DE550865C - Device for starting asynchronous machines - Google Patents

Description

In large asynchronous machines, there are often high standstill voltages in the Rotor circuit for which normal starters are not sufficient. One used so far for such cases highly insulated liquid starter, which, however, have the disadvantage that the Liquid evaporates at high loads and has to be refilled more often. Even liquid starters for high currents can only be used with difficulty run resolved zero, and run such starters for high Voltages and high currents will be relatively expensive. About the isolation of the liquid waterers To simplify high rotor standstill voltages, interchangeable sickles are often used, so that the Standstill voltage does not come into contact with the liquid filling of the starter.

ao This allows, but the disadvantages mentioned the liquid starter cannot be avoided.

It is known in asynchronous machines that are mechanically operated with a commutator rear machine are coupled to use fixed resistors in the secondary circuit, with which the machine can run at part of its normal speed can boot up. The machine reaches its full speed with the help of the commutator machine, which is operated here as an asynchronous or commutator motor fed by the mains. The non-adjustable starting resistance is connected to the secondary circuit of the asynchronous machine through a switch that controls the high rotor standstill voltage must be trained and therefore expensive and heavy. This switch is open during normal operation because the Resistance is only used for starting. For asynchronous machines without commutator rear machines this known method cannot be used because the machine with this fixed resistance does not respond to its can run up to full speed.

According to the invention, the non-controllable machine is now used to start the asynchronous machine Ohmic resistance shunted to one with an external zero point connected oil starter, which is only in the secondary circuit of the asynchronous machine is switched when the machine by means of the non-adjustable resistor its the Size of this resistance has reached the corresponding steady-state speed. According to The non-adjustable ohmic resistance used in the invention remains permanent, too after the asynchronous machine has started up in the secondary circuit and is used as protection for the rotor winding, which would otherwise be used in the event of any damage to the oil starter, z. B. when the contact hammers are badly placed or when the starter contacts are interrupted, is at risk. By omission of the switch located in the known device between the non-adjustable resistor and the slip rings also achieved a considerable simplification and cheaper of the switching device.

An exemplary embodiment of the invention is shown schematically in the figures. Fig. Ι shows the starting circuit of a three-phase network 11 as an embodiment Asynchronous machine 12 connected on the stator side via the main switch 13, whose Runner connected to a fixed resistor 15 via slip rings 14 and line 20 is. An oil starter 16, which is connected to a zero point 17, is located parallel to this is. As FIG. 2 shows, the starter 16, designed as an oil starter, is in the initial position ο from the line leading to slip rings 14 of the asynchronous machine 20 separated, which on the one hand directly to the star-connected fixed resistors 15 and on the other hand is connected to the contacts 21 of the starter. In this position the starter roller, the asynchronous machine runs after closing the main switch 13 up to about 80 0/0 their idle speed high. To Turning the starter roller further to position I will place the contacts 21 over the contact segments the shift drum and the resistors 22 of the starter are connected to the zero point 17 by means of the lines 23. When the shift drum is turned further into the next positions, the resistors become 22 gradually short-circuited so that the rotor of the asynchronous machine is above zero 17 is shorted.

According to the invention, the oil starter is at the high rotor standstill voltages of the rotor of the asynchronous machine separated, so that only the fixed resistances ι 5 against the high rotor standstill voltages need to be isolated. The contact fingers of the Oil starters are connected to bushings that protect against the high rotor standstill voltages are isolated, while the shift drum ΐ · 6 ,, and the resistors 22 are designed normally, as they are not exposed to the high standstill voltages. As a result, the oil starter used according to the invention becomes simple and inexpensive and has a greater operational reliability than the usual liquid starter, because it is permanent is operational.

Claims (1)

Patent claim: Device for starting asynchronous machines by means of a non-controllable ohmic resistance in the secondary circuit, characterized in that this resistance is shunted to an oil starter connected to an external zero point, which is only switched into the secondary circuit of the asynchronous machine when the machine is switched on by means of the non-controllable resistance has reached its steady-state speed corresponding to the size of this resistance. 1 sheet of drawings