Dynamoelectric machine with ferromagnetic end winding ring
First Claim
1. A dynamoelectric machine comprising:
- a stator core;
a stator winding at least partially distributed on the stator core, the stator winding having stator end portions not distributed on the stator core, at least one of the stator end portions including an angled portion and a rounded end connected to the angled portion; and
first ferromagnetic material operatively coupled to the stator end portions to make use of flux generated by the end portions to facilitate rotation of a rotor, the first ferromagnetic material having at least one angled portion extending along the angled portion of the at least one of the stator end portions and at least one straight portion extending along the rounded end of the at least one of the stator end portions.
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Accused Products
Abstract
A dynamoelectric machine such as a motor or generator has an end winding ring of ferromagnetic material in an area of the end winding portions of the stator and/or rotor winding. The end winding ring improves the overall power density of the motor by reducing the stator and/or rotor flux leakage (the magnetic flux that is produced by the windings that is not utilized to produce torque in the rotor). By operatively coupling end winding portions of the stator winding with ferromagnetic material, the end winding portion is employed to produce torque in the rotor. The end winding ring may be a ring of ferromagnetic material attached to the stator core or the frame or the rotor, or may be a coating of ferromagnetic material applied indirectly to the end winding portions. The end winding ring also may support the end winding portions to reduce movement thereof.
94 Citations
25 Claims
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1. A dynamoelectric machine comprising:
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a stator core; a stator winding at least partially distributed on the stator core, the stator winding having stator end portions not distributed on the stator core, at least one of the stator end portions including an angled portion and a rounded end connected to the angled portion; and first ferromagnetic material operatively coupled to the stator end portions to make use of flux generated by the end portions to facilitate rotation of a rotor, the first ferromagnetic material having at least one angled portion extending along the angled portion of the at least one of the stator end portions and at least one straight portion extending along the rounded end of the at least one of the stator end portions. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 15)
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14. A dynamoelectric machine comprising:
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a stator core; a stator winding at least partially distributed on the stator core, the stator winding having stator end portions not distributed on the stator core; first ferromagnetic material operatively coupled to the stator end portions to make use of flux generated by the end portions to facilitate rotation of a rotor; and an outer conducting ring attached to the first ferromagnetic material, the outer conducting ring being further from the stator core than the stator end portions.
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16. A method of reducing stator flux leakage from a dynamoelectric machine, comprising the steps of:
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producing a magnetic field from end portions of a stator winding by operatively coupling magnetic material to the end portions, at least one of the end portions including an angled portion and a rounded end connected to the angled portion and the first magnetic material having at least one angled portion extending along the angled portion of the at least one of the end portions and at least one straight portion extending along the rounded end of the at least one of the end portions; and using the magnetic field to enhance rotation of a rotor adapted to produce torque in response to the magnetic field. - View Dependent Claims (17)
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18. A method of reducing stator flux leakage from a dynamoelectric machine, comprising the steps of:
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producing a magnetic field from end portions of a stator winding by operatively coupling magnetic material to the end portions; and using the magnetic field to enhance rotation of a rotor adapted to produce torque in response to the magnetic field, wherein the step of operatively coupling the magnetic material to the end portion includes a step of putting a coating of magnetic material on the end portions.
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19. A dynamoelectric machine comprising:
a stator, including; end winding portions having a coating of ferromagnetic material, the coating increasing magnetic flux in an area of the end winding portions.
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20. A dynamoelectric machine comprising:
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a stator core; a rotor; a stator winding having a portion at least partially distributed on the stator core, the stator winding also having stator end portions not distributed on the stator core, at least one of the stator end portions including an angled portion and a rounded end connected to the angled portion; and first ferromagnetic material proximate to the stator end portions such that flux generated by the end portions facilitates rotation of the rotor, the first ferromagnetic material having at least one angled portion extending along the angled portion of the at least one of the stator end portions and at least one straight portion extending alone the rounded end of the at least one of the stator end portions. - View Dependent Claims (21, 22, 23, 25)
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24. A dynamoelectric machine comprising:
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a stator core; a rotor; a stator winding having a portion at least partially distributed on the stator core, the stator winding also having stator end portions not distributed on the stator core; and first ferromagnetic material proximate to the stator end portions such that flux generated by the end portions facilitates rotation of the rotor, wherein the first ferromagnetic material comprises a coating of ferromagnetic material on the stator end portions.
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Specification