DE324010C - Rotating field magnet or armature for dynamo machines - Google Patents

Description

Rotating field magnet or armature for dynamo machines. The invention refers to rotating field magnets or armatures of dynamo machines, in which the winding grooves - on both sides of the bottom with - grooves are provided in which the side insulation can penetrate.

The invention aims, among other things, with a thinner floor insulation the same creepage distance, d. H. the same distance between a live part and the next part of the iron core measured along the separation joint, how to get with thicker insulation while increasing the cross-sectional area of the rotating field magnet and, as a result, its performance to enlarge.

In similar constructions this purpose has been achieved in that the edges of the floor insulation were bent over and inserted into the side gutters. According to the invention, the floor insulation can be laid flat as usual, in that the channels extend laterally so far below the edges of the floor insulation, that the creepage distance around the edges of the floor insulation corresponds to the smaller Thickness of the latter is increased.

The drawing illustrates the invention in some expedient Embodiments, namely Fig. Z shows a cross section through the parallel Field magnets provided with grooves, FIG. 2 shows a partial cross-section with radial Grooves, Fig. 3 and q: cross sections of the grooves, Fig. 5 shows a section of a groove with ordinary floor insulation strip, Figs. 6 and 7, embodiments of different ones Floor insulation strips according to the invention.

The grooves x are closed by longitudinal wedges 2, which the winding Hold on to 3. In the bottom of the grooves are grooves q. (Fig. R, 2, 3) provided in which penetrate the ends of the side insulation 5. These gutters have been expedient a round cross-section, because this causes wrinkling in the cast surrounding the groove is avoided. The fact that the insulations 5 in these grooves q. can penetrate the insulation plates 6 (Fig. 3) can be made thin because of the spacing of the iron core from the conductor insulation, measured over the separating joint of the insulation 5, 6 (Creepage distance), of the size of the channel q., Which is also useful with an insulating Material, such as asbestos cord or the like. Can be filled in, is determined.

Through the arrangement described, the same penetration width is achieved with the thin one Floor insulation 6 (Fig. 3) as with that shown in Fig. 5 ordinary thick insulation gained. The grooves can then be correspondingly shallower can be made, whereby the cross-section of the field magnet becomes larger. The passage area of the magnetic field of lines of force is also increased and thus also the Performance of the magnet and, as a result, that of the electrical one Generator.

As can be seen from 7 in Fig. 4, the channels can be in a special, in the bottom of the groove inlaid strips, which suitably consists of iron, formed will. If such a strip 8 is also used under the wedge (Fig. 4), this results in the same advantage, namely a large creepage distance and thin, pliable insulation won. The latter is important if the wedge e is to be driven in, to clamp the conductors 3 in the groove. A hefty dimension of the intermediate Strip 8 is required so that the intermediate insulation, which also must be thin because of the breaking off, is not damaged.

In certain cases an adjustment is made to the strength of the magnetic Field desired, which can be achieved that one of the strips 7 and 8, Fig. 4, or both made of magnetizable or non-magnetizable material which allows some adjustment of the voltage and magnetization curve of the Generator can be reached without further change of the same.

FIGS. 6 and 7 show some embodiments of those indicated in FIG Adjustments 7 and 8 illustrated, these in cross section partly made of magnetizable Material 9, partly composed of non-magnetizable material xo.

Claims (6)

PATENT REQUIREMENTS. Rotating field magnet or armature for dynamo machines, its winding grooves lined with insulating material are closed by longitudinal wedges and on each side of the bottom with a groove to accommodate the flat ends of the Side insulation are provided, characterized in that the floor insulation (6) are laid flat and the channels (4) are outside the separation joint of the both insulations (5 and 6) extend well below the floor insulation (6), so that the creepage distance (distance of the iron core from the mentioned separation joint) increases and therefore the floor insulation can be chosen to be relatively thin. 2. Embodiment according to claim x, characterized in that the channels wholly or partly in a special strip (7) that goes to the bottom of the groove inside the insulation of the same is laid, are formed. 3rd embodiment 'according to Claim 2, characterized in that one provided with grooves or recesses Strip (8) also inserted under the wedge (2) outside the insulation of the groove is. 4. Embodiment according to claim 2 and 3, characterized in that both Strips (7 and 8) or just one of them made of iron or another magnetizable Material. 5. Embodiment according to claim 4, characterized in that the strips (7 and 8) in cross-section partly made of magnetizable, partly of non-magnetizable Material (9, zo) are composed. 6. Embodiment according to claim =, characterized characterized in that the channels - (4) have a round cross-section.