DE315354C - - Google Patents

Description

To reduce the eddy current heat in electrical windings with relatively high anchor ladders, it is known that the conductor 'consists of several insulated from one another Single conductors put together at the coil ends or the ends of the winding or part of the winding are connected in parallel, and in one or in all To twist cross connections so that the

ίο Order of the individual conductors after twisting the opposite is as-before the twist. A twist in the conductor is also with the known cross connections, in which the individual conductors repeatedly around their flat edge must be bent when the order of the individual conductors in the both sides of the coil should be different. However, this twisting of the conductor makes it more difficult the manufacture of the winding elements. and the reliable fastening of the coil heads to a great extent. According to the invention, the change is intended to eliminate these inconveniences in the order of the individual conductors, avoiding the usual twisting of the conductors be brought about by simple bends in the single conductor, always or partially around the high edge of the individual conductors, so that the winding elements in front of the Insertion into the grooves can be easily made on a template. In some exemplary embodiments the invention is to be explained in more detail.

In Fig. Ι the implementation of the cross connections for a conductor which consists of three individual conductors without twisting, which is generally customary for windings with different coil widths, is shown. The lowermost single conductor labeled ι remains the lowermost here even after the cross-connection has been made. In order to obtain a change in the sequence of the individual conductors, the conductor was previously twisted in the cross connection by 180 ° in its axis. However, the change in the sequence of the individual conductors can also be achieved without visible twisting if the conductor according to FIG. 2 is first bent flat-edged about axis xx each time it emerges from the groove, and the cross-connection is then completed by bends around the high edge . If the flat edge bends around the axis xx always take place in the same sense, the sequence of the individual conductors changes after the cross connection. The single conductor designated by 1 lies at the bottom on one side of the coil and at the top on the other.
. The embodiment according to FIG. 2 is generally only suitable for very coarse groove pitches, because the. lateral bends of the conductor around the axis xx require a width that is at least equal to the groove height. In order to reduce this width, it is advisable to arrange the cross connections in several levels (perpendicular to the machine axis). In Fig. 3, for. B. is shown such a design with three subdivision of the cross connections in two "views. The ladder exists here

of twelve individual conductors, with the cross connections for four individual conductors each lie on a special level. The side turn of the conductor only takes up a width of about a third of the groove height. The bends around the flat or high edge of the conductor can according to the invention can also be completely or partially replaced by soldering points, albeit here

ίο avoided twisting the conductor again will. An exemplary embodiment with six individual conductors is shown in FIG. the Individual conductors consist of straight bars s, into which the individual parts of the cross connections are soldered, screwed or riveted, again in such a way that they all Bars emerge on the same side, because otherwise the order of the individual conductors is different would not turn back. So that the cross connections emerging from the bars at the side Take up as little space as possible, it is advisable to use the individual conductors of the cross connections to be dimensioned as thin as possible with a correspondingly enlarged width. The items the cross-connections must of course be isolated from each other.

. ■ For windings with the same coil width, the desired change in the sequence of the individual conductors can be achieved by _:

fold coil head, which is already known for solid conductors and is shown in Fig. 5 in two views. At a, b and c the subdivided conductor is bent over in a plane that intersects the machine axis, at δ and c in the same direction, at α in the opposite sense. The bend at c changes the order of the conductors at the ends of the ■ cross connections; the conductor that is on top of one side of the coil is on the bottom of the other side of the coil. In order to get the right coil width, the bends at d have to be made. The change in the sequence of the bar layers can take place in each cross connection, in each coil or only once in each winding branch. In the latter case, the cross connections described in the exemplary embodiments only need to be used once for each winding branch.

The height of the individual conductors connected in parallel is to be dimensioned so low that the current heat the eddy currents, which only close in a single conductor, are only moderate Accepts amounts. In order to get by with as few individual conductors as possible, we recommend it is advisable to choose the heights of the individual conductors in the middle part of the groove greater than in the lower part and upper part. The individual conductors can also consist of strands.

To further reduce the eddy current heat, between the individual conductors magnetic auxiliary circuits are arranged.

The invention can be applied mutatis mutandis to windings with several layers.

Claims (6)

. Patent Claims: . : ■ i. Single-layer alternating current winding for electrical machines where .the Conductors consist of several individual conductors isolated from one another, which are attached to the coil. ends or the ends of the winding or • part of the winding connected in parallel are, and in which the conductors in the cross connection are bent several times in such a way that the sequence the individual conductor in relation to their counterparts ■ reversed position on the side, thus identifiable draws that the bends not only around the flat edge of the single conductor, but always or partially around the high edge. 2. Winding according to claim i, characterized in that the individual conductors emerging from the grooves merge into the cross connections by a bend about an axis perpendicular to the armature circumference (xx in Fig. 2), this bend always being in the same for the conductor to be connected Sense around the high edge takes place (Fig. 2). 3. winding according to claim i, characterized characterized in that the individual parts of a cross connection are soldered into the individual rods the rods, can remain stretched, and the cross connections always emerge on the same side of the rods to be connected (Fig. 4). 4. winding according to claim 1, characterized in that the individual parts of the Cross-connection can be arranged in different planes perpendicular to the machine axis to reduce the space between cross-connections and to enlarge the adjacent conductor (Fig. 3). . 5. winding according to claim 1, characterized in that the height of the 'in the The individual conductor lying in the middle of the groove is greater than the height of the outer individual conductor. 6.-winding according to claim 1 to 5 »da- ' characterized in that to reduce the current displacement between the individual conductors magnetic auxiliary circuits are arranged. 1 sheet of drawings.