DE850482C - Circuit arrangement for optionally switching on two of three devices - Google Patents

Description

Circuit arrangement for selectively switching on two of three devices In the patent 832 63 i an arrangement is described which allows two devices of three existing devices to be switched on as required. As an application example, switching on two phase-shifted heating voltages for two transmitter tubes was treated, with a third tube serving as a reserve. Regardless of which of the three tubes is used as a reserve, the two tubes currently in operation always receive phase-shifted voltages. The implementation of the inventive concept, the main patent were three contactors corresponding to the three tubes, each with a working contact and the two changeover applied in accordance with. Such an arrangement has certain disadvantages for large currents. When using changeover contacts or also break contacts, the contact is not particularly good because of the low contact pressure, so that a high current load is not possible.

According to the invention, therefore, the changeover contacts are used as working contacts trained, and the useful current for each device is exclusively via working contacts the contactors out. In a further embodiment of the invention, normally closed contacts control Each contactor has an additional contactor with normally open contacts. The details such circuits are shown in the figures.

In Fig. T, Ia, IIa, IIIa are the three contactor coils that are connected to the mains or another power source by means of switches S1, S $, S3. There are always only. two switches turned on. Tri, Tr2, Tr3 represent the heating transformers of the three tubes. One end of the three primary sides is led to point A, B, the common connection of the two phase-shifted voltages. The other end of the transformer winding is connected to the switching lever of the normally open contact i of the associated contactor. The normally open contact i is simultaneously connected to the normally open contacts 2 of the further contactors 11a, IIb in the manner according to the invention. The normally open contacts i of the other two contactors are switched in cyclic exchange. The coils of the further contactors Ib or Ilb or IIIb are supplied with current in the manner according to the invention via the normally closed contacts 3 of these contactors. When the main switch Sh is switched on, the contactors Ib, IIb, IIIb pick up. The working contacts i for the filament transformers are connected to the voltage of supply line B. When the individual tubes are switched on using switches Si, SZ or S3, of which only two are switched on, the voltage is switched from supply line B to A ,, because as a result of opening the normally closed contacts 3 z. B. Contactor Ib opens its contact 2, but contact 2 of contactor Yes is closed at the same time. Two tubes never get the same voltage A or B, as you can easily see from the circuit.

In Fig.2 a slightly modified circuit is shown. The desk S1 not only switches on coil Ia, but also on coil IIIb at the same time Switch S2 at the same time as the coil l yes the coil Ib. According to the cyclic Interchanging the switching connections has the effect of switch Sa.

The switch Sh according to Fig. I is superfluous in this embodiment.

In a further development of the inventive concept, it is also possible to get by with one contactor each, which only has working contacts. In this case, however, a specially designed on-switch or a special switch-on interlock is required in order to prevent three tubes from being switched on at the same time. A corresponding circuit with only three chutes is shown in Fig. 3a. Each contactor has four working contacts. According to a further development of the inventive concept, the transformer windings are connected to two working contacts ia, ib and the voltage of the supply lines A and B are connected to one working contact 2a and 2b. The contacts ia are connected in cyclic exchange with the contacts 2a of the following contactor, the contacts il, in reverse cyclic exchange with the Kaitakten 2b of the previous contactor. Since only two devices, in the case described, two transformers should receive power at the same time, it is advisable to arrange a special multi-pole switch in place of the three switches Si, S2, S3, which only allows two contacts to be switched on at the same time. Such a switch is shown in Figure 36.

Claims (4)

PATENT CLAIMS: i. Circuit arrangement for connection, any two switchable from three devices to two different supply lines according to patent 832631, characterized in that the changeover contacts are designed as working contacts and the useful current for each device exclusively via the normally open contacts of the contactors is led. 2. Circuit arrangement according to claim i, characterized in that Normally closed contacts of each contactor an additional contactor with normally open contacts for the Controlling useful electricity. 3. Circuit arrangement according to claim i, characterized in that when only three contactors are used, each contactor has four working contacts (ia, ib, 2a, 2b), two of which (2a, 2b) for connecting the two leads (A and B ) and two (ia, il,) serve to connect the associated device, and that in cyclic order the mating contacts of the first contactor for the device (ta) with the mating contacts of the following contactor for the supply line (2a) and in reverse cyclic order the mating contacts of the second contactor for the device (ib) are connected to the mating contacts of the previous contactor for the supply line (2b). 4. Circuit arrangement according to claim i to 3, characterized in that that the contactor coil current is switched on via a three-pole switch, which only allows two poles to be switched on at a time.