KR20120057203A - Panel Bracket Having Tolerance Hole For Flat Display Panel - Google Patents

Abstract

PURPOSE: A panel bracket with a tolerance hole for a flat display panel is provided to maintain a horizontal state of the display panel attached to a cover bottom or a frame even thought the cover bottom or the frame is deformed. CONSTITUTION: A horizontal portion(H) has a first width and is horizontally extended. A vertical portion(V) has a second width and is vertically extended. An adhesive is coated on a portion of the horizontal portion. A tolerance hole(TH) is formed on the vertical portion and contains a fixing pin(PIN). The tolerance hole has a tolerance value corresponding to a twice larger value of an assembling tolerance value with the fixing pin. The adhesive fixes the flat panel to the horizontal portion.

Description

Panel Bracket Having Tolerance Hole For Flat Display Panel

The present invention relates to a panel bracket having a tolerance hole for use in mounting a flat panel display panel to a frame. In particular, the present invention is a panel bracket for mounting a large flat panel display panel such as a borderless television to a frame, and has a panel bracket having a tolerance hole for maintaining the horizontal state of the display panel even when the frame is deformed by various deformation forces. It is about.

The flat panel display includes a liquid crystal display (LCD), a field emission display (FED), a plasma display panel (PDP), and an organic light emitting diode display (OLED). ). Liquid crystal display devices can meet the trend of light and short and short of electronic products and mass production is improving, and are rapidly replacing cathode ray tubes in many applications. An active matrix type liquid crystal display device that drives a liquid crystal cell using a thin film transistor (hereinafter referred to as "TFT") has the advantages of high image quality and low power consumption. As a result of development, it is rapidly developing in size and high resolution, and is rapidly replacing cathode ray tube in television (hereinafter referred to as "TV") and monitor.

Such a flat panel display device has an advantage of manufacturing a thin, light and large display device. As the display panel becomes thinner and lighter, a bezel portion holding the edge of the display panel may be narrower in manufacturing a large display device. In other words, since the back of the display panel is directly fixed to the frame or cover bottom of the display device, there is no need to support the edge of the display panel over the frame or cover bottom, so that a display device without a bezel can be manufactured.

However, when the frame or the cover bottom of the display device and the display panel are directly bonded in this manner, the display panel may be affected when the deformation force is applied to the frame or the cover bottom. For example, as the display device is used for a long time, bending stress due to thermal energy may be generated in the frame or the cover bottom. In this case, the display panel attached to the frame or the cover bottom may also be bent due to bending stress, which may result in poor image quality or problems such as light leakage.

Disclosure of Invention An object of the present invention is to solve the problems of the prior art, and in a borderless display device which is attached to a frame or cover bottom of a display device without fixing the display panel to a bezel area, a frame or a cover is provided. SUMMARY OF THE INVENTION An object of the present invention is to provide a panel bracket for mounting a flat panel display panel in which the deformation force of the bottom does not affect the display panel. Another object of the present invention is to provide a flat panel display panel mounting panel bracket in which the display panel attached to the frame or cover bottom is horizontal even if the frame or cover bottom is deformed.

In order to achieve the above object, a flat panel display panel mounting panel bracket according to the present invention, the horizontal portion having a first width and extending in the horizontal direction; A vertical portion having a second width and extending in a vertical direction from one side end of the vertical portion; An adhesive applied to a portion of the surface of the horizontal portion; And a tolerance hole formed in the vertical portion to accommodate the fixing pin.

The tolerance hole is characterized in that it has a tolerance value corresponding to twice the tolerance of the assembly with the fixing pin.

The tolerance hole is characterized by having a diameter of 0.4mm ~ 0.6mm larger than the diameter of the body portion of the fixing pin.

The adhesive may be attached to a portion of the flat panel display panel to fix the flat panel to the horizontal unit.

The fixing pin is inserted into and fixed to one of a cover bottom and a frame of the flat panel display device through the tolerance hole.

In the panel bracket for mounting a flat panel display panel according to the present invention, a pin hole for accommodating the pin for fixing the bracket to the frame is formed as a tolerance hole having a margin of tolerance. Therefore, even when the deformation force is generated in the frame or the cover bottom, the deformation force is not transmitted to the display panel as it is due to the clearance gap of the tolerance hole. Accordingly, the panel bracket for mounting a flat panel display panel having a tolerance hole according to the present invention has an effect of fixing the display panel to the display device while maintaining the horizontal state.

1 is a cross-sectional view showing a structure of a panel bracket for mounting a flat panel display panel having a tolerance hole according to the present invention.
2 is a cross-sectional view showing a state in which a liquid crystal display panel is attached to a display device using a panel bracket having a tolerance hole according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings and FIGS. 1 to 2. 1 is a cross-sectional view showing the structure of a panel bracket for mounting a flat panel display panel having a tolerance hole according to the present invention.

Referring to FIG. 1, the panel bracket BK has a steel sheet structure having a thickness of about 0.5 mm including a metal material having sufficient rigidity or EGI (). The panel bracket has a structure bent in a '-' shape. That is, it includes a horizontal portion (H) having a predetermined width and a vertical portion (V) bent in the longitudinal direction at one end of the horizontal portion (H) having a predetermined width. It is preferable that the surface of the horizontal portion H be kept in a horizontal state to have a flat panel display panel attached thereto and have a sufficient area. Since the area of the horizontal portion H may vary depending on the size of the flat panel display panel to be attached, the specific size is not limited thereto. It can be manufactured to have a suitable area according to the manufacturer's design intention.

The vertical portion V is a portion fixed to the frame or the cover bottom of the display device. In particular, the vertical portion V includes a tolerance hole TH. The fixing pin PIN may be inserted through the tolerance hole TH. In addition, the fixing pin PIN is preferably fastened to the frame or cover bottom through the tolerance hole TH. In particular, it is preferable that the diameter D _H of the tolerance hole TH has a size larger by a predetermined distance (or tolerance) G than the body diameter D _P of the fixing pin PIN. If there is no tolerance between the tolerance hole TH and the fixing pin (zero clearance), the bracket BK and the frame or cover bottom are completely in contact with the pin PIN. In this case, the deformation force of the frame or cover bottom is transmitted to the bracket BK as it is.

In the present invention, the bracket BK should not be in close contact with the frame or cover bottom. However, if the bracket BK becomes too loose with respect to the fixing pin PIN, the bracket BK may not be fixed correctly. To this end, the tolerance hole TH should have an appropriate tolerance value for the body portion of the fixing pin PIN.

As such, when the bracket BK is fixed to the frame with the fixing pin PIN, the assembly tolerance exists. For example, the diameter D _H of the tolerance hole TH of the bracket BK may be formed to be about 0.2 mm to 0.3 mm larger than the diameter D _P of the fixing pin PIN. desirable. However, even when only such an assembly tolerance value exists, the deformation force of the frame or cover bottom is directly transmitted to the bracket BK, and thus the display panel mounted on the horizontal portion H of the bracket BK cannot be maintained.

Therefore, the tolerance value of the tolerance hole TH preferably has a tolerance value corresponding to twice the assembly tolerance. That is, the diameter D _H of the tolerance hole TH may be formed to be about 0.4 mm to 0.6 mm larger than the fixing pin PIN body portion diameter D _P. If the tolerance value is three times larger than the assembly tolerance, the bracket BK may not be fixed to the frame and may be loosely attached so that the display panel cannot be fully supported.

In addition, the tolerance value of the tolerance hole TH may preferably consider the thickness of the frame or cover bottom to which the bracket BK is attached. This is because the deformation force of the frame or cover bottom is related to its thickness. The value of 0.4mm ~ 0.6mm corresponding to twice the assembly tolerance proposed in the present invention was confirmed through experiments that the appropriate tolerance value in the frame or cover bottom of aluminum 3mm thickness mainly used.

Hereinafter, the case where the liquid crystal display panel is assembled with the borderless display device using the panel bracket BK according to the present invention will be described. 2 is a cross-sectional view showing a state in which a liquid crystal display panel is attached to a display device using a panel bracket having a tolerance hole according to the present invention.

The liquid crystal display device according to the present invention includes a liquid crystal display panel LCP. The liquid crystal display panel LCP includes an upper substrate SU, a lower substrate SL, and a liquid crystal layer LC interposed therebetween. In addition, an upper polarizing film PU is attached to the upper substrate SU of the liquid crystal display panel LCP, and a lower polarizing film PL is attached to the lower substrate SL.

A backlight unit is installed below the liquid crystal display panel LCP. The backlight unit includes an optical sheet OPT under the liquid crystal panel LCP, a light guide plate LG under the optical sheet, a light source LS disposed on one side of the light guide plate LG, and a light guide plate LG. It includes a reflector plate REF.

The liquid crystal display panel LCP and the backlight unit are assembled by a housing system to form a liquid crystal display device. First, the backlight unit is mounted on the cover bottom CB, and the edge portion of the backlight unit is fixed by the guide panel GP (or frame). The guide panel GP is preferably fixed to the cover bottom CB with an auxiliary material such as a fixing screw or a hook.

The panel bracket BK according to the present invention is attached to one side of the lower surface of the liquid crystal display panel LCP. At this time, the liquid crystal display panel LCP is attached to the horizontal portion H of the panel bracket BK by using the adhesive ADH. Then, the fixing pin PIN is inserted into the guide panel GP through the tolerance hole TH formed in the vertical portion V of the panel bracket BK to fasten the panel bracket BK with the guide panel GP. do.

At this time, it is preferable to match the edge of the liquid crystal display panel LCP with the vertical portion V of the panel bracket BK. A bezel BZ for closing the display device is disposed outside the liquid crystal display panel LCP and the panel bracket BK. The bezel BZ does not serve to fix the liquid crystal display panel (LCP) or any other part, but serves only as an aesthetic finish, and thus can be formed as thin as possible. In addition, if necessary, a molding ML may be further included to fill the gap between the bezel BZ and the liquid crystal display panel LCP.

In such a structure, when used for a long time, the cover bottom CB and the guide panel GP may be subjected to thermal stress due to the high heat generated from the light source. As a result, deformation may occur in the cover bottom CB and the guide panel GP. For example, the cover bottom CB may be bent downward. Then, this bending force can be transmitted to the guide panel GP, and finally can be transmitted to the panel bracket BK by the fixing pin PIN.

However, the panel bracket BK according to the present invention is connected to the fixing pin PIN through the tolerance hole TH. Therefore, even if the fixing pin PIN is biased to either side, the deformation force is not transmitted to the panel bracket BK due to the tolerance of the tolerance hole TH. As a result, even when the deformation force is generated in the cover bottom CB, this deformation force is absorbed by the tolerance hole, and the panel bracket CB is not subjected to the deformation force. As a result, the liquid crystal display panel LCP fixed to the panel bracket CB maintains its original horizontal state, so that the display quality of the display device can be maintained in a good state.

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.

BK: Panel bracket H: Horizontal part
V: vertical part TH: tolerance hole
PIN: Fixed pin D _H : Diameter of tolerance hole
D _P : Diameter of the body of the fixing pin G: Spacing (between tolerance hole and fixing pin)
LCP: LCD panel PU: Upper polarizer
SU: upper substrate LC: liquid crystal layer
SL: lower substrate PL: lower polarizer
OPT: Optical Sheet LG: Light Guide Plate
LS: Light source REF: Reflector
CB: Cover Bottom GP: Guide Panel
BZ: Bezel ML: Molding Part
ADH: Adhesive

Claims (5)

A horizontal portion having a first width and extending in a horizontal direction;
A vertical portion having a second width and extending in a vertical direction from one side end of the vertical portion;
An adhesive applied to a portion of the surface of the horizontal portion; And
And a tolerance hole formed in the vertical part to accommodate the fixing pin.
The method of claim 1,
And the tolerance hole has a tolerance value corresponding to twice the assembly tolerance with the fixing pin.
The method of claim 1,
The tolerance hole has a diameter of 0.4mm ~ 0.6mm larger than the diameter of the body portion of the fixing pin panel display panel mounting panel bracket.
The method of claim 1,
And the adhesive is attached to a portion of the flat panel display panel to fix the flat panel to the horizontal unit.
The method of claim 1,
And the fixing pin is inserted into and fixed to one of a cover bottom and a frame of the flat panel display device through the tolerance hole.

Images