DE911303C - Gas- or steam-filled switching tubes acting as relay tubes - Google Patents

Description

Gas or steam-filled interrupter acting as a relay tube Die The invention relates to a gas or steam-filled interrupter acting as a relay tube, influenced by two mutually controlling auxiliary discharge sections will. For many purposes of telecommunications, especially in systems that use the Serve telephone traffic, or also in counting and computing devices and the like one is often electrically operating relay arrangements, which are generally faster respond than is the case with mechanically operating switchgear.

There are already switching arrangements known in which two gas or Vapor discharge paths work alternately. The signal voltage is the Control electrodes fed to the two discharge paths, and the mode of operation amounts to the fact that if one of these two paths is ignited, the other path Is blocked. When the other line ignites, the next line comes back in the state of deletion. This function corresponds to a mechanical switch, who has two stable switching positions and only under certain conditions of or one can be brought into the other stable switching position. If as signal alternating voltage If such a curve is created with any curve, then a is created at the output changing voltage with an almost rectangular curve. The curve shape the input voltage only affects the ignition timing, i. H. it can on this way square pulses of different widths, but not different heights be generated. The pulses always have the same maximum voltage value. the Invention uses this principle known per se and allows with such Arrangement to control the actual interrupters, on which one. suitable consumer -be created: can. The invention consists in; that together with the interrupter at least one of the two auxiliary discharge paths in a common vessel like this is arranged so that the main discharge can be directly controlled by them.

The invention will be explained in more detail with reference to the drawing. In Fig. I is a circuit diagram of an embodiment in its for the invention essential parts shown in simplified form. In Fi.g. 2 is the electrode assembly an interrupter according to the invention is greatly simplified in its essential parts, illustrated schematically by way of example.

In Fig. I there are two equivalent auxiliary discharge lines denoted by i and 2, the auxiliary discharge path 2 with the main discharge path 3 is shown connected. The main discharge path 3 is shown larger, in order to express that this is a tube of greater power acts.

The signal voltage is applied to the terminals 5 and 5 and influences the control electrodes of the discharge paths i and 2 via the transformer 6. The control takes place via the grids 7 and 8, which are preceded by suitable resistors 9 and io. The cathode ii and 12, are the same as also the cathode 1 3 of the main discharge path, conveniently heated, wherein the simplicity of illustration, -the the heaters are not drawn. On the other hand, it is also possible, if necessary with. cold cathodes to work.

The anode voltage is applied to the two anodes 15 and 16 via a suitable supplied with a central tap provided throttle. If necessary, here resistors can also be provided. The two anodes are across the capacitor i8 connected to one another, .der with regard to the pulse frequency and the inductance the throttle 17 can be appropriately sized. A fixed grid tension resulting from a Voltage source i9 is derived, is via suitable high-value resistors or as in the illustrated embodiment via a center tap of the Secondary winding of the transformer 6 on the two control electrodes 7, and B. Die The voltage is measured in such a way that the tubes do not ignite.

If now an alternating voltage is applied to the. Terminals 4 and 5 are applied, one of the two discharge paths i or 2 ignites while the other is blocked is. In the other half-wave of the voltage, the second is triggered Discharge path and thus a deletion of the first discharge path.

If the two auxiliary discharge, i and: 2 stretch each other completely are electrically equivalent, so can any of these discharge paths the actual interrupter can be influenced. According to the invention, this is done by that z. B. the discharge path 2 brought together with the main discharge path 3 is that it controls them directly. When igniting this auxiliary discharge path can be achieved with suitable dimensioning and arrangement of the electrodes that- an ignition occurs between the cathode 13 and the anode 2o of the main discharge path takes place, so that a current flows through a connected consumer 2 1. the Blocking can be done in a similar way, so that the main discharge path in Their ignition and extinguishing rhythm is controlled directly by the auxiliary discharge gap 2 will. If necessary, an auxiliary grid can also be provided in the main discharge path to facilitate ignition or extinguishing. This auxiliary grid can connect to the control grid 8 within the tube in a suitable manner. It is but also possible, this auxiliary electrode or an additional auxiliary electrode lead out separately from the discharge vessel: in order to achieve other additional To create tax options depending on other control variables.

In Fig. 2, the structure of a switching tube according to the invention is symbolized. A common cathode system 22 is provided here, which connects all discharge paths is common. The heater is not detailed for the sake of simplicity of illustration drawn. One of the two discharge paths, that of the auxiliary discharge path 2 corresponds in Fig. I, has an anode 23 and a control electrode 24. On the opposite side is corresponding to the discharge path denoted by i in FIG a similar auxiliary discharge path shown, which has an anode 25 and a Control electrode 26 contains. The main discharge path is essential with one larger sized anode 27 is provided. There is also an auxiliary control electrode 28 at a suitable point or between cathode and anode: the auxiliary discharge path, which corresponds to the auxiliary discharge path denoted by i in FIG suitable shielding means29 against the second auxiliary discharge path and the main discharge path shielded so that no unwanted ignitions can occur. The auxiliary discharge path, which corresponds to the auxiliary discharge path denoted by 2 in FIG arranged in such vicinity with the main discharge path that when The auxiliary discharge ignites this discharge also to the discharge space between the cathode and the anode of the main discharge can reach over. If necessary, the auxiliary control electrode 28, in order to facilitate this ignition, with the control electrode 24 of the auxiliary discharge path be connected. However, as already mentioned above, it is also possible to use the auxiliary control electrode lead out separately from the main discharge path.

Claims (1)

PATENT CLAIMS: i. Gas or vapor-filled interrupter acting as a relay tube, which can be influenced by two mutually mutually controlling auxiliary discharge paths, characterized in that, together with the interrupter, at least one of the two auxiliary discharge paths is arranged in a common vessel in such a way that the main discharge can be directly controlled by it, is. a. Interrupter according to Claim i, characterized in that the auxiliary discharge path controlling the main discharge path is arranged directly adjacent to it in such a way that the ignition of the same is able to extend into the main discharge path. 3. Interrupter according to claim i or a, characterized in that the main discharge path is provided with an auxiliary control electrode. q ,. Interrupter according to claim i to 3; characterized in that when the other auxiliary discharge path is arranged in the common vessel, it is attached and optionally provided with shields so that the remaining discharge paths are not significantly influenced by them. 5. Interrupter according to claims i to q., Characterized by a common cathode, preferably working as a hot cathode, for the discharge paths.