KR100529072B1 - Plasma display panel having dummy address electrode - Google Patents

Abstract

In order to prevent the discharge of the wall charges accumulated on the non-display area in order to prevent mis-discharge due to this, a vacuum container is formed of substrates arranged substantially parallel at random intervals, and the vacuum container is formed on the vacuum container. In a plasma display panel in which a display area and a non-display area are set in a plurality of dummy address electrodes on the non-display area, the dummy address electrodes are formed in a stripe pattern having an arbitrary width, and the dummy The present invention provides a plasma display panel including a terminal portion which is electrically grounded while contacting an area where the address electrodes are connected to each other, wherein the width of the terminal portion is wider than that of the dummy address electrode.

Description

Plasma display panel having dummy address electrode {PLASMA DISPLAY PANEL HAVING DUMMY ADDRESS ELECTRODE}

The present invention relates to a plasma display panel, and more particularly, to a plasma display panel in which a dummy address electrode is formed on a non-display area.

In recent years, the plasma display panel, which is in the spotlight with a large screen image display device such as a flat wall-mounted television, is well known and implements an arbitrary image according to a discharge mechanism occurring in a discharge cell.

In the conventional structure of the plasma display panel, barrier ribs for forming discharge cells are disposed between substrates disposed to face each other at arbitrary intervals, and among the substrates, on a substrate (usually, a back substrate) on which the barrier ribs are formed. An address electrode is formed in the structure, and on the other substrate (front substrate), a discharge sustain electrode is arranged in a direction orthogonal to the address electrode.

In the above, the address electrode and the discharge sustaining electrode including the partition wall are formed in the display area as well as the non-display area of the plasma display panel, which is a component of the plasma display panel formed on the display area, that is, the dielectric layer, and the protection electrode. The reason is that the layer, the address electrode, the partition wall, and the phosphor are formed to have a stable thickness in the display area.

By the way, when the plasma display panel forms a dummy address electrode on the non-display area, unwanted discharge may occur in the non-display area to deteriorate the image quality displayed on the display area.

The misdischarge in the dummy discharge cell occurs as the charge generated in the discharge cell on the display area proximate to the non-display area is moved beyond the partition of the discharge cell to the dummy discharge cell on the non-display area and accumulated in the partition of the dummy discharge cell. It is known.

In order to prevent such a problem, conventionally, a plurality of dummy address electrodes are formed on the non-display area, and the dummy address electrodes are grounded so that the wall charge accumulated in the mother discharge cells is grounded by the dummy address electrodes which are grounded. It can be leaked out. Prior art in this regard is Japanese Patent Laid-Open No. 11-296139.

Meanwhile, referring to a structure in which the dummy address electrodes are grounded in the related art, when the dummy address electrodes are arranged at random intervals in the non-display area of the plasma display panel, one end of the dummy address electrodes is connected to one, and The terminal portion electrically connected to the chassis base of the plasma display apparatus, that is, the metal support on which the plasma display panel and the driving circuit unit are mounted is connected to the connected portion. In this case, each of the address electrodes typically maintains a stripe pattern having the same width, and the ground portion is formed to have the same width as the one address electrode.

However, in such a ground structure of the dummy address electrode, since the one dummy address electrode and the ground portion are formed to have the same width, when the plasma display panel is substantially operated, the dummy address electrode is guided out of the plasma display panel through the plurality of dummy address electrodes. Wall charges do not flow smoothly through the above-described ground portion has a problem of lowering the grounding efficiency.

Accordingly, in the conventional plasma display panel, wall charges generated in the non-display area may not be removed in a good state, and unwanted discharge may occur, which may be adversely affected.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and an object of the present invention is to provide a plasma display panel capable of smoothly removing wall charges generated in a non-display area and preventing mis-discharge caused by the wall charges.

The plasma display panel according to the present invention,

A vacuum container is formed of substrates arranged substantially parallel to each other at random intervals, and a plurality of dummy address electrodes are disposed on the non-display area while setting a display area and a non-display area on the vacuum container. In this case, the dummy address electrodes are formed in a stripe pattern having an arbitrary width, and a portion of the dummy address electrodes connected to each other is in contact with a terminal portion to be electrically grounded, where the width of the terminal portion is the dummy address electrode. It is made wider than its width.

In the above, the terminal portion may be formed in a tubular shape or may have a hole having an arbitrary size therein.

Further, according to the present invention, both ends of the connection portion of the dummy address electrodes may be rounded.

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

1 is a partially exploded perspective view illustrating a plasma display panel according to an exemplary embodiment of the present invention. As shown, the plasma display comprises two transparent first substrates 20 and second substrates 22 arranged substantially parallel to each other at arbitrary intervals to form a vacuum vessel, that is, between the substrates, The vacuum container has a configuration capable of realizing an image by a discharge mechanism.

Looking at the configuration thereof in detail, first, the stripe-shaped address electrodes 26 covered with a transparent dielectric layer 24 are disposed on one surface of the first substrate 20 facing the second substrate 22 at random intervals. The plurality is formed in parallel with each other.

In addition, one surface of the second substrate 22 facing the first substrate 20 may be disposed to be orthogonal to the address electrodes 26 and be covered with a stripe pattern of discharge sustaining electrodes 28. The plurality of discharge electrodes 30 are formed in parallel with each other, and the discharge sustaining electrodes 30 are formed of a transparent material such as ITO.

In addition, a transparent protective film 32 made of MgO or the like is formed on the dielectric layer 28 of the second substrate 22, and the address electrode is formed between the first substrate 20 and the second substrate 22. A plurality of partitions 34 are provided in parallel with the electrodes 26 and positioned between these address electrodes 26. The partitions 34 form a space formed therebetween as the discharge space 36, and discharge gas (not shown) is injected into the discharge space 36, and the side surfaces of the partition walls 34 and On the upper surface of the dielectric layer 24 of the first substrate 20, a fluorescent layer 38 composed of R, G, and B phosphors is formed.

In addition, in the plasma display panel, the partition wall 34 and the address electrode 26 formed on the display area 40 on the non-display area 42 in addition to the display area 40 formed on the plasma display panel. ), A plurality of dummy partition walls 44 and dummy address electrodes 46 are formed in order to be able to be formed satisfactorily according to the manufacturing process.

In this case, the dummy partition wall 44 and the dummy address electrode 46 may be formed in a stripe pattern corresponding to the shapes of the partition wall 44 and the address electrode 26 formed on the display area 40. In this case, the dummy address electrodes 46 may be grounded while being connected in one body to prevent erroneous discharges occurring on the non-display area 42. For this grounding process, the dummy address electrodes 46 are connected in one body through a connecting portion 48 formed at one side thereof, and the connecting portion 48 is electrically connected to a chassis base on which the plasma display panel is mounted. The terminal portion 50 to be connected is in contact.

On the other hand, the present invention is characterized by the following contents in the above-described ground structure. That is, the dummy address electrodes 46 are formed to have any same width w1 (where the width w1 is equal to the width of the address electrode disposed on the display area), and the terminal portion 50 is provided. Is formed to have a width w2 wider than the width w1 of the dummy address electrode 46.

In this case, as shown in FIG. 1, the terminal part 50 may be formed in a shape, and in some cases, as shown in FIG. 3, the terminal part 50 may be formed while arranging holes 50a having arbitrary sizes therein. Can be. Of course, the overall width of the terminal portion 50 shown in FIG. 3 is also wider than the width of the one dummy address electrode 46.

Accordingly, the plasma display panel configured as described above effectively removes wall charges formed in the non-display area 42 by the configuration of the terminal portion 50 so as to effectively remove the wall display area 42. In this case, it is possible to prevent erroneous discharges that may occur in the case where the terminal portion 50 is formed to have a width wider than that of the one dummy address electrode 46. When the wall charges formed on the non-display area 42 are guided out of the plasma display panel through the plurality of dummy address electrodes 46, the flow of the wall charges may be smoothly prevented from being blocked at the terminal 50. Because it can.

Meanwhile, in the present invention, the connection portion 48 of the dummy address electrode 46 may be formed by rounding both ends thereof, as shown in FIGS. 4 and 5. The round shape of the connection part 48 is, for example, silver (Ag) to form the connection part 48 and the terminal part 50 including the dummy address electrodes 46 during the substantially manufacturing process of the plasma display panel. This is to prevent the so-called edge curl phenomenon formed by rolling the corner of the connection portion 48 in the process of applying the paste and firing it.

That is, when the edges of the connection portions are formed at an angle, the dielectric layer may damage or partially cover the connection portions 48, that is, the dummy address electrodes 46, due to the edge curl phenomenon. The sharply formed connecting portion 48 may be damaged at both end portions. If both ends of the connecting portion 48 are rounded as described above, damage to the dummy address electrode and the dielectric layer due to the edge curl phenomenon may occur. It can be prevented in advance.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications and changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. Naturally, it belongs to the scope of the invention.

As described above, the plasma display panel according to the present invention prevents erroneous discharges occurring in the non-display area according to the improved grounding structure of the dummy address electrode, thereby improving the product quality.

1 is a partially exploded perspective view illustrating a plasma display panel according to an exemplary embodiment of the present invention.

2 is a plan view illustrating a plasma display panel according to an exemplary embodiment of the present invention.

3 is a schematic diagram illustrating a terminal unit of a dummy address electrode according to another exemplary embodiment of the present invention.

4 and 5 are schematic views illustrating a connection portion of a dummy address electrode according to another exemplary embodiment of the present invention.

Claims (4)

Forming a vacuum container with substrates arranged substantially parallel to each other at random intervals, setting a display area and a non-display area on the vacuum container, and arranging a plurality of dummy address electrodes on the non-display area; In the plasma display panel, The dummy address electrodes are formed in a stripe pattern having an arbitrary width, And a terminal part electrically grounded while contacting the dummy address electrodes connected to each other. And the width of the terminal portion is wider than the width of the dummy address electrode. The method of claim 1, And the terminal portion is formed in a shape. The method of claim 1, And a hole having an arbitrary size in the terminal unit. The method of claim 1, And both ends of the connection part of the dummy address electrodes are rounded.