DE208522C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- Ju 208522 CLASS 21 c. GROUP

If several generators work via a transformer each on the same Sämmelschienen, so it must be possible in the event of a short circuit, each generator of the Disconnect busbars. A short circuit can now also occur in a transformer, and in this case must be both the connection between transformer and busbars as well as the one between the generator and the transformer can be interrupted. Therefore there would be two

■ Maximum current breaker for each out of one Power generator and a transformer. About the second pretty much To avoid costly high-power circuit breakers, one has to take into account that that short circuits in the transformers only. Occur rarely, ordinary fuses are used. However, this measure is imperfect.

A perfect solution is provided by such a design of the intermediate transformer and electricity consumers lying between the generator and transformer flowing currents influenced maximum current breaker that the latter in its open position makes the excitation of the generator currentless.

In the drawing, an embodiment of the invention for one of a is schematically . Power generator and a transformer existing machine group shown in the the high current switch in connection with its between power generator and transformer lying trigger coil an auxiliary current that switches off the excitation of the power generator closes.

ι is the 'power generator that comes from the battery 2 via contact 3, ■ switching lever 4 and the control resistor 5 is excited. Of the Electricity generated by the machine 1 is fed to the transformer 8 through lines 6 and 7. In the line 7 is the trip coil 9 for the between the transformer and Mains arranged high current switch 12. The secondary coil of the transformer 8 is Connected to the busbars 13,14 via the levers 10, 11 of the maximum current breaker 12. The shift levers 10, 11 are coupled and can be opened by the magnet 15, the auxiliary switch 16 being closed will.

The switching lever 4 lying in the excitation circuit of the power generator I ^ is by a Electromagnet 17 controlled; it is also coupled to a shift lever 18, the when opening the shift lever 4, the excitation winding of the power generator 1 via the resistor 19 and the control resistor 5 closes.

The mode of action is as follows:

When a short circuit occurs in the transformer 8 or the network 13, 14, the The current in the trip coil 9 increases in such a way that it closes the associated switch 20. As a result, a current flows from the battery 2 via the lines 21, 22, switch 20, Line 23, electromagnet 15 of the high current switch 12 and over the lines 25, 26 'back to battery 2. The highest

Power cut-off switch 12 is opened as a result, and the power generator and transformer are, thus from the busbars 13, 14 'separated. .- '

After opening the maximum current switch, the auxiliary switch 16 is closed.

- ₁ - the. As a result, if switch 20 is still closed, another current flows from battery 2 via lines 21, 22, switch 20, line 27, auxiliary switch 16, line 28, electromagnet 17 and via lines 24, 25, 26 to the Battery 2 back. As a result, the shift lever 4 is brought into the open position and the shift lever 18 into the closed position, in which the excitation winding of the power generator i, as already mentioned, is closed via the resistor 19 and the regulating resistor 5. The power generator 1 is therefore de-energized, and even in the event of a short circuit in the transformer 8, the short-circuit current would be interrupted.

The excitation current of the generator 1 will only be interrupted when the Trip coil 9 still keeps switch 20 closed after the high current switch has its Has taken the open position and the auxiliary switch 16 has closed. This will always be the Case, be with a short circuit in the transformer 8. However, it can also be the Be the case when the switch 20 closed by the trip coil 9 is slowly opened, as is the case, for example, when using a hot wire relay.

In the latter case, where there is no short circuit in the transformer 8, the interruption to avoid the excitation current of the power generator ι is expedient -Auxiliary switch 16 closed only after the high current switch has cut the current for a while interrupted. For this purpose, as shown in Fig. 2, the contact bridge of the Switch 16 provided with a delay device and not immediately, but be coupled to the lever of the high current switch 12 by means of a spring 31. When opening the high current switch, only the spring 31 is then tensioned first; the Switch 16 is closed only after some time due to the delay device, while the switch 20 has time to return to the open position, unless a short circuit j in the transformer 8 holds the switch 20 closed.

Claims (2)

Patent claims: ■ 1. Safety device for electrical systems in which a network consists of several Generators each via a transformer with the interposition of automatic ones High current switch is fed, characterized in that the excitation of each power generator by the lying between its transformer and the grid, from the one between the generator and transformer flowing 'Currents affected peak current breaker in the position of the latter that removes the connection between the transformer and the network, it is de-energized. 2. Safety device according to claim 1, characterized in that the excitation of the power generator (1) is monitored Auxiliary switch (16) is moved by the high current switch (12) that it later than the maximum current switch comes into action, so that it is monitored Auxiliary circuit can only be closed if the flowing between the generator and the transformer Current influenced switch (9) monitoring the maximum current switch Second auxiliary circuit still keeps closed. 1 sheet of drawings.