DE461235C - Electromagnetic relay for several independent alternating current circuits that do not have a common contact - Google Patents

Description

In many electrical apparatus, such as B. with automatic telephone exchanges, Calculating machines, etc., relays are required which have a large number of current paths have to close. The disadvantage of all ordinary electromagnetic relays now lies in the unreliability of the contacts. The relay according to the present invention is now intended to address this disadvantage

ίο Reduce the minimum by using it for arbitrary many independent current paths only provides a single contact.

The idea of the invention is as follows: A closed iron core carries two coils that are wound against each other and are connected to a direct current source (in the accompanying figure α and b). In addition, just as many coils (c, d, e, f) , which are wound in the same direction and connected to an alternating current network, are placed over the iron core, which are to be closed as electrical circuits by the relay, all of which are placed over the winding of an ordinary electromagnet (Ji, i , j, k) lead. So-

«5 as long as the coil α is not connected to the direct current network (1,2) through the key g , the inductive resistance of the individual coils c, d, e, f is so great that almost the entire voltage is throttled and that with these Coils connected to magnets h, i, j, k can not respond. At the moment, however, in which the coil α is flowed through by direct current, which is chosen so strong that the magnetic saturation of the iron core is reached, the inductive resistance of the coils c, d, e, f disappears almost completely, since the with the Direct current rectified half-wave of alternating current due to the saturation of the iron causes only a slight increase in the magnetic flux and the half-wave opposite to direct current produces a decrease in its rising part and an increase in its descending part and consequently cannot generate any self-induced voltage that counteracts the applied voltage . The relays are opened in such a way that 'the second direct current coil h is connected to the direct current network, either by a button or automatically by an electromagnet. This then destroys the flux generated by the direct current, and the coils c, d, e, f act as choke coils. Of course, the coils α and b must always be de-energized at the same time if the relay is to be used again. This can be done either in that both circuits of those electromagnets, which connect the coils α and b to the direct current network, are passed through the same relay or that both circuits are interrupted by a button.

This type of current cancellation is achieved at the same time that when interrupting the electromagnet at the contacts no interrupter sparks can occur, because in the Moments of loosening the entire flow has already been eliminated.

Of course, the circuits to be closed can be routed through several relays because the coils are designed that way

ίο know that their ohmic resistances are small compared to their inductive resistances.

If the relay is to be connected to an alternating current network

are closed without a direct current source is available, so of the coils α and b only that coil can be used which is wound in opposite directions to the coils c, d, e, f, but this one coil must be dimensioned so that it tolerates all current fluctuations which are caused by the simultaneous inactivity of several of the coils c, d, e, f . Instead of connecting these coils to the mains, it is also sufficient to short-circuit them, since the entire arrangement then acts like a short-circuited transformer. The relay becomes lighter, the higher frequency alternating currents are used.

Claims (2)

Patent claims: ι. Electromagnetic relay for several independent ones, not AC circuits routed via a common contact, characterized in that that each alternating current circuit is passed through one of the coils sitting on a closed iron ring, whose inductive resistances can be eliminated in a known manner that their iron core by a direct current traversed coil is interspersed with a magnetic flux of force up to magnetic saturation and whose inductive resistances are restored by passing this magnetic flux through a second of direct current through which the first coil wound in the opposite direction is eliminated. 2. Electromagnetic relay according to claim 1, characterized in that the inductive resistances of the individual coils by one of the same alternating current counter-wound coil that has flowed through it is canceled. For this purpose ι sheet of drawings.