KR101775963B1 - Liquid crystal display - Google Patents

Abstract

The present invention relates to a liquid crystal display device, in which one side of a case top is removed, and the one side is provided with a liquid crystal display device which is formed so as to be able to cover using a film electrically connected to the panel and a control board attached thereto To be a technical challenge. To this end, a liquid crystal display device according to the present invention includes: a backlight unit including a cover bottom and a light source mounted on a cover bottom; A panel disposed at an upper end of the backlight unit and displaying an image; A plurality of films electrically connected to signal lines formed on the panel through pads formed in a non-display region of the panel; And a plurality of films are attached to the panel to transmit control signals for driving the panel to the panel through the film, wherein a film groove is formed at a portion where each of the films is attached to prevent contact with the film, And a control board formed therein.

Description

[0001] LIQUID CRYSTAL DISPLAY [0002]

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 that does not require a case top.

2. Description of the Related Art In recent years, various flat panel display devices capable of reducing weight and volume, which are disadvantages of cathode ray tubes (CRTs), have been developed. Such flat panel displays are widely used not only for mobile devices where miniaturization and low power consumption are essential, but also for large-sized digital TVs which require reduction in weight and thickness.

Among them, liquid crystal displays (LCDs) are most widely used among flat panel displays because they are applicable to all fields ranging from small devices to large devices.

1 is a sectional view of a conventional liquid crystal display device according to an embodiment of the present invention.

1, a conventional liquid crystal display device includes a light source 20, a light guide plate 30, an optical sheet unit 40, and a panel 50 laminated on a cover bottom 10, A chip-on-film (COF) type film 70 is electrically attached to a non-display area of the substrate, and the film 70 is connected to a control board 80 including various chips and circuit structures including a timing controller have.

The outer periphery of the front surface of the panel is covered by a case top 60, and the case top is fastened to the cover bottom 10.

1, which is configured in a narrow bezel configuration, has a narrow gap between the film 70 and the case top 60 due to its structure, (COF) 70 is bent, damaged or broken due to the pressing of the film 60 and the external force.

In addition, as the film 70 comes into contact with the case top, line defects are generated in various lines formed on the film, thereby causing a problem that the quality of the image displayed on the panel is poor .

That is, since the conventional liquid crystal display device manufactured in the narrow bezel form has no space or very narrow space between the film 70 and the case top 60, the film may be damaged, The circuit configuration is damaged and the quality of the image displayed on the panel is degraded.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a liquid crystal display device, which is capable of covering one side of a case tower and having one side thereof covered with a film electrically connected to the panel, And to provide a method of manufacturing the same.

According to an aspect of the present invention, there is provided a liquid crystal display comprising: a backlight unit including a cover bottom and a light source mounted on a cover bottom; A panel disposed at an upper end of the backlight unit and displaying an image; A plurality of films electrically connected to signal lines formed on the panel through pads formed in a non-display region of the panel; And a plurality of films are attached to the panel to transmit control signals for driving the panel to the panel through the film, wherein a film groove is formed at a portion where each of the films is attached to prevent contact with the film, And a control board formed therein.

According to the above-mentioned solution, the present invention removes one side of the case top, and the one side is formed so as to be covered with a film electrically connected to the panel and a control board attached thereto, Therefore, it is possible to secure the reliability of the liquid crystal display device.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of a conventional liquid crystal display device.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a liquid crystal display device.
3 is an exploded perspective view of a liquid crystal display device according to the present invention.
4 is a sectional view of one embodiment of a liquid crystal display device according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is an exemplary view showing a plan view of an embodiment of a liquid crystal display device according to the present invention.

2, a liquid crystal display device according to the present invention includes a timing controller 810, a control board 800 on which a level shifter (not shown) and various other kinds of chips are mounted, And a panel 500 in which a film 700 in which a data driver IC (not shown) for driving a data line is mounted and a gate driver 900 are incorporated.

First, the control board 800 refers to a printed circuit board (PCB), and various chips including a timing controller 810 and a level shifter (not shown) are mounted on the control board.

Here, the timing controller 810 supplies a data control signal (DCS) for controlling a data drive IC (not shown) forming a data driver to the data drive IC via a chip-on film (COP) The timing controller 800 supplies the gate control signal GCS for controlling the gate driver 900 to the gate driver 900 via the film 700 in the form of a chip-on film (COF). The gate control signal GCS includes gate start pulses GSP1 and GSP2, a clock signal RCLK, and a gate output enable signal GOE.

On the other hand, a film 700 to be described later is attached to the control board 800, and a film groove 820 is formed in a portion of the control board where the film is attached, as shown in FIG.

Here, the film groove 820 is formed for securing a clearance for allowing the film 700 to bend without being damaged when the control board is folded at a 90-degree angle with the panel. That is, when various components of the liquid crystal display device are assembled, the control board is folded at a 90-degree angle with the panel. At this time, the control board and the film attached to the panel are bent at a predetermined angle . Therefore, when the film is warped, the control board is provided with a film groove 820 for each portion where each film is formed, so that the film can be bent without contacting the control board.

Also, the control board may be provided with a fastening hole 830 for inserting a fastening device (for example, a screw or the like) for fastening the control board to the cover bottom. That is, after the control board is folded at an angle of 90 degrees with the panel as described above, it is necessary to fix the control board by connecting the control board to the cover bottom. At this time, through the fastening holes 830, The fastening device can be fastened to the cover bottom.

However, when the control board is fixed to the cover bottom through the insulating tape or the insulating film, the fastening holes may be omitted.

That is, when the control board is folded at a 90 degree angle with the panel mounted on the cover bottom, one side or the front of the control board is covered with an insulating tape or an insulating film, By attaching to the bottom, the control board can be fixed to the cover bottom. In this case, the fastening holes can be omitted.

In addition, although the control board is shown as one board in FIG. 2, the control board may be divided into two or more boards. In this case, a suitable number of films are connected to each board, and the film groove 820 and the fastening hole 830 as described above can be formed for each board.

Next, the data driver IC (not shown) forming the data driver is formed in a chip form as described above, and is mounted on the film 700. The data drive IC generates a sampling signal by shifting a source start pulse (SSP) from the timing controller 810 according to a source shift clock (SSC).

The data driver IC latches the pixel data RGB input according to the source shift clock SSC in accordance with the sampling signal and supplies the pixel data RGB in units of horizontal lines in response to the source output enable signal SOE . Then, the data drive IC converts the pixel data RGB supplied in units of horizontal lines into an analog pixel signal by using a gamma voltage from a gamma generator (not shown) and supplies it to the data lines DL1 to DLm.

Here, the data drive IC determines the polarity of the pixel signal in response to the polarity control (POL) signal from the timing controller 100 when the pixel data (RGB) is converted into the pixel signal. The data driver IC determines a period during which the pixel signal is supplied to the data lines DL1 to DLm in response to the source output enable signal SOE.

Next, the film 700 performs the function of mounting the data drive IC, as described above. The film includes a timing controller formed on the control board, and a data driver IC connecting the data lines formed on the panel with the data driver IC Various wirings are formed.

However, only the wiring for connecting the control board and the respective wirings of the panel may be formed on the film 700. In this case, the film may be a control board in which the data drive IC is formed or a control in which the gate drive IC is formed It may also be connected to the board.

Further, the film may have a gate drive IC formed thereon.

Finally, the panel 500 is formed by joining an upper substrate 520 and a lower substrate 510, and is divided into a display region where various elements are formed and a non-display region formed around the display region.

The panel 500 includes a gate line (not shown) and a data line (not shown) crossing each other in the display region to define a pixel region, a thin film transistor formed at a portion where the gate line and the data line cross each other, A liquid crystal capacitor connected to the thin film transistor TFT and formed in each pixel region, and a storage capacitor connected in parallel with the liquid crystal capacitor. The data lines and gate lines are collectively referred to as signal lines.

Here, the liquid crystal capacitor Clc is composed of a liquid crystal positioned between the pixel electrode connected to the thin film transistor TFT and the common electrode.

The thin film transistor TFT is turned on by the gate-on voltage from the gate line to supply the data voltage from the data line to the pixel electrode so that the data voltage, the common voltage Vcom and the difference voltage are applied to the liquid crystal capacitor Clc. .

The thin film transistor TFT is turned off by the gate off voltage Voff from the gate lines GL1 to GLn so that the voltage charged in the liquid crystal capacitor Clc is maintained. At this time, the storage capacitor Cst causes the voltage charged in the liquid crystal capacitor Clc to be stably maintained.

In the non-display area of the panel 500, the gate driver 900 may be formed in a GIP type as shown in FIG. Further, the film 700 is electrically connected to the pad formed in the non-display area of the panel.

The gate driver 900 formed in the non-display region of the panel shifts a gate start pulse (GSP) from the timing controller according to a gate shift clock (GSC) On voltage (Von) sequentially to the scan electrode (Y).

In addition, the gate driver supplies the gate-off voltage Voff in the remaining period when the scan pulse of the gate-on voltage Von is not supplied to the gate line.

Meanwhile, the gate driver may be connected to the panel in various forms other than the GIP type as shown in FIG.

As described above, in the liquid crystal display device according to the present invention, one side of the film 700 on which the data drive IC is mounted is attached to the non-display area of the panel, and the other side of the film is mounted with a timing controller A film groove 820 is formed in the control board 800 to prevent contact between the film and the control board.

In addition, the control board is provided with a fastening hole 830, so that when the control board is folded and assembled with the panel at 90 degrees, the control board can be fastened to the cover bottom and fixed.

Hereinafter, the overall configuration of a liquid crystal display device according to the present invention having the above-described structure will be described in detail with reference to FIGS. 3 and 4. FIG.

FIG. 3 is an exploded perspective view of a liquid crystal display device according to the present invention, and FIG. 4 is a sectional view of an embodiment of a liquid crystal display device according to the present invention. 4 is a cross-sectional view taken along the line A-A 'in Fig. 3.

3, the liquid crystal display according to the present invention includes a plurality of LEDs, a cold cathode fluorescent lamp (CCFL), or an external electrode fluorescent lamp (EEFL) A cover bottom 100 on which a light source is mounted, a light guide plate 300 disposed on the upper end of the light source for changing the light emitted from the light source into planar light and emitting the light, A sheet unit 400 includes a panel 500 disposed on the top surface of the optical sheet unit and formed of an upper substrate 520 and a lower substrate 510 to output an image, And a case top 600 assembled with the board 800 and the cover bottom and configured to mount the components therein.

Among the above components, the cover bottom 100, the light source 200 disposed on the inner surface of the cover bottom, the light guide plate 300 covering the light source, and the optical sheet portion 300 placed on the upper surface of the light guide plate, (400) are referred to as backlight units.

First, the case top 600, as described above, is fastened to the cover bottom and functions to embed the panel and other structures between the case top and the cover bottom.

On the other hand, of the four sides of the case tower, one side where the control board 800 is disposed may be configured in an open form, as shown in FIG.

That is, the present invention is intended to prevent the film 700 mounting the data drive IC from being damaged by being inserted between the case top and the cover bottom, The one side on which the control board is disposed can be configured in an open state.

Therefore, referring to Fig. 4 showing a section taken along the direction A-A 'in Fig. 3, one side of the case tower can be omitted.

Meanwhile, as described above, the case top may be formed in a state in which only one side of the one side of the case top on which the control board is disposed is opened, but the case top may be omitted completely.

That is, in the case where various components arranged on the cover bottom can be mounted on the cover bottom by separate fastening means or adhesive means, the case top can be omitted altogether. In this case, the control board 800 connected by the film 700 can be fixed to the cover bottom 100 through a fastening device 850 such as a screw.

Meanwhile, the liquid crystal display device may be configured in a state where the parts covered by the conventional case top, the control board including the film, and the cover bottom are entirely wrapped with insulating tape or the like. In this case, 850 and the fastening hole 830 may not be formed.

At this time, only the control board 800 and the film 700 may be fixed on the cover bottom with an insulating tape or the like.

Next, the panel 500 drives the liquid crystal injected between the upper substrate 520 and the lower substrate 510 using a voltage applied to the lower plate, thereby moving the image according to the amount of light emitted from the light source 200 And may be configured in various forms.

Meanwhile, a pad connected to the data line and the gate line is formed in the non-display region of the panel, and a data drive IC is mounted on the non-display region where the pad connected to the data line is formed, as shown in FIG. The film 700 is electrically connected.

A gate driver is connected to the non-display region where the pad connected to the gate line is formed.

Next, the control board 800 connected to the panel through the film 700 may be formed of two or more boards as described above. In this case, a film 700 Respectively.

At this time, in the portion of the control board where the film is adhered, a film groove 820 in which the end portion of the control board is cut is formed.

Therefore, as shown in FIGS. 3 and 4, when the control board is folded at a 90-degree angle with the panel, the film can naturally bend through the film groove 820.

In addition, as described above, since the side surface of the case top is not formed on one side where the control board is formed, the film exposed to the outside of the control board does not come into contact with any constitution.

Therefore, since the film 700 on which the data drive IC and the various wirings are formed is not in contact with any component through the control board outside in the bent state as shown in Figs. 3 and 4, There is no worry.

Further, in the case where the control board is bent without the film groove 820, since the film is pressed against the edge of the control board, there is a possibility of being damaged. However, The film is not likely to be damaged by contact with the control board.

Finally, the backlight unit is constructed as follows. As described above, the backlight unit includes a cover bottom 100, a light source 200 disposed on the inner surface of the cover bottom, a light guide plate 300 covering the light source, and a light guide plate 300 disposed on the upper surface of the light guide plate, And the optical sheet unit 400 may be provided.

As described above, the cover bottom 100 functions to mount the light guide plate 300, the optical sheet unit, and the panel in a state in which the light source is mounted, and one side where the control board is disposed is opened When the formed case top is disposed on the front and side surfaces of the panel, it is fastened to the case top.

Also, the cover bottom can be fastened to the fastening device 850 through a fastening hole 830 formed in the control board, and the control board 800 can be connected to the cover bottom to secure a predetermined position.

In the above description, it is explained that the control board is folded at a 90 degree angle with the panel. However, this is to explain that the control board is folded, and the angle between the control board and the panel is changed by the shape of the cover bottom, And can be variously set.

Also, as described above, the control board may be attached to the cover bottom via an insulating tape or the like instead of the fastening device.

Meanwhile, the backlight unit applied to the present invention may be configured such that the type of the light source 200, the arrangement of the light sources (metering type or direct light type), the configuration of the optical sheet unit 400, the type of the light guide plate 300, And can be variously set.

That is, the present invention as described above minimizes the interference between the various devices constituting the liquid crystal display in the narrow bezel model and the film (COF) 700, thereby preventing damage to the film (COF) And the like.

To this end, the present invention eliminates a portion of the case top, i.e., one side adjacent the film and control board, to minimize interference between the case top 600 and the film 700, And a control board (PCB) 800 is used to prevent interference between films (COFs) and ensure reliability.

The control board 800 is connected to the film to transmit a control signal to the data driver IC and the gate driver through the film and also functions as a case top for guiding the panel 500 It is possible.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: cover bottom 200: light source
300: light guide plate 400: optical sheet part
500: Panel 600: Case top
700: Film 800: Control board

Claims (8)

A backlight unit including a cover bottom and a light source mounted on the cover bottom;
A panel disposed at an upper end of the backlight unit and displaying an image;
A plurality of films electrically connected to signal lines provided on the panel through pads arranged in a non-display area of the panel; And
Wherein the plurality of films are attached so that control signals for driving the panel are transmitted to the panel through the film and the film is inserted into each of the portions where the films are attached to prevent contact with the film And a control board on which a film groove is formed. The method according to claim 1,
The control board includes:
And is attached and fixed to the cover bottom in a folded state so as to cover one side of the sides of the panel to which the film is attached. 3. The method of claim 2,
The control board includes:
Wherein the control board is attached and fixed to the cover bottom by a fastening unit inserted through a fastening hole provided on the control board. 3. The method of claim 2,
The control board includes:
And is attached and fixed to the cover bottom by an insulating tape. The method according to claim 1,
Wherein:
Wherein the panel is fixedly attached to the backlight unit and the outer periphery of the front portion of the panel is covered with an insulating tape. The method according to claim 1,
The control board may be formed of at least two boards, and the films are attached to the respective boards. The method according to claim 1,
And a data drive IC for transferring pixel data to the panel is mounted on the film. The method according to claim 1,
Further comprising a case top which guides three sides of the four sides of the panel, except for a portion where the control board is disposed, and covers an outer periphery of the front side of the three sides of the front face of the panel Liquid crystal display device.

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