DE970764C - Switching device with gas or steam-filled discharge tubes - Google Patents

Description

ISSUED OCTOBER 30, 1958

S 38436VIIIa / 21 a ¹

Otto Eisenschmid, Munich

has been named as the inventor

The invention relates to a switching device with gas or vapor-precipitated discharge tubes, in which several tubes (chain of tubes) provided with at least one grid are connected in such a way that during or before the ignition of the following tube the preceding tube goes out, and the task of such a switching device is set to create, which makes it possible to chronologically successive processes with the help of To control alternating voltages.

According to the invention, the anode circles of the tubes are overlaid to achieve the stated object a transformer with a voltage source supplying a sinusoidal alternating voltage of this type connected that the anodes are alternately connected to the two ends of the one connected to ground Mittelanzapfunig provided secondary winding are connected and that between the circuit the one tube and the control grid of the

subsequent tube time delay elements are provided, which start the ignition of the subsequent Control the tube.

There are already tube circuits (step and counting circuits) known in which a number of high vacuum or gas discharge tubes in such a way via delay elements, for example consist of resistor-capacitor or resistor-choke circuits, coupled together and connected on the anode voltage side to one or more DC voltage sources are, so that when the first tube conducts current after a certain amount of time, through one or more delay elements the next tube is energized for a certain period of time; this next tube triggers the next one, etc.

It is also known in counting rings with gas-filled tubes that the anodes are not connected to direct voltage to apply negative impulses,

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in order to bring about corresponding changes in the anode current, which result in the successive ignition and Control extinction of the tubes.

It is also known for gas tube meters with two tube groups, the indexing process from one tube to the next by applying different ones to the anodes To control potentials supplied by the output of a trigger circuit. ίο As far as such circuits for the control of work processes in alternating voltage circuits To be used, it is necessary to use the individual incremental clocks with DC voltage powered control circuit by appropriate switching measures with the frequency of the AC voltage to synchronize in order to ensure that the timing of the control clocks is constant to achieve the phase position of the alternating voltage. When using Gasao which is not self-extinguishing Discharge tubes are step circuits fed from DC voltage sources to provide additional means that extinguish the pre-tube after the ignition of the successor tube force.

According to the invention, step switches that trigger successive switching operations to be used in alternating voltage circuits, on the anode voltage side from the the same AC voltage network in which the switching operations are to be triggered. Such circuits are simplified by the elimination of synchronization and deletion precautions considerable in their expenditure on switching means.

Furthermore, the invention can be developed in the direction that the each ignited tube controls the flow of current sequential processes, whereby for the Control of the current one or the currents of several or all of the tubes can be used can. The control can be effected in that between the circuit of a tube and The control grid of the downstream tube is provided with time delay elements that control the ignition insert effect of the following tube. As time delay elements, i? C elements or Inductivities can be provided in the anode and / or control grid circuit of the individual tubes.

Further features of the invention can be found in the drawing and description. In the drawing, several embodiments of the invention are shown, namely show the

Fig. Ι to 9 the circuits and Figs. La to 9a each of the circuits associated graphical representations of the grid and anode voltages as a function of the Time. :

The anodes of tubes 1, 2. . . ι to 9 are alternately connected to the ends of the secondary winding of a transformer T _A , which is connected on the primary side to an AC voltage source. The center tap of the secondary winding is connected to ground and thus determines the zero potential of the circuit. R is the resistance in the anode-cathode circuit of the tubes, at which the anode voltage drops when the tube is ignited, and to which the time delay elements required for igniting the next tube are connected. The resistor R _n (n = i, 2,...) Can, for example, be the winding of a relay that is used to trigger further switching processes. If no relays are switched in the cathode-anode circuits of one or more tubes, it is possible to increase the time sequence of the switching processes.

In the circuit of Fig. 1 are in the grid circles of the tubes 1, 2,. . . the voltage source B ₁ B ₂ , ... and the grid resistors R _gl , R _g2,. . . The time delay elements consist of resistors R ₂₁ , R _z2,. . . and the capacities C ₂₁ , C _22,. . . The circuit according to FIG. 2 differs from that according to FIG. 1 in that only one grid voltage source B is present. To generate voltage peaks, transformers T ₁ , T _2,. . . switched into the grid circles. In the circuit according to FIG. 4, the anode circles of one tube are connected to the grid circles of the following tube with the aid of transformers U ₁ , U _2,. . . coupled. Instead of the transformer, relays with two windings can also be used. If alternating voltage is used as the grid bias, then the circuit according to FIG. 5 results. Here, inductances L ₁ , L _2,. . . (possibly relays) in the cathode circuits of the tubes, while the grids of the individual tubes via the resistors R _cv R _C2,. . . are alternately connected to the ends of the secondary winding of a transformer T ₀ . The connection of the tubes to a star-connected three-phase system is shown in FIG. 7 to 9 show circuits in which, instead of the triodes, tetrodes are used as discharge tubes in order to obtain a positive ignition characteristic (ignition voltage as a function of the anode voltage). The protective grids of the tetrodes are biased either with direct voltage (Fig. 7) or with alternating voltage (Figs. 8 and 9). As time delay elements, i? C elements are used in the grid circles in the circuits according to FIGS. 7 and 8 and inductances in the anode circuits in FIG. 9.

In FIGS. 1 a to 9 a, U _{0n denotes} anode voltage, U _gn control grid voltage, U _sn screen grid voltage and U _2n ignition voltage of the tubes η = ι, 2, 3, ... O, α and b denote the DC potentials of the grid bias .

The operation of the switching devices is as follows: After the starter circuit of the first tube, a current flows through this tube and through the resistor R ₁

Tube is exploited. If the anode voltage of the next tube becomes positive, then this tube ignites, since the time delay element is dimensioned so that the grid voltage generated is in the area of the ignition area of the tube. After the end of the half-wave, the tube goes out because the anode voltage then becomes negative. In the next positive half-wave the tube remains blocked because the voltage on the time delay element has meanwhile dropped below the ignition voltage range required for ignition. The process described above is repeated for the following tubes. If the last tube is connected to the first via a time delay element of the same type, a closed circuit is created which remains in operation after the first tube has been ignited once. By alternately connecting the tubes to the ends of the secondary winding of the transformer T _A it is achieved that each half-wave ignites one tube. Whenever a tube is ignited, the relay that may be in the tube circuit is also excited at the same time and can then trigger a switching process. If the tubes are to be ignited only in the course of the half-wave, this is done - as shown in Fig. 3 or 3a - that a voltage peak induced in the grid circle extends into the ignition area of the tube, while the i? C element so is dimensioned so that without the voltage spike it does not generate the voltage required to ignite the tube. Any ignition point can be set by shifting the voltage peak over time.

Claims (11)

PATENT CLAIMS: r. Switching device with gas or vapor-filled discharge tubes in which several tubes (chain of tubes) provided with at least one grid are connected so that when or before the ignition of the following tube, the preceding tube goes out, characterized in that that the anode circles of the tubes via a transformer with a sinusoidal AC voltage supplying voltage source are connected in such a way that the anodes alternately in the two ends of the connected to a secondary winding provided with a center tap connected to ground and that between the circuit of one tube and the control grid of the following Tube time delay elements are provided, which start the ignition of the following Control the tube. 2. device after; Claim 1, characterized in that that the current flowing through each ignited tube is consecutive in time Processes controls, whereby for the control of the stream one or the streams ■ 60 several or all tubes can be used are. 3. Apparatus according to claim 1 or 2, characterized in that in the control grid circles of the tubes ÄC elements or inductors are provided as time delay elements are. 4. Apparatus according to claim 1 and 2, characterized in that the control of the Ignition insert takes place with the help of voltage peaks, for their generation or transmission ÄC elements or transformers in the control grid circuits of the tubes are provided. 5. Apparatus according to claim 1 and 2, characterized in that in the anode circuits the individual tube inductances are provided as time delay elements. 6. Apparatus according to claim 1 and 2, characterized in that the control grid circle of each subsequent tube to the anode circuit of the with the help of a transformer preceding tube is coupled, the windings of the transformer preferably as Relay windings are formed. 7. Apparatus according to claim 1, characterized in that that the control grids alternate with the ends of the secondary winding provided with a center tap connected to ground a second transformer are connected in such a way that when the anode voltage is positive the control grid voltage is negative. go 8. Device according to one of claims 1 to 7, characterized in that an auxiliary grid (Screen grid) is present in the respective gas-filled tube in order to use a Auxiliary voltage to shift the ignition characteristic of the tube into the range of positive ignition voltages. 9. Apparatus according to claim 8, characterized in that that the auxiliary grids of the tubes are alternately provided with the ends of the center tap connected to the ground Secondary winding of a mains transformer are connected. 10. Apparatus according to claim 1 and 2, characterized by such a modification that the tubes are marked with an asterisk switched three-phase system are connected that the zero point is connected to ground, while the anodes of three tubes connected in series are connected to the three phases are. 11. The device according to claim 1 to 10, characterized characterized that two or more tubes form a closed circuit (ring circuit) are interconnected. Considered publications:
German Patent Nos. 821 564, 849925; U.S. Patent Nos. 2,442,769, 2,650,333, 425,307, 2,598,764, 2,591,541, 2,644,110, 644 in, 2399473. For this purpose 2 sheets of drawings © 509 657/138 l '. (Sflft 644711 10. 5Ä)