EP0004549A1 - Gas discharge display panel - Google Patents

Abstract

In a gas discharge display panel for displaying, for example, television pictures, a large number of gas-filled discharge channels (26) are enclosed between mutually crossing electrode arrangements (23, 28; 24, 25). The discharge channels (26) are configured as recesses in a plate (30) consisting of dielectric material. The recesses are folded in a meandering shape for the purpose of increasing the light output by increasing the length of the discharge channels (26). <IMAGE>

Description

The present invention relates to a gas discharge display screen with discharge channels located between cross-grid-shaped electrode arrangements, the length of which is determined by the shape of recesses in a plate made of insulating material located between the electrode arrangements.

Gas discharge display screens enable the display of images and symbols in the display technology.

A gas discharge display screen according to the preamble of claim 1 is known (magazine: IEEE Transactions on Electron Devices, Vol. ED 24, No. 7, July 1977, pages 884 to 890), in which the discharge channels either lie in a perforated plate perpendicular to the plate surface or are arranged parallel to the plate surface. It is also known from this to cover the inner walls of the discharge channels with a phosphor layer in order to increase the luminous efficiency and to achieve a desired color for the gas discharge.

In the case of such a gas discharge screen, the length of the discharge channels is limited on the one hand by the thickness of the laughing plate. On the other hand, a certain grid dimension cannot be maintained in the discharge channels running parallel to the plate surface; moreover, it is difficult to produce a large number of such discharge channels, approximately 500,000 pieces per gas discharge display screen, precisely and inexpensively.

The present invention is based on the object of specifying an improved gas discharge screen of the type mentioned at the outset, which is easier to produce and allows an improved luminous efficiency to be achieved.

According to the invention it is proposed that the recesses in the plate are made of insulating material as meandering openings.

Due to the inventive design of the breakthroughs, e.g. use a photo-etching technique, as these breakthroughs go through the insulating plate.

Such insulating plates can preferably be produced from phototropic crystallizable glasses, which can be very thin (e.g. 0.5 mm).

• Figur 1 in perspektivischer Darstellung einen Teilausschnitt aus einem bekannten Gasentladungsanzeigeschirm, bei dem die Entladungskanäle senkrecht zur Plattenfläche verlaufend angeordnet sind;
• Figur 2 in perspektivischer Darstellung einen Teilausschnitt aus einem erfindungsgemäßen Gasentladungsanzeigeschirm mit als mäanderförmig gefaltete Durchbrüche ausgebildeten Entladungskanälen;
• Figur 3 bis Figur 5 weitere Ausführungsbeispiele von mäanderförmig ausgebildeten Entladungskanälen bei dem erfindungsgemäßen Gasentladungsanzeigeschirm.

The invention is explained in more detail below with the aid of the drawing. It shows

• Figure 1 is a perspective view of a partial section of a known gas discharge display screen, in which the discharge channels are arranged perpendicular to the plate surface;
• FIG. 2 shows a perspective view of a partial section from a gas discharge display screen according to the invention with discharge channels designed as meandering fold-out openings;
• 3 to 5 show further exemplary embodiments of meandering discharge channels in the gas discharge display screen according to the invention.

1 shows a perspective view of a partial section from a known gas discharge display screen, in which the discharge channels are arranged perpendicular to the plate surface. The gas discharge screen consists of the two insulating cover plates 1 and 2, e.g. made of glass, the insulating plate 8 with the openings 6 and the electrode arrangements 3, 4 and 5. The main discharge path is formed between the electrode arrangements 3 and 5, the length of which is given by the thickness of the insulating plate 8. An auxiliary discharge path is formed between the electrode arrangements 4 and 5, with the aid of which the ignition of the main discharge path can be influenced through the holes in the electrode arrangement 5.

An essential requirement of a gas discharge screen for use as a flat screen for television is a sufficiently high level of efficiency with a sufficiently high luminance. An efficiency of 2 lm / W and an average luminance of approx. ₁₈ 0 cd / m ² required. These requirements cannot be met with a discharge screen using the negative glow light. To meet the requirements for efficiency and luminance, the positive pillar of gas discharge must therefore be used. The UV radiation generated in the positive column excites the luminescent materials of the primary colors green, red and blue that are introduced into the individual discharge channels and generates them in the form of a grid point. By controlling the individual color dots in a defined ratio, the different color tones and the color white can be achieved.

2 shows a gas discharge arrangement with a meandering folded positive discharge channel according to the invention. Between the two cover plates 21 and 22, of which at least the cover plate 21 consists of a transparent or translucent insulating material, there are a large number of adjacent main discharge channels which can be controlled individually. In this arrangement, too, an auxiliary discharge path is assigned to each main discharge path.

The main discharge channels are formed according to the invention by meandering openings 26 in the insulating plate 30. The discharge is caused between the electrodes 23 on the one hand and the electrodes 28 running perpendicular thereto, on the other hand.

The auxiliary discharge paths are formed in the discharge spaces 27 between the electrodes 24 and 25. The ignition of the main discharge channel 26 can be influenced via the coupling paths 29 in the insulating part 31, since there are openings in the electrodes 28, as shown.

On the inner walls of the main discharge channels 26 are prefers fluorescent materials attached in layers, which are stimulated by the radiation of the positive discharge column to glow in the visible spectrum.

With the arrangement according to the invention, long positive discharge channels can be achieved which have a sufficient grid dimension.

Since the ignition voltage increases with increasing length of the discharge channel, it is further proposed to apply metallized surfaces on the front anode disk 21 to facilitate ignition and to briefly ground these together.

In a particularly advantageous embodiment of the invention, the phosphor required for converting ultraviolet radiation into visible light is applied to the discharge channel side of the cover plate 21 by means of screen printing.

To further increase the efficiency, phosphor mixtures made of photo- and cathode-luninescent phosphorus are used and the entire inner surfaces of the discharge channels formed by the openings 26 are covered with them. Due to the diffusion of the carrier to the wall (= main carrier loss in the gas discharge), the light output is also generated from this power component.

3, 4, 5 and 6, further exemplary embodiments of discharge channels are shown, some of which are designed to have multiple meandering folds. FIG. 6 shows a shape in which the ends 63 and 64 of the discharge channel 65 are extended or kinked in order to obtain a more favorable position of the electrodes 62 and 61 which are perpendicular to one another.

Claims (5)

1. Gas discharge display screen with discharge channels located between cross-grid-shaped electrode arrangements, the length of which is determined by recesses in a plate between the electrode arrangements of insulating material, characterized in that the recesses in the plate (30) made of insulating material are formed as meandering openings (26) . 2. Gas discharge indicator screen. According to claim 1, characterized in that the plate (30) is made of insulating material from a phototropic, crystallizable glass and that the meandering openings (26) are introduced by means of a photo-etching process. 3. Gas discharge display screen according to claim 1 or claim 2, characterized in that each discharge channel formed from an opening (26) is associated with an auxiliary discharge path (27) which are in openings through openings in the electrodes (25) of the one electrode arrangement with the corresponding discharge channel in gas exchange . 4. Gas discharge display screen according to one of claims 1 to 3, characterized in that the length of the meandering folded openings (26) is substantially longer, in particular 5 to 10 times larger than the thickness of the plate (30) made of insulating material. 5. Gas discharge display screen according to one of claims 1 to 4, characterized in that an electrode (23, 62) of the one electrode arrangement at one end of the opening (26, 65) on one side of the insulating plate (30) and an electrode (28, 61) of the other electrode arrangement at the other end of the opening (26) on the other side of the insulating plate (30), the discharge taking place in this opening (26, 65) between these two electrodes (23, 28; 61, 62 ) trains.

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