DE200660C - - Google Patents

Description

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PATENT LETTERING

- ' M 200660 CLASS 21 d. GROUP

Patented in the German Empire on January 21, 1906.

In the coils of alternating-current collector motors short-circuited by the brushes, as is known, a reactance voltage occurs as in direct-current motors, but also a voltage as a result of the alternating field penetrating the armature, which is briefly referred to as transformer voltage. should be designated. These two voltages are known to counter by _^2/4 period

shifted each other. Therefore one arranges for current reversal in the short-circuited Coil special auxiliary windings (auxiliary poles), created by the auxiliary fields inducing at the appropriate places in the anchor only the reactance voltage can be combated by a main current auxiliary winding while against the transformer

^. voltage the shunt circuit of the auxiliary

winding is suitable. It is generally recognized that to cancel the two at the same time Voltages auxiliary fields are required whose phases are between the phases of the main current and the shunt current lie.

As a means of achieving this end, the simultaneous use of a main current auxiliary winding and a shunt auxiliary winding is proposed. It is most obvious to let these two windings act on a common reversing pole, but this arrangement shows only limited effectiveness for the following reasons. The two windings are linked by a transformer, and since the field in a coil is determined by the applied terminal voltage in terms of size and phase, the 40th

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resulting field in the shunt winding of the auxiliary pole always has the same value and keep the same direction that meet the conditions for a certain armature current strength can, but not for the others.

About the independent action of the main current winding and to preserve the shunt winding, the windings could be arranged unequally by opening them Brings separate auxiliary poles, which at the same time on the respective short-circuited armature windings act. But it now appears that the excitation of the same reversing pole can be used by both windings, although both windings influence each other as little as necessary. Such a one Arrangement of the windings offers significant advantages in terms of the practical implementation of the winding, since it has the Use of the usual closed and evenly grooved field magnets without changes is permitted, while the effect the auxiliary fields are concentrated in the same place and savings in changing space and ladders in the wake of the omission of ladders has the same and opposite effect result in the same grooves. Below are several forms of the same axial auxiliary windings described.

In the device according to FIG. 1, several teeth of the stator iron are used for the auxiliary windings. The representation is given as a development of a part of the stator. The main current winding h is placed around a tooth at the turning point at ^, which when excited on both sides of the adjacent teeth

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magnetic closure takes place. With the tooth of the main current winding as the center, the shunt winding η is now placed around a number of teeth, in the present case around five. This shunt winding is penetrated by only a small part of the magnetic lines of force induced by the central tooth, since most of the lines of force of the main ■ current winding close within the shunt winding. The two windings are therefore only loosely coupled to one another.

The device according to FIG. 1 can be made even more effective according to FIG. 2, where the teeth adjacent to the central teeth are also included in the main current winding, with such a winding direction that the central tooth forms the common opposite pole to the adjacent poles of the same name. Obviously, if the winding is dimensioned correctly, none of the lines of force generated by the main current will penetrate the shunt winding η , so the two windings will be completely independent of one another.

If you think of Fig. 3, the main current winding h arranged at the bottom of the grooves, but the usual compensation winding c stored in the grooves to cancel the armature field at the front, as the upper row of teeth α shows, you can see the opposite direction of the currents in the conductors of h and c in the second grooves to the right and left of the neutral zone ^. In these slots, the conductors of the main current auxiliary winding and the compensation winding can therefore be wholly or partially omitted in favor of easier accommodation of the shunt winding η, as the lower row of teeth β indicates.

In the arrangements according to FIGS and 3 it is evidently essential that at least a major part of the shunt turns enclose the main current windings.

Claims (2)

Patent Claims:
I. AC collector motor with Auxiliary windings to cancel the in each case short-circuited by the brushes Coils occurring reactance voltages and transformer voltages, characterized in that the Windings wholly or partially arranged in this way in different slots of the stator iron are that they excite the same polarity without influencing one another inadmissibly. 2. AC collector motor with compensation winding according to claim 1, characterized by the omission of the conductors with the opposite effect of the compensation winding and the main current auxiliary winding in the same slots, so that the winding space gained for the shunt auxiliary winding remains available. 1 sheet of drawings.