DE1073112B - Glimm discharge number tubes with a plurality of strip-shaped or rod-shaped cathodes arranged in series next to one another and two anodes arranged in parallel - Google Patents

Description

GERMAN

There are glow discharge counting tubes known that a collecting cathode with a plurality of active cathode sites located next to one another and have several optionally switchable anodes. A wire spiral serves as the collecting cathode, and the Anodes extend outside the wire spiral and parallel to the axis of the same. Which usually at one of the ends of the wire spiral ignited glow discharge is through each of the anode voltage superimposed voltage pulse step by step from each spiral turn of the collecting cathode to the adjacent one Spiral winding forwarded. By switching on one or the other anode and by means of suitable Ignition projections can thereby be achieved that when one anode is switched on, the glow discharge in one longitudinal direction of the collecting cathode and when the other anode is switched on in the other longitudinal direction of the collecting cathode advances.

Furthermore, glow discharge counter tubes are known which have a plurality of cold, in a straight line or circular row of cathodes arranged one behind the other as well as one common for all cathodes Have anode, which is in the direction of the cathode row and at a certain distance from extends the cathode. Each of the cold cathodes has one in the same direction of the cathode row extending and pointing to the neighboring cathode ignition projection. The cathodes are rod-shaped or ribbon-shaped formed and each provided with an angled, serving as an ignition extension end. When occurring a voltage pulse is the glow discharge in the given by the ignition projections Direction of the cathode row is advanced from one cathode to the adjacent cathode, so that always only one of the cathodes is covered with glow light.

It is also known to have two of the above-described electrode systems of glow discharge counter tubes to be installed in a common glass bulb, the two electrode systems in parallel and in particular are arranged concentrically to one another. The two electrode systems are spatially separated from each other separate discharge paths, and the mean distances between the cathodes of an electric system and the anode associated with this electrode system are accordingly sufficiently small compared to the distance at which the anodes of both electrode systems are arranged from one another are. In order to obtain an optionally reversible counting direction, one has an electrode system the ignition processes on the cathodes point in one direction and on the other electrode system the ignition projections attached to the cathodes pointing in the other direction. Furthermore were Glow discharge counter tube

with a plurality of in series

next to each other arranged tape

or rod-shaped cathodes
and two anodes arranged in parallel

Applicant:

ELESTA A. G.

Electronic control apparatus,
Bad Ragaz (Switzerland)

Representative: Dipl.-Ing. A. Wedde, patent attorney,
Munich 27, Schumannstr. 2

Claimed priority:
Switzerland from October 19, 1957

Dr. Hans L. von Gugelberg, Maienfeld (Switzerland),
has been named as the inventor

Adjacent cathodes of both electrode systems at their facing away from the ignition projections Ends by transverse brackets running outside of the two anodes to one another inside the tube tied together. By means of this transverse bracket, the one burning on the cathode of one electrode system should be Glow discharge across the relevant transverse bracket onto the cathode of the other electrode system be drawn over as soon as one anode is switched on and the other anode is switched off afterwards to be able to continue the discharge in the opposite direction. Through this cross bracket However, relatively extensive cathode structures are created, but only on the one that is switched on Anode immediately adjacent point may be covered with glow light, provided that the desired mode of action should result. Glow discharges, with soft the existing cathode surface but only a small part of it is covered with glow light, tend to flicker, which in the case of a counter tube not only significantly reduce the counting speed, but also also require relatively critical discharge conditions and very constant supply voltages. the Hitherto known glow discharge counting tubes with reversible counting direction therefore not only have one

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comparatively intricate electrode structure, but still show considerable "deficiencies, which their Considerably restrict applicability.

Furthermore, glow discharge counting tubes are provided with an anode and several arranged in a circle or in a straight line Rod-shaped cold cathodes are known in which the cathodes are inclined to the longitudinal direction of the Anode are oriented such that one ends of the cathodes are adjacent to the anode.

The invention is now concerned with a glow discharge counter tube with a plurality of in series band-shaped or rod-shaped cold cathodes arranged next to one another, in which the glow discharge when applying and removing electrical pulse voltages from one cathode to an adjacent one Cathode skips and in which two parallel anodes are arranged in such a way that the glow discharge when switching on one anode in one direction of the series and when switching on the other anode in the other direction of the row to the adjacent cathode. The above Briefly mentioned disadvantages of the known glow discharge counting tubes of this type are made in accordance with the invention fixed by the fact that the cathodes in the space between the two anodes and in per se known Way are each oriented in the same sense obliquely to the longitudinal direction of the anode in such a way that one ends of the cathodes of one anode and the other ends of the cathodes of the other anode are adjacent. at The cathodes extend in a known manner from wire anodes and cathodes the plane determined by the two parallel anodes.

Embodiments of the invention are shown schematically in the drawing, namely shows

1 shows a gas discharge counter tube with a linearly arranged row of cold cathodes in perspective View showing the electrical connections to the voltage source and the pulse generator as well the switching device for selectively switching on the two anodes are also illustrated, and

2 shows a plan view of a gas discharge counter tube with two annular anodes and in the form of a circular ring arranged row of cold cathodes.

In the glow discharge counter tube according to FIG. 1, there are two elongated, anodes 4 and 5 made of wire, which run parallel to each other. In the space between These two anodes 4, 5 have a larger number of also wire-shaped cathodes 6 to 13 arranged, which lie in the plane given by the anodes 4, 5 and are all inclined in the same sense to Extend the length of the row. The cathodes 6 to 13 are in a manner known per se in two groups divided, namely all the even-numbered cathodes outside the tube are connected to each other and on the negative pole of a voltage source, such as. B. a battery 14 or a power supply unit placed. If it is to be determined by electrical means on which of the even-numbered cathodes in each case the glow discharge is burning, one can still use each cathode lead of the even-numbered cathode a display element, such as a small ohmic resistance or the like., switch on. Such display elements are not illustrated in more detail in FIG. 1 for reasons of clarity. All odd Cathodes are also connected to one another and to one terminal of a pulse source 15, the other terminal of which is connected to a tap 16 of the DC voltage source 14. the Pulse source 15 should be able to deliver electrical voltage pulses which the odd-numbered cathodes make temporarily negative to the even-numbered cathodes. Each of the two anodes 4 and 5 is finally via an ohmic current limiting resistor 17 or 18 and a switch 19 or 20 connected to the positive pole of the DC voltage source 14. The anodes 4, 5 and also the cathodes 6 to 13 are expediently made of molybdenum wire, and

ίο a gas mixture can be used as the gas filling of the glass bulb 3 find use under a pressure of about 50 mm of mercury.

It is now assumed that, for example, a glow discharge between the cathode 10 and the anode 4

burns, the glow of which covers the entire surface of the cathode 10. The right end of the adjacent cathode 9 is then immersed in the discharge space of this glow discharge. Vice versa the left end of the other adjacent cathode 11 is completely outside the discharge space the glow discharge burning between the cathode 20 and the anode 4. Now delivers the Pulse source 15 has a negative voltage surge, the odd-numbered cathodes are more negative than the even-numbered cathodes, and the glow discharge is accordingly from the cathode 10 to the cathode 9 skip, as the latter was already in the discharge space. As soon as the voltage surge disappears, the even-numbered cathodes are again more negative than the odd-numbered cathodes. From the For reasons already mentioned, the glow discharge continues from the cathode 9 to the Skip cathode 8 and stay on it until another voltage pulse arrives. At the next negative voltage pulse is the glow discharge in an analogous manner from the cathode 8 via the Cathode 7 switched to the cathode 6 so that each voltage pulse supplied by the pulse source 15 switching the glow discharge from one even-numbered cathode to the next lower even-numbered cathode Cathode has the consequence, provided that the anode 4 is switched on.

The glow discharge originally burning between the cathode 10 and the anode 4 can easily open the anode 5 are transferred. For this purpose, the switch 20 is also closed first and then switch 19 is open. Since when the switch 20 is closed, the cathode 10 is already emitted with glow light is completely covered, the anode 5 is immediately a part - with the same resistances 17 and 18 about the Half - and after the anode 4 has been switched off, take over the entire discharge current without Migration of the glow light or re-ignition at the cathode 10 would be required. So there is but the guarantee that at the transition from one anode 4 to the other anode 5 the discharge on the Cathode 10 remains and not reignited between one of the other cathodes and anode 5 will. If the pulse source 15 now emits a negative voltage surge, it can be seen that Glow discharge from the cathode 10 via the cathode 11 to the cathode 12 and the counting direction therefore vice versa. You can thus voltage pulses in one direction of the cathode row count and from the last even-numbered cathode to burn only by changing the Count down the anode again so that, among other things, additions and subtractions are carried out continuously permit. There, as already mentioned, both when switching the glow discharge in one way or the other

1 U / 5 1 IZ

Counting direction as well as when changing the counting direction by switching over the anodes, the currently burning one Glow discharge always completely covers the cathode in question with glow light, resulting in a high level of operational reliability with very uncritical discharge conditions. As a result of the absence of any flickering phenomena - which can be set predominantly with cathodes only partially covered with glow light can also achieve a higher counting speed. In addition, the whole structure is as described Glow discharge counter tube extremely simple and clear, as the elongated rod-shaped Cathodes, which are usually present in large numbers, do not have any ignition projections need, as is the case with the known glow discharge counting tubes with reversible counting direction the case is.

The number of cold cathodes can be arbitrarily large; for a decade counter tube you need twenty cold cathodes, which are inside or outside the tube of FIG. 1 in groups get connected. The row of cold cathodes can be recirculated in a circle for continuous counting as shown in FIG. The two anodes 4 and 5 are curved in a ring Pieces of wire or sheet metal that are arranged concentrically to one another. Between these ring anodes 4, 5 is an even number of cold cathodes 6,7,8,9 ... inserted, each of these cathodes made of an oblique to the radial direction oriented wire or Piece of tape can exist. For the sake of clarity, the electrode supports are shown in FIG not illustrated in detail for the anodes and cathodes. If the anode 4 is switched on, the Counting direction clockwise, when the anode 5 is switched on, however, counterclockwise. At the In place of concentric ring anodes, coaxially arranged circular ring-shaped anodes can also be used are, between which obliquely to the circumferential direction elongated cathodes are preferably extend in the cylinder surface determined by the two anodes. Even with circular A closed row of cold cathodes thus results in an extremely simple structure of the whole Electrode system of the glow discharge counter tube.

Claims (2)

Patent claims: 1. Glimentladungszäh] tube with a plurality of strip-shaped or rod-shaped cold cathodes arranged in series, in which the glow discharge jumps from one cathode to an adjacent cathode when electrical pulse voltages are applied and removed, and in which two parallel anodes are arranged in such a way that the glow discharge jumps to the adjacent cathode when one anode is switched on in one direction of the row and when the other anode is switched on in the other direction of the row, characterized in that the cathodes (6 to 13) in the space between the two anodes ( 4, 5) and in a manner known per se are each oriented in the same direction obliquely to the longitudinal direction of the anode in such a way that one ends of the cathodes (6 to 13) of one anode (4) and the other ends of the cathodes (6 to 13) of the other anode (5) are adjacent. 2. glow discharge counter tube according to claim 1, characterized in that in known per se Way made of wire anodes (4, 5) and cathodes (6 to 13) the latter themselves extend in the plane determined by the two parallel anodes (4, 5). Considered publications:
British Patent No. 639,841;
U.S. Patents Nos. 2,687,496, 2,792,526,
575 371, 2 790110. 1 sheet of drawings © 909 709/379 1.60