DE400026C - Contactor control for three-phase motors - Google Patents

Description

Contactor control for three-phase motors. With the previous contactor controls it happens that the rotor contactors short-circuit the starting resistor before the Stator field is fully developed. The resulting high current surges mean a strong risk to the armature winding. This is due to the fact that the rotor contactor coils receive the excitation current directly from the mains. As the only security against too early The auxiliary current is switched via the auxiliary contacts of the stator contactors directed. It can happen that due to the low inertia of the shooter or the rotor contactors due to mechanical defects in the auxiliary stator contacts Short-circuit the starting resistor before the motor field is fully developed. One has already tried to solve the problem by using a delay contactor or put a voltage monitor in the motor circuit to delay the To bring about the starting process, or the switching on of the rotor contactors from the stator voltage to make dependent. However, these do not increase the cost of the system insignificantly.

The invention is now to cause a simple and safe way, claß the rotor series resistor can only be switched off when the stator field is fully developed. This object is achieved in that the driver controller is divided into two insulated rollers. One part of the driver controller serves to control the stator contactors while the other part is the circuit the rotor contactor causes. So the current for the rotor contactor coils is not as before directly from the mains, but removed from a stator terminal.

Fig. I shows a three-phase contactor control with symmetrical travel switching. With R, S, T the three mains phases are designated, with p and q the stator or rotor of the three-phase motor. The rotor q is connected in a two-phase circuit via the resistance stages r "to r4 or r '" to r'. The resistance levels are set by the resistance contactors i to q. short-circuited one after the other. f "and f,. are the stator contactors for forward and backward travel and a and b are the two electrically separated parts of the control drum. The control current for the stator contactors leads from the mains phase R via the auxiliary contacts i 'to 4' connected in series on the resistance contactors , which are closed when the rotor contactors are open. If all rotor contactors are open and thus the auxiliary contacts of the same are closed, the corresponding stator contactor coil is energized after switching on the control roller and the contactor jumps the auxiliary contacts of the rotor contactors to the control; rputict r, and f ,, and thus to the stator contactor coil f, "from where it goes back to the mains phase T via the stator winding. The auxiliary rotor contacts i 'and .l' are closed when the stator contactors are open, so (1ass (las stator contactors can only start when all rotor contactors are open Stator contactors from the rotor contactors.

The rotor blades receive the excitation current from that of the stator roller isolated rotor roller b, namely from the terminal U, i.e. from the stator development. The circuit for the rotor contactor coils then goes over the corresponding «conductor Steady roller contacts to the rotor contactor coil corresponding to the control roller position and (tann back to the network T via the stator phase V-TV. This results in an unconditional chronological sequence of switching on the rotor contactors and the stator winding achieved. Only when (the stand field has been developed can the control roller position The corresponding rotor contactor starts up. The auxiliary contacts for the dependency of the individual rotor contactors from each other are for reasons of clarity of the circuit omitted.

The circuit for the excitation current is as follows: The current goes from phase R via the switched-on stator contactor to stator terminal t "and from there to the control roller b intended for the rotor circuit, namely to point U. Then the circuit goes over to" conductor the control roller contacts. (The excitation coil of the rotor contactors to the motor and thus back to the mains. This jumps (read rotor contactor i and switches off the series resistor r "-r, and r '" - r', on the next positions of the control roller « -earth the following rotor contactors switched on and the starting resistor gradually short-circuited.

The control can also be used as a self-starter control finite current monitor be formed, only the roller part a is used. The fig.2 shows the Application of the invention to a contactor control with high current release, which has the particular advantage that the previously required 1> special control current contactor the stator and retorc contactor coils can be switched off if there is no need. The control circuit the switching on of the stator contactors starts with the mains phase R via the tripping contacts the 1laxinialauslöser _tI, the auxiliary contacts of the rotor contactors i to .4 to the control drum point R ". In position i of the control drum, this contact via contact R, is finite connected to one of the two stator contactor coils. This causes the corresponding one to jump Stator contactor and thus closes its auxiliary contact v 'bz «-. r '. This will but the dependence of the stator contactors on the rotor contactors is lifted and at the same time the contact R "bypassed, so that the current from the phase R flows through the contacts the trigger 31 the contact -v bz «-. r 'and the contact R, directly to the stator contactor flows. The control «-alzenk ..:> ntal @ t R" ensures that when responding of the maximum current release and the associated drop in contactor R or S the control roller must be reset to position i when you switch it on again.

Claims (3)

PATENT CLAIMS: i. Contactor control for three-phase motors in which the rotor contactor coils are only energized when the stator contactor has started, characterized in that the excitation current for the rotor contactor rewind from one of the stand clamps is taken. 2. Contactor control according to claim i. characterized by (let the control roller consists of two mutually isolated parts, of which the one only the contacts for the rotor contactors, the other only the contacts for the Stator contactor carries, 3. Contactor control according to claim i and 2 finite Höchststromatislö sang, characterized in that the stator contactors are in the first position of the control drum be switched on via a special contact, which has the following positions is bypassed by the auxiliary contacts of the entering contactor, so that after your If the high current release responds, it can only be switched on again in position i is possible.