DE376356C - Protection circuit against overcurrent in branch lines with main switch in the supply line to the busbars and secondary switches in the branch lines - Google Patents

Description

The invention relates to a protective circuit against overcurrent in branch lines, with which makes it possible to switch off one or more branch lines in the event of a fault, if the switch of the disturbed line is not rated for the fault current power is. The invention consists in that when a fault occurs in a branch line, z. B. short circuit, a relay switched on in the disturbed line Circuit for an intermediate relay closes, which is the trigger coil for the main switch switches on, while when the main switch is opened, a circuit for the tension release of the secondary switch is closed, opening the closing coil of the main switch is closed. In the event of the main switch in the supply line to the busbars becomes one of the faults switched off, which is built as a flameproof oil switch, while the 'secondary switch can be ordinary oil switches in the branch lines. One comes with a single flameproof switch for

*) The following have been named as inventors by the patent seeker:

Richard Bauch in Charlottenburg and Dipl.-Ing. Rudolf Völ \ ing in Siemensstadt b. Berlin.

a larger number of branch lines by removing the interruption in the event of a short circuit moved to this switch.

In the drawing, R, S, T are the busbars and I, II, III are three branch lines, for example. HS is the main switch in the supply line to the busbars, NS are secondary switches in the branch lines. M are maximum relays, Zw intermediate relays, SA voltage releases for the auxiliary switches and E and O on and off relays for the main switch HS.

The mode of operation of the protective circuit is as follows: If, for example, a short circuit occurs in branch line I between lines 5 "and T , the maximum relay picks up its armature and closes contact 3. As a result, a current flows from the positive pole of battery B over 1, 2, 3, 4, Zw, 5 and 6 to the negative pole of the battery. The intermediate relay Zw responds and closes the contacts α and b. As a result, the current from the battery now flows once via contact 3 on the maximum relay and the contact b at the intermediate relay to the tripping coil A of the main switch and also via contact a. The main switch is switched off and contacts 7, 8, 9, 10 are closed - j going on, the maximum relay leaves its anchor 'falls and breaks contact 3., but intermediate relay Zw remains energized through plus 1, 2, 11, a, b, 4, Zw, 5, 7 to minus F. The shunt release SA of the secondary switch receives current from plus through i, 2, 11, a, b, 15, SA, 12, 10 to minus. The voltage release interrupts the disturbed line and opens contacts 12 and 6 and closes contacts 13 and 14. As a result, current flows from branch point 15 via 13 to closing coil E of the main switch; the main switch is closed and the undisturbed lines receive power again. At the same time, contacts 7, 8, 9, 10 on the main switch are opened. By opening contact 7, the intermediate relay is de-energized, it drops its armature and interrupts contacts α and b. A display device F is switched on via the contact 14 of the open secondary switch, on which, for example, a drop flap is arranged for each branch line, the appearance of which indicates the faulty line. Since the switching processes follow one another very quickly, the current surge caused by switching the healthy lines off and on can be safely allowed.

If a fault occurs in another line, the same switching process is repeated.

Instead of a special intermediate relay, one could also use one with the maximum relay use connected auxiliary coil; but this would be a special version of the maximum relay make necessary what one tries to avoid if possible. You could also use the maximum relay in his Lock the switch-on position mechanically and this lock, for example, when switching off of the main switch electromagnetically, for example when opening the secondary switch.

Claims (4)

Patent Claims: 1. Protection circuit against overcurrent in branch lines with main switch in the supply line to the busbars and secondary switches in the branch lines, characterized in that when a fault occurs in a branch line (e.g. short circuit) a relay (M) switched on in the faulty line is the Circuit for an intermediate relay (Zw) closes, which switches on the tripping coil (A) for the main switch (HS) , while when the main switch is opened, a circuit for the voltage release (SA) of the secondary switch ( NS) is closed, opening the closing coil ( E) the main switch is closed. 2. Protection circuit according to claim 1, characterized by two contacts controlled by the intermediate relay (a, b), via which the intermediate relay is kept energized in parallel or series connection and the on and off relay for the main switch and the voltage release for the secondary switch .Strom obtain. 3. Protection circuit according to claim 1, characterized in that in place of the Intermediate relay a special winding is used on the maximum relay. 4. Protection circuit according to claim r, characterized in that the maximum relay is held mechanically when responding and the mechanical lock when the main switch is switched on again is canceled again. 1 sheet of drawings.