DE711254C - Receiving relay for remote control systems - Google Patents

Description

Receiving relay for remote control systems It is used to receive remote control commands Serving relay known, which possesses two windings in one embodiment, the are connected to the same voltage. The armature of one winding is with mechanical damping. Both anchors are linked by a linkage connected to which the movable part of a switch contact is attached. Changes the mains voltage so slowly that the armature provided with a damping follows can, both anchors change their position to the same extent at every moment, so that the linkage connecting them is moved parallel to itself. The switch contact as a result, is not actuated. If, on the other hand, the voltage changes with a certain value Minimum speed, then only the relay armature moves without delay, the none Has damping, while the relay armature provided with damping remains. The spirit length connecting the two anchors experiences a twist so that the switch contact attached to it is closed.

This relay is operated according to a remote control method in which every switching command by a lowering and a subsequent raising the mains voltage is marked. Between these two voltage changes the voltage remains lowered for some time, and this time interval is decisive for the respective switching command. As a result, the mentioned relay speaks only then and only as long as there is a certain rate of change in voltage is. If the voltage has reached the lowered value, the switching contact would be reopen so that special means must be provided to keep him up to the subsequent increase in tension to keep closed.

The relay according to the invention also responds to a specific one Rate of change of the mains voltage on and is used in remote control systems used. However, it is operated according to a different remote control method, namely such as it is indicated in the main patent 70270. This method consists in the execution of different, of one or more '' Commands sent to the individual receiving points depending on the location of the encoder the repeated brief occurrence of certain voltage reductions and / or certain rates of change of the voltage and current vectors of the network takes place, all at a certain time interval and at a certain time Follow @ made. To act on the vectors, for example very brief interruptions in the power line are used. In this procedure every interruption causes a lowering of the mains voltage, but this is due to the immediate reconnection lasts only a very short time. Lowering and raising the Voltage are therefore directly connected to each other, so that the well-known relay cannot be operated after this procedure, because its linkage is first after the one and then immediately to the other side, would turn out .. Accordingly the intended remote control effect would also be called into question.

A relay that reacts to a certain rate of change in the mains voltage responds and can be operated according to the remote control method of the main patent, is designed according to the invention so that the premagnetization of the relay as a function is changed by the absolute value of the voltage. The arrangement is expedient made in such a way that one inferred without delay and one delayed in the event of voltage changes the following flow is provided, the latter in a closed iron circle flows.

The figure shows an embodiment of the relay. The relay has a closed iron circle and two middle legs, between where the rotating armature is arranged, which is under the action of a spring. The two middle legs each carry a winding, and this becomes immediate excited by the AC voltage of the network. These two windings create one Alternating flow, the dashed in the relay core and in your two outer legs has drawn course. So it flows through the middle leg from the left to the left right, then branches up and down and has in the two outer legs the opposite direction.

One winding is attached to each of the two outer legs, and both windings are connected in the manner shown. These two windings are connected with their terminals a and b via a circuit of rectifiers and capacitors to the AC voltage network, i.e. energized with direct current, and because of the use of capacitors, the excitation of these windings follows any voltage change in the network with some delay. These two windings generate a constant flux, the course of which is indicated in the figure by a dotted line. The constant flow closes in the closed iron circle, which consists of the two outer legs, and does not penetrate the middle legs. The circuit and dimensioning of the two direct current windings are carried out in such a way that an alternating voltage never occurs at the terminals ri and b the alternating flow remains constant despite the decreasing number of ampere-turns. Accordingly, the position of the rotating armature does not change either. In the case of rapid voltage drops, as occurs when switching commands are sent, the direct current bias follows the change in the alternating current magnetization only with a delay, so that a brief weakening of the alternating flux occurs, which results in a deflection of the rotating armature.

Claims (5)

PATEj` CLAIMS. i. At a certain rate of change the mains voltage responsive receiving relay for remote control systems where the Switching commands from several short-term effects occurring at certain time intervals are given to the vectors of the network, according to patent 7o6 27o, characterized that the bias of the relay as a function of the absolute value of the voltage is changeable. 2. receiving relay according to claim i, characterized in that the relay core carries two magnetic fluxes, one of which when the voltage changes primary delayed, followed by the other delayed, the latter in a closed Iron circle flows. 3. receiving relay according to claim i and 2, characterized in that that the winding arranged on the middle legs has a delayed alternating flow generated in one of the outer Thigh the same in the other outer leg has the opposite direction as the delayed flow. q .. Receiving relay according to Claims i to 3, characterized in that the delayed Flux is formed by rectification from the control voltage. 5. Receive relay according to claim i to ¢, characterized in that the windings for generating of the delayed flow are switched so that there is no constant flow in the middle leg occurs and no interchangeable foot is induced in them.