RU2188463C1 - Ac gas-discharge display panel - Google Patents

Abstract

FIELD: electronic equipment, applicable for display of graphic and video information. SUBSTANCE: used as sealing seam material of the construction is material whose melting point t_melt is selected according to correlation d_d≥t_melt≥1,08t_degas at t_melt.d≤580^°C, where t_d - the temperature of deformation of dielectric material based on low-melting glass; t_degas - the temperature of degassing of the panel inner fitting; d_melt.d - the melting point of dielectric material based on low-melting glass. EFFECT: enhanced panel control dynamic range. 1 dwg

Description

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

 Known gas discharge indicator panel (GUI), in which the sealing joint is made of epoxy resin [US patent 3778127, 316-20, 1973].

Sealing with epoxy resin is simple and can be done at room temperature, however, the resin causes contamination of the gas filling by the evolved gases, which reduces the life of the device. It does not allow heat treatment of the internal reinforcement of the ISU (at 400 ^o C), since at this temperature it decomposes into components.

Known ACI AC, containing two dielectric plates, on which are located the electrodes coated with a dielectric of lead-containing glass with a melting point of more than 600 ^o C, the seam sealing glass powder [French application 2169912, H 01 J 17/00, 1973].

The disadvantage of this panel is that when using lead-containing glass for coating electrodes with a melting point of more than 600 ^o C during the melting process of the coating, the flooding of the electrodes is observed.

 Closest to the proposed invention is an alternating current ISU containing two dielectric plates, indication cells formed at the crosshairs of mutually orthogonal electrode systems, on the electrodes of at least one of which are deposited layers of dielectric material based on low-melting glass (LPS) and emission material, sealing joint [French application 2166228, H 01 J 17/00, 1973].

The disadvantage of this GUI, as in the previous design, is the surfacing of the electrodes when melting the dielectric coating at high temperature (600 ^o C).

 In addition, in the ISU, when choosing the material of the sealing joint, the influence of the melting temperature of the sealing joint on the quality of the emission coating is not taken into account.

 The objective of the invention is the creation of an ISU with alternating current with a large dynamic range of control due to the high quality of the emission coating.

The specified technical effect during the implementation of the invention is achieved by the fact that in the known design of the ISU of alternating current containing two dielectric plates with interposed indication cells formed at the crosshairs of mutually orthogonal electrode systems, at least one of which is coated with layers of dielectric material based on low-melting glass and emission material, a sealing joint connecting perimeter dielectric plates, as a sealing joint material material used, melting point t _pl. which is selected according to the ratio
1.15t _d ≥ 1 _pl ≥ 1.08 t _r ,
at
t _pl.d ≤ 580 ^o C,
where t _d is the deformation temperature of the dielectric material based on low-melting glass;
t _about - temperature degassing internal reinforcement panels;
t _pl.d is the melting temperature of the dielectric material based on low-melting glass.

 A large dynamic control range in the ISU cells is achieved by providing a uniform optimal structure of the emission coating in each cell.

 The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information, and the 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 of 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 to technical result of the characterizing features claimed in the object 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 from the prototype, the results of which show that the claimed invention does not explicitly follow from the prior art, as it does not technical solutions were identified in which the dynamic range of panel control would be increased due to the use of a sealing material in the GUI la with a melting point selected according to the proposed relation.

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

 The invention is illustrated in the drawing.

 The drawing shows one of the options for the ISU AC.

 The alternating current ISU contains the first 1 and second 2 dielectric plates, two intersecting mutually orthogonal electrode systems 3 and 4, on each of which layers of dielectric material based on LPS 5 and emission material 6 are sequentially applied, and the sealing joint 7.

 The GUI works as follows.

 When voltage pulses are applied to the corresponding electrodes 3 and 4, a gas discharge arises in the display cells.

A large dynamic control range, which provides reliable control of the ISU of alternating current with electrodes sequentially coated with layers of dielectric material based on LPS and emission material, is achieved using the material of the sealing joint, melting temperature t _pl. which is selected according to the expression
1.15t _d ≥ t _pl ≥ 1,08 t _about at
t _pl.d ≤ 580 ^o С
The choice of materials according to the expression allows you to get a panel with high-quality dielectric and emission coatings with parameters that meet the requirements of the ACI AC.

If the melting temperature of the material of the sealing joint is higher than 1.15 t _d , in this case, when sealing the ISU, the material of the emission coating partially diffuses into the dielectric coating layer. As a result of this, its emission properties deteriorate, which leads to an increase in the discharge voltage and a sharp increase in its spread in the indication cells. The dynamic range of control in this case is greatly reduced.

If the melting temperature of the sealing material is less than 1.08 t _about. , when the internal fittings are degassed through the sealing joint, air will penetrate into the inside of the device. When it interacts with the emission coating, hydrates are formed and, as a result of this, the emission ability of the coating is sharply reduced. The occurrence voltage increases, and its spread increases sharply, leading to a decrease in the dynamic range of control. In addition, due to poor-quality degassing of the internal fittings of the ISU, the durability of its operation is reduced by at least 10 times.

Пластины с электродами расположены одна над другой, образуя в перекрестьях ячейки индикации. По периметру первой пластины нанесен шов герметизации из стекла С 73 с t_пл. = 430^oС. Температура обезгаживания t_об. = 350^oС. Температура плавления материала шва герметизации соответствует соотношению:
1,15 t_д ≥ t_пл≥ 1,08 t_об, а именно
t_пл.д = 560^oС, что < 580^oС
ГИП наполнена Не + 45% Ne + 0,5% Хе при давлении 400 мм рт.ст.An example of a specific implementation. ISU AC contains the first and second dielectric plates measuring 220 x 220 x 5 mm. On each of the dielectric plates, a system of electrodes (256 pcs.) Is made of gold-containing paste with a width of 100 microns and a thickness of 600 microns. A layer of LPS - C 82-3 with a thickness of 25 μm with t _d = 425 ^o C and t _{pl.d. is applied to the electrodes.} = 560 ^o C. On the LPS applied a layer of MgO thick

Plates with electrodes are located one above the other, forming an indication cell at the crosshairs. A sealing seam made of glass C 73 with t _pl. = 430 ^o C. The degassing temperature t _about. = 350 ^o C. The melting temperature of the material of the sealing joint corresponds to the ratio:
1.15 t _d ≥ t _pl ≥ 1.08 t _r , namely
t _pl.d = 560 ^o C, which <580 ^o C
The ISU is filled with He + 45% Ne + 0.5% Xe at a pressure of 400 mmHg.

 The dynamic control range of such an ACI GUI is 18 V, which is almost 2 times more than in the well-known, commercially available ACI GUIs.

 Thus, the present invention allows to create a GUI AC with high reliability management.

Claims (1)

A gas discharge indicator panel of alternating current, containing two dielectric plates with indication cells located between them, formed at the crossroads of mutually orthogonal electrode systems, on the electrodes of at least one of which are deposited layers of dielectric material based on low-melting glass and emission material, a sealing joint connecting the perimeter dielectric plate, characterized in that as sealing material weld material used, the melting point to the _{melting point} t orogo selected according to the relation
1,5t _d ≥ t _pl ≥ 1,08 t _r
at t _pl.d. ≤580 ^o C,
where t _d is the deformation temperature of the dielectric material based on low-melting glass;
t _about - temperature degassing internal reinforcement panels;
t _pl.d. - the melting temperature of the dielectric material based on fusible glass.