DE286224C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The pole changing of the winding of an asynchronous motor with slip ring armature, whose Pole numbers are in the ratio 3: 4, requires a large number of winding ends. For the stator, this disadvantage does not offer any noteworthy problems Trouble. For the rotor, however, each winding end to be brought out requires a slip ring. There is now a motor with one winding each in the stator and rotor switchable from 6 to 8 poles at least 27 winding ends in the stator and rotor and Thus, 27 slip rings are required, such a switchover is virtually impossible. It should because two windings of 8 and 6 poles with 3 slip rings each are housed in the rotor will. One of these windings would always be de-energized and would run as dead material. This second winding also makes the motor unnecessarily large and heavy.

The present invention shows a method for switching the secondary winding of asynchronous motors to 2 or more in proportion 3: 4 number of poles in relation to one another using phase anchors, whereby pole switching of one motor part is only accomplished by changing the number of phases and thereby the number of slip rings required is reduced.

The figures show an example of an application of the method in which the winding of the secondary part of an induction motor (usually rotor) from .6 to 8 poles with 8 slip rings is switched over, that in the rotor multiphase currents of different Number of phases can be induced, depending on whether the stator is connected to 6 or 8 poles.

The secondary winding of an 8-pole 6-phase armature is shown in FIG. As can be seen therefrom, the winding has 12 coils, the ends of which are consecutively numbered 1, 2, 3, 4 to 24. The circles marked a, b, c, d, e, f, g, h in all figures represent the 8 required slip rings.

The ends 2, 5, 10, 13, i8, 21 of the coils displaced by 60 ° (electrically and spatially) are connected to the common slip ring α , the ends 24, 11, 8, 19, 16, 3 of the also by 60 ° ° coils displaced against each other with the common slip ring b. If the brushes of the slip rings α and b are connected to one another, the ends 2, 5, 10, 13, 18, 21, 24, 11, 8, 19, 16, 3 become the zero point of the 6-phase winding, as shown in FIG , namely the two coils of each phase are connected in parallel. Since ι and 7 have the same potential, both ends can easily be connected to a common slip ring;

in this case with c, also 12 and 6 with slip ring h, 9 and 15 with d, 14 and 20 with slip ring e, 23 and 17 with f _t 22 and 4 with g. The total number of slip rings required is therefore 6 + 2 = 8.

If a rotor connected in this way is placed in a suitable 8-pole stator, currents are induced in the rotor winding, the phases of which are shifted by 60 ° with respect to one another. The current direction of the current is shown by the arrows used in FIGS. If the slip rings α and b are separated from one another and if the slip rings c, e, d, g, f, h are connected to one another, as shown in FIG. 3, 6-pole two-phase currents with phases shifted by 90 ° are induced in the rotor when the Stator is switched to 6 poles.

In Fig. 3 and 4, the arrows indicate the current direction of the current. The slip rings c, ^e , d, g, f, k form the return line of the two phases α and b.

Claims (1)

Patent-An saying: Method for switching the secondary winding of an asynchronous motor provided with slip ring armature to two pole numbers in a ratio of 3: 4, characterized in that one end of each coil, which protrude from each other by 60 °, is connected to a slip ring (a) and one end of each coil , which are spatially shifted by 30 ° compared to the former, is connected to a second slip ring (δ), which creates a six-phase system with 8 η poles on the stator in the rotor with two parallel coils per phase, the other ends of which each have a common slip ring per phase (c, d, e, f, g, h) , so that six more are added to the first two slip rings, so a total of eight slip rings are required. 1 sheet of drawings.