DE471819C - Protection arrangement for systems controlled by means of an automatic voltage regulator - Google Patents

Description

Protection arrangement for controlled by means of an automatic voltage regulator Systems In systems with automatic voltage regulators, the regulator has the task to keep the tension constant under all load conditions. Occurs z. B. by Short-circuit a change in the normal operating state becomes the normal Regulator here, too, try to keep the voltage constant, and the system is through this overload is endangered, especially in the case of short circuits of longer duration.

There are now many protection arrangements known for this purpose have a second device, a so-called protection controller or relay, who has the task of operating the voltage regulator as long as the short circuit lasts, except Operation and after the short-circuit has been rectified, the voltage regulator again to release. An additional device can also be provided that is mechanically movable is connected to the controller system and when a desired value is exceeded the current load of the system comes into operation and forces the controller to reduce the voltage to a reduced voltage value corresponding to this greater stress until this state of emergency has been resolved.

In the case of the last-mentioned protection arrangement, according to the invention the additional device is equipped with a current and a voltage coil. Through this Combination of current and voltage relays it is only possible to create a pendulum and to achieve bumpless overcurrent protection regulation - by using the voltage solenoid counteracts any effect of the electricity system.

In the drawing, the application of the protection arrangement is in a known one Push-button contact regulator is shown schematically and for example.

i means a three-phase generator with field a, exciter 3, Excitation field q and shunt regulator 5. 7 is the direct current system of the push button contact eglers and 8 the AC system of the same. These two systems operate through the two levers' i i and i z the two pushbutton contacts 9 and i o, the periodic Get the shunt regulator 5 short-circuited and switched on again. The AC system 8 is balanced by a counterweight i 5: The additional device consists of one to the current transformer 6 connected current coil 13 and one to the generator voltage connected voltage coil 1q .. Both coil cores are by a leaf spring 16 connected to one another, in which an extension of the counterweight 15 with a stop 17 intervenes.

Under normal operating conditions, the stop 17 will not come into contact with the leaf spring 16, and the regulator can thus work as a voltage regulator free of the influence of the additional apparatus. In the event of an overcurrent or short circuit, however, the core of the coil 13 is pulled down and the counterweight 15 is moved downwards by the stop 17, whereby the contacts g and io are opened. The excitation voltage drops, and with it the generator voltage. The coil 14 is now less excited, and its core rises as a result; this will soften the abrupt downward pulling of the core of the coil, ie the voltage will not drop abruptly, but rather the voltage will drop to the value corresponding to the setting due to the mutual action of the coils without oscillations or jolts.

How the controller works after the auxiliary device intervenes is now the following: Excitation voltage and generator voltage drop because the contacts g and io are open. The core of the exchange system 8 now has the tendency to go down in order to shoot the contacts 9 and i o again, but is affected by the effect of coil i 3 prevented from doing so by the contact of stop 17 on leaf spring 16. Coil 7 is. due to the low excitation voltage contact 9 and r o each other again Approach to touch, and the game of contacts now begins in this through the coil 13, the current load-adapted position, d. H. at a lower one Excitation voltage. It is achieved in that the tension. in the event of a short circuit can no longer reach a dangerous value. If the short circuit is eliminated, then the coil 13 to free the stop 17 looking for the contacts 9 and i o are in a higher position due to the growing excitation voltage their periodic work continue, and with it the tension grows. Without coil i q. would now be a too rapid increase in voltage take place, however, this coil 14, which is im Relation to the increase in tension lets its core sink, the stop 17 does not suddenly released, and overregulation is prevented here too. is If the normal state is reached again, the start: ag 17 is free and the controller becomes can work again unaffected by the auxiliary device.

Claims (1)

PATENT CLAIM: Protection arrangement for by means of an automatic voltage regulator controlled systems, in which by: one mechanically moved: me with the control system connected additional device when a desired value of the current load is exceeded the plant of the voltage regulator is forced to respond to one of these greater loads to regulate the corresponding reduced voltage value until this state of emergency is fixed, characterized in that the additional device, from a power and a voltage coil, which are arranged so that the voltage coil of the Additional apparatus acts as a return. -