DE534490C - Circuit for multi-phase motors compensated by capacitors connected in parallel - Google Patents

Description

The invention relates to three-phase motors, whose inductive reactive consumption by capacitors connected in parallel is compensated to a certain extent and the can be started by means of a star-delta switch. In the known circuits of this type are the mostly three-phase capacitors that are connected in star or delta can be immediate with the external

ίο Terminals of the stator winding of the motor connected so that the capacitors are switched on or off at the same time as the motor.
If the motor is started in this way, when switching from star to delta, considerable overvoltages can occur in the motor and capacitor. When switching over, the star-delta switch first disconnects the motor and the capacitors from the mains, then the star point of the stator winding is resolved and the motor is switched in delta. ■ Here, the overvoltages initially arise from the fact that the motor is self-excited after being disconnected from the mains

a ₅ asynchronous generator, which receives its excitation current from the capacitors, generates a voltage. The size of this voltage depends on the degree of compensation and the saturation of the motor. If the phase compensation is not carried out further, as corresponds to the magnetization consumption of the motor at full load in the delta connection, this voltage can rise up to three times the nominal voltage.

Another reason for the emergence of overvoltages is the dissolution of the star point the stator winding (when starting) or the triangular connections (when switching off), because here the static capacitor voltage is superimposed on the alternating voltage of the

Motors that cannot suddenly disappear when the rotor is closed, but only gradually subsides. -

To start a capacitor-compensated motor using a star-delta switch To avoid the occurrence of these overvoltages, according to the invention, the capacitors are with those Motor terminals connected, which form the star point when starting, so that the capacitors are short-circuited in the star connection by the star-delta switch. Consequently self-excitation of the motor is not possible. Since the capacitors during the When starting in the star connection are short-circuited, the capacitors can also be charged do not occur, so that the above-mentioned second type of overvoltages at Tempering cannot arise. About the occurrence of ■ this second type of surge voltage To prevent even when the engine is switched off, is according to a further feature of the Invention made the circuit so that the triangular connections of the stator windings are retained when the engine is switched off.

In the figure, an embodiment of the invention is shown, m is the motor to be compensated with-the mains terminals u, v, w. x, y, ζ are the other ends of the windings that are connected to the neutral point during the star connection, c are the capacitors that are connected to these winding ends and are short-circuited _{in the star connection through the neutral point connections via switch S 2.} S ₁ is a special switch for switching off the motor from the mains, which is provided so that the triangular connections of the stator windings are not interrupted when the motor is switched off. The switches S ₁ and S ₂ can also be combined into a single switch.

Claims (2)

Patent claims: 1. Circuit for multi-phase motors compensated by capacitors connected in parallel, which are started in a star-delta connection, characterized in that the capacitors are connected to the motor terminals, which form the star point when starting, are connected so that the capacitors in the star connection through the star-delta switch are short-circuited. 2. Circuit according to claim 1, characterized in that the triangular connections the stator winding are retained when the motor is switched off. *) The patent seeker stated as the inventor: Ernst Wolfgang Krebs in Berlin-Charlottenburg. For this purpose ι sheet of drawings