DE861272C - Self-interrupting relay for generating current pulses - Google Patents

Description

The use of relays to generate current pulses is known.

In the usual circuits here, two relays are usually used, however, only one relay can be used in the basic circuit of FIG. The mode of action is such that. from the battery, connectors -a and b, after connecting a current through the normally closed contact 3, through the coil 2 - and flows back to the second battery terminal. This current brings the relay to Attract. When the relay is activated, its circuit is interrupted by contact 3, and the de-energized relay drops out again. Without. additional precautions The relay pulls in and drops out in very short time intervals. The current through the relay is a pulse current in the schematic shown in FIG represented form.

An extension of this currentless part of the pulse curve in FIG can be achieved in a known manner in that the restoring force tof the relay armature kept small and by connecting a capacitor in parallel to the relay coil or by attachment. , a copper pipe on the relay core to the relay a dropout delay is granted. The measures outlined above result. in the circuit of the relay in the circuit according to FIG. i, a pulse current of the form shown in FIG. 3.

Often, however, such asymmetrical pulses are not required but rather a curve shape similar to that shown in FIG. shown corresponds.

To achieve this, only the relay apart from the drop-out delay would be necessary to issue a pull-in delay of the same length. Such a pickup delay can be achieved in a known manner by the fact that if there is a copper delay the restoring force of the relay armature is selected to be high. This increase in the restoring force the relay armature, however, contradicts the requirement for as low a value as possible Anchor load which, as described above, is a condition of a large dropout delay is.

The invention solves this problem in the following way (see Sect. Fig. 5) -. A changeover contact takes the place of the normally closed contact 3 in FIG 6. The contact spring connected to the battery in the work position is connected via a adjustable resistor 7 connected to the relay coil 5. The springs of the relay are adjusted for a relatively high anchor load.

After switching on the battery, the relay receives over the quiescent side of the changeover contact 6 current and pulls due to the copper delay and the high. Anchor load delayed. A long current pulse is created. During the suit the direct flow through the coil is interrupted because the changeover contact 6 goes from the rest to the working position. However, in the working position An auxiliary current is switched on via the resistor 7. This auxiliary current is through dimension the resistance so that its magnetic effect on the armature by a is slightly smaller than the anchor load. The auxiliary current therefore compensates as soon as he is switched on, largely the large armature restoring force necessary to achieve a delayed suit is necessary. This is the condition for the delayed Drop met again, and by suitable choice of the ampere turns of the relay coil 5, the copper delay and the anchor load, pull-in and drop-out delay largely influence, so that the generation of any pulse shape is possible, where the limits of the maximum pulse duration are determined by the achievable copper delay given are. When using a parallel capacitor to the relay coil Mt itself Theoretically increase the pulse duration as desired. To achieve a long enough In this case, the pull-in delay is the connection of a series resistor between Battery and one of the terminals a ladex b in the arrangement according to FIG. 5 are necessary.

In the attracted state, this relay via the resistor 7 and the Coil 5 generated magnetic field can also in other ways, such. B. by a corresponding dimensioned auxiliary coil on the magnetic core, which is connected by the changeover contact the power source is applied.

The removal of the desired current pulses does not have to be in the relay circuit happen, but can be done in a separate circuit, which is through additional contacts, : which are placed on the relay, can be controlled.

Claims (1)

PATENT CLAIM: Self-interrupting relay for generating current pulses, characterized in that the for. Achieving a delayed suit needed Restoring force of the armature after or shortly before the relay has closed ; an auxiliary magnetic field is largely compensated, so that the also desired Dropout delay can take full effect. The auxiliary magnetic field is either through the actual magnetic coil with the interposition of a current reducing coil. Resistance or by pure - appropriately dimensioned auxiliary coil on the magnetic core -generated, and the activation of Stromres to generate this auxiliary magnetic field takes place via the self-interrupter contact designed as a changeover contact or an additional contact.