Electrode plate and manufacturing method for the same, and...

Electric lamp and discharge devices – With gas or vapor – Three or more electrode discharge device

Reexamination Certificate

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Details

C313S585000, C313S587000, C313S495000, C445S024000

Reexamination Certificate

active

06603262

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to an electrode plate and its manufacturing method, and a gas discharge panel having an electrode plate and its manufacturing method.
2. Related Art
An electrode plate, in which electrodes are formed by laminating transparent electrodes made of indium tin oxide (ITO) or the like and bus lines made of metal (Ag or Cr—Cu—Cr) or the like on a surface of a plate such as a glass plate, is being used in a number of applications such as a front panel having display electrodes in a gas discharge panel.
A gas discharge panel, typified by a plasma display panel (PDP), is a type of flat display panel (FDP) that lends itself to use in a large-screen device. 50-inch class devices have already been commercialized using PDPs.
In a PDP, two thin glass plates (front panel glass and back panel glass) are placed in opposition to each other, with barrier ribs being interposed in between. Phosphor layers are formed in the gaps between neighboring barrier ribs. Discharge gas is filled in the discharge spaces present between the two glass plates, and the two glass plates are sealed together so as to be airtight. A plurality of pairs of display electrodes are disposed on the surface of the front panel glass facing the phosphor layers. By initiating discharge of gas in each of the discharge spaces, ultraviolet light is produced.
FIG. 8A
is a perspective view showing an example electrode plate that includes a front panel glass
21
and a pair of display electrodes
22
and
23
disposed on the front panel glass
21
.
FIG. 8B
is a top view of the pair of display electrodes
22
and
23
, looking down in a direction z. As illustrated, the display electrodes
22
and
23
are each extending in such a direction (i.e. direction y) as to intersect with barrier ribs
30
. These display electrodes
22
and
23
are made up of transparent electrodes
220
and
230
which are strip-shaped ITO films, and bus lines (bus electrodes)
221
and
231
of Ag having high conductivity which are deposited respectively on the transparent electrodes
220
and
230
. The areas between neighboring barrier ribs
30
are cells
340
, in which phosphor layers (not illustrated) in each of the three colors red (R), green (G), and blue (B) are formed. In the cells
340
, ultraviolet light produced between the display electrodes
22
and
23
collides with and excites the phosphor layers, as a result of which visible light is emitted and put to use in screen display. In ordinary PDPs, a plurality of cells such as the cells
340
are aligned for a plurality of pairs of display electrodes such as the pair of display electrodes
22
and
23
, thereby forming a matrix.
Here, the display electrode
22
(
23
) is formed by applying a paste containing a conductive material, an organic material, and a glass substance to the surface of the front panel glass
21
(the surface of the transparent electrode
220
(
230
) in the case of the bus line
221
(
231
)) in a predetermined pattern by screen printing (a thin film or thick film formation method), and then firing the result.
However, when the display electrode
22
(
23
) is formed on the front panel glass
21
according to this manufacturing method, the display electrode
22
(
23
) may become misaligned or part of the display electrode
22
(
23
) (such as the bus line
221
(
231
)) may peel away from the surface to which it has been adhered. These problems arise due to the following main reasons.
First, the adhesion between the transparent electrode
220
(
230
) or the bus line
221
(
231
) and the surface to which it is adhered (i.e. the surface of the front panel glass
21
or the surface of the transparent electrode
220
(
230
)) depends on an affinity at an interface between the two members. If the affinity is insufficient, the adhesion between them is not strong. Accordingly, when the display electrode
22
(
23
) suffers vibrations created during the process of firing the bus line material or during transportation in the subsequent process of forming a dielectric layer over the formed display electrode
22
(
23
), the above problems are likely to occur.
Second, the display electrode
22
(
23
) is formed by firing a paste including a conductive material, an organic material, and a glass substance, as noted earlier. In this firing process, the organic material is destroyed, which causes the display electrodes
22
(
23
) to slightly shrink in volume. Since this destruction of the organic material occurs gradually from the surface of the paste, the transparent electrode
220
(
230
) or the bus line
221
(
231
) is acted upon by stress that induces warping (deformation stress), and as a result becomes prone to peel away from the surface to which it is adhered. In particular, the outermost end of the bus line
221
(
231
) in the direction in which it extends (the direction y in
FIG. 8
) tends to peel away from the surface of the transparent electrode
220
(
230
). The inventors of this patent application have found that such phenomenon is frequently observed when the bus line
221
(
231
) contains Ag.
These problems may arise even if a method other than screen printing, such as sputtering, is employed in the formation of the bus line
221
(
231
). In the sputtering method, due to factors such as the internal atmospheric pressure and the plate temperature (the temperature of the front panel glass
21
) during sputtering, stress acts on a film of bus line material which is being developed. The developed film is then etched using photolithography or the like to form the bus line
221
(
231
). During this etching, the film tends to become misaligned or peel away from the transparent electrode
220
(
230
), due to the above stress.
Similar problems are seen in electrode plates of other flat panel display (FPD) technologies (e.g. a front panel glass having display electrodes in a liquid crystal display). Immediate solutions to these problems are crucial for the development of efficient FPDs.
SUMMARY OF THE INVENTION
The present invention aims to provide an electrode plate, its manufacturing method, a gas discharge panel using an electrode plate, and its manufacturing method, by incorporating a relatively simple structure which can prevent peeling or misalignment of electrodes formed on a plate.
The stated object can be fulfilled by an electrode plate for use in a flat panel display, including a plate and at least one electrode which is formed and adhered to at least one main surface of the plate using a thin film formation method or a thick film formation method, wherein, of an end area of the electrode at a power supply point and an end area of the electrode opposite to the end area at the power supply point, at least the opposite end area of the electrode is adhered to the main surface of the plate with stronger adhesion than other areas of the electrode.
With this construction, of the two ends of the electrode, at least the end opposite to the end at the power supply point is firmly bonded to the main surface of the plate. As a result, the electrode is kept from warping and peeling away from the plate, or becoming displaced from a predetermined position on the plate.
Here, an adhesive may be used to strengthen the adhesion between at least the opposite end of the electrode and the main surface of the plate. Also, one or more surface treatments such as sandblasting, ultraviolet irradiation, or plasma irradiation may be conducted on part of the main surface of the plate to which at least the opposite end of the electrode is to be adhered, to strengthen the adhesion.
Here, a glass plate is easy to get, and therefore desirable for use as the plate. The glass plate may be coated with a film of silicon oxide or nitrogen oxide.
The electrode plate of the invention may be used in a gas discharge panel, as a front panel glass on which a plurality of pairs of display electrodes are formed.
The stated object can also be fulfilled by a gas discharge panel equipped with the above front panel glass ha

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