KR20170043810A - Display device - Google Patents

Abstract

According to an embodiment, a display device comprises: a display panel; a backlight unit arranged on the lower part of the display panel; a silver dotting unit arranged on one side of the display panel; a cover shield configured to surround the side of the display panel and extended to cover a part of the display panel corresponding to the silver dotting unit; and a conductive pad unit arranged between the silver dotting unit and the cover shield. According to an embodiment, the present invention has an effect of preventing a damage to the silver dotting unit and insertion of an external ESD formed to cover the silver dotting unit by the cover shield.

Description

Display device {DISPLAY DEVICE}

The embodiment relates to a display device for preventing defects caused by ESD.

In recent years, a liquid crystal display (LCD), a plasma display panel (PDP), an organic light emitting diode (OLED) display, a cathode ray tube (CRT) And the like are rapidly developing. Among them, liquid crystal display devices are thinner and lighter than other display devices, have low power consumption and low driving voltage, and are widely used in various devices.

The conventional liquid crystal display device comprises a liquid crystal panel and a backlight unit for providing light to the liquid crystal panel. The liquid crystal panel is formed with a dotting pad made of silver (Ag) for discharging electrostatic discharge (ESD) generated in the panel.

However, as the narrow bezel is developed, the upper part of the liquid crystal panel is exposed, which causes the silver dotting part to be exposed to the outside, so that it is vulnerable to the static electricity drawn from the outside, thereby causing defective panel. In addition, since the silver dots are exposed to the outside, there is a problem that an external impact is easily removed.

In order to solve the above problems, it is an object of the present invention to provide a display device for preventing a display panel from being damaged due to static electricity.

According to an aspect of the present invention, there is provided a display apparatus including a display panel, a backlight unit disposed below the display panel, a silver dotting unit disposed on one side of the display panel, And a conductive pad portion disposed between the silver dotting portion and the cover shield. The cover shield may include a cover shield covering a side surface of the display panel and extending to cover a portion of an upper portion of the display panel corresponding to the silver dotting portion.

In the embodiment, the cover shield is disposed so as to cover the silver-doped portion, thereby preventing the external ESD from being introduced and the silver-doped portion from being damaged.

In addition, the embodiment has an effect of effectively discharging ESD that can be generated in the display panel by electrically connecting the cover shield to the silver dots.

1 is a cross-sectional view showing a display device according to a first embodiment.
2 is a cross-sectional view showing a partial region of the display device according to the first embodiment.
3 is a plan view showing a display device according to the first embodiment.
4 is a graph showing an ESD performance value of the display device according to the first embodiment.
5 is a plan view showing a display device according to the second embodiment.
6 is a plan view showing a display device according to the third embodiment.

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

FIG. 1 is a cross-sectional view showing a display device according to a first embodiment, FIG. 2 is a cross-sectional view showing a part of a display device according to the first embodiment, FIG. 3 is a plan view showing a display device according to the first embodiment And FIG. 4 is a graph showing an ESD performance value of the display device according to the first embodiment.

1, the display device according to the first embodiment includes a display panel 100, backlight units 210, 220, 230, and 240 disposed below the display panel 100, The display panel 100 includes a silver dots 500 disposed on one side of the display panel 100 and a display panel 100 surrounding the backlight units 210, 220, 230, A cover shield 600 that covers the upper portion of the cover 100 and a conductive pad unit 700 disposed between the silver plating unit 500 and the cover shield 600.

The display panel 100 includes a thin film transistor (TFT) substrate 110, a color filter (CF) substrate 120 provided on the TFT substrate 110, And a liquid crystal layer 130 disposed between the TFT substrate 110 and the CF substrate 120.

In the TFT substrate 110, a TFT in the form of a matrix is formed, and the source terminal and the gate terminal of the TFTs are connected to the data line and the gate line, respectively, and the drain terminal is connected to the pixel electrode. The CF substrate 120 has a color filter on one side and a common electrode made of transparent conductive material such as indium tin oxide (ITO) or indium zinc oxide (IZO) on the color filter .

A driving unit (not shown) may be disposed on one side of the TFT substrate 110. The driving unit is connected to one side of the TFT substrate 110 by a tape carrier package (TCP) 112. The driving unit generates a data signal which is a signal for driving the display panel 100, a gate driving signal, a plurality of timing signals for applying these signals at an appropriate time, and outputs a gate driving signal and a data driving signal to the display panel 100. [ To the gate lines and the data lines of the data driver 100, respectively.

The upper polarizer 140 may be disposed on the upper surface of the CF substrate 120. The upper polarizer 140 may change the path of light passing through the CF substrate 120. [ The lower polarizer 150 may be disposed on the lower surface of the TFT substrate 110. The lower polarizer 150 can change the path of the light that enters the TFT substrate 110.

The backlight unit is disposed below the display panel 100 and serves to provide light to the display panel 100. The backlight unit includes a light guide plate 210, a light source 220 disposed on one side of the light guide plate 210, a reflective sheet 230 disposed below the light guide plate 210, And an optical sheet 240 disposed on the optical sheet 240.

A light guide plate (LGP) 210 guides the light emitted from the light source unit 220 to the display panel 100. The light incident on one side of the light guide plate 210 is refracted and refracted by a protrusion formed on the upper surface or lower surface of the light guide plate 210 in a positive or negative angle or by a diffusing agent added to the inside of the light guide plate 210 The light is emitted to the upper side of the light guide plate 210 after proceeding to the other side. The light guide plate 210 serves to change light having an optical distribution in the form of a point light source or a linear light source into light having an optical distribution in the form of a surface light source.

The light source unit 220 serves to generate light. The light source unit 220 may include an LED element 221 and a printed circuit board 222 on which the LED element 221 is mounted. The LED element 221 may be an R, G, or B light emitting diode that emits red light, G (green), or B (blue) monochromatic light, or may be a light emitting diode that emits white light, and a side view type device may be used. When an LED element emitting a monochromatic light is used, the monochromatic LED elements of R, G, and B may be alternately arranged at regular intervals, monochromatic light emitted therefrom may be mixed into white light, and then supplied to the display panel 100. Alternatively, when an LED element that emits white light is used, a plurality of LED elements may be arranged at a predetermined interval to supply white light to the display panel 100.

The white light LED element is composed of a blue LED element emitting blue light and a phosphor absorbing blue monochromatic light to emit yellow light. The blue monochromatic light output from the blue LED element and the yellow monochromatic light emitted from the phosphor are mixed, (Not shown).

The PCB substrate 222 is a flexible printed circuit board having excellent warpage, and a circuit (not shown) may be formed therein. Accordingly, external power can be supplied to the LED element 221 through the circuit.

Although the light source unit 220 is disposed on one side of the light guide plate 210 as a side light source backlight unit, the light source unit 220 may be disposed on the other side of the light guide plate 210.

The reflective sheet 230 is disposed under the light guide plate 210 and reflects light emitted from the light guide plate 210 toward the display panel 100. The reflection sheet 230 can adjust the reflection amount of the entire incident light so that the entire light outputting surface has a uniform luminance distribution.

The reflective sheet 230 may use an ESR (Enhanced Specular Reflector) film having a very high reflectance. The ESR film is a silver or white film having a reflectance of 98% and a transmittance of 2%, and reflects most of the light incident on the reflective sheet 230 toward the liquid crystal panel.

The optical sheet 240 is disposed on the upper side of the light guide plate 210 to improve the efficiency of light emitted from the light guide plate 210 and supply the light to the display panel 100. The optical sheet 240 includes a diffusion sheet 241 for diffusing the light emitted from the light guide plate 210 and a condenser lens 241 for condensing the light diffused by the diffusion sheet 241, A plurality of prism sheets 242 may be provided.

The diffusion sheet 241 is normally provided with one sheet, but the prism sheet 242 may include a first prism sheet and a second prism sheet that cross each other with the prism perpendicular to the x and y axis directions. The first prism sheet and the second prism sheet can refract light in the x and y axis directions to improve the straightness of light.

The display panel 100 may further include a guide panel 400 for effectively seating the display panel 100 as described above.

The guide panel 400 may be formed in a rectangular frame shape having open top and bottom portions. Alternatively, the guide panel 400 may be formed in a 'C' shape or a '=' shape in which the light-incident portion is opened. The display panel 100 may be disposed above the guide panel 400. Components of the backlight units 210, 220, 230, and 240 may be disposed inside the guide panel 400. A separate adhesive member 410 for fixing the display panel 100 may be disposed on the guide panel 400.

The bottom cover 300 for accommodating the backlight units 210, 220, 230, and 240 may further be disposed below the backlight units 210, 220, 230, The bottom cover 300 may be formed in a box shape having an open top and may accommodate the backlight units 210, 220, 230, 240 and the display panel 100 stacked on the guide panel 400.

2 and 3, the silver dots 500 may be disposed between the TFT substrate 110 and the CF substrate 120. In this case, The dots 500 may be disposed between the side of the CF substrate 120 and the top of the TFT substrate 110. The dodging part 500 effectively discharges the ESD flowing through the display panel 100, particularly, the ESD flowing through the CF substrate 120. The silver dots 500 can effectively emit ESD by conducting the CF substrate 120 and the TFT substrate 110.

A cover shield 600 may be further disposed on the upper portion of the docking part 500. [ The cover shield 600 may be disposed to cover the upper portion of the silver dodging portion 500. The cover shield 600 protects the silver dots 500 to prevent ESD from entering the silver dots 500 from the outside. The cover shield 600 serves to protect the silvering part 500 so that the silvering part 500 is not damaged.

The cover shield 600 may be disposed to surround the backlight units 210, 220, 230, and 240. The cover shield 600 may be disposed to cover the side surfaces of the display panel 100 and the side and bottom portions of the backlight units 210, 220, 230, and 240. The cover shield 600 may be disposed to cover a part of the upper portion of the display panel 100. The cover shield 100 may be disposed to cover a portion of the upper portion of the TFT substrate 110 on which the silver dots 500 are disposed.

More specifically, the cover shield 600 includes a first cover portion 610, a second cover portion 620 bent from the first cover portion 610, and a second cover portion 620 extending from the second cover portion 620 And a third cover portion 630 disposed to cover the dotting portion 500. [

The first cover part 610 may be disposed to surround the side surfaces of the backlight units 210, 220, 230, and 240. The first cover part 610 may be disposed to surround the back surface and the side surfaces of the backlight units 210, 220, 230, and 240.

The second cover portion 620 may be bent toward the display panel 100 from the first cover portion 610. The second cover portion 620 may be disposed to cover a part of the upper portion of the TFT substrate 110. The width of the second cover portion 620 may correspond to the width of the first cover portion 610.

The third cover portion 630 may be disposed to cover a part of the upper portion of the display panel 100, for example, the TFT substrate 110. [ The third cover part 630 may be disposed to cover the silver dotting part 500 disposed on one side of the display panel 100. The third cover part 630 may be formed to protrude from one side and the other side of the second cover part 620 so as to cover the silver dots 500. The width of the third cover portion 630 may be smaller than the width of the second cover portion 620. The third cover portion 630 is formed to cover only the region where the silver dotting portion is formed, thereby achieving a Narrow Bezel effect.

The conductive pad portion 700 may be disposed between the third cover portion 630 and the silver plating portion 500. The conductive pad portion 700 may be disposed under the silver plating portion 500 and the upper portion and the third cover portion 630. The conductive pad portion 700 may electrically connect the cover shield 600 and the silver plating portion 500. The conductive pad portion 700 may be formed in the form of a form pad. The conductive pad unit 700 effectively discharges ESD, which may be generated in the display panel 100, to the cover shield 600, thereby preventing the display panel 100 from being defective.

As shown in FIG. 4, the ESD performance values according to the embodiments are measured for two models, for example, 25 FHD and 25 QHD models.

25 FHD model showed 20kv ~ 23kv, while 25QHD model showed 22kv ~ 23kv. The structure according to the embodiment is improved by 30% or more compared to the conventional structure.

The display device according to the embodiment has the effect of preventing the inflow of the external ESD and the breakage of the silver dipping portion by disposing the cover shield to cover the silver dipping portion.

In addition, the display device according to the embodiment has an effect of effectively discharging ESD that can be generated in the display panel by electrically connecting the cover shield to the silver dotting portion.

5 is a plan view showing a display device according to the second embodiment.

5, the display device according to the second embodiment includes a display panel 100, backlight units 210, 220, 230, and 240 disposed below the display panel 100, A silver plating unit 500 disposed on one side of the panel 100 and a light emitting unit 500 covering the side surfaces of the backlight units 210, 220, 230, and 240 and the display panel 100, A cover shield 800 extending to cover a part of an upper portion of the display panel 100 and a conductive pad portion 700 disposed between the silver dotting portion 500 and the cover shield 800. Here, the configuration except for the cover shield is the same as the constituent elements of the display apparatus according to the first embodiment, and thus will be omitted.

The cover shield 800 may include a first cover portion 810 and a second cover portion 820 that is bent from the first cover portion 810 and disposed to cover the silver dodging portion 500 .

The first cover part 810 may be disposed so as to surround the side surfaces of the backlight units 210, 220, 230, and 240. The first cover portion 810 may be disposed to surround the back surface and the side surfaces of the backlight units 210, 220, 230, and 240.

The second cover portion 820 may be bent from the first cover portion 810 toward the display panel 100. The second cover portion 820 may be disposed so as to cover a part of the upper portion of the TFT substrate 110. The second cover portion 820 may be disposed to cover the silver dotting portion 500 disposed on one side of the display panel 100. The width of the second cover portion 820 may be the same as the width of the first cover portion 810.

The display device according to the second embodiment can be brought into contact with the docking portion at any time regardless of the position of the silver docking portion by forming the cover shield with the same width as the first cover portion and the second cover portion.

6 is a plan view showing a display device according to the third embodiment.

6, the display device according to the third embodiment includes a display panel 100, backlight units 210, 220, 230, and 240 disposed below the display panel 100, A silver plating unit 500 disposed on one side of the panel 100 and a light emitting unit 500 covering the side surfaces of the backlight units 210, 220, 230, and 240 and the display panel 100, A cover shield 900 extending to cover a part of the upper portion of the display panel 100 and a conductive pad portion 700 disposed between the silver dotting portion 500 and the cover shield 900. Here, the configuration except for the cover shield 900 is the same as those of the display device according to the first embodiment, and thus will not be described.

The cover shield 900 includes a first cover portion 910, a second cover portion 920 bent from the first cover portion 910, and a second cover portion 920 extending from the second cover portion 920, And a fourth cover part 940 extending from the third cover part 930 and covering the silver dots 500. The third cover part 930 may extend from the third cover part 930 to the third cover part 930,

The first cover portion 910 may be disposed to surround the side surfaces of the backlight units 210, 220, 230, and 240. The first cover portion 910 may be disposed to surround the back surface and the side surfaces of the backlight units 210, 220, 230, and 240.

The second cover portion 920 may be bent toward the display panel 100 from the first cover portion 910. The width of the second cover portion 920 may correspond to the width of the first cover portion 910. The third cover portion 930 may protrude from the second cover portion 920 toward the display panel 100. The third cover portion 930 may be formed to be smaller than the width of the second cover portion 920.

The fourth cover portion 940 may protrude from the third cover portion 930 toward the display panel 100 and may be disposed to cover a part of the upper portion of the TFT substrate 110. [ The width of the fourth cover portion 940 may be smaller than the width of the third cover portion 930. The width of the fourth cover portion 940 may correspond to the width of the conductive pad portion 700.

The fourth cover portion 940 may be disposed to cover the silver dots 500 disposed on one side of the display panel 100. The fourth cover part 940 may be formed so as to protrude from the one side and the other side of the third cover part 930 so as to cover the silver dots 500.

The display device according to the third embodiment has the effect of preventing breakage of the display panel due to ESD more effectively by minimizing the width of the cover shield.

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 and scope of the invention as defined by the appended claims. You will understand.

100: display panel 210: light guide plate
220: light source part 400: guide panel
500: silver dotting part 600: cover shield
700: conductive pad portion

Claims (10)

Display panel;
A backlight unit disposed below the display panel;
A silver plating part disposed on one side of the display panel;
A cover shield surrounding the backlight unit and the display panel and extending to cover a part of an upper portion of the display panel corresponding to the silver dots; And
And a conductive pad portion disposed between the silver plating portion and the cover shield. The method according to claim 1,
Wherein the cover shield includes a first cover portion surrounding the backlight unit and a side surface of the display panel, a second cover portion bent toward the display panel from the first cover portion, and a second cover portion extending from the second cover portion to the display panel And a third cover portion extending to cover the silver-doping portion. 3. The method of claim 2,
And the width of the third cover portion is smaller than the width of the second cover portion. The method according to claim 1,
Wherein the cover shield includes a first cover portion that covers a side surface of the backlight unit and the display panel, and a second cover portion that extends from the first cover portion toward the display panel to cover the silver dotting portion disposed on the display panel A display comprising. 5. The method of claim 4,
And the width of the second cover portion corresponds to the width of the first cover portion. The method according to claim 1,
Wherein the cover shield includes a first cover portion surrounding the backlight unit and the display panel, a second cover portion bent toward the display panel from the first cover portion, and a second cover portion extending from the second cover portion toward the display panel And a fourth cover portion extending from the third cover portion toward the display panel and covering the silver dots arranged on the display panel, . The method according to claim 6,
The fourth cover portion is formed to be smaller than the width of the third cover portion, and the width of the fourth cover portion corresponds to the width of the conductive pad portion. 8. The method according to any one of claims 1 to 7,
Wherein the silver dots are arranged on one side and the other side of one side of the display panel. 9. The method of claim 8,
Wherein the display panel includes a thin film transistor substrate and a color filter substrate disposed on the thin film transistor substrate, wherein the silver dots are disposed between the thin film transistor substrate and the color filter substrate. 10. The method of claim 9,
Wherein the silver dots are disposed on a side surface of the color filter substrate and on the top of the thin film transistor substrate.

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