JPS6347009Y2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION This invention relates to a plasma display panel, and particularly to an improvement in display condition by anti-reflection treatment on the surface of the plasma display panel.

Generally, in a plasma display panel, the display is difficult to see if there is a significant difference in hue between the display electrode portion and other portions, or between lit portions and non-lit portions within the display electrode portion. Further, there was a drawback that external incident light was reflected on the display side glass surface, making the display difficult to see.

Conventionally, in order to avoid these drawbacks, methods have been used to roughen the display side glass surface of the display board by means such as liquid honing, and then spray paint it in the same hue as the display color. A method has been used to apply a filter that has a hue of . In the first method, since the distance between the light emitter and the outer surface of the display is close, there is less scattering of light from inside the plasma display panel due to the anti-reflection surface, and a plasma display panel with a high anti-reflection effect and display quality can be obtained. It will be done. However, due to the non-uniformity of liquid honing and spray painting, even if the emission brightness of a plasma display is constant, the brightness changes depending on the thickness of the paint layer. Particularly, when a plurality of plasma display panels are used in the same display system, there is a drawback that unevenness in brightness occurs due to unevenness in the thickness of the paint layer.

In the second method, it is extremely easy to adjust the film thickness and color tone, and although a uniform result can be obtained, the display may become blurred due to the effect of the thickness of the filter, or the surface of the display board may be removed as maintenance work. In addition to cleaning, it is necessary to clean both sides of the filter, which has the disadvantage of increasing maintenance costs.

The present invention has the advantages of both of the above, brings the distance between the light emitting body and the outer surface of the display closer, reduces blurring of the display on the non-reflective surface, and provides a non-reflective film with a standardized density. The object of the present invention is to provide a plasma display panel in which the transmittance from the light emitter on the plasma display surface is made constant by using a shaped sheet.

According to the present invention, in a plasma display panel in which a plurality of electrode substrates are hermetically sealed facing each other so as to form a discharge cell, and a dischargeable gas is sealed inside, the outer surface of the panel has a thickness of 30 to 100 μm. A plasma display panel is obtained, in which a film-like sheet is attached to the entire surface of the film-like sheet via an adhesive.

Next, the contents of the present invention will be explained in detail using examples. FIG. 1 is a sectional view of an AC type plasma display to which a film-like sheet is attached via an adhesive. The display-side electrode plate 1 is constructed by forming a transparent electrode 12 in a predetermined shape on the smooth surface of a 2 mm thick transparent glass plate 11, and then covering the electrode with a dielectric layer 13, and then discharging the electrode with a gap of about 0.2 mm. Fritted glass 4 was formed by screen printing to form space 3. The counter electrode plate 2 is
An electrode 22 made of silver paste was formed on the flat surface of a 2 mm thick transparent glass plate 21, and then a dielectric 23 was formed in the same manner as in the case of the display side electrode plate 1.

Next, combine the display side electrode 1 and the counter electrode 2,
After hermetically sealing, the Ne gas is evacuated to 1×10 ^-5 Torr or less through an exhaust pipe (not shown).
The exhaust pipe was sealed off by introducing it until the pressure reached 400Torr. Finally, on the outer surface of the display-side electrode plate 1, fine particle pigments are mixed with a resin solution mainly composed of polyurethane resin and vinyl chloride resin to create a translucent and non-reflective effect, as well as a color tone and a masking effect (except for the light-emitting part). Approximately 50μ film thickness (effect that makes areas difficult to see)
A plasma display was completed by pasting the film-like sheet 5 through a pressure-sensitive adhesive 6 with a thickness of about 25 μm using a surfactant.

When the resulting plasma display panel was actually turned on, there was no surface reflection, and the entire display surface had excellent contrast with the discharge color of Ne gas.The thickness of the film-like sheet was extremely thin at 30 to 100μ. , there is no blurring of the display, and there is little variation in brightness even when using a multiple display system.
Even when the display is not displayed, there is no variation in the color of each plasma display panel, making it possible to create an excellent display system.

In the embodiment of the present invention, the film-like sheet and the pressure-sensitive adhesive are integrated into a coating material, and the surface of the film is roughened when the film-like sheet is produced.
It has been subjected to anti-reflection treatment and can be easily attached to a glass plate on the surface of a plasma display panel, and brightness can be easily adjusted by changing the thickness of the film-like sheet. Furthermore, it has ethyl alcohol resistance, assuming that if the surface of the film-like sheet becomes dirty in the surrounding atmosphere, it will be cleaned with ethyl alcohol. In addition, by selecting the coating color, a plasma display panel can be obtained which has both an excellent display effect with a high contrast ratio and a masking effect.

[Brief explanation of the drawing]

FIG. 1 is a sectional view showing an embodiment of the present invention. 1...Display side electrode plate, 2...Counter electrode plate, 3...
...Discharge space, 4...Flit glass, 5...Film-like sheet, 6...Pressure sensitive adhesive, 11, 21...
...Transparent glass plate, 12,22...Electrode, 13,2
3...Dielectric layer.

Claims (1)

[Scope of utility model registration request] In a plasma display panel in which a plurality of electrode substrates are hermetically sealed facing each other so as to form discharge cells, and a dischargeable gas is sealed inside,
30~ The outer surface of the panel has a color tone and masking effect by mixing fine particle pigments, and the surface is roughened.
A plasma display panel characterized by having a 100μ thick film-like sheet.