DE456165C - Separately excited excitation machine for generators in connection with a fast regulator according to the Tirrill system with two exciter windings connected against each other - Google Patents

Description

Separately excited excitation machine for generators in connection with a Rapid regulator according to the Tirrill system with two exciter windings connected against one another. In the case of the high-speed regulators based on the Tirrill system, the regulating range is due to the relay arrangement limited for the voltage of the exciter. It is with the normal arrangement as it became known through the patent 204 598, not possible the tension of the exciter to the zero value or even to negative values. It is also known to equip the exciter machine with two exciter windings, which are switched against each other during operation and in opposite directions from the fast regulator to be influenced. These two excitation windings work in such a way that the excitation winding for the plus voltage through the fast regulator reinforced and at the same time the excitation winding for the negative voltage is weakened. With such an arrangement, the exciter are not fully used because of the constantly switched on reverse winding the total number of ampere turns is significantly weakened.

According to the invention, this is avoided in that the counter-excitation winding is either switched off or switched at higher excitation voltage, so that only the Main excitation winding comes into effect and the exciter machine can be fully utilized can. Furthermore, an even more favorable utilization of the exciter machine can according to the invention can be achieved in that the opposing excitation winding when switching in parallel to the main excitation winding is placed. It is also possible to use the main excitation winding to subdivide so that part of the main field winding to achieve lower Excitation voltages can be switched off together with the counter excitation winding Exemplary embodiments of the invention are shown in the figures.

In a known manner, an alternator i i is powered by an exciter 12 excites and feeds a network 13. The excitation machine 12 has two of each other separate excitation windings, the main excitation winding 14 and the opposing excitation winding 15. A relay 16 which controls contacts 17 is connected to the excitation voltage. The excitation windings 14 and 15 are due to the external excitation 18 and are activated by a further relay i9 controlled. This forms a fast regulator with the Zitterspule2i and the voltage relay24 according to the Tirrill principle, whose mode of action is assumed to be known. The Exciter windings 14 and 15 are preceded by resistors 25 and 26 from the relay i9 alternating measures in be shorted the way that the field of the counter excitation winding is weakened if that of the main excitation winding is reinforced. This predominates, depending on the duration of the opening and closing of relay i9, the series resistor 'either of the main or the counter excitation winding, so that the exciter generates positive or negative voltage. To reach high excitation voltages, the series resistor 25 of the main excitation winding i ¢ long short-circuited by contacts 27 and short by opening these Time upstream. The series resistor 26 of the opposing exciter winding 15 is on the other hand connected upstream for a long time due to the contact 2o remaining open and through for a short time their closing short-circuited, so that even with a high excitation voltage there is always a Counter excitation is present. A full utilization of the exciter is with the previously described arrangement not possible.

To achieve this, according to the invention, a voltage relay 16 is installed in the circuit of the counter excitation winding 15 , which responds to a certain high excitation voltage and switches off the counter excitation winding by opening the contacts 1 7. In this way, a further increase in the excitation voltage is achieved, since now only the main excitation winding 14 is in the excitation circuit and there is no counter-excitation.

It is also possible, as shown in Fig. 2, by an or several relays 16 to bridge further contacts 28 after switching off the opposing excitation winding 15 from the mains voltage iS the counter excitation winding parallel to the main excitation winding 1q. switch.

This arrangement enables more favorable utilization of the exciter in connection with a fast regulator after the Tirrillsy system possible than with the previous arrangements.

Claims (3)

PATENT CLAIMS: i. Separately excited excitation machine for generators in connection with a fast regulator according to the Tirrill system with two oppositely connected excitation windings, characterized in that the opposing excitation winding is either switched off or switched over at higher excitation voltages, so that only the main excitation winding or both windings come into effect in the same sense. 2. Separately excited exciter according to claim i, characterized in that the counter excitation winding when switching is placed parallel to the main excitation winding. 3. Separately excited exciter Claim i, characterized in that the main excitation winding is subdivided and, one part at low excitation voltages together with the counter excitation winding is switched off. q .. Separately excited excitation machine according to claims i to 3, thereby characterized in that the switching off or switching is carried out by an on the voltage of the exciter horizontal relay can be effected.