Multiphase synchronous permanent magnet electric machine
First Claim
1. A multiphase, synchronous electrical machine excited by permanent magnets, having a stator winding and a rotor, the permanent magnets generating a basic excitation field and electrical current flowing through the stator winding generating an additional magnetic field in a radial direction, said additional magnetic field being added to or subtracted from the basic excitation field in the radial direction, said permanent magnets being disposed in the rotor, said rotor being free of windings, soft magnetic material with intervening spaces of nonmagnetic material forming groups of loops nested within each other in the rotor, the loops being exteriorly open towards an air gap disposed between the stator winding and rotor, said groups of nested loops each enclosing a pole gap disposed at a circumferential surface of the rotor substantially centered in each nested loop group, the rotor being divided into at least two sections arranged axially, said first section being provided with said permanent magnets with said loops of soft magnetic material terminating at said permanent magnets, said second section having loops of soft magnetic material arranged such that said loops are open to the air gap between the stator winding and the rotor, said loops in said second section being nested within each other with nonmagnetic material being provided between said loops, said loops in said second section being provided to control the additional magnetic field generated by the stator winding.
2 Assignments
0 Petitions
Accused Products
Abstract
A multiphase, synchronous, electrical machine with a permanent magnet incorporates a stator winding that is supplied with power through a static converter in such a way that, apart from the primary excitation field produced by the permanent magnets, there is an additional magnetic longitudinal field that is generated by the armature winding through which current flows, this additional longitudinal field being added to or subtracted from the primary excitation field in the longitudinal axis of the pole, and in which there are permanent magnets arranged within the winding-free rotor, as well as soft magnetic materials with intervening spaces of non-magnetic material which form loops that lie within each other and that are open towards the air gap, enclosing the air gap. The rotor is divided into at least two differently constructed sections that lie axially one behind the other, of which only the first section is provided with permanent magnets and the open loops of soft-magnetic material, and the second section has the loops of soft-magnetic material, located within each other, each of which is arranged over a part of the pole covering and is open to the air gap, to control the additional magnetic longitudinal field produced by the armature winding, wherein these longitudinal fields are separated by non-magnetic material.
17 Citations
5 Claims
- 1. A multiphase, synchronous electrical machine excited by permanent magnets, having a stator winding and a rotor, the permanent magnets generating a basic excitation field and electrical current flowing through the stator winding generating an additional magnetic field in a radial direction, said additional magnetic field being added to or subtracted from the basic excitation field in the radial direction, said permanent magnets being disposed in the rotor, said rotor being free of windings, soft magnetic material with intervening spaces of nonmagnetic material forming groups of loops nested within each other in the rotor, the loops being exteriorly open towards an air gap disposed between the stator winding and rotor, said groups of nested loops each enclosing a pole gap disposed at a circumferential surface of the rotor substantially centered in each nested loop group, the rotor being divided into at least two sections arranged axially, said first section being provided with said permanent magnets with said loops of soft magnetic material terminating at said permanent magnets, said second section having loops of soft magnetic material arranged such that said loops are open to the air gap between the stator winding and the rotor, said loops in said second section being nested within each other with nonmagnetic material being provided between said loops, said loops in said second section being provided to control the additional magnetic field generated by the stator winding.
Specification