DE967022C - Mechanical switching converter with electromagnetically operated contact - Google Patents

Description

ISSUED SEPTEMBER 26, 195V

S 38056 VIIIb / 2id *

Michael Belamin, Nuremberg

has been named as the inventor

The main patent relates to a mechanical switching converter, e.g. B. according to the figure with electromagnetic actuated contact 3 and one in series with it, generating switch-on levels Switching choke 2 and with a special S control circuit that contains a control winding 8, by which the solenoid with positive direction, d. H. in the prescribed flow direction Acting switch-on voltage is excited in the sense of contact closure. The control circuit is arranged so that the main winding lying in series with the converter contact of the switching throttle mentioned, which generates switch-on levels, outside of the cable run which is traversed by the current of the special control circuit .. This is for example the case when the control circuit is shunted to a series connection of the converter contact 3 with the switching throttle containing parts of the main circuit to the main circuit connected as the figure shows. Since in the control circuit at the times when the Switching choke is saturated, no voltage is readily available, an additional

709 691/17

voltage that can be supplied, for example, from an accumulator battery 9, in the Control circuit introduced, which results in a control current in the holding direction and the holding force of the .Schaltmagneten independent of the main current and the additional generated by this in a coil 4 Magnetic force is maintained until by a counter-tension, for example from the switching throttle 2 can be supplied during the switch-off stage, the control current to disappear is brought.

For the purpose of partial control, in the special control circuit that brings about the contact closure, a controllable electrical valve assembly may be arranged, e.g. B. sin "grid controlled Discharge vessel or the series connection of a DC-excited saturation choke 11, 12 and a valve, preferably a dry rectifier 6.

With such a mechanical switching converter, difficulties can arise as a result, that after a failure of the supply voltage, the control means by one of the supply voltage independent voltage, e.g. B. by the above-

mentioned additional voltage, are placed in a different operating state, such that when Return of the supply voltage Faults due to untimely closing of the converter contacts, such as excessive load or - in the case of multi-phase converters - short-circuits between two phases occur.

To overcome these difficulties, according to the invention, an automatic input that responds to the voltage drop in the main power source is Direction for putting out of operation 'influencing the control circuit, independent of the supply voltage Voltage sources provided. For example, a relay 13 can be arranged in the control circuit its winding depends on the mains voltage, advantageous in a multi-phase arrangement is fed by the voltage of the subsequent phase, as shown. The relay is used for Mains voltage failure or even when falling below one. predetermined value of the same the Uninterrupted control circuit. If, as mentioned above, there is an accumulator battery in the control circuit Maintaining the holding current arranged, the battery circuit is through the aforementioned relay interrupted. This also extinguishes the discharge in a discharge vessel, which is approximately in the Control circuit. This discharge vessel can only pass through after the supply voltage has returned an ignition pulse can be re-ignited with the correct phase position.

If the switching magnet is not over a discharge vessel, but instead according to F.igur Controlled via the series connection of a saturation throttle 11, 12 and a valve 6, the Voltage of the additional battery after interruption of the control circuit by the aforementioned relay No longer have a disruptive influence on the magnetization state of the saturation reactor. As a result, the DC bias of the saturable choke their intended influence, so that the contact closure does not differ from what is desired and with the aid of the desired direct current excitation the saturation reactor set time can take place when the supply voltage has returned again.

In the drawing there is only one phase of a three-phase star connection chosen as an example with the secondary winding 10 of a supply transformer shown in full, the control circuit except for the parts already mentioned also contains an advantageously adjustable current limiting resistor 7. The two others Phases with their control groups are to be supplemented accordingly; the battery 9 is all three control circuits together. The load is denoted by 5.

The relay 13 can also be designed with multiple poles and. one of the various interruption points be arranged in the control circuit of each phase, as well as an interruption point for several other relays, their tripping coils on the other Phases of the supply voltage. In a three phase System, for example, there are then three interruption points in each control circuit one after the other, and as soon as there is no voltage in one phase, all three control circuits will go opened by the relevant three-pole relay.

Claims (3)

Patent claims: 1. Mechanical switching converter with electromagnetically operated contact, switch-on levels generating. Switching throttle and a special one, the contact closure via a controllable electrical valve arrangement causing control circuit according to patent. 966 694, characterized by an automatic device that responds to a drop in voltage in the main power source for shutting down voltage sources that influence the control circuit and are independent of the supply voltage. 2. Switching converter according to claim 1, characterized in that the control circuit an automatic one that responds to a voltage drop in the AC power source Interrupting device is arranged. 3. Switching converter according to claim 2, characterized in that in multi-phase arrangements a voltage drop release coil for a multi-pole one to each AC voltage phase Interrupting device is connected, of whose interruption points one in is arranged in the control circuits of the various phases. lao 1 sheet of drawings © 609 710/141 11.56 (709-691 / 17 Ϊ.57)