US3821584A

US3821584A - Gas filled display device having mercury inlet shield

Info

Publication number: US3821584A
Application number: US00267900A
Authority: US
Inventors: J Scovronek
Original assignee: Burroughs Corp
Current assignee: Unisys Corp
Priority date: 1972-06-30
Filing date: 1972-06-30
Publication date: 1974-06-28
Anticipated expiration: 1991-06-28
Also published as: NL7308590A; JPS4992978A; FR2191249A1; FR2191249B1; JPS5612980B2

Abstract

The display panel comprises a gas-filled envelope which includes a base plate on which a plurality of groups of cathodes and their conductors are formed, each group of cathodes being operable to display a character. The envelope also includes a face plate, spaced from the base plate, and carrying transparent conductive anodes, each associated with one group of cathodes. The base plate of the panel is provided with a hole and a short, smalldiameter tube axially aligned with the hole and extending away from the outer surface of the base plate. The usual tubulation is secured to the outer surface of the base plate enclosing the hole and the short tube, and the desired gas and mercury vapor are introduced into the panel envelope through the tubulation and through the short tube and hole in the base plate. The short tube prevents large mercury globules, which might be present in the sealed-off tubulation, from accidentally getting into the panel envelope.

Description

United States Patent [191 Scovr0nek 1 June 28, 1974 1 GAS-FILLED DISPLAY DEVICE HAVING MERCURY INLET SHIELD [75] Inventor: Jacob Scovronek, South Plainfield,

22 Filed: June 30,1972

21 Appl. No.: 267,900

Primary Examiner-Palmer C. Demeo Attorney, Agent, or Firm-Robert A. Green; Edward G. Fiorito; Paul W. Fish [57] ABSTRACT The display panel comprises a gas-filled envelope which includes a base plate on which a plurality of groups of cathodes and their conductors are formed, each group of cathodes being operable to display a character. The envelope also includes a face plate, spaced from the base plate, and carrying transparent conductive anodes, each associated with one group of cathodes. The base plate of the panel is provided with -a hole and a short, small-diameter tube axially aligned with the hole and extending away from the outer surface of the base plate. The usual tubulation is secured to the outer surface of the base plate enclosing the hole and the short tube, and the desired gas and mercury vapor are introduced into the panel envelope through the tubulation and through the short tube and hole in the base plate. The short tube prevents large mercury globules, which might be present in the sea1ed-off tubulation, from accidentally getting into the panel envelope.

8 Claims, 5 Drawing Figures [52] US. Cl. 313/174, 313/220 [51] Int. Cl. I'I0lj 61/28 [58] Field 01 Search 313/174, 220, 188

[56] References Cited UNITED STATES PATENTS 1,898,615 2/1933 Byrnes 313/174 1,902,482 3/1933 Acheson et a1.. 313/177 X 2,280,618 4/1942 Besson 313/177 3,264,074 8/1966 Jones 315/169 TV X 3,548,240 12/1970 Spiessens 313/174 3,675,066 7/1972 Armstrong et a1... 313/109.5 3,704,052 11/1972 Coleman 315/169 X 3,704,386 11/1972 Cola 313/188 X GAS-FILLED DISPLAY DEVICE HAVING MERCURY INLET SHIELD BACKGROUND OF THE INVENTION It is customary in cathode glow discharge devices, such as the display panel described above, to include mercury vapor'in the gas atmosphere to minimize cathode sputtering. Generally, the mercury is introduced from a small glass capsule held in the tubulation which is ;,secured to the panel base plate and communicates with the interior of the panel by way of a small hole in the base plate. The glass capsule containing the mercury is broken at a suitable time in the manufacture of the panel to release the mercury and to permit its vapor to enter the panel through the hole in the base plate.

The mercury provided in the glass capsule isa relatively small ball, and, when the capsule is broken, the mercury ball enters the tubulation and some of its vapor flows into the panel through the hole in the base plate. However, a quantity of the mercury ball remains in the tubulation after the tubulation is sealed and the capsule is removed, and, under some circumstances, when the panel or its assembly is physically manipulated, some or all of the mercury ball may enter the panel through the hole in the base plate and may cause shorts between electrodes or may cause other problems.

SUMMARY OF THE INVENTION Briefly, a display device embodying the invention includes a base plate carrying a plurality 'of groups of cathode electrodes, and a face plate carrying a transparent conductive anode electrode for each group of cathode electrodes. The base plate is provided with a hole through which mercury vapor and the gas filling for the panel are introduced from a tubulation secured to the base plate. Means are provided in operative relation with this hole in the base plate and within the tubulation to prevent excess mercury from entering the panel.

DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective exploded view of a display panel embodying the invention;

FIG. 2 is a sectional view, along the lines 2--2 in FIG.

FIG. 3 is a side elevational view, partly in section, of a modification of a portion of the invention;

FIG. 4 is a side elevational view, partly in section, of another modification of a portion of the invention; and

FIG. 5 is a front elevational view of the apparatus shown in FIG. 4.

DESCRIPTION OF THE PREFERRED EMBODIMENTS rameters which affect the selection of a suitable gas pressure.

The principles of the invention are applicable to many types of cold cathode display devices, and the display panel 10 shown and described herein is a segment-type device which includes an insulating base plate 20 of glass, ceramic, or the like which carries, on its top surface, a plurality of narrow conductive leads or runs 30 (A to G). The runs 30 are parallel to each other and aligned with the horizontal axis of the base plate. Seven runs 30A to 306 are shown; however, more or fewer may be provided, the number being determined by the total number and type of characters to be displayed. The runs 30 may be formed by an evaporation process, a silk-screen process, an electroless plating process, arc plasma spraying, flame spraying, or the like, or they may be discrete strips of metal, heatsealed or otherwise secured to the insulating plate 20. A silk-screen printing process is particularly suitable because it is fast, efficient, and reproducible.

A thin layer 40 of insulating material such as glass or ceramic is provided on the conductive runs 30, preferably by a silk-screen or spraying process. The layer 40 is provided with a plurality of groups of apertures 50A to 506, each aperture exposing one of the runs 30A to 306. Thus, each group of apertures includes aperture 50A which exposes run 30A, aperture 50B which exposes run 30B, aperture 50C which exposes run 30C, etc.

Panel 10 also includes a group of cathode electrodes 60 (A to G) for each group of apertures 50; the cathodes are generally flat elongated bars or segments, and they are generally arrayed in a figure 8 pattern, as is well known in the art. The cathodes 60 may be formed by any of the processesmentioned above with a silkscreen process or the like performed with a conductive paste such as palladium-gold, platinum-gold, palladium-silver, or the like. Each cathode element fills its aperture 50, is in direct contact with one of the runs 30 exposed thereby, and covers a portion of the top surface of layer 40 to achieve the desired shape and size for each cathode.

The cathodes 60 may also be formed of discrete strips of metal, each of which is brazed to a conductive run 30 by' means of a mass of brazing material deposited in each of the apertures 50 in the insulating layer 40. The brazing material may also be deposited by a silk-screen process or the like, with one suitable brazing material being a gold-germanium substance known as FORMON which is sold by DuPont.

Panel 10 also includes an anode electrode for each group of cathode electrodes 60. The anode electrodes 90 preferably comprise transparent conductive films of gold, NESA, or the like deposited on the lower surface 96 of the panel face plate or viewing plate 100 which is made of glass. The anode films 90 are generally rectangular in shape, or they are otherwise shaped, depending on the orientation of the cathodes, and they are dimensioned and positioned so that they overlay the area defined by each group of cathode electrodes, as illustrated in FIG. 2. The anodes thus face the flat surfaces of the cathodes, and these surfaces generate cathode glow areas of the same general shape in operation of the panel. Alternatively, the anode electrodes may comprise separate screens (not shown) suitably supported above the groups of cathode electrodes.

The top glass cover plate 100 is spaced from the base plate by a rectangular frame member 110 which may be integral with cover plate 100, or it may be a separate piece which is disposed between the top glass plate and the insulating layer 40. The rectangular frame 100 serves to provide the desired spacing between each anode and its associated group of cathode electrodes.

The three

glass members

20, 100, and are sealed together by means of an hermetic seal (FIG. 2) formed along the adjacent edges of the members by means of a glass frit or the like.

Suitable contact pins 122 are secured to the cathode runs 30, and contacts 124 are also made to anodes 90, and all contacts are embedded in seal 120.

The panel 10 is filled with the desired gas atmosphere through a tubulation secured to the base plate 20 and communicating with the interior of the panel through a hole 160 in base plate 20.

The tubulation 150 has a flared end 163 which is secured to the surface of the base plate axially aligned with

holes

160 and 170. According to the invention, a short, small-diameter tube 180 is axially aligned with the hole 160 in the base plate and extends away from the bottom surface of the base plate into the tubulation 150. The tube 180 may be secured directly to the lower surface of the base plate, but preferably, it is secured within the hole 160 by means of a cement such as Pyroceram or the like. The tube 180 is preferably of metal, has a bore diameter of about 20 mils, and extends about 65 mils above the lower surface of the base plate.

In a modification of the invention illustrated in FIG. 3, the tube 180 has its open end 183 bent at substantially a right angle to the longitudinal axis of the tube so that the opening therein faces to the side, rather than downwardly. in still another modification illustrated in FIGS. 4 and 5, a tube 180' is used which has a closed lower end, with a small opening 185 provided in its side wall. The opening 185 would have a diameter of the order of 20 mils for proper operation.

A mercury capsule 190, containing a small ball of mercury 200, is disposed within the tubulation 150 and is held in place in any suitable manner, for example, by means of a constriction in the tubulation.

After panel 10 has been assembled and processed as required, it is filled with the desired gas through tubulation 150, and the tubulation is sealed off at a conveniently short length. Again, at a suitable time in the processing procedure, the glass capsule is broken, for example, by a suitable heating process, and the mercury ball is thus freed from the capsule and deposited in the tubulation. Either mercury vapor from the mercury ball diffuses through the holes and gradually, or the panel may be heated to forcefully drive mercury vapor into the panel. Other processing steps are carried out as required to complete the manufacture of the panel 10. The panel is now ready for mounting in a suitable frame or carrier in association with printed circuit boards for ultimate inclusion in an instrument such as a desk top calculator. in these various operations, of course, the panel is handled and disposed in various orientations. It is noted that, during these manipulations, the tube serves to prevent any solid mercury present in the tubulation from entering the panel through the

holes

160 and 170. If the tube were not present, mercury droplets might enter the panel and cause shorts between closely spaced electrodes.

Although the principles of the invention have been described with respect to one type of display panel, they are applicable to other types of gas-filled panels which include mercury. Thus, the panel illustrated is similar to a PANAPLEX panel made and sold by Burroughs Corporation; however, a SELF-SCAN dot matrix panel, also made and sold by Burroughs Corporation, could also utilize the invention.

What is claimed is: l. A display device comprising a generally flat panel-type envelope including a base plateand a viewing face plate hermetically sealed together, means in said envelope defining a plurality of gasfilled glow cells with an anode and cathode electrode associated with each of said glow cells, a tubulation secured to the bottom surface of said base plate outside said envelope and communicating with the interior of said envelope through a hole in'said base plate whereby gas can be intro- I duced into said envelope,

a quantity of mercury globules disposed within said tubulation for introduction of the vapor of a portion thereof into said envelope, some of said mercury globules remaining in said tubulation, and

a short small-diameter tube secured to said base plate and having one end open and in communication with said hole therein, said tube extending from said base plate into said tubulation and having its opposite end, within said tubulation, closed, said tube having a side wall between said open end and said closed end and having a hole in said side wall between said open end and said closed end.

2. The device defined in claim 1 wherein said tube has a diameter of the order of 20 mils.

3. The device defined in claim 1 wherein said tube is of metal.

4. The device defined in claim 1 wherein said tube is secured within said hole in said base plate.

5. The device defined in claim 1 wherein said tube is secured within said hole in said base plate in axial alignment therewith.

6. The device defined in claim 1 wherein said small diameter tube has a diameter of about 20 mils and said hole in said side wall has a diameter of about 20 mils.

7. A display device comprising a generally flat panel-type envelope including a base plate and a viewing face plate hermetically sealed together,

means in saidenvelope defining a plurality of gasfilled glow cells with an anode and cathode electrode associated with each of said glow cells,

a tubulation secured to the bottom surface of said base plate outside said envelope and communicating with the interior of said envelope through a hole in said base plate whereby gas can be introduced into said envelope,

a short small-diameter, open-ended tube secured to said base plate and having one end open and in communication with said hole therein, said tube extending from said base plate into said tubulation, with the lower portion thereof remote from said base plate being bent at about a 90 angle to its axis and to the axis of said hole in said base plate.

8. A flat panel display device comprising a generally thin, flat, gas-filled envelope including a base plate and a viewing face plate hermetically sealed together,

a plurality of groups of light-generating cathode electrodes spaced apart along said base plate in said envelope, each group of electrodes including a plurality of cathode segments adapted to be energized in different groups to display different characters,

an anode electrode in operative relation with each said group of electrodes,

Claims

1. A display device comprising a generally flat panel-type envelope including a base plate and a viewing face plate hermetically sealed together, means in said envelope defining a plurality of gas-filled glow cells with an anode and cathode electrode associated with each of said glow cells, a tubulation secured to the bottom surface of said base plate outside said envelope and communicating with the interior of said envelope through a hole in said base plate whereby gas can be introduced into said envelope, a quantity of mercury globules disposed within said tubulation for introduction of the vapor of a portion thereof into said envelope, some of said mercury globules remaining in said tubulation, and a short small-diameter tube secured to said base plate and having one end open and in communication with said hole therein, said tube extending from said base plate into said tubulation and having its opposite end, within said tubulation, closed, said tube having a side wall between said open end and said closed end and having a hole in said side wall between said open end and said closed end.

3. The device defined in claim 1 wherein said tube is of metal.

7. A display device comprising a generally flat panel-type envelope including a base plate and a viewing face plate hermetically sealed together, means in said envelope defining a plurality of gas-filled glow cells with an anode and cathode electrode associated with each of said glow cells, a tubulation secured to the bottom surface of said base plate outside said envelope and communicating with the interior of said envelope through a hole in said base plate whereby gas can be introduced into said envelope, a quantity of mercury globules disposed within said tubulation for introduction of the vapor of a portion thereof into said envelope, some of said mercury globules remaining in said tubulation, and a short small-diameter, open-ended tube secured to said base plate and having one end open and in communication with said hole therein, said tube extending from said base plate into said tubulation, with the lower portion thereof remote from said base plate being bent at about a 90* angle to its axis and to the axis of said hole in said base plate.

8. A flat panel display device comprising a generally thin, flat, gas-filled envelope including a base plate and a viewing face plate hermetically sealed together, a plurality of groups of light-generating cathode electrodes spaced apart along said base plate in said envelope, each group of electrodes including a plurality of cathode segments adapted to be energized in different groups to display different characters, an anode electrode in operative relation with each said group of electrodes, a tubulation secured to the bottom surface of said base plate outside said envelope and communicating with the interior of said envelope through a hole in said base plate whereby gas can be introduced into said envelope, a quantity of mercury globules disposed within said tubulation for introduction of the vapor of a portion thereof into said envelope, some of said mercury globules remaining in said tubulation, and a short small-diameter tube secured to said base plate and having one end open and in communication with said hole therein, said tube extending from said base plate into said tubulation and having its opposite end, within said tubuLation, closed, said tube having a side wall between said open end and said closed end and having a hole in said side wall between said open end and said closed end.