Rotatable transverse flux electrical machine
First Claim
1. A rotatable transverse flux electrical machine (TFEM) comprising:
- a stator portion; and
a rotor portion rotatably located with respect to the stator portion, the rotor portion including an alternate sequence of individual magnets and individual concentrators radially disposed about a rotation axis thereof, each concentrator including a circumferential width for concentrating an electromagnetic field of a polarity of a pair of adjacent magnets;
the stator portion including at least one phase, the at least one phase including a plurality of cores cooperating with a coil orthogonally disposed about the rotation axis, the plurality of cores being secured inside a pair of halves within respective core-receiving spaces therein, each core including a pair of legs interconnected with an intermediate core portion, the intermediate core portion circumferentially offsetting the pair of legs from one another, the pair of legs ending with a pair of poles extending from the pair of halves through openings therein for electromagnetically engaging the concentrators, the pair of legs and the pair of poles including a circumferential thickness, the pair of poles axially skewed about the rotation axis, forming a non-ninety-degree angle with the coil, to progressively electromagnetically engage the electromagnetic field of respective cooperating concentrators to reduce a cogging torque when the TFEM is in operation.
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Accused Products
Abstract
The invention concerns a rotatable transverse flux electrical machine (TFEM) comprising a stator portion; and a rotor portion rotatably located in respect with the stator portion, the rotor portion including an alternate sequence of magnets and concentrators radially disposed about a rotation axis thereof; the stator portion including at least one phase, the at least one phase including a plurality of cores cooperating with a coil disposed about the rotation axis, each core including a skewed pair of poles to progressively electromagnetically engage an electromagnetic field of respective cooperating concentrators. The invention is also concerned with a plurality of elements located in desired positions in the TFEM and also with a linear TFEM.
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Citations
20 Claims
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1. A rotatable transverse flux electrical machine (TFEM) comprising:
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a stator portion; and a rotor portion rotatably located with respect to the stator portion, the rotor portion including an alternate sequence of individual magnets and individual concentrators radially disposed about a rotation axis thereof, each concentrator including a circumferential width for concentrating an electromagnetic field of a polarity of a pair of adjacent magnets; the stator portion including at least one phase, the at least one phase including a plurality of cores cooperating with a coil orthogonally disposed about the rotation axis, the plurality of cores being secured inside a pair of halves within respective core-receiving spaces therein, each core including a pair of legs interconnected with an intermediate core portion, the intermediate core portion circumferentially offsetting the pair of legs from one another, the pair of legs ending with a pair of poles extending from the pair of halves through openings therein for electromagnetically engaging the concentrators, the pair of legs and the pair of poles including a circumferential thickness, the pair of poles axially skewed about the rotation axis, forming a non-ninety-degree angle with the coil, to progressively electromagnetically engage the electromagnetic field of respective cooperating concentrators to reduce a cogging torque when the TFEM is in operation. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. A method of assembling a rotatable transverse flux electrical machine (TFEM), the method comprising:
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radially assembling a rotor portion with a plurality of alternated sequence of individual magnets and individual concentrators radially disposed about a rotation axis thereof, each concentrator including a circumferential width for concentrating an electromagnetic field of a polarity of a pair of adjacent magnets; radially assembling a single phase stator portion with a plurality of cores adapted to cooperate with a coil orthogonally disposed about a rotation axis, the plurality of cores being secured inside a pair of halves within respective core-receiving spaces therein, each core including a pair of legs interconnected with an intermediate core portion, the intermediate core portion circumferentially offsetting the pair of legs from one another, the pair of legs ending with a pair of poles extending from the pair of halves through openings therein for electromagnetically engaging the concentrators, the pair of legs and the pair of poles including a circumferential thickness, the pair of poles being axially skewed about the rotation axis, forming a non-ninety-degree angle with the coil to progressively electromagnetically engage the electromagnetic field of respective cooperating concentrators; assembling the coil in the stator portion in electromagnetic cooperation with the plurality of cores; and assembling the stator portion in the rotor portion about the rotation axis for allowing rotation of the rotor portion with respect to the stator portion, wherein, the skewed pairs of poles are progressively, electromagnetically engaging an electromagnetic field of respective cooperating concentrators when the rotor rotates about the stator to reduce a cogging torque when the TFEM is in operation. - View Dependent Claims (18)
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19. A rotatable transverse flux electrical machine (TFEM) kit comprising:
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a stator portion including a rotation axis thereof; a rotor portion sized and designed to be rotatably assembled with the stator portion about the rotation axis thereof, the rotor portion including an alternate sequence of individual magnets and individual concentrators radially disposed about the rotation axis thereof, each concentrator including a circumferential width for concentrating an electromagnetic field of a polarity of a pair of adjacent magnets; the stator portion including at least one phase, the at least one phase including a plurality of cores cooperating with a coil disposed about the rotation axis, the plurality of cores being secured inside a pair of halves within respective core-receiving spaces therein, each core including a pair of legs interconnected with an intermediate core portion, the intermediate core portion circumferentially offsetting the pair of legs from one another, the pair of legs ending with a pair of poles extending from the pair of halves through openings therein for electromagnetically engaging the concentrators, the pair of legs and the pair of poles including a circumferential thickness, the pair of poles axially skewed about the rotation axis forming a non-ninety degree angle with the coil, to progressively electromagnetically engage the electromagnetic field of respective cooperating concentrators to reduce a cogging torque when the TFEM is in operation when the rotor portion is rotating with respect to the stator member. - View Dependent Claims (20)
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Specification