electrode of the light source and the female connector formed at one end of the inverter are fastened. Here, the conductive wire is inserted into the first guide groove provided in the inverter accommodating portion to protect it from external impact. Then connect the inverter and the power supply. Connect and connect the conductive line provided at the other end of the inverter, the male connector at the end and the female connector formed at the power supply.

Next, the top chassis is covered and fastened to the bottom chassis. After the top chassis and bottom chassis are combined, the top chassis and the bottom chassis are electrically connected using conductive tape to reinforce the ground of the panel driver.

As described above, the liquid crystal display device and the assembly method thereof according to the present invention can be shortened the process time by eliminating the step of assembling the inverter housing portion in the top chassis during the liquid crystal display device assembly process is formed. . In addition, since the inverter housing portion is formed in the top chassis, it is possible to prevent the inverter housing portion from being separated to the outside due to a physical impact.

 In addition, a conductive tape may be attached to electrically connect the top chassis and the bottom chassis to reinforce the ground of the panel driver.

The present invention described above will be capable of various substitutions, modifications and changes by those skilled in the art to which the present invention pertains. Therefore, the present invention should not be limited to the above-described embodiments and the accompanying drawings, and the rights thereof should be determined by the claims.

Claims (11)

A liquid crystal display panel; A backlight assembly supplying light to the liquid crystal display panel; A mold frame in which the backlight assembly is accommodated and fixed and the liquid crystal display panel is mounted; An inverter for driving a light source included in the backlight assembly; And a top chassis having an inverter accommodating part for fixing the upper surface of the liquid crystal display panel and accommodating the inverter. The method of claim 1, And the inverter accommodating part protrudes from one side of the top chassis. The method of claim 2, And the inverter accommodating part further comprises a guide wall which prevents the inverter from flowing from side to side. The method of claim 2, The inverter accommodating unit further includes a first guide groove into which a conductive line electrically connecting the light source and the inverter is inserted, and a second guide groove into which a conductive line electrically connecting the power supply unit and the inverter is inserted into the liquid crystal. Display. The method of claim 1, And the adhesive member is attached to the inverter accommodating part to fix the inverter. The method of claim 1, Further provided with a bottom chassis which is fastened to the top chassis, And a conductive tape fixing the bottom chassis and the top chassis and reinforcing the ground of the liquid crystal display panel. Storing the inverter in an inverter accommodating portion formed in the top chassis; Receiving and fixing the backlight assembly to the mold frame; Mounting a liquid crystal display panel and a printed circuit board connected to the liquid crystal display panel on the mold frame; Fixing an outer portion of an upper surface of the liquid crystal display panel, and fastening a bottom chassis and the top chassis with the liquid crystal display panel and the mold frame interposed therebetween. The method of claim 7, wherein Receiving the inverter, And attaching an adhesive member to the inverter and accommodating the inverter having the adhesive member attached to the inverter accommodating portion. The method of claim 7, wherein Receiving and fixing the backlight assembly to a mold frame, And electrically connecting the light source included in the backlight assembly to the inverter. The method of claim 7, wherein Mounting the printed circuit board on the mold frame, And assembling the printed circuit board and the inverter electrically. The method of claim 7, wherein After the step of fastening the bottom chassis and the top chassis, And connecting the bottom chassis and the top chassis with a conductive tape to fix the bottom chassis and the top chassis and to reinforce the ground of the printed circuit board.

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