Segmented switched reluctance electric machine with interdigitated disk-type rotor and stator construction
First Claim
Patent Images
1. An unipolar current electrical machine having a housing, a stator mounted in the housing, and a rotor, the rotor having a shaft with an axis therethrough and being supported by bearings for rotation about the axis in the housing, comprising:
- the stator having a plurality of stator elements each in the form of an annular disk, spaced apart from each other, each stator element comprising a plurality of magnetically isolated magnetic teeth;
a plurality of electrical windings on each of the stator elements, each winding being associated with a group of magnetic teeth of the stator element, each group of magnetic teeth being arranged at a predetermined angular position with respect to an adjacent group of magnetic teeth, each of the windings being arranged such that, when energized with a current flowing in the windings, a magnetic flux is created in a first direction;
the rotor having a plurality of rotor elements, the rotor elements being spaced from each other and interstitially disposed with the stator elements in an interdigitated manner;
each rotor element being in the form of a circular disk mounted on the shaft, each rotor element comprising a plurality of magnetically isolated magnetic teeth arranged in a annular portion of the circular disk;
means for completing a magnetic flux path in a second direction through the magnetic teeth of the rotor elements and through corresponding groups of teeth on successive stator elements a modular control unit arranged to individually control electrical energy applied to each winding of each stator element, the control unit comprising;
a microprocessor controller, a load sensing means, a rotor angle position sensor, and a plurality of stator control modules, each associated with a respective stator element, each stator control module comprising a plurality of electrical switching devices, each connected to a winding of the respective stator element;
the microprocessor controller being responsive to the load sensing means and the rotor angle position sensor to generate control signals to the control modules;
each control module being responsive to the control signals to control the flow of current to each connected winding of the stator element in a pulse-width control manner, the flow of current to each winding being turned on at a first predetermined rotor angle position and turned off at a second predetermined rotor angle position by the control unit in response to control signals from the controller load sensing means and the current sensing means, thus causing the rotor to rotate at a speed and rotational direction responsive to the control signals, with a power output proportional to the load.
3 Assignments
0 Petitions
Accused Products
Abstract
The present invention relates to a a unipolar current electrical machine operable as a switched reluctance motor, comprising a motor structure and a control unit. The motor structure comprises a plurality of disk-shaped annular stator elements stacked and spaced equidistantly from each other and mounted on a frame; a plurality of disk-shaped rotor elements mounted on a rotational axis and spaced equidistantly from each other such that successive rotor elements are positioned between successive stator elements; a plurality of electrical windings on each of the stator elements, which when energized with a current flow, produce a magnetic field in a direction substantially parallel to the axis; and a return path for completing a magnetic flux path in a second direction perpendicular to the first direction on successive stator elements and through the rotor elements for generating a rotational force in the rotor elements; and a rotor position sensor. A rotor position sensor provides a signal to the control unit. The control unit utilizes an input signal in combination with the rotor position signal to switch current to each of the windings of the stator elements in a controlled manner.
29 Citations
16 Claims
-
1. An unipolar current electrical machine having a housing, a stator mounted in the housing, and a rotor, the rotor having a shaft with an axis therethrough and being supported by bearings for rotation about the axis in the housing, comprising:
-
the stator having a plurality of stator elements each in the form of an annular disk, spaced apart from each other, each stator element comprising a plurality of magnetically isolated magnetic teeth;
a plurality of electrical windings on each of the stator elements, each winding being associated with a group of magnetic teeth of the stator element, each group of magnetic teeth being arranged at a predetermined angular position with respect to an adjacent group of magnetic teeth, each of the windings being arranged such that, when energized with a current flowing in the windings, a magnetic flux is created in a first direction;
the rotor having a plurality of rotor elements, the rotor elements being spaced from each other and interstitially disposed with the stator elements in an interdigitated manner;
each rotor element being in the form of a circular disk mounted on the shaft, each rotor element comprising a plurality of magnetically isolated magnetic teeth arranged in a annular portion of the circular disk;
means for completing a magnetic flux path in a second direction through the magnetic teeth of the rotor elements and through corresponding groups of teeth on successive stator elements a modular control unit arranged to individually control electrical energy applied to each winding of each stator element, the control unit comprising;
a microprocessor controller, a load sensing means, a rotor angle position sensor, and a plurality of stator control modules, each associated with a respective stator element, each stator control module comprising a plurality of electrical switching devices, each connected to a winding of the respective stator element;
the microprocessor controller being responsive to the load sensing means and the rotor angle position sensor to generate control signals to the control modules;
each control module being responsive to the control signals to control the flow of current to each connected winding of the stator element in a pulse-width control manner, the flow of current to each winding being turned on at a first predetermined rotor angle position and turned off at a second predetermined rotor angle position by the control unit in response to control signals from the controller load sensing means and the current sensing means, thus causing the rotor to rotate at a speed and rotational direction responsive to the control signals, with a power output proportional to the load. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
-
-
11. A method of manufacture of a unipolar current electrical machine having a housing, a stator mounted in the housing, and a rotor, the rotor having a shaft with an axis therethrough and being supported by bearings for rotation about the axis in the housing, the method comprising the steps of:
-
(a) selecting from a plurality of individual stator elements the number of stator elements necessary to produce the desired horsepower or kilowatt rating for the electrical machine wherein stator elements are in the form of annular disks comprising a plurality of magnetically isolated magnetic teeth, each stator element having thereon a plurality of electrical windings on each of the stator elements, each winding being associated with a group of magnetic teeth of the stator element, the windings being arranged such that, when energized with a current flowing in the windings, a magnetic flux is created in a first direction;
(b) selecting from a plurality of individual rotor elements necessary to produce the desired horsepower or kilowatt rating for the electrical machine, wherein the rotor elements are in the form of circular disks comprising a plurality of magnetically isolated magnetic teeth arranged in an annular portion of the circular disks;
(c) mounting the selected stator elements in the housing such that the elements are spaced apart from each other;
(d) mounting the selected rotor elements on the shaft such that the rotor elements are spaced from each other and interstitially disposed with the stator elements in an interdigitated manner, so that a magnetic flux path in a second direction is completed through corresponding groups of teeth on the rotor elements and through corresponding groups of teeth on successive stator elements.
-
-
12. A method of operating an electrical machine in a fault tolerant manner in response to a controller, the electrical machine comprising:
- a housing, a stator mounted in the housing, and a rotor, the rotor having a shaft with an axis therethrough and being supported by bearings for rotation about the axis in the housing,
the stator comprising;
a plurality of stator elements in the form of annular disks, spaced apart from each other, each stator element comprising a plurality of magnetically isolated magnetic teeth, a plurality of electrical windings on each of the stator elements, each winding being associated with a group of magnetic teeth of the stator element, each group of magnetic teeth being arranged at a predetermined angular position with respect to an adjacent group of magnetic teeth, each of the windings being arranged such that, when energized with a current flowing in the windings, a magnetic flux is created in a first direction;
the rotor comprising;
a plurality of rotor elements, the rotor elements being spaced from each other and interstitially disposed with the stator elements in an interdigitated manner;
each rotor element being in the form of a circular disk mounted on the shaft, each rotor element comprising a plurality of magnetically isolated magnetic teeth arranged in an annular portion of the circular disk;
means for completing a magnetic flux path in a second direction through the magnetic teeth of the rotor elements and through corresponding groups of teeth on successive stator elements;
a modular control unit arranged to individually control electrical energy applied to each winding of each stator element, the control unit comprising;
a microprocessor controller, a load sensing means, a rotor angle position sensor, and a plurality of stator control modules;
each stator control module comprising an electrical switching device connected to a winding of the respective stator element and current sensing means to sense current in each winding of the associated stator element and means to generate a corresponding signal to the microprocessor controller;
the microprocessor controller being responsive to the load sensing means, the rotor angle position sensor, and the signal representing the sensed winding current, to generate control signals to the control modules;
the microprocessor controller comparing each current signal to a predetermined fault threshold to detect a fault in a winding in a stator element and causing the corresponding control module to deenergize one or more windings in the stator element in response to the detected fault, thereby permitting the motor to continue to operate in the presence of a winding fault. - View Dependent Claims (13, 14, 15, 16)
- a housing, a stator mounted in the housing, and a rotor, the rotor having a shaft with an axis therethrough and being supported by bearings for rotation about the axis in the housing,
Specification
-
- Resources
Litigation Campaign Assessment
Thank you for your request. You will receive a custom alert email when the Litigation Campaign Assessment is available.
×
-
Current AssigneeThe Chemours Company TT, LLC (The Chemours Company)
-
Original AssigneeRonald Odell Burse
-
InventorsBurse, Ronald Odell
-
Granted Patent
-
Time in Patent OfficeDays
-
Field of Search
-
US Class Current310/90.5
-
CPC Class CodesH02K 16/00 Machines with more than one...H02K 16/02 Machines with one stator an...H02K 19/103 Motors having windings on t...H02K 21/24 with magnets axially facing...H02P 8/00 Arrangements for controllin...
