DE524021C - Control device for asynchronous motors for calender drive - Google Patents

Description

GERMAN EMPIRE

ISSUED ON 6. IHAI1931

REICH PATENT OFFICE

PATENT LETTERING

JVi 524021 CLASS 21c GROUP

Control device for asynchronous motors for calender drive Patented in the "Deutsches Reiche" from July 4, 1926

Asynchronous motors are often used to drive paper calenders, since the calenders always run at the same or almost the same speed during normal operation. When the paper is drawn into the calender, it is now necessary that the calender is only driven at a very low speed, which is approximately ζ to ι ο o / o the normal speed. This speed should also be easily adjustable. The use of resistors in the secondary circuit of the asynchronous motor is inexpedient because the low speed is then not sufficiently constant and is associated with considerable costs. It was therefore necessary to provide a special motor for drawing the paper into the calender.

In the arrangement according to the invention, there is only one drive for the drive of calenders Asynchronous motor provided, which is normally fed from the mains and for pulling in of the paper separated from the mains and connected to a self-exciting three-phase commutator generator is connected. It is well known that self-exciting three-phase commutator generators (e.g. three-phase series generators or alternators with shunt excitation windings in the stator) have the property that they can deliver a very low frequency regardless of the speed. This frequency can be brought to the desired value by dimensioning the commutator generator and z. B. by brush displacement can be changed in a considerable area. The commutator generator is therefore for very suitable for the present purpose. For supplying the asynchronous motor from the commutator generator from one is expediently the rotor winding of the asynchronous motor Connect the commutator generator and the stator winding of the motor directly or short-circuit via resistors. The rotor supply of the asynchronous motor has the Advantage that the current conditions adapt better to the commutator generator, the usually built with relatively lower voltage and high amperage will. The commutator generator turns out to be very small, because despite its low frequency runs at high speed and since its performance is due to the low speed of the

* J The sponsor seeker stated as the inventor:

Dipl.-Ing. Jaroslav Ko \ isek in Berlin-Charlottenburg.

Claims (2)

Asynchronous motor is only a relatively small one. In addition 'you now need, as this z. B. is usually the case with paper calenders to provide only one commutator generator for several asynchronous motors, which feeds one or the other asynchronous motor with the low frequency as required. The supply of asynchronous motors from a special, self-exciting three-phase commutator generator is already known per se. The commutator generator is only used to start or brake the asynchronous motor. In contrast, the commutator generator in the invention is intended to feed the motor during an operating speed required for drawing in the paper. In addition, especially when feeding asynchronous motors that are used to drive a calender, the commutator generator has particular advantages, since when the paper is drawn in, the speed also needs to be regulated, and this in a particularly simple manner on the commutator generator by adjusting the brushes and thus can be accomplished through frequency control. In the drawing, three exemplary embodiments of the invention are shown. In Fig. 1 is ι a paper calender that is driven by an asynchronous motor 2. When the paper is drawn into the calender, the stator winding of the motor 2 is disconnected from the mains and short-circuited by means of the switch 3; the rotor winding is connected to a series commutator generator 4. 5 is the drive motor for the commutator generator, 8 is an easily detachable coupling. The arrangement according to Fig. 2 of the drawing, in which the machines 1 and 2 are omitted, differs from that of Fig. Ι only in that the commutator generator 6 has a shunt excitation winding in the stator. In the arrangement according to Fig. 3 of the drawing, a self-exciting polyphase commutator generator 7 is also provided for feeding the asynchronous motor. The commutator generator has a winding 9 in the stator for self-excitation, which is only fed by induction from the armature. As shown, this can be a cage winding or a phase winding with adjustable resistors. In order to achieve self-excitation of the generator, the ohmic and inductive resistance of the winding 9 in the stator are matched to one another in a suitable manner. 5o claims: 1. Control device for asynchronous motors for calender drives, characterized in that that the gas fed during normal operation with network period number Asynchronous motor for drawing in the paper from the mains switched off and on a self-exciting three-phase commutator generator connected. 2. Control device according to claim 1, characterized in that for pulling in of the paper in the calender the rotor winding of the asynchronous motor to the Commutator generator is connected, while the stator winding is directly or is short-circuited via resistors. For this purpose ι sheet of drawings