DE573406C - Stator winding for alternating current series collector motors - Google Patents

Description

♦ ■ - "- ■ / / i-

In order to use alternating current series collector motors, especially those for vehicle propulsion, a stator winding of simple form, little space requirement jn the To get grooves both in the heads and small heat losses it is on known, the three fundamentally required winding lengths, namely compensation, Exciter and turning field development, to unite in whole or in part so that in the individual Mute conductors with opposite current direction fall out. The invention concerns a winding of this kind, ^ which for Motors with alternating direction of rotation with fixed

iS standing brushes and is characterized by a particularly simple winding structure. This should will be explained in more detail below with reference to the drawing.

In Fig. 1, A is the armature winding of the motor, which should rotate in the direction of the arrow. Nine conductors are assumed for a pole, the direction of the current being indicated in the usual way by crosses or lines. The armature winding A is initially opposite the compensation winding K in the stator, likewise with nine conductors for the pole pitch. The exciter winding E lies above this compensation winding, the conductors of which with the opposite armature winding A each have opposite current direction, in such a way that, with uniform distribution over the entire pole arc, its center is shifted ^{by 1 1 ^ slots relative to the brush axis.} The turning zone then lies in the field of the exciter conductors present in three grooves, while nine grooves are effective in the apex of the field.

As the registered current direction signs show without further ado, own of the nine stator slots that are accounted for by one pole, those labeled 1 to 6 each two conductors with the same current direction, while the two labeled 7 to 9 Contains conductors of opposite current direction. Lift the ladder in slots 7 to 9 consequently their effect on, so that they can turn completely left out. The winding according to Fig. 1 is therefore equivalent to a winding as shown in Fig. 2 is illustrated. The slots 1 to 6 in this winding each have two conductors occupied, whereas the grooves 7 to 9 show no occupancy.

To operate the motor in the opposite direction, the direction of rotation must be reversed To obtain appropriate conditions, in addition to a reversal of the current direction in the excitation winding, a shift at the same time the latter are made so that their center on the other side against the brush axis by 1% grooves is shifted. The winding changed in this way. is shown in Fig. 3. She makes a difference differs from the winding according to Fig. 1 in that the grooves 7 to 9 are now

Head of the same Stromrichturag included, in the grooves ι to 3, however, conductors of different Current direction lie. By omitting the conductors of the slots 1 to 3 which cancel each other out in their winding, one then obtains a winding according to Fig. 4, in which the slots 1 to 3 are unoccupied, the slots 4. up to 9 but are occupied by two conductors.

Under these circumstances, the stator winding can be used for a work of the Mo ^ tors in both directions of rotation by building them up from three winding parts, of which the middle one, i.e. lying in the grooves 4 to 6, for both rotations remains switched on, while of the two outer ones, i.e. in grooves 1 to 3 or 7 to 9 lying down, always only one or the other turned on. All three Winding parts can be filled in completely the same way. One receives on this way a winding like a star-connected normal three-phase winding, of which two phases are switched on depending on the direction of rotation. The switchover the phases can easily be effected with a single pole changeover switch.

Instead of designing the three winding parts to be the same, it may be possible under certain circumstances it should be preferable that the number of grooves for the middle part is dimensioned differently than

for the two outer parts. If necessary, windings with overlapping Phases, broken hole windings or the like can be used.

Claims (2)

Patent claims: i. Stator winding for alternating current series collector motors, which at the same time have a compensation winding and one with this in the same slots accommodated excitation winding of the same number of ampere turns replaced, thereby characterized in that the winding consists of three parts, of which both the two in a manner known per se outer parts are designed to be identical to one another, to be interconnected individually depending on the direction of rotation with the central part to become, as well as the middle part itself with the two outer ones Share completely or at least approximately coincides and is evenly distributed so that the Represents stator winding in the manner of a star-connected three-phase winding. 2. StandsFwickkmg according to claim i, characterized by the use of windings with overlapping phases, broken hole windings or special ones. known windings of a similar type. So 1 sheet of drawings