DE1001745B - Electric drive for a centrifuge, especially a sugar centrifuge - Google Patents

Description

Electric drive for a centrifuge, especially a sugar centrifuge Some centrifuges, such as sugar centrifuges, require that when clearing a constant and very low speed, usually about 50 revolutions per minute, should be adhered to. Is a pole-changing motor as a drive motor Electric motor provided, then this must be the low one during the evacuation process Output speed regardless of the momentary load. You could do this through Arrange an additional, correspondingly high-pole winding. By however, this additional winding makes the motor considerably more expensive.

The invention, which also relates to an electric drive for Centrifuges, especially sugar centrifuges, goes a different way. According to the invention the higher-pole winding of the motor is connected to the mains via a tip switch. To enable the tip switch to work automatically, the Tip switch designed as a normally open contact of a relay, the field winding of which via a normally closed contact controlled by a second relay to a power source is connected, and is the excitation winding of the second relay of one with The DC generator coupled to the pole-changing drive motor is fed.

An exemplary embodiment of the invention is shown in the drawing. It shows an automatically working inching circuit for a pole-changing drive motor.

The pole-changing electric motor 1, which is a sugar centrifuge, not shown drives, has a low-pole stator winding 2 and a high-pole stator winding 3. The multi-pole winding 3 is via a normally open contact 4 and a switch 5 connected to the network. The relay contact 4 is controlled by the coil 7, fed by a power source 8 via a changeover switch 9 and a break contact 10 will. The relay contact 10 is controlled by the coil 11 via an adjustment resistor 12 is connected to a tachometer machine 13, which is of the pole-changing Drive motor 1 is driven. Parallel to the normally open contact 4 is another one Normally open contact 14 switched, an autotransformer 15 switched on in its circuit is. The normally open contact 14 is controlled by the coil 16, which is connected to the Excitation circuit of the coil 7 is parallel circuit.

The device works as follows: After the spin, the motor 1 is braked. As the speed decreases, the voltage output by the generator 13 to the relay 11, 10 also decreases. If it is so low that the restoring force predominates in this relay, then the normally closed contact 10 is closed. If the changeover switch 9 is in the position shown, then the relay 7, 4 is connected to the power source 8 and closes the normally open contact 4. The multi-pole winding 3 is now switched on, and the motor 1 and the generator 13 rev up again. The relay 11, 10 thus receives voltage again. With appropriate coordination, it opens the contact 10 when the clearing speed is slightly exceeded and thus switches off the relay 7, 4, whereby the normally open contact 4 is opened and the high-pole winding 3 of the motor is switched off. If the clearing speed is slightly undercut, the multi-pole winding 3 is switched on again via the corresponding relays and contacts, and the game begins again. The clearing speed can be adjusted from the outside using the adjustment resistor 12.

Through the automatic, short-term activation and deactivation of the motor the desired clearing speed is maintained, which is practically dependent on the load is independent.

By flipping the switch 9, instead of the circuit, in which the normally open contact 4 controlling coil 7 is, -the circuit in which the the normally open contact 14 controlling coil 16 is connected to the power source 8. When the contact 14 is in the working position, the transformer 15 is switched on. In order to the multi-pole winding receives a reduced voltage that corresponds to the torque requirement of the clearing operation. At the same time there is also a smaller power consumption achieved.

The invention offers the advantage that the drive motor for the clearing period with little means, without additional high-pole winding with a very low one Speed can be operated. The establishment can also be retrospectively can be provided on already finished engines.

Claims (3)

PATENT CLAIMS: 1. Electric drive for centrifuges, in particular Sugar centrifuges, by means of a pole-changing electric motor, characterized in, that the higher-pole winding of the motor (1) is connected to the mains via a tip switch (4) (6) is connected. 2. Electric drive according to claim 1, characterized in that that the normally open contact (4) of a relay (7.4) serves as a tip switch, the field winding of which via a normally closed contact (10) controlled by a second relay (11, 10) to a Power source (8) can be connected, and the excitation winding of the second relay (11, 10) by a direct current generator coupled to the pole-changing drive motor (1) (13) is fed. 3. Electric drive according to claim 1 and 2, characterized in that that parallel to the excitation winding (7) of the first relay, the excitation winding (16) a third relay can be connected to the power source (8) via a changeover switch (9) is and that the third relay has a normally open contact (14) parallel to the Normally open contact (4) of the first relay is switched and in its circuit Transformer (15), in particular an autotransformer, is switched on.