Flux controlled permanent magnet dynamo-electric machine
First Claim
1. In a brushless, permanent magnet dynamo-electric machine having a stator assembly and a rotor assembly, the rotor assembly including a rotor mounted on a rotor shaft for rotation with respect to the stator assembly, the stator assembly having a plurality of inwardly salient stator poles and the rotor having a plurality of outwardly salient rotor poles, there being an air gap between the respective rotor and stator poles when the poles are aligned, and a flux path created between the stator and rotor assemblies as the rotor rotates, the improvement comprising:
- means for controlling the available flux coupled between the rotor and stator assemblies and including coil means to which a d.c. current is supplies;
magnet means mounted adjacent to the rotor and rotatable therewith; and
,means for mounting the magnet means adjacent to the rotor for the magnet means to rotate in synchronism with the rotor, the current supplied to the coil means controlling the flux coupled to the rotor, and the mounting means partially defining a flux path for the resultant flux, the rotor assembly comprising of a plurality of rotor laminations stacked together and defining the rotor poles, and the magnet means comprising a plurality of magnets extending the length of the lamination stack and positioned adjacent an outer surface of one pole of each set of rotor poles for the magnets to magnetically attach to the respective rotor poles, there being a magnet for one pole of each set of rotor poles with each magnet magnetically attaching to an associated rotor pole to produce a consequent rotor assembly in which all the poles formed by the stack of rotor laminations are the same type of pole;
e.g., a south pole.
1 Assignment
0 Petitions
Accused Products
Abstract
A brushless, permanent magnet dynamo-electric machine (50) has a stator assembly (52) and a rotor assembly (RA). The rotor assembly includes a rotor (R) mounted on a rotor shaft (RS). The stator assembly has a plurality of inwardly salient poles (54) and the rotor has a plurality of outwardly salient poles (RP). The rotor is comprised of a plurality of stacked rotor laminations (L) defining the rotor poles, and there is an air gap (G1) between the rotor and stator poles. An improvement (56) of the present invention controls the available flux coupled between the rotor and stator assemblies. A coil (70) is supported on a magnetic mounting structure (66) which is connected to an endwall (W) of the motor housing and fits the coil over the rotor shaft. D.C. current is supplied to the coil. A plurality of magnets (82a, 82b) extend the length of the lamination stack and the magnets are positioned adjacent an outer face of one pole for each set of rotor poles. The magnets are mounted on support structure (72) that extends about the coil. The magnets magnetically attach to the outer surface of the rotor poles to suspend the structure about the shaft. An air gap (G2) extends between the coil and shaft. The magnets rotate in synchronism with the rotor. The current supplied to the coil controls the flux coupled to the rotor, and the mounting structures for the coil and magnets partially define a diversion flux path for the resultant flux.
80 Citations
14 Claims
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1. In a brushless, permanent magnet dynamo-electric machine having a stator assembly and a rotor assembly, the rotor assembly including a rotor mounted on a rotor shaft for rotation with respect to the stator assembly, the stator assembly having a plurality of inwardly salient stator poles and the rotor having a plurality of outwardly salient rotor poles, there being an air gap between the respective rotor and stator poles when the poles are aligned, and a flux path created between the stator and rotor assemblies as the rotor rotates, the improvement comprising:
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means for controlling the available flux coupled between the rotor and stator assemblies and including coil means to which a d.c. current is supplies; magnet means mounted adjacent to the rotor and rotatable therewith; and
,means for mounting the magnet means adjacent to the rotor for the magnet means to rotate in synchronism with the rotor, the current supplied to the coil means controlling the flux coupled to the rotor, and the mounting means partially defining a flux path for the resultant flux, the rotor assembly comprising of a plurality of rotor laminations stacked together and defining the rotor poles, and the magnet means comprising a plurality of magnets extending the length of the lamination stack and positioned adjacent an outer surface of one pole of each set of rotor poles for the magnets to magnetically attach to the respective rotor poles, there being a magnet for one pole of each set of rotor poles with each magnet magnetically attaching to an associated rotor pole to produce a consequent rotor assembly in which all the poles formed by the stack of rotor laminations are the same type of pole;
e.g., a south pole. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A brushless, permanent magnet dynamo-electric machine comprising:
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a stator assembly including a stator having a plurality of inwardly salient stator poles; a rotor assembly including a rotor mounted on a rotor shaft for rotation with respect to the stator assembly, the rotor being formed of a stack of rotor laminations defining a plurality of outwardly salient rotor poles, there being an air gap between the respective rotor and stator poles when the poles are aligned; and
,means for controlling the available flux coupled between the rotor and stator assemblies and including coil means to which a d.c. current is supplied, magnet means mounted adjacent to the rotor and including a plurality of magnets extending the length of the lamination stack and positioned adjacent an outer face of one pole of each set of rotor poles for the magnet to magnetically attach to the poles, means for mounting the coil means adjacent the rotor shaft and including an annular housing sized to fit over the rotor shaft adjacent one end of the rotor lamination stack, the housing having an inner wall whose outer diameter is greater than the diameter of the rotor shaft for an air gap to be formed between the housing and the rotor shaft and means for attaching the magnet means to the rotor for the magnet means to rotate in synchronism with the rotor and including an annular ring sized to fit over said housing with an air gap being formed between said ring and said housing, the ring including a plurality of fingers spaced about and extending from the ring longitudinally of, and parallel to the rotor shaft, the number of fingers corresponding to the number of magnets, the magnets being secured to respective inner surfaces of said fingers so to be positioned adjacent said respective outer faces of said poles and magnetically attached thereto, said fingers supporting said magnets in their attached positions against the centrifugal forces produced by said machine when it is running, the stator assembly and rotor assembly together providing one flux path for the motor, and coil means, magnet means, mounting means and attaching means defining a flux diversion path whereby current supplied to the coil means controls the amount of flux coupled between the rotor assembly and stator assembly by controlling the flux in the flux diversion path. - View Dependent Claims (9, 10, 11)
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12. A brushless, permanent magnet motor comprising:
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a stator assembly including a stator having a plurality of inwardly salient stator poles; a rotor assembly including a rotor mounted on a rotor shaft for rotation with respect to the stator assembly, the rotor having a plurality of outwardly salient rotor poles, there being an air gap between the respective rotor and stator poles when the poles are aligned, the rotor assembly comprises a plurality of rotor laminations stacked together and defining the rotor poles; a coil to which a d.c. current is supplied and a housing in which the coil is received, the housing being sized to fit about the rotor shaft adjacent one end of the rotor lamination stack, the housing having an inner wall whose outer diameter is greater than the diameter of the rotor shaft for an air gap to be formed between the housing and the rotor shaft; and
,magnet means mounted adjacent to the rotor and means for attaching the magnet means to the rotor for the magnet means to rotate in synchronism with the rotor, the magnet means including a plurality of magnets extending the length of the lamination stack and positioned adjacent an outer face of one pole of each set of rotor poles for the magnets to magnetically attach to the poles, and said magnet attaching means including an annular ring sized to fit over said housing with an air gap being formed between said ring and said housing, the ring including a plurality of fingers spaced about and extending from the ring longitudinally of, and parallel to, the rotor shaft, the number of fingers corresponding to the number of magnets, the magnets being secured to respective inner surfaces of said fingers so to be positioned adjacent said respective outer faces of said poles and magnetically attach thereto, said fingers supporting said magnets in their attached positions against the centrifugal forces produced by said machine when it is running, whereby the stator assembly and rotor assembly together provide a first flux path for the motor with the flux path extending across the first said air gap, and the coil, coil housing, magnets, and attaching means for the magnets define a second and flux diversion path which includes the second and third said air gaps, the current supplied to the coil controlling the amount of flux coupled between the rotor assembly and stator assembly by controlling the amount of flux in the flux diversion path.
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13. A method for controlling the available flux coupled between the rotor and stator assemblies of a dynamo-electric machine, the rotor assembly including a rotor mounted on a rotor shaft for rotation with respect to the stator assembly the rotor assembly being comprised of a plurality of rotor laminations stacked together and defining the rotor poles, and the stator assembly having a plurality of inwardly salient stator poles and the rotor having a plurality of outwardly salient rotor poles, there being an air gap between the respective rotor and stator poles when the poles are aligned, the method comprising:
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magnetically attaching magnet means to the rotor poles, the magnet means having an associated attachment means which is suspended about the rotor shaft for the magnet means and the attachment means to turn in synchronism with the rotor attaching the magnet means to the rotor poles including positioning a magnet adjacent an outer surface of one pole of a set of rotor poles, each magnet extending the length of the lamination stack, the outer surface of each pole being arcuate, and each magnet comprising a curved magnet subtending an arc corresponding to that subtended by the respective outer surface of a pole; mounting a stationary coil means about the rotor shaft, the coil means including a coil housing which magnetically couples with the magnet means and its attachment means and the rotor and rotor shaft to define an auxiliary flux path for the machine through which flux flow rather than through a flux path between the rotor and stator assemblies mounting the coil and the magnets includes installing the coil means in a housing adjacent one end of the rotor laminations and fitting a ring over the housing in a spaced relationship thereto, the ring including fingers to which the magnets are attached whereby the magnetic attachment of the magnets to the rotor poles suspends the ring about the coil means housing; and
,flowing a current through the coil means, the magnitude and direction of current determining the flux in each flux path.
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14. A method for controlling the available flux coupled between the rotor and stator assemblies of a dynamo-electric machine, the rotor assembly including a rotor mounted on a rotor shaft for rotation with respect to the stator assembly, and the stator assembly having a plurality of inwardly salient rotor poles and the rotor having a plurality of outwardly salient rotor poles, there being an air gap between the respective rotor and stator poles when the poles are aligned, the method comprising:
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forming a consequent rotor assembly by installing a mounting means over the rotor shaft, the mounting means having a plurality of magnets supported thereon adjacent rotor poles, the magnets attaching themselves to the rotor poles thereby to suspend the mounting means about the shaft with the magnets turning in synchronism with the rotor; mounting a coil means adjacent the rotor assembly; and
,supplying a d.c. current to the coil means, the coil means comprising a coil and the current supplied to the coil controlling flux coupled to the rotor, the rotor, rotor shaft, magnets, mounting means for the magnets, and the coil defining a flux path for the resultant flux.
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Specification