DE192911C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 192911 CLASS 21c. GROUP

WALTER SCHÄFFER in BERLIN.

Patented in the German Empire on August 9, 1906.

In the case of the known current transformers, which use rotating switches to generate direct currents in transform pulsating direct currents or into jumping single or multi-phase alternating currents, As is well known, interruption sparks can be caused by the use of capacitors or polarization cells be suppressed.

It turns out, however, that in this case

ίο constantly repetitive in the company Short-circuit the capacitors or polarization cells due to their capacitance Under certain circumstances, strong spark formation (closing spark) on the rotating switch occurs.

The essence of the present innovation is that for the purpose of Suppression of the mentioned closing sparks of the capacitor or the cell battery is not immediately short-circuited, but that the short-circuit under Using an induction resistor in two paragraphs is done by adding the capacitance (Capacitor or cell battery) an induction resistor is connected in parallel which is short-circuited itself after the parallel connection.

The essence of this method described above is illustrated by FIG should only be the simplest of the many known and possible switching methods as the new method can also be used for the more complicated switching arrangements remains essentially unchanged.

In Fig. Ι the current flows from a current source α directly through wire b to the useful resistor c. The shift lever e is mounted rotatably about d in the clockwise direction. The contacts f, g and h can be touched by the switching lever e at the same time, that is to say connected to one another.

If the switching lever e is in such a way that it does not touch any of the contacts /, g and h , the current from the useful resistor c through the wire, i etc. cannot flow back to the power source. However, if the shift lever e first connects the contacts fund g when it moves in the direction of the arrow, sparking between g and e will not occur, although the capacitance is in the charged state. The suppression of spark formation is brought about by the induction coil / connected upstream of the capacitance k in relation to the oscillating circuit f, g, I, k.

As the switch e moves further, contact h is touched by the same, as a result of which the induction coil / is short-circuited. Then, for known reasons, the interruption between / and e will take place without a spark.

Finally, it should be expressly mentioned that it is completely unimportant for the new method whether the current flow to the useful resistors c is interrupted in any other way except in the manner indicated, or whether the current direction in the useful resistors is interrupted by special devices

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alternates, or whether the latter arrangements are carried out in one or more phases will.

Claims (1)

Pate nt-An SPRU ch: Method for suppressing the closing spark when short-circuiting of capacities, characterized in that the short-circuiting with the aid an induction resistor takes place in two paragraphs, so that first the induction resistor connected in parallel to the capacitance and then short-circuited. For this purpose ι sheet of drawings.