DE330806C - Method and device for achieving a turning field proportional to the armature current in direct current reversing pole machines - Google Patents

Description

Method and device for achieving an armature current proportional Reversing field in DC reversing pole machines. The easiest way to work with direct current reversing pole machines to let the turning field grow proportionally to the armature current is that one does not saturate the iron circle of the turning poles. This means can, however, from structural and economic reasons are not always used, especially not with machines, who have to suffer relatively large overloads. Especially for the overload capacity of the machine, however, the proportionality of the turning field with the current is more decisive Meaning.

According to the invention, the same is achieved artificially by using the Saturation state of an auxiliary exciter that is influenced by the main machine current can have a compensating effect on the excitation of the turning poles.

This can be done according to Fig. I, for example, that one of fed by the auxiliary exciter g excited by the main current of the reversing pole machine Additional winding z on the reversing pole of the main current winding w counteract the same leaves. In the case of smaller main currents, the counteraction is strong as long as the one with the excitation winding h provided machine g is unsaturated; with larger main flows increases as a result the saturation of the auxiliary exciter g their tension less and less, the counteraction the winding z becomes weaker. By choosing the saturation of the machine accordingly The effect of the winding can be adjusted as desired. Just like that The arrangement according to Fig. I is that according to Fig. A for machines with alternating current or direction of rotation can be used without further ado. The additional winding z of the reversing pole is then supplied by two bleach-sized auxiliary excitation machines, whose armatures g1, g2 on the one hand and their shunt windings e1, e2 on the other hand so connected in series are that the terminal voltages of the machines g1, g2 when the main machine is idling lift. The main current windings connected in series give when there is a load a1, a2 of machine g1 an additional field, machine g2 an opposing field, the saturation of machine g1 is therefore increased, that of machine g2 is decreased, so that at high loads a significant differential voltage acts on the winding z. When the direction of the current is reversed, the machines g1 and g2 exchange their effects.

In all cases you can use the additional winding z such Reach the course of the total number of ampere turns of the reversing pole, as it does the magnetization curve of the polar circle.

Instead of a special additional winding z, the additional or Countercurrent can be sent directly through the main winding w of the reversing poles. The windings h, a1, a2 can also be connected to one or more parallel resistors be. Control resistors can be used to set the effect.

Claims (1)

TATENT CLAIMS: i. Method for achieving one of the armature current even with high iron saturation in the reversing polar circle approximately proportional reversing field in DC reversing pole machines, characterized in that the saturation state an auxiliary exciter machine influenced by the main machine current in a compensating manner the excitation of the turning poles can act, this auxiliary machine either a special additional winding on the reversing pole feeds or an additional current in supplies the main winding of the reversing poles. z. Facility for carrying out the procedure according to claim i, characterized in that the one excited by the main machine current Auxiliary exciter one of the main current excitation of the reversing pole opposite Provides additional excitation. 3. Device for performing the method according to claim i, characterized in that the additional excitation of the reversing pole of two double circuit auxiliary exciter machines is supplied, whose armatures are in series and whose main current windings, if applicable one after the other, the main machine current flows through them, while their shunt exciter windings act in such a way on the two machines that their terminal voltages when idling are opposed to each other.