DE469699C - Device for holding brief current pulses by means of glow tubes, in particular for inductive train control - Google Patents

Description

GERMAN EMPIRE

ISSUED ON DECEMBER 20, 1928

REICH'S PATEN OFFICE

PATENT LETTERING

- JVl 469 699 - CLASS 2Oi GROUP

General Electricity Society in Berlin *)

Patented in the German Empire on February 3, 1928

The invention relates to a circuit in which to hold a briefly running current pulse a glow tube is used. Such circuits are particularly useful in railway signaling technology known to trigger a signal or other effect on the train, when the train passes a certain point. For such signaling devices is it is essential that the correct operational readiness is continuously monitored. Such a one However, there was no monitoring in the previous circuits with glow tubes to reach. Because with the known facilities all are essential for the facility Parts, in particular the power source, the device to be influenced and the device which is connected to the Facility located device cooperates, connected in series with the tube. Accordingly, as long as there is an influence by those on the route Establishment does not take place, also no current flow and as a result also no supervision will be exercised.

According to the invention, all said parts are connected in parallel with the tube, in such a way that the device to be influenced is continuously traversed by the current and is only de-energized if either an influence should take place or a fault occurs in the facility.

Exemplary embodiments of the invention are shown in the drawing. In Fig. 1, α means an oscillating circuit located on the route, consisting of inductance and capacitance and a switch that makes the device ineffective. The other parts shown in the drawing are located on the locomotive, b is an inductance, which is formed in general in the same way as the inductance of the oscillating circuit α on the line and that via the winding d of a differential transformer consisting of three windings an AC power source w is connected. The second winding h of this transformer is also connected to the current source w via an inductance i , in such a way that the two windings h and i are parallel to the windings b and d and the fields generated by the windings d and h cancel each other out . The third winding ^ of the transformer is connected to the terminals of the tube, m is the device to be influenced, for example a relay, which if the armature has dropped

*) The patent seeker stated as the inventor:

Fran \ Hirt in Berlin-Stegliti.

exerts an effect, for example actuates a signal or causes the brake to be triggered, c is a capacitance lying parallel to the relay winding m. The relay winding is also connected to the terminals of the tube. The tube r is connected to the alternating current source via an ohmic or inductive resistor υ. If, as in the exemplary embodiment, a relay m responding only to direct current is used, a special rectifier g must be provided which is located between the alternating current source on the one hand and the relay winding or the tube on the other. This rectifier can be designed as a metal oxide rectifier, for example.

In the idle state, ie when the locomotive is not in the vicinity of the ao oscillation circuit α , a certain current flows from the alternating current source w on the one hand via the windings i and h and on the other hand via the windings b and g. As already mentioned above, this does not generate a field in the transformer d, h, 2 , so that the ignition winding ζ is only traversed by that current that flows from the alternating current source w via the resistor ν and the rectifier g . In addition, a current flows from the alternating current source w via the resistor v, the rectifier g and the relay winding M. The ratios are balanced so that the voltage prevailing at the terminals of the tube is below the ignition voltage. If the locomotive comes close to the oscillation circuit a, the inductance of the winding b will change. As a result, the fields generated by the windings g and h will no longer cancel each other out, and a voltage is induced in the winding ζ in such a way that the voltage prevailing at the terminals of the tube r is increased to an amount above the ignition voltage. Due to the lamp current occurring, the relay m ^ - ^ jeLSirom— is withdrawn from the fact that the armature drops out and carries out the desired switching.

As soon as a wire break or a short circuit occurs somewhere in the circuit, the relay winding m is also de-energized, so that any such disturbance is noticeable by triggering the desired process and forcing the train to stop.

This monitoring fails, however, if something is wrong with the lamp itself, so if z. B. the necessary evacuation or the required gas mixture is no longer available. Against this one can protect oneself in a simple manner by letting the lamp burn continuously via an auxiliary electrode and switching this auxiliary arc into the circuit of the relay winding m . This auxiliary arc can then also be used as a rectifier by appropriately designing the electrodes, so that the special rectifier g is then omitted. Such a device is shown in FIG. Only the parts that are essential for monitoring are shown in this figure. The other parts are connected in exactly the same way as in Fig. Ι. The lamp has three electrodes 1, 2, 3 in such a way that the main arc passes between the electrodes 1, 3 and the auxiliary arc between the electrodes 1, 2.

In Fig. 3 a similar device is shown, in which a further translation option is created in that the electrode 3 of the tube r is designed as a wire loop in such a way that the magnetic monitoring current is passed through this electrode. This ensures that the arrangement is also secured against loosening the connection between these electrodes and the connection point of the various circuits. The embodiment according to FIG. 3 also differs from the embodiments shown so far in that, instead of the series resistor ν, an auxiliary transformer t is connected between the current source and the lamp. This also eliminates the disadvantage that changes in the ballast resistance v, z. B. partial short circuits can cause disturbances between the individual turns of the resistor, which may go unnoticed.

In the previous circuits, the current flowing through it creates a field in the ignition winding ζ , which is superimposed on the effective alternating field of the ignition transformer d, h, ζ and may interfere with it. In the device according to Fig. 4, this is also avoided in that the ignition winding is conveniently tapped in the middle and this tapping point p is connected to the current source via the series resistor ν or the secondary winding of the auxiliary transformer t . Here, the fields of the currents flowing from the alternating current source w through the two parts A _{2 and A 2 of} the ignition coil cancel each other out. On the other hand, the coil acts as a uniform coil with respect to the differential field generated by the windings d, h , in such a way that the partial voltages generated in the two parts Z ₁ , S ₂ add up, so that the ignition voltage with the same number of windings

has the same value as in the previously described devices.

Claims (4)

Patent claims: 1. Device for holding short-term current pulses by means of glow tubes, in particular for inductive train control, characterized in that the device to be monitored in), the device (b) which generates the short-term current pulse, and the power source (ze;) are all connected in parallel are connected to the glow tube (/). 2. Device according to claim i, characterized in that the glow tube (r) has a third monitoring electrode (2) , and that between the monitoring electrode (2) and the one main electrode (1) passing auxiliary arc in the circuit of the device to be monitored (m ) Cherishes. 3. Device according to claim 1, characterized in that the auxiliary 25 'electrode (2) opposite main electrode (3) is designed as a loop and the current flowing through the device (m) to be monitored is also guided via this main electrode (3). 4. Device according to claim 1, characterized in that the ignition winding consists of two coil halves (%, S ₂ ) which are connected in such a way that the fields generated inside the coils by the currents cancel out those generated in them by the alternating field Ignition voltages add up. 1 sheet of drawings BEITMN. OF.ntlfCi; T IM DEH