CS230023B1 - Magnetic yoke of the electric rotational machine - Google Patents

Description

The invention relates to a magnetic yoke of an electric rotary machine, in particular with permanent magnets and of gray cast iron with cylindrical internal bore.

In existing designs of electric machines rotating with permanent magnets, the yoke cross-section of the machine is not optimized for magnetic flux in the yoke circumferential direction. The yoke has the same cross-section throughout the perimeter and as a result the diameter of the inner bore of the yoke is relatively small. Material consumption for this is great.

The above-mentioned drawbacks are eliminated in the magnetic yoke of an electric machine rotating according to the invention, which is characterized in that the outer surface of the yoke is bounded by curved surfaces equal to the number of poles of the machine, they are symmetrical with respect to the pole axis and the axis of each curved surface lies on the pole axis opposite the axis of the internal bore.

The magnetic yoke solution of the electric rotating machine according to the invention allows the yoke cross-section in the pole axis to be as small as possible, i.e. to be determined by the minimum technological thickness, and at the pole boundary plane to dimension this cross-section to the nominal total flux. The present invention allows a greater magnetic flux than conventional constructions, greater material savings, but also better cooling of the machine due to the ribbing of the yoke at a given yoke outer diameter in the pole axis.

An exemplary embodiment of a magnetic yoke of an electric rotary machine is shown in the drawing, in which Fig. 1 shows the yoke in radial section and Fig. 2 represents the upper half of the same yoke in section A-A on the left and B-B on the right.

The outer surface of the yoke 1 with the cylindrical internal bore 9, in which the permanent magnets 2 of the four poles of the machine are located, is delimited by curved surfaces 10 with a number equal to the number of poles of the machine. The curved surfaces 10 are flatter than the inner bore 9 and are symmetrical with respect to the pole axis 4. The axis 11 of each curved surface 10 lies on the pole axis 4 on the other side of the axis 6 of the internal bore 9. This achieves that the cross-section of the yoke 1 is small in the pole axis 4 compared to its cross-section in the pole boundary plane 5. The cross-section of the yoke 1 in the pole axis 4 is determined by the minimum technological thickness of the yoke 1, whereas its cross-section in the pole boundary plane 5 is dimensioned to the nominal value of the total magnetic flux of the pole.

Advantageously, the shield fastening screws can be placed in the thickened parts of the yoke 1 in the plane 5 of the pole boundary.

The yoke 1 is provided with tangential ribs 3 composed of sections with a straight ridge 7 which is perpendicular to the axis 4 of the pole. The peaks 8 of the ribs 3 in the plane boundary planes 5 are rounded. The cross-section of the ribs 3 is the smallest in the pole axis 4 and the largest in the plane planes 5 of the poles.

If the yoke 1 is provided with ribs 3, the cross section of the ribs 3 at these peaks 8 may also be included in the cross-section required for full magnetic flux.

Claims (2)

SUBJECT Magnetic yoke of an electric rotary machine, in particular of permanent magnets and of gray cast iron, with cylindrical internal bore, characterized in that the outer surface of the yoke (1) is bounded by curved surfaces (10) equal to the number of poles of the machine. the curved surfaces (10) are flatter than the inner bore (9) of the yoke (1), are symmetrical with respect to the pole axis (4) and the axis (11) of each curved surface (10) lies on the axis (4) OF THE INVENTION on the other side of the axis (6) of the internal bore (9). Magnetic yoke according to claim 1, characterized in that the outer surface of the yoke (1) is provided with tangential ribs (3) composed of sections with a straight ridge (7) which is perpendicular to the pole axis (4) and the peaks (8). The ribs (3) in the planes (5j) of the pole boundary are rounded.