A magnetic drive system comprising three members, a first and second of which form an input member and an output member each arranged to rotate relative to the third member, wherein two of the members have respective sets of permanent magnets, the two sets having different numbers of magnetic poles,
A magnetic drive system comprising three members, a first and second of which form an input member and an output member each arranged to rotate relative to the third member, wherein two of the members have respective sets of permanent magnets, the two sets having different numbers of magnetic poles, and the other of the members comprises a cylindrical body having a plurality of pole pieces embedded therein, the pole pieces being arranged to modulate the magnetic field acting between the magnets, and wherein one of the pole pieces is of varying radial thickness.
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1. A magnetic drive system comprising three members, a first and second of which form a higher speed rotor and a lower speed rotor, respectively, each arranged to rotate about a common axis relative to a third member, wherein the first and second members have respective sets of permanent magnets, th
1. A magnetic drive system comprising three members, a first and second of which form a higher speed rotor and a lower speed rotor, respectively, each arranged to rotate about a common axis relative to a third member, wherein the first and second members have respective sets of permanent magnets, the first and second members having different numbers of magnetic poles, and the third member comprises: a cylindrical body having a plurality of pole pieces embedded therein, the pole pieces each including a main portion and a retaining portion, each of the main portion and the retaining portion having radially inner and outer surfaces, wherein the cylindrical body defines a first radial thickness that is measured along a first line that extends perpendicular to the common axis through the retaining portion, the first radial thickness measured in a single radial direction from the common axis and the first radial thickness being a thickness of the pole piece along the first line subtracted from a thickness of the cylindrical body along the first line, the first radial thickness being greater than a second radial thickness measured along a second line that extends parallel to the first line and perpendicular to the common axis through the main portion, the second radial thickness measured in a single radial direction from the common axis and the second radial thickness being a thickness of the pole piece along the second line subtracted from a thickness of the cylindrical body along the second line, the pole pieces being arranged to modulate the magnetic field acting between the magnets, and a support connected to the pole pieces, wherein the retaining portion of at least one of the pole pieces is completely enclosed within the cylindrical body,wherein the cylindrical body has a number of pole pieces that is equal to the sum of the number of pole-pairs of the first member and the number of pole-pairs of the second member and wherein the pole pieces consist essentially of ferromagnetic material. 2. A system according to claim 1 wherein the support is substantially annular. 3. A system according to claim 1 wherein the support is connected to one end of each of the pole pieces. 4. A system according to claim 1 wherein the support is formed of the same material as the pole pieces. 5. A system according to claim 1 wherein the support is fixed to the pole pieces. 6. A system according to claim 1 wherein the support is of non-magnetic material. 7. A system according to claim 1 wherein the enclosure of the at least one of the radially inner and outer surfaces of the retaining portion is achieved by embedding the pole pieces within a moulded material. 8. A system according to claim 7 wherein the moulded material is a pre-formed cast. 9. A system according to claim 7 wherein the moulded material is an overmould and the enclosure of the at least one of the radially inner and outer surfaces of the retaining portion is achieved by moulding the overmould over or around the pole pieces. 10. A system according to claim 1 wherein the pole pieces are formed integrally as a single piece structure. 11. A system according to claim 10 wherein the structure is a single piece casting. 12. A system according to claim 1 wherein the three members are coaxial members about the common axis and the pole pieces are arranged to modulate the magnetic field acting between the magnets so that rotation of the input member induces rotation of the output member in a geared manner. 13. A system according to claim 1, wherein the pole pieces are embedded in and supported by a cylindrical plastic. 14. A system according to claim 1, wherein the pole pieces are embedded in and supported by a cylindrical plastic that is concentric with the first and second members. 15. A magnetic drive system comprising three members, a first and second of which form a higher speed rotor and a lower speed rotor, respectively, each arranged to rotate relative to a third member, wherein the first and second members have respective sets of permanent magnets, the first and second members having different numbers of magnetic poles, and the third member comprises a cylindrical body having a plurality of pole pieces embedded therein, the pole pieces each including a main portion and a retaining portion, each of the main portion and the retaining portion having radially inner and outer surfaces, wherein the cylindrical body defines a first radial thickness that is measured along a first line that extends perpendicular to the common axis through the retaining portion, the first radial thickness measured in a single radial direction from the common axis and the first radial thickness being a thickness of the pole piece along the first line subtracted from a thickness of the cylindrical body along the first line, the first radial thickness being greater than a second radial thickness measured along a second line that extends parallel to the first line and perpendicular to the common axis through the main portion, the second radial thickness measured in a single radial direction from the common axis and the second radial thickness being a thickness of the pole piece along the second line subtracted from a thickness of the cylindrical body along the second line, the pole pieces being arranged to modulate the magnetic field acting between the magnets, wherein the retaining portion of at least one of the pole pieces is completely enclosed within the cylindrical body and wherein one of the pole pieces is of varying radial thickness, wherein the cylindrical body has a number of pole pieces that is equal to the sum of the number of pole-pairs of the first member and the number of pole-pairs of the second member and wherein the pole pieces consist essentially of ferromagnetic material. 16. A drive system according to claim 15 wherein the retaining portion of at least one of the pole pieces is narrower in the radial direction than the main portion. 17. A drive system according to claim 16 wherein the distance in the radial direction between the radially inner and outer surfaces of the retaining portion is less than the distance in the radial direction between the radially inner and outer surfaces of the main portion for each of the plurality of pole pieces. 18. A drive system according to claim 17 wherein the radially inner and outer surfaces of the main portion are mutually parallel. 19. A drive system according to claim 17 wherein the radially inner and outer surfaces of the retaining portion are mutually parallel. 20. A drive system according to claim 17 wherein the radially inner and outer surfaces of the retaining portion are non-parallel and the retaining portion tapers in a direction away from the main portion. 21. A drive system according to claim 15 wherein the pole piece is of constant cross section in one direction. 22. A drive system according to claim 21 wherein the pole piece is laminar being formed from a plurality of sheets all of the same shape. 23. A drive system according to claim 22 wherein the laminar lie in parallel planes which are orientated substantially transverse to the direction of rotation of the pole piece. 24. A drive system according to claim 22 wherein the laminar lie in parallel planes which are orientated substantially parallel to the direction of rotation of the pole piece. 25. A system according to claim 15 wherein the three members are coaxial members about the common axis and the pole pieces are arranged to modulate the magnetic field acting between the magnets so that rotation of the input member induces rotation of the output member in a geared manner. 26. A system according to claim 15, wherein the pole pieces are embedded in and supported by a cylindrical plastic. 27. A system according to claim 15, wherein the pole pieces are embedded in and supported by a cylindrical plastic that is concentric with the first and second members. 28. A magnetic drive system comprising three members, a first and second of which form a higher speed rotor and a lower speed rotor, respectively, each arranged to rotate relative to a third member, wherein the first and second members have respective sets of permanent magnets, the first and second members having different numbers of magnetic poles, and the third member comprises a cylindrical body having a plurality of pole pieces embedded therein, the pole pieces each including a main portion and a retaining portion, each of the main portion and the retaining portion having radially inner and outer surfaces, wherein the cylindrical body defines a first radial thickness measured along a first line that extends perpendicular to the common axis through the retaining portion, the first radial thickness measured in a single radial direction from the common axis and the first radial thickness being a thickness of the pole piece along the first line subtracted from a thickness of the cylindrical body along the first line, the first radial thickness being greater than a second radial thickness measured along a second line that extends parallel to the first line and perpendicular to the common axis through the main portion, the second radial thickness measured in a single radial direction from the common axis and the second radial thickness being a thickness of the pole piece along the second line subtracted from a thickness of the cylindrical body along the second line, the pole pieces being arranged to modulate the magnetic field acting between the magnets, an end support at each end of the cylindrical body, and a plurality of stiffening bars extending axially along the cylindrical body between the end supports, wherein the retaining portion of at least one of the pole pieces is completely enclosed within the cylindrical body, and wherein the cylindrical body has a number of pole pieces that is equal to the sum of the number of pole-pairs of the first member and the number of pole-pairs of the second member and wherein the pole pieces consist essentially of ferromagnetic material. 29. A system according to claim 28 wherein the end supports are metal. 30. A system according to claim 28 wherein the pole pieces are spaced from the end supports. 31. A system according to claim 28 wherein the pole pieces are spaced from the stiffening bars. 32. A system according to claim 28 wherein the three members are coaxial members about the common axis and the pole pieces are arranged to modulate the magnetic field acting between the magnets so that rotation of the input member induces rotation of the output member in a geared manner. 33. A system according to claim 28, wherein the pole pieces are embedded in and supported by a cylindrical plastic. 34. A system according to claim 28, wherein the pole pieces are embedded in and supported by a cylindrical plastic that is concentric with the first and second members.
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