RU2239908C1 - Gas panel - Google Patents

Abstract

FIELD: gas-discharge engineering; data display on ac gas panels.

SUBSTANCE: gas panel has contrast coating on transparent insulating layer applied to electrodes of front insulating plate. Contrast coating can be made of easy melting glass and ceramic pigment mixture, of gray color material, of pixel light color, of different colors used for ac gas panels, and its optical transmission coefficient can be 20 to 80%.

EFFECT: enhanced contrast of displayed information.

6 cl, 1 dwg

Description

The invention relates to the field of gas discharge technology and can be used in the development of means for displaying information on gas discharge indicator panels (GUI) of alternating current.

Known ACI AC, containing two dielectric plates, on one of which there are intersecting electrode systems coated with a dielectric, on which is located a dielectric matrix with holes that limit the glow of the discharge [UK patent No. 1396816, 1975].

The disadvantage of this ACI AC is the low brightness due to the screening of the discharge matrix and a small viewing angle.

Known ACI AC, including two dielectric plates, on the inner surfaces of which are electrodes coated with a dielectric, and the dielectric on the electrodes of one of the dielectric plates has a black color due to the introduction of a mixture of iron oxides, cobalt [Application of France No. 2169911, H 01 J 17/00, 1973].

The disadvantage of this ACI AC is the low brightness associated with the screening of the discharge glow by a black dielectric coating.

Known ACI AC, containing two dielectric plates, on one of which there are pairs of indication electrodes coated with a dielectric, and on the other orthogonal to the indication electrodes, control electrodes located between the control electrodes are dielectric barriers with a contrast coating on their upper base [Application EPO No. 0555172, H 01 J 17/49, 1993].

In this design, the contrast coating increases contrast, improving image perception. However, the contrast of the image is not high enough, since in the GUI of an alternating current, backlighting is observed along the control electrodes.

Closest to the claimed invention is an alternating current ISU containing a lower dielectric plate with first electrodes, a front dielectric plate, on which are located the second electrodes coated with a transparent dielectric layer, orthogonal to the first electrodes and forming indication cells with them, a contrast coating formed on the inner surface of the front dielectric plate [RF patent No. 2133516, H 01 J 17/49, 31/12, 1999 - prototype].

The disadvantages of this ACI ACI are the low manufacturability and high complexity of manufacturing the ACI ACI, due to the complexity of obtaining the node “contrast coating - electrode system” due to the “surfacing” of the electrodes in the process of fusion of a transparent dielectric. In addition, the light incident on the front dielectric plate, reflected from the internal fixture, partially reflects from the electrodes and goes outside, reducing the contrast of the image in high light conditions.

The objective of the claimed invention is the creation of a GUI AC with high contrast reproduced information.

The specified technical effect is ensured due to the fact that in the known GUI of alternating current containing a lower dielectric plate with first electrodes, a front dielectric plate on which are located the second electrodes coated with a transparent dielectric layer, orthogonal to the first electrodes and forming indication cells with them, a contrast coating on front dielectric plate, a contrast coating is formed on a transparent dielectric layer.

This arrangement of the contrast coating eliminates the exit of light reflected from the electrodes to the outside. As a result, the image contrast in high light is increased. In addition, the electrodes are formed on the inner surface of the front dielectric plate, which eliminates the “surfacing” of the electrodes in the process of fusion of a transparent dielectric.

A high contrast of the ACI GUI is achieved by performing a contrast coating both from a neutral-colored material (gray to black) and from a material in a color corresponding to the color of the glow of the display cells.

The light transmittance of the contrast coating should be 20-80%.

If the light transmission coefficient exceeds 80%, then the contrast coating almost completely transmits both incident and reflected light from the internal reinforcement. As a result, the contrast in high light is small.

If the light transmission is less than 20%, then, despite the fact that the contrast during illumination will be high, the brightness of the luminescence of the ACU display cells will be small, which also makes it difficult to read information in high illumination.

The best results in the ACI of an alternating current were obtained when performing a contrast coating of a mixture of low melting glass (LPS) and ceramic pigment, because in this case, there is a uniform coloring of the contrast coating over its entire area.

The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allows us to establish that the applicant has not found an analogue characterized by features identical to those of the claimed invention, and a definition from the list of identified analogues the prototype, as the closest in the totality of the features of the analogue, allowed to identify the set of essential in relation to the applicant sees those the clinical result of the distinguishing features in the claimed subject matter set forth in the claims.

Therefore, the claimed invention meets the requirement of "novelty."

To verify the conformity of the claimed invention to the requirement of the inventive step, an additional search was carried out for known solutions in order to identify features that match the distinctive features of the claimed invention, the results of which show that the claimed invention does not explicitly follow from the prior art, as it has not been identified technical solutions providing high contrast of the ISU of alternating current due to the formation of a contrast coating on a transparent dielectric when covering the electrodes located on the inner surface of the face of the dielectric plate, when performing a contrast coating of materials consisting of a mixture of LPS and ceramic pigment, of materials having a gray color or a color of luminescence of indication cells for single-color GUI of alternating current, when using a contrast coating, consisting of parts of different colors for colored GUIs of alternating current and providing a transmittance of contrast coating of 20-80%.

The proposed design of the ISU AC is illustrated in the drawing, which shows one of the variants of the declared ISU AC.

The alternating current ISU comprises a lower dielectric plate 1 on which the first electrodes 2 are located, a front dielectric plate 3 with second electrodes 4 located on its inner surface orthogonally to the first electrodes 4, coated with a transparent dielectric 5, dielectric barriers 6 formed on the lower dielectric plate 1 between the first electrodes 2, a contrast coating 7 of gray color deposited on a transparent dielectric 5, phosphors 8 of red R, green G, blue B glow colors, each of which carried in the corresponding gap between adjacent dielectric barriers on their side surfaces and on the lower dielectric plate.

The ACI GUI works as follows. When voltage pulses are applied to the corresponding first and second electrodes 2 and 5 in the display cells formed at the crosshairs of these electrodes, a gas discharge occurs, which provides information display.

The formation of a contrast coating on a transparent dielectric layer covering the second electrodes located on the front dielectric plate allows to achieve a contrast ratio of 100: 100 lux, equal to 1.6: 1. In a conventional ACU, it is 1.02: 1.

An example of a specific implementation.

ISU AC contains the front and lower dielectric plate size 220 × 220 × 5 mm A system of first electrodes with a width of 0.1 mm and a thickness of 0.006 mm with a pitch of 0.35 mm made of a material including silver — 80 parts by weight, LPS-S82-3 — 20 parts by weight, was formed on the lower dielectric plate.

A system of second electrodes with a width of 0.09 mm and a thickness of 0.006 mm with a distance between the second electrodes of 0.35 mm from a material including gold — 80 parts by weight, LPS-C82-3 — 6 parts by weight, was formed on the front dielectric plate. low-melting crystallizing conductive glass STsP-89 - 14 parts by weight On the second electrodes there is a layer of transparent dielectric of LPS-C82-3 with a thickness of 0.035 mm, on which a contrast coating of transparent fusible gray glass with a thickness of 0.002 mm with a light transmittance of 40% is formed. On the lower dielectric plate between the first electrodes, dielectric barriers made of glass ceramics are 0.12 mm high and 0.07 mm wide, between which a green phosphor 0.015 thick is deposited on the inner surface of the lower dielectric plate, on the first electrodes, and also on the side surfaces of the dielectric barriers mm Dielectric plates are located one above the other, forming an indication cell at the crosshairs of the electrodes. Along the perimeter, the dielectric plates are hermetically connected by glass solder. AHF of alternating current Ne + 6% Xe is filled at a pressure of 400 mm Hg.

The contrast under high illumination of this ACI ACI is 1.57, and the ACI ACI of the prototype is 1.01.

Thus, the present invention allows to create a GUI AC with high contrast displayed information.

Claims (6)

1. A gas discharge AC display panel comprising a lower dielectric plate with first electrodes, a front dielectric plate on which are located second electrodes coated with a transparent dielectric layer, orthogonal to the first electrodes and display cells forming them, a contrast coating on the front dielectric plate, characterized in that the contrast coating is formed on a transparent dielectric layer. 2. The AC discharge gas discharge panel according to claim 1, characterized in that the contrast coating is made of gray material. 3. The gas discharge AC display panel according to claim 1, characterized in that for a single-color gas discharge AC display panel, the contrast coating is made of a material having a glow color of the indication cells. 4. The AC gas discharge display panel according to claim 1, characterized in that for the color AC gas discharge display panel, the contrast coating in the areas located above the display cells has a glow color of the display cells corresponding to the zones. 5. The gas-discharge indicator panel of alternating current according to any one of claims 1 to 4, characterized in that the light transmission coefficient of the contrast coating is 20-80%. 6. A gas discharge AC display panel according to any one of claims 1 to 5, characterized in that the contrast coating is made of a mixture of low-melting glass and ceramic pigment.