KR100442280B1 - Plasma Display Panel - Google Patents

Abstract

The present invention relates to a plasma display panel, comprising: an upper and lower substrates coupled in parallel while maintaining a constant distance, a stripe-type partition wall disposed on an upper surface of the lower substrate and separating neighboring cells in one direction, and the upper surface A sustain electrode disposed below the substrate and formed perpendicularly to the stripe line of the barrier rib, first and second dielectric layers formed by baking at least two layers with respect to the top surface of the upper substrate such that the sustain electrode is embedded; The black matrix layer is formed on the portion overlapping the lower partition wall between the electrodes and is separated from neighboring cells in a direction perpendicular to the one direction in which the partition wall is formed. To prevent cross talk between cells by eliminating gaps between bottom plates Will.

Description

Plasma Display Panel

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to flat panel display devices, and more particularly, to a plasma display panel for preventing crosstalk between cells.

In general, a PDP is a light emitting device that displays an image by using an internal gas discharge phenomenon, and there is no need to mount an active device for each cell, so the manufacturing process is simple, the screen size is large, and the response speed is high. It is fast and is used for the use of the direct view type image display apparatus which has a large screen.

In addition, the PDP is in the spotlight in a large (40 to 60 inch) display element region, in which two glass substrates are sealed by frit glass, and a gas inside the sealed structure has a pressure of 100 to 600 Torr. Filled to cause a gas discharge.

That is, the image display unit of the panel forms a plurality of pixels (cells) separated by barrier ribs and light blocking layers at intersections between a plurality of electrodes. During driving, a voltage of 100 Volts or more is applied between the intersecting electrodes. Glow discharge to display an image using the bladder at that time. The panel unit configured as described above is combined with the driving unit to serve as one display element.

Hereinafter, a plasma display panel according to the related art will be described with reference to the accompanying drawings.

1 is a plan view of a plasma display panel according to the prior art, and FIG. 2 is a cross-sectional view of the panel in the A-A direction of FIG. 1.

The lower substrate 11 has a plurality of discharge spaces, that is, a partition 13 which separates the cells from the cells, and an address electrode which is formed in a direction parallel to the partition 11 and generates address ultraviolet rays by performing address discharge. (12), a fluorescent layer (not shown) formed on both of the partition walls 13 and the lower substrate surface 11 of each discharge cell inner surface to emit visible light for image display during address discharge; It is formed of a reflective layer 19 for reflecting the visible light generated from the layer toward the rear direction back to the front direction to improve the luminance characteristic.

At this time, in order to improve the contrast ratio, the upper portion of the partition 13 is made of a low melting glass layer 20 having a dark color.

In addition, the upper substrate 14 includes two sustain electrodes 15 formed in a pair perpendicular to the lengthwise direction of the partition wall 13 in pairs for mutual discharge in one pixel, and the sustain electrodes 15. A first dielectric layer 16 formed on the upper substrate 11 including the first dielectric layer 16 to limit the discharge current between the sustain electrodes 15 and to insulate the pair of electrodes, and formed in parallel between the sustain electrodes 15. A second dielectric layer formed on the black matrix layer 17 which serves as light blocking to distinguish between cells, and the first dielectric layer 16 including the black matrix layer 17. 18).

Here, the first and second dielectric layers 16 and 18 are formed of different kinds of dielectric pastes, and the first dielectric layer 16 is intended to have a high breakdown voltage, and the second dielectric layer 18 has a transmittance of visible light. To increase.

Such a conventional plasma display panel has a dielectric material in a portion of the dielectric 16 and 18 where the black matrix layer 17 is formed and the region where the black matrix layer 17 is not formed due to the thickness of the black matrix layer 17. 16) (18) a step of 5 to 10㎛ occurs between the parts, which causes the gap between the upper substrate and the lower substrate as shown in the ㉮ part of FIG. Gap) is formed.

However, in the conventional plasma display panel as described above, a gap exists between the lower substrate and the upper substrate, so that charges are transferred to other cells during priming particles or discharge into the other cells, thereby causing cross talk, that is, mis-discharge between cells. have.

Disclosure of Invention The present invention has been made to solve the above problems, and has an object of the present invention to provide a plasma display panel which can reduce cross talk between cells by removing gaps generated between upper and lower plates after bonding.

1 is a plan view of a plasma display panel according to the prior art

2 is a cross-sectional view of the panel in the A-A direction of FIG.

3 is a plan view of a plasma display panel according to an embodiment of the present invention;

4 is a cross-sectional view of the panel in the B-B direction of FIG.

5 is a cross-sectional view of the panel in the C-C direction of FIG.

Explanation of symbols for the main parts of drawings

21: lower substrate 22: address electrode

23: partition 24: upper substrate

25 sustain electrode 26 first dielectric layer

27 black matrix layer 28 second dielectric layer

29: reflective layer 30: low melting glass layer

Plasma display panel according to the present invention for achieving the above object is a stripe type for separating the upper and lower substrates coupled in parallel while maintaining a constant interval, and the neighboring cells in one direction and installed on the upper surface of the lower substrate. A partition wall, a sustain electrode disposed below the upper substrate and formed perpendicularly to the stripe line of the partition wall, and in one direction in which the partition wall is formed without being formed in a portion overlapping the lower partition wall between the sustain electrodes. And a black matrix layer separating the neighboring cells in a vertical direction, and first and second dielectric layers formed by baking at least two layers with respect to the upper surface of the upper substrate so that the sustain electrode is embedded.

Hereinafter, a plasma display panel according to the present invention will be described with reference to the accompanying drawings.

3 is a plan view of a plasma display panel according to an exemplary embodiment of the present invention, FIG. 4 is a cross-sectional view of the panel in the B-B direction of FIG. 3, and FIG. 5 is a cross-sectional view of the panel in the C-C direction of FIG. 3.

Plasma display panel according to the present invention to prevent the mis-discharge without reducing the contrast ratio by eliminating the gap between the upper plate and the lower plate by forming a black matrix at the portion where the partition and the black matrix meets when manufacturing the upper substrate In more detail as follows.

The lower substrate 21 has a plurality of discharge spaces, that is, a partition wall 23 that separates the cells from the cells, and an address electrode that is formed in a direction parallel to the partition wall 23 to generate an address ultraviolet ray by performing address discharge. (22), a fluorescent layer (not shown) formed on both of the partition walls 23 and the lower substrate surface 21 of each discharge cell inner surface to emit visible light for image display during address discharge; It is formed of a reflective layer 29 for reflecting the visible light generated from the layer toward the back direction to the front direction to improve the luminance characteristic.

At this time, in order to improve the contrast ratio, the upper part of the partition 23 is made of a low melting glass layer 30 having a dark color.

In addition, the upper substrate 24 includes a pair of sustain electrodes 25 formed in a direction perpendicular to the longitudinal direction of the partition wall 23 in a pair of pixels, that is, for mutual discharge in a cell, and the sustain electrode ( A first dielectric layer 26 formed on the first dielectric layer 26 and a first dielectric layer 26 formed on the upper substrate 21 to limit the discharge current between the sustain electrodes 25 and to insulate the electrode pairs. The barrier rib 23 is formed between the dielectric layer 28 and the sustain electrode 25 in a stripe shape parallel to the sustain electrode 25, but does not overlap the lower partition wall 23 after bonding with the lower substrate 24. ) And a black matrix layer 27 not formed in the region corresponding to) and a protective film formed on the entire surface of the upper substrate 24, although not shown in the drawing.

That is, as shown in FIGS. 4 and 5, since the black matrix layer 27 is not formed on the partition 23 after the panel is bonded, the partition 23 and the portion having the concave structure fit together. The gap does not occur after the upper substrate 24 and the lower substrate 21 are bonded together.

The black matrix layer 27 is formed on the same layer as the sustain electrode 25, that is, on the upper substrate 21, between the first and second dielectric layers 26 and 28, or the first matrix. 2 is formed on dielectric layer 28.

In addition, the black matrix layer 27 serves to block light between cells, and even if the black matrix layer 27 is not formed in the region in which the partition walls 23 are formed, the contrast matrix is not formed. And no degradation in performance occurs.

Since the plasma display panel of the present invention does not form a black matrix at a portion corresponding to the partition wall, the gap between the upper plate and the lower plate can be prevented without reducing the contrast ratio, thereby preventing mis-discharge between cells.

Claims (5)

Upper and lower substrates coupled in parallel while maintaining a constant distance, A stripe-type partition wall disposed on the upper surface of the lower surface and separating neighboring cells in one direction; A storage electrode disposed below the upper substrate and vertically formed with respect to the stripe line of the partition wall; First and second dielectric layers formed by baking at least two layers with respect to an upper surface of the upper substrate such that the sustain electrode is buried; And a black matrix layer for separating adjacent cells in a direction perpendicular to one direction in which the partition wall is formed, without being formed in a portion overlapping a lower partition wall between the sustain electrodes. The plasma display panel of claim 1, wherein the black matrix layer is disposed between the upper substrate and the first dielectric layer which are flush with the sustain electrode. The plasma display panel of claim 1, wherein the black matrix layer is disposed between the first dielectric layer and the second dielectric layer. The plasma display panel of claim 1, wherein the black matrix layer is disposed on the second dielectric layer. delete