KR100718052B1 - Plasma Display Apparatus - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plasma display device. More particularly, the thickness of the plasma display device can be reduced and the manufacturing cost can be reduced by attaching the driving unit to the side surface of the plasma display panel. Accordingly, the plasma display device of the present invention includes a frame supporting the plasma display panel, a driver attached to the frame to apply a driving signal to the plasma display panel, and a film type device connecting the plasma display panel and the driver. The frame has an end portion extending from the side surface of the plasma display panel, and the driving portion is attached to an end portion of the frame on the side surface of the plasma display panel.

Plasma Display, Frame, Driver, Film Type Device

Description

Plasma Display Apparatus {Plasma Display Apparatus}

1 is a structural diagram schematically showing a structure of a conventional plasma display device;

2 is a schematic bottom view of a conventional plasma display device;

3 is a side sectional view of a main portion of a lower portion of a conventional plasma display device;

4 is a bottom perspective view schematically illustrating a bottom portion of a plasma display device according to an embodiment of the present invention;

5 is a side cross-sectional view of main parts of a lower portion of a plasma display device according to an exemplary embodiment of the present invention.

***** Explanation of symbols for main parts of drawing *****

400; Frame 410; Film type element

411; Connector 412; Electrode pad

430; Plasma display panel 450; Boss

460; Driving part

The present invention relates to a plasma display device, and more particularly, to a plasma display device capable of reducing the thickness of the plasma display device and lowering the manufacturing cost.

In general, a plasma display panel (Plasma Display Panel) is a partition wall formed between the front substrate and the rear substrate to form a unit cell, each of the neon (Ne), helium (He) or a mixture of neon and helium ( The main discharge gas such as Ne + He) and an inert gas containing a small amount of xenon are filled. When discharged by a high frequency voltage, the inert gas generates vacuum ultraviolet rays and emits phosphors formed between the partition walls to realize an image. Such a plasma display panel has a spotlight as a next generation display device because of its thin and light configuration.

1 is a structure schematically showing the structure of a conventional plasma display device. As shown in the drawing, the plasma display device excites the phosphors by a case 110 including a front cabinet 111 and a back cover 112 that determine an appearance, and vacuum ultraviolet rays caused by gas discharge inside the case. A plasma display panel 120 that implements an image, a driving device 130 including a PCB for driving and controlling the plasma display panel, and connected to the driving device to emit heat generated when the plasma display device is driven, And a frame 140 for supporting the plasma display panel.

In addition, the filter 150 and the filter 150 formed by attaching a film to a transparent glass substrate (not shown) with a predetermined distance to the front surface of the plasma display panel are supported and electrically connected to the metal back cover. Finger spring gasket (Finger Spring Gasket, 160) and filter support (Filter Supporter, 170) for connecting, and a module supporter (Module Supporter, 180) for supporting the PDP including the drive device.

In the fabrication process of the conventional plasma display device having such a structure, first, a plasma display panel that implements the image is manufactured, and then a frame and a driving device, etc., which are installed on the rear surface of the plasma display panel are assembled to form a module of the plasma display panel. To make. Subsequently, a case 110 for determining the appearance of the plasma display panel module is formed to manufacture a plasma display device as a finished product.

2 is a diagram schematically illustrating a frame of a conventional plasma display device. As shown in FIG. 2, the Y driving board 210, the Z sustainer board 220, the data driver board 230, the control board 240, and the power board (not shown) are disposed on the frame 200 of the plasma display device. Not formed.) Is formed.

The Y driving board 210 drives the scan electrode lines Y1 to Ym of the plasma display panel 250 including the front substrate 251 and the rear substrate 252.

The Y driving board 210 includes a scan driver board 211 and a Y sustainer board 212. The scan driver board 211 supplies a scan pulse and a reset pulse to the scan electrode lines Y1 to Ym of the plasma display panel 250 via a flexible printed circuit (FPC) 213. The Y sustainer board 212 supplies the Y sustain pulses to the scan electrode lines Y1 to Ym via the scan driver board 211 and the FPC 213.

The Z sustainer board 220 drives the sustain electrode lines Z1 to Zm.

The Z sustainer board 220 generates a bias pulse and a Z sustain pulse and supplies them to the sustain electrode lines Z1 to Zm of the plasma display panel 250 via the FPC 221.

The data driver board 230 drives the data electrode lines X1 to Xm.

The data driver board 230 generates data pulses and supplies the data pulses to the data electrode lines X1 to Xn of the plasma display panel 250 via the film type device 231. Here, the film element 231 is made of a Chip on Film (COF) or a Tape Carrier Package (TCP) having wiring for connection.

The control board 240 controls the Y driving board 210, the Z sustainer board 220, and the data driver board 230.

The control board 240 generates each of the X, Y, and Z timing control signals. The control board 240 transmits the Y timing control signal to the Y driving board 210 via the FPC 241, the Z timing control signal to the Z sustainer board 220 via the FPC 242, and the FPC. The X timing control signal is supplied to the data driver board 230 via 243.

The power board supplies power to each of the boards 210, 220, 230, and 240.

The Y driving board 210, the Z sustainer board 220, the data driver board 230, the control board 240, and the power board are fastened to the frame 200 using a plurality of bosses (not shown). .

3 is a side cross-sectional view showing main parts of a lower end of a conventional plasma display device.

As shown in FIG. 3, a frame 300 is formed on a rear surface of the plasma display panel 330, a film type device 310 is provided at a lower end of the frame 300, and the film type device 310 is a boss. The driving unit 340 coupled to the frame 300 by the 312 is connected to the plasma display panel 330.

The frame 300 emits heat generated when the driving unit 340 of the plasma display panel 330 is driven, and supports the plasma display panel 330 including the front substrate 331 and the rear substrate 332.

The film type device 310 applies a signal output from the data board of the driver 340 to the data electrode line. The film type device 310 generates a lot of heat in the integrated device IC when the driving unit 340 is driven.

However, the conventional structure is attached to the rear surface of the plasma display panel 330 to support the plasma display panel 330 and to dissipate heat generated when driving the driving unit 340 on the frame 300 and the frame 300. The driver 340 coupled to the boss 312 is continuously formed on the plasma display panel 330 to increase the thickness of the plasma display device. In addition, the material cost is increased by forming a length of the film type device 310 including an integrated device IC that applies a signal output from the data driver board of the driver 340 to a data electrode line (not shown). There is a problem.

SUMMARY OF THE INVENTION An object of the present invention is to provide a plasma display device which can reduce the manufacturing cost by forming a thinner display device and reducing material costs by attaching a driving unit to a side surface of the plasma display panel. There is this.

The plasma display device of the present invention for achieving the above object is a frame for supporting a plasma display panel, a drive unit attached to the frame to apply a drive signal to the plasma display panel, and a film type device for connecting the plasma display panel and the drive unit The frame includes an end portion of which extends to the side of the plasma display panel, and the driving unit is attached to an end portion of the frame of the side of the plasma display panel.

Here, the driver is characterized in that the data driver.

It is preferable that an end portion of the frame extends to the side of the plasma display panel, and the frame is formed parallel to the driving unit.

The film type device may be any one of a chip on film (COF) or a tape carrier package (TCP).

According to a feature of the present invention, unlike the conventional plasma display panel and the structure in which the driver is located on the upper surface of the panel, the plasma display device structure of the present invention is attached to the side of the plasma display panel. As a result, the thickness of the plasma display device is reduced, and the manufacturing cost can be reduced by shortening the length of the film element connected to apply the signal of the driving unit to the plasma display panel.

Hereinafter, with reference to the accompanying drawings, a specific embodiment according to the present invention will be described.

4 is a bottom perspective view schematically illustrating a bottom portion of a plasma display device according to an exemplary embodiment of the present invention.

As shown in FIG. 4, when looking at the lower end of the plasma display device, a film type element 410 is connected to an electrode pad of the plasma display panel 430 to apply a signal from the driver 460. At this time, the data board of the driving unit 460 is attached to the upper surface of the end of the frame 400 formed extending to the side of the plasma display panel 430, the film type element 410 to the connector 411 formed on the driving unit 460 One end of) is connected, and the multi-tank is connected to the electrode pad where the data electrode is exposed to the outside.

Here, the frame 400 extending to the side of the plasma display panel 430 is bent to the side of the panel, the driving unit 460 is attached to the bent upper surface.

A plasma display device having such a structure will be described in more detail with reference to FIG. 5.

5 is a side cross-sectional view of main parts of a lower portion of a plasma display device according to an exemplary embodiment of the present invention.

As shown in FIG. 5, a plasma display panel 430, a frame 400, a driver 460, and a film type device 410 are provided at a lower end of the plasma display device according to the exemplary embodiment. .

The plasma display panel 430 includes a front substrate 431 in which a plurality of sustain electrode pairs formed by pairing a scan electrode and a sustain electrode is arranged, and a rear substrate 432 in which a plurality of address electrodes are arranged so as to cross the plurality of sustain electrode pairs. Is made by coalescence.

The frame 400 supports the plasma display panel 430 on the front surface, and an end thereof is bent to extend to the side of the plasma display panel 430, and the driving unit is formed by using a plurality of bosses 450 on the bent end surface. 460 is fastened.

In addition, heat is generated when the driving unit 460 of the plasma display panel 430 is driven, and thus, the bent end surface thereof is equal to or larger than the size of the driving unit 460 provided on the side surface of the plasma display panel 430. It is formed to be parallel to the driving unit 460.

The driver 460 includes a PCB to drive and control the plasma display panel 430, and is mounted on the bent end surface of the frame 400 through the boss 450. Here, the driver 460 mounted on the curved surface of the frame 400 is a data driver, and the data driver is eventually formed on the side of the plasma display panel 430.

One end of the film type device 410 is connected to the data board of the driving unit 460 through the connector 411, and the other end is connected to the electrode pad of the plasma display panel 430 exposed to the outside of the data electrode. As a result, the signal output from the data board is applied to the data electrode line 412. The film type element 410 generates a lot of heat in the direct element IC when the driving unit 460 is driven.

The film type device 410 according to an embodiment of the present invention is made of any one of a Chip on Film (COF) or a Tape Carrier Package (TCP) having wiring for connection.

In addition, in an embodiment of the present invention, at least one film type device 410 is connected to the driving unit 460 to apply a signal to the data electrode line 412.

At this time, the film type device 410 is connected to the connector 411 of the driving unit 460 provided on the side of the plasma display panel 430 to apply a signal to the plasma display panel 430 unlike the conventional method. Since the length of the 410 can be short, the manufacturing process can be facilitated and the manufacturing cost can be reduced.

In addition, since the driver 460 is provided on the side of the plasma display panel 430, the overall thickness of the plasma display device may be thinner than that of the driver 460 installed on the rear surface of the conventional plasma display panel 430.

As such, the technical configuration of the present invention described above can be understood by those skilled in the art that the present invention can be implemented in other specific forms without changing the technical spirit or essential features of the present invention.

Therefore, the above-described embodiments are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the appended claims rather than the detailed description, and the meaning and scope of the claims and All changes or modifications derived from the equivalent concept should be interpreted as being included in the scope of the present invention.

As described above, the present invention can make the thickness of the plasma display device thin by changing the position of the driver of the plasma display device.

In addition, the manufacturing cost can be reduced by improving the structure of the plasma display device, and the manufacturing process can be simplified.

Claims (5)

A frame supporting the plasma display panel; A driving unit attached to the frame to apply a driving signal to the plasma display panel; A film type device connecting the plasma display panel and the driving unit;  And the end portion of the frame extends to the side surface of the plasma display panel, and the driving portion is attached to an end portion of the frame on the side surface of the plasma display panel. The method of claim 1, And the driver is a data driver. delete The method of claim 1, And an end portion of the frame parallel to the driving unit. The method of claim 1, The film type device may be any one of a chip on film (COF) or a tape carrier package (TCP).

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