DE1177733B - Winding for commuting, electrodynamic machines - Google Patents

Description

Winding for commutating; electrodynamic machines for the windings commuting, electrodynamic machines, especially small and medium-sized machines Types, coils with one or more sub-coil sides are used, which are in several turns can be carried out. A coil with several turns each Coil is called a multi-turn coil.

Multi-turn coils in the usual design have opposite Single winding coils have the disadvantage that a crossing of the individual turns at any one Must be located, usually in the end winding, i. H. the part of the coil, where parts of one and the same turn occupy the same axial circumferential position, but at Successive traversal of the coil. Such an intersection has in many cases the consequence that the space for the winding heads is tight. For example with a The two-turn coil designed in a known manner is the width of the coil side limited to a little less than half the groove pitch at the groove bottom, d. h., the The width of the groove at the base of the groove must not be greater than the width of the tooth on the Be the root.

These disadvantages are avoided by the invention. She is up based on the principle, the parts of the individual turns located in the end winding to be arranged axially next to each other. The axial juxtaposition of the windings is known as such for multi-turn coils. Has with the known arrangements but one has so far only achieved that on the side opposite the commutator the width of the spool back becomes equal to the spool width. But you by no means have crossing parts of the coil avoided. These crossings occur at the well known Executions on the commutator side, d. H. in other words, you have that Space problem only shifted to the commutator side. In contrast, the invention achieves that in both coil heads the width of the spool spine corresponds to the spool width.

According to the invention, the winding is for commutating, electrodynamic Machines with two coil sides per slot and with at least two turns per coil, where the individual turns of a coil occupy different heights in the groove, designed so that the turns of a coil in at least one groove by turns that belong to a different coil. With this formation of the winding is achieved not only the aforementioned advantage, but also that the Winding with different groove steps between the one and the same turn belonging coil sides can be executed. In principle, you get a Kind of split coil pitch. The coil is initially for the same groove steps manufactured; only when the winding is inserted into the machine are individual Coil turns shortened, so that at least one of the turns in one side of the coil includes a smaller number of grooves than the rest. With such an arrangement better commutation properties of the machine can be obtained.

The invention is described with reference to the schematic drawings. It shows F i g. 1 a known two-turn coil lying in the slot with three side-by-side partial coil sides per turn and the position of the individual turns in the slot in a radial section, FIG. 2 is a side view of the same spool, FIG. 3 shows a two-turn coil with three side-by-side sub-coil sides per turn according to the invention, FIG. 4 shows a side view of such a coil, FIG. 5 the same coil with different groove steps for the two turns, the position of the different turns in the groove being illustrated by means of radial sections, FIG. 6 is a side view of the FIG. 5 coil shown, FIG. 7 shows a three-turn coil according to the invention with three side-by-side sub-coil sides per turn, FIG. 8 this coil in side view. So that the known winding according to FIGS. 1 and 2 and the inventive in FIGS. 3 and 4 can be easily compared, the four heights that the individual turns of the coils occupy are designated by 1, 2, 3 and 4, where 1 is the position closest to the slot opening and 4 is the position at the bottom of the slot. The right groove is labeled h and the left groove v. In a known two-turn coil according to FIGS. 1 and 2, the different turns pass through the layers h 4, v2, h3, v l in succession. The width B of the spool spine corresponds approximately to twice the spool width. In a winding according to the invention, the coil turns, which are shown in FIG. 3 and 4 are shown, successively the layers h 2, v 3, v 4, v 1. The width b of the spine is equal to the width of the coil.

In the F i g. 5 and 6, the turns of the coil are distributed over three slots, so that the turns have different slot steps. As before, the left and right slots are designated with v and h, the slot in between with m. The turns of the coil then pass through the slot layers in the following sequence: h2, v3, h4, ml . 7 and 8, the turns pass through the various slot positions in the sequence: vl, h6, v3, h4, v5, h2.

Claims (2)

Claims: 1. Winding for commutating, electrodynamic Machines with two coil sides per slot and with at least two turns per coil, where the individual turns of a coil occupy different heights in the groove, characterized in that the turns of a coil in at least one groove through Windings belonging to another coil are separated. 2. winding according to claim 1, characterized in that at least one of the turns of a coil has a smaller one Number of grooves than the rest enclosing. References Considered: U.S. Patents No. 957 876, 957 886; Book v. Richter, Rudolf, »Armature windings for equal and Alternating current machines, Berlin, 1920, pp. 128 to 130.