CS260447B1 - Rotating stator of rotating electrical machine - Google Patents

Abstract

The device solves the radial strengthening of the tension plates of a laminated stator by ensuring that the internal cooling channels in the stator sheet adjacent to the axis of the main pole have the same radial distance from the outer side of the stator sheet. By moving the channels under the circle circumscribed by the cooling channels adjacent to the side walls of the main pole, space is obtained for the radial strengthening of the tension plates. The wall of the channels adjacent to the outer side of the stator sheets is parallel to this side.

Description

BACKGROUND OF THE INVENTION The present invention relates to a sheet stator of a rotating electrical machine consisting of grooved segments or grooved sheets embossed in which the sheets extend as far as the outer periphery of the stator.

In such stators, the stack of sheets with outer sheets is tightened by means of clamping plates connected to each other by means of strips or screws. Centering shoulder and threaded holes are provided in the clamping plates for fastening the end shields. Ventilation channels are provided in the main and auxiliary poles. These ducts must be located so as not to throttle the magnetic flux and therefore they are inscribed in an annular circle centered on the axis of the machine, or their outer envelope is at a minimum radial distance from the outside of the sheets in the axis of the main pole. 207 853. The inner circumference of the shrink plates must not overlap the cooling channels in the main poles, and since the inner contour of the shrink plates coincides with the outer contour of the plates, the shrink plate ventilation ducts are most radially weakened in the main poles.

This weakening results in the centering shoulder provided in the axes of the main poles tending to refute during production due to changes in the bundle withdrawal. As a result, the original machining accuracy is lost and the assembled machine poses a risk of vibrations during operation.

These disadvantages are lessened with the sheet stator of the rotating electrical machine of the invention. The principle of the invention is that the cooling ducts adjacent to the axis of the main pole have the same radial distance from the outside of the sheet.

In this way, the outer side of the channels adjacent the axis of the main pole is displaced towards the axis of the machine, and the radial thickness of the shrink plate in the axis of the main poles can be increased by the same amount. This proportional reinforcement of the shrink plate will reduce the deformation of the centering shoulder. This increases the achievable production accuracy and reduces machine vibration during operation.

An exemplary embodiment of the invention is shown in the accompanying drawing, in which Fig. 1 is a partial longitudinal section of a sheet stator, Fig. 2 is a partial side view, and Fig. 3 shows a detail of the stator sheet at the main pole.

The stator 1 consists of sheets 2, edge sheets 3 and shrink plates 4. The shrink plates 4 are welded to the side plates 5 and the strips B. The strips 6 are connected to the plates 2 by hole welds 7. threads 9 for fastening the end shields. The centering shoulder 8 is intermittent so as not to interfere with the coils disposed in the grooves 10 and only form arcs above the main poles. In the main poles 11 of the sheets 2 there are cooling channels. The inner cooling ducts 120 have the same radial distance Y from the outer side 15 of the sheets 2. The wall of the inner cooling ducts 129 adjoins the outer side 15 of the sheets 2 and is therefore with the outer side 15 of the sheets 2. spot. The cooling channels 121 adjacent to the side walls 13 of the main pole 11 are by their envelope 14 at the greatest radial distance at the location of the side walls 13 from the edge 15.

The stator sheet 2 can be embossed as a closed frame, or it can be composed of single-shape segments, stacked in layers alternately on the back and face.

Claims (2)

1. A sheet-wound stator of a rotating electrical machine, consisting of grooved segments or whole grooved sheets, in which the sheets extend to the outer circumference, contracted by shrink plates, with cooling channels arranged in the main poles, characterized in that cooling channels (120) adjacent to the axis of the main pole (11) of maynAlezu has the same radial distance (Y) from the outside (15) of the sheets (2). 2. The sheet stator of a rotary electric machine according to claim 1, characterized in that the wall of the inner ducts (120) adjacent to the outer side (15) of the sheets (2) is parallel to the outer side (15) of the sheets (2).