RU2185664C1 - Gaseous-discharge indication panel - Google Patents

Abstract

FIELD: electronics, development of indication devices displaying TV information. SUBSTANCE: technical result of invention lies in reliable operation of gaseous-discharge indication panel in process of use thanks to prevention of deformation of edge sections of dielectric plates provided by design of gaseous-discharge indication panel with system of wire electrodes formed by winding. Structure of gaseous-discharge indication panel includes two dielectric plates, two electrode systems of which at least one is manufactured from wire conductors put on one dielectric plate. Sealing weld is secured by proper selection of diameter t_c of conductors and thickness t_d.pl of dielectric plate which carries electrodes comprised of wire conductors in accordance with relation 30t_d.pl/t_c4.6. EFFECT: reliable operation of gaseous-discharge indication panel. 1 dwg

Description

 The invention relates to electronic equipment and can be used to create indicator devices for displaying television information.

 Known gas discharge indicator panel (GUI), containing the upper and lower dielectric plates, wire anodes located on the phosphor deposited on the inner surface of the lower dielectric plate, cathodes, dividing elements, bounding cells formed at the crossroads of the anodes and cathodes [RF patent 2004030, cl . H 01 J 17/49, 1993].

 In this design, when forming a system of wire anodes on a dielectric plate using winding devices, deformation of the edge sections of the dielectric plates is observed and, as a result, the geometric dimensions of the extreme cells are violated.

 Known ISU containing the upper and lower dielectric plates, display cells formed at the crosshairs of wire anodes and perforated cathodes, dividing elements on the inner surfaces of the dielectric plates between the cathodes and anodes [ed. testimonial. USSR 1074301, class H 01 J 17/49, 1987].

 The disadvantage of this design is the high complexity of manufacturing, low brightness of the cells.

 As in the previous ISU, when winding wire anodes on a dielectric plate during the manufacturing process, deformation of the edge sections of the dielectric plates is observed, which violates the geometric dimensions of the edge cells.

 Closest to the proposed invention is a GUI containing two dielectric plates, between which there are indication cells formed at the crossroads of two electrode systems, the electrodes of at least one of which are made of wire conductors located on one of the dielectric plates, and a sealing seam [Auth. testimonial. USSR 533996, H 01 J 17/48, 1976 - prototype].

 The disadvantage of this ISU is that when it uses electrode systems formed by winding wire conductors on dielectric plates, the device deforms the edge sections of the dielectric plates, which leads to a distortion of the geometric dimensions of the cells formed on the deformed sections of the dielectric plates and, as a result, false alarms and spurious backlighting.

 The objective of the invention is to create a GUI design with a system of wire electrodes formed by winding wire onto a dielectric plate, which ensures reliable operation during operation by eliminating deformation of the edge sections of the dielectric plates.

The specified technical effect during the implementation of the invention is achieved by the fact that in the known GUI design containing two dielectric plates, between which are located indication cells formed at the crossroads of two electrode systems, the electrodes of at least one of which are made of wire conductors located on one of the dielectric plates, and sealing the seam, the diameter of guide wires _etc., and the thickness t of the dielectric plate _d.pl. t on which the electrodes of wire conductors are located, are selected according to the ratio
30≥t _d.pl. / t _ave ≥4,6
In this GUI, when electrode systems are formed by the device for winding wire conductors, deformation at the edges of the dielectric plate on which the wire electrodes are located and, as a result, ensures a snug fit of one dielectric plate through the internal structural elements of the GUI to another dielectric plate over their entire area, eliminating thus, gaps between cells, not provided by the design, leading to spurious backlighting and false alarms.

 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 the definition from the list of identified analogues the prototype as the closest in the totality of the features of the analogue revealed a set of essential in relation to the applicant sees those the 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 requirements 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 in which the high reliability of the ISU with wire electrodes formed by winding would be ensured elimination dielectric plate deformation by selecting the thickness of the dielectric plates and the diameter of the wire electrode according to the proposed relation.

 Thus, the claimed invention meets the requirement of "inventive step".

 The invention is illustrated in the drawing, which shows one of the options for the ISU.

 The ISU contains the upper 1 and lower 2 dielectric plates made of wire conductors with a circular cross section, anodes 3 and cathodes 4, which form indication cells 5 at the crosshairs, which are separated from each other by dividing barriers 6, a phosphor 7 deposited on the lower dielectric plate. The filling of the panel is Ne + 30% Xe.

 The panel works as follows. When voltage pulses are applied to the corresponding anodes 3 and cathodes 4, a gas discharge arises in the display cell, the ultraviolet radiation of which excites the glow of the phosphor 7. To obtain the glow of the display cell with different brightness, pulse-width modulation is introduced.

To create a GUI with electrodes from wire formed by winding conductors, which ensures reliable operation during operation due to the exclusion of spurious illumination and false positives, the relation
30≥t _d.pl. / t _pp ≥ 4.6.

If in the design of the ISU t _d..pl / t _pr will be less than 4.6, then the deformation of the edge sections of the dielectric plate on which the wire electrodes are located, which leads to the formation of gaps not provided for by the design, and, as a result, spurious illumination and malfunctions are observed during GUI operation.

If t _d.pl. / t _pr will be more than 30, then due to the large thickness of the substrate, its deformation will occur during heat treatment of the ISU as a result of a large temperature difference across the thickness of the glass substrate. In addition, the tightness of the panel is violated due to glass cracking in the area of the sealing seam during the decontamination of the ISU.

 An example of a specific implementation.

 The DCI ISU contains the upper and lower dielectric plates measuring 200 x 200 x 3 mm. On the lower dielectric plate in the area of the display cells measuring 2.5 x 2.5 mm there is a phosphor coating 0.07 mm thick. On the phosphor coating are located anodes of wire 47 ND with a diameter of 0.12 mm in increments of 3 mm. On the upper dielectric plate perpendicular to the anodes are cathodes made of 47 NI wire with a diameter of 0.12 mm. Wire cathodes and anodes are placed on the respective dielectric plates using a winding device. In the cell indicating the distance between the cathodes and anodes is h = 0.22 mm The ISU is filled with Ne + 30% Xe at a pressure of 100 mmHg.

In this ISU, the thicknesses of the dielectric plates and electrodes are selected according to the expression 30≥t _d.pl. / t _ave ≥4,6, namely 3 mm / 25 mm = 0.12. If this ratio is not maintained, the deformation of the dielectric plates along the perimeter of the ISU can be 150 μm, which will lead to a distortion of the cell sizes in the 3-4 extreme rows.

 Thus, the proposed invention allows you to create a GUI, ensuring reliable operation during operation.

Claims (1)

A gas-discharge indicator panel containing two dielectric plates, between which are located indication cells formed at the crossroads of two electrode systems, the electrodes of at least one of which are made of wire conductors located on one of the dielectric plates, and a sealing seam, characterized in that diameter guide wires _etc., and the thickness t of the dielectric plate _d.pl. t On which the electrodes of the wire conductors, are chosen according to the relationship 30≥t _d.pl / t _ave ≥4,6.