DE713479C - Stand winding for alternating current series collector motors with fixed brushes - Google Patents

Description

Stator winding for alternating current series collector motors with fixed Brushes It is already known to have AC series motors with distributed winding run, with -depending on the direction of travel alternately different winding parts be switched on. In the '664,53 patent there is a stator winding for AC series collector motors indicated with fixed brushes, which at the same time have a compensation winding and a distributed excitation winding accommodated in the same slots with this is replaced and designed as a barrel winding. With such windings, which in many Relationship that offers great advantages, it is now difficult, the turning field adjust its size and phase in such a way that the most favorable commutation conditions can be achieved.

One can, in order not to disturb the winding system, as in zig. i the Drawing is shown, provide special reversible pole windings Z, which the reversible teeth embrace. These reversing pole windings are in a different plane than the Main winding. Such a design of the machine requires deep grooves in addition the reversing pole and thus an increase in the diameter of the stator core. However, this is extremely undesirable because it reduces the weight and the external dimensions the engines are enlarged. According to the invention, a we @ public Improvement of such motors with a distributed winding achieved by that the-Wendepolwichlung or Wendepolzu @ etzwicklung in the same plane as the Stator barrel winding is and the head of the reversing pole winding in the circumferential direction be arranged in the slots next to the conductors of the stator winding.

An embodiment-inclines Fig. A of the drawing. In this figure a means the stator core, between its teeth b the distributed stator winding c, is arranged. The stator winding c consists of different parts of which part of it permanently switched on. is while the other two parts depending on the The direction of travel can be switched on alternately. With dashed lines are those Turning zones indicated, in the area of which the turning teeth cw lie. For the excitement the reversible teeth, the additional reversible winding Z are provided, which the Entwine teeth. These additional reversing pole windings can, as can easily be seen, be carried out in such a way that the correct turning field excitation results. The turning field windings Z lie laterally next to the bars of the stator winding in the same plane as these. The conductors of the reversing pole winding can be designed so that they Extend over the entire depth of the groove. This makes it possible. the one for the reversing pole winding to keep the required groove enlargement as small as possible. As Figure 3 shows, are the power supply lines for the reversible winding between the winding heads. the normal stator barrel winding: with dashed lines are in the Circuit diagrams of Fig. 3 these leads f highlighted. Fig.3 refers to the case that the barrel winding is designed as a wave winding. In the meantime, you can the connection j lines of the additional windings exactly in the same way in the plane of the barrel winding be arranged if the latter is designed as a loop winding.

The circuit of the individual additional coils according to FIG. Z or 3 can be any, so either a series connection or a parallel connection or a series parallel connection can be used. In the latter two cases - an additional current collecting ring is required.

If the teeth and reversing teeth of the machine are provided with wider pole pieces, the manufacture of the winding can be made more difficult because the individual conductors have to be threaded into the grooves. The reversible pole winding is then first threaded in - before the barrel winding is inserted: - is brought in. According to the further embodiment of the invention, a more efficient manufacture of the motors can now be achieved by the fact that the reversible pin winding also takes the form of a progressive barrel winding The fundamental difference compared to the embodiment of the reversible pole winding illustrated in FIG. 3 is that two bars lying on the different sides of a reversible pole are not connected directly to one another in series and combined to form a train of turns and then the coils of the different poles formed in this way are parallel or in series, but that the turns of the reversing pole winding are formed by the fact that the current first flows through a series of bars which are connected in series with one another and all on one. Side of each turning pole lie, and then flows back through another row of such rods, which are arranged on the other turning pole side. Several such turns are then, as can be seen from FIG. 4, connected in series or in parallel. This design of the reversible winding allows the entire winding to be assembled from individual rod-shaped elements, which are conveniently axially also in semi-closed grooves. can be inserted. Fundamentally, by applying the invention, the design of the reversible pole winding does not differ from the design of the rest of the stator winding; rather, its elements fit into the stator winding in such a way that the entire winding is extremely inexpensive to manufacture. Resistors or resistance combinations can be connected in parallel to the reversing pole winding. to influence the size and phase position of the turning field.

Claims (3)

PATENT CLAIMS: i. Stator winding for AC series collector motors with fixed, brushes, which at the same time have a compensation winding and one with this in the same. Distributed excitation winding housed in slots is replaced and designed as a barrel winding, according to Patent 664.533 with a special reversible pole winding or reversible pole additional winding5, characterized in that the reversible pole winding bziv. Reversible pole addition in the same plane as the stator barrel winding and the conductors of the reversible pole winding are arranged in the circumferential direction next to the conductors of the stator winding in the slots. 2. stator winding according to claim i, characterized in that the supply lines to the reversing pole or Reversible pole additional winding lie in the same plane as the end windings of the barrel winding. 3. stator winding according to claim i or 2, characterized in that the reversible pole or reversible pole additional winding, is designed as a barrel winding. 4 .. stator winding according to claim i, characterized in that the reversible pole or reversible pole additional winding is composed of individual rod-shaped elements, which axially into the grooves can be inserted. ; 3. Stator winding according to claim, characterized in that that the rod-shaped elements of the reversing pole winding are connected in such a way that the current first flows through a series of rods; which are in series with each other are switched and lie on one side of the reversing poles, and then through another row of such rods flows back, the one on the other of the soap of the turning pole are arranged.