Flux focusing arrangement for permanent magnets, methods of fabricating such arrangements, and machines including such arrangements
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02K-001/27
H01F-007/02
H02K-021/12
H02K-021/14
H02K-021/24
F16C-032/04
출원번호
US-0049652
(2016-02-22)
등록번호
US-10242783
(2019-03-26)
발명자
/ 주소
Smith, James S.
Pillsbury, Robert
Sullivan, Brian J.
출원인 / 주소
Boulder Wind Power, Inc.
대리인 / 주소
Cooley LLP
인용정보
피인용 횟수 :
0인용 특허 :
117
초록▼
Numerous arrangements for permanent magnets are disclosed that can focus the flux produced by the magnets. Depending on the particular application in which the disclosed designs and techniques are used, efficiency and reliability may be increased by minimizing flux leakage, increasing peak flux dens
Numerous arrangements for permanent magnets are disclosed that can focus the flux produced by the magnets. Depending on the particular application in which the disclosed designs and techniques are used, efficiency and reliability may be increased by minimizing flux leakage, increasing peak flux density, and shaping the flux fields to improve the effective coercivity of the flux focusing permanent magnet arrangement when loaded, and to achieve customized voltage and current waveforms. The disclosed magnet assemblies may be incorporated into a machine, such as a motor/generator, having windings and may be disposed for movement relative to the windings. The magnet assembly may be mounted on a support formed of one or more ferromagnetic materials, such as a back iron. The disclosed flux focusing magnet assemblies may be formed using a variety of manufacturing methods.
대표청구항▼
1. An apparatus comprising: a single magnet segment having: a central magnetic region;a first side magnetic region disposed on a first side of the central magnetic region; anda second side magnetic region disposed on the opposite side of the central region, the central magnet region, the first side
1. An apparatus comprising: a single magnet segment having: a central magnetic region;a first side magnetic region disposed on a first side of the central magnetic region; anda second side magnetic region disposed on the opposite side of the central region, the central magnet region, the first side magnetic region and the second side magnet region being integrally formed,the central magnetic region, the first side magnetic region and the second side magnetic region collectively forming a permanent magnet producing a magnetic field with a first magnetic angle of polarization relative to a top surface of the magnet that increases from the central magnetic region to the first side magnetic region, and a second magnetic angle of polarization that decreases from the central magnetic region to the second side magnetic region, the magnetic angles of polarization not intersecting at a point above the top surface,the first magnetic angle of polarization increasing from zero degrees relative to a nominal flux direction at the central magnetic region up to an angle less than ninety degrees at the first side magnetic region,the second magnetic angle of polarization decreasing from zero degrees relative to the nominal flux direction at the central magnetic region to an angle greater than negative ninety degrees at the second side magnetic region,a magnetic flux emanating from the first side magnetic region and a magnetic flux emanating from the second side magnetic region each being directed angularly toward a magnetic flux emanating from the central magnetic region. 2. The apparatus of claim 1, further comprising a ferromagnetic lens disposed in operative relationship with the magnet. 3. The apparatus of claim 1, wherein the magnet is a first magnet, the magnetic angles of polarization of the first magnet lie approximately in a plane, and further comprising a second magnet coupled to the first magnet and having an angle of polarization that intersects the plane. 4. The apparatus of claim 1, further comprising: a stator; anda rotor disposed for movement relative to the stator, the rotor including a ferromagnetic support member, the magnet disposed on the support member. 5. An apparatus, comprising: a support member formed of a ferromagnetic material and having a surface;a magnetic pole assembly including,a first magnet assembly having a center magnet with a first lateral side, a second, opposite lateral side, a first longitudinal end, and a second, opposite longitudinal end, a first splitter magnet disposed on a first lateral side of the center magnet and having a first longitudinal end, and a second, opposite longitudinal end, and a second splitter magnet disposed on a second, opposite lateral side of the center magnet and having a first longitudinal end, and a second, opposite longitudinal end, the first magnet assembly having a first end defined collectively by the first longitudinal end of the center magnet, the first longitudinal end of the first splitter magnet and the first longitudinal end of the second splitter magnet of the first magnet assembly, and a second end defined collectively by the second longitudinal end of the center magnet, the second longitudinal end of the first splitter magnet and the second longitudinal end of the second splitter magnet of the first magnet assembly;a second magnet assembly having a center magnet with a first lateral side, a second, opposite lateral side, a first longitudinal end, and a second, opposite longitudinal end, a first splitter magnet disposed on the first lateral side of the center magnet and having a first longitudinal end, and a second, opposite longitudinal end, and a second splitter magnet disposed on the second lateral side of the center magnet and having a first longitudinal end, and a second, opposite longitudinal end, the second magnet assembly having a first end defined collectively by the first longitudinal end of the center magnet, the first longitudinal end of the first splitter magnet and the first longitudinal end of the second splitter magnet of the second magnet assembly, and a second end defined collectively by the second longitudinal end of the center magnet, the second longitudinal end of the first splitter magnet and the second longitudinal end of the second splitter magnet of the second magnet assembly,the first magnet assembly and the second magnet assembly disposed on the surface of the support member with the first end of the first magnet assembly disposed proximate to the second end of the second magnet assembly; andan end magnet disposed on the surface of the support member and proximate to the second end of the first magnet assembly such that the end magnet is in surface contact with the second end of the center magnet of the first magnet assembly, the second end of the first splitter magnet of the first magnet assembly and the second end of the second splitter magnet of the first magnet assembly. 6. The apparatus of claim 5, wherein the end magnet is a first end magnet, the magnetic pole assembly further comprising: a second end magnet disposed on the surface of the support member and proximate to the first end of the second magnet assembly. 7. The apparatus of claim 5, further comprising: a ferromagnetic lens disposed proximate to the other of the one of the second end of the first magnet assembly and the first end of the second magnet. 8. The apparatus of claim 5, further comprising: a stator; anda rotor disposed for movement relative to the stator, the rotor including the magnetic pole assembly and the support member. 9. An apparatus comprising: a magnet assembly having, a central magnetic region; anda plurality of first side magnetic regions disposed on a first side of the central magnetic region; anda plurality of second side magnetic regions disposed on the opposite side of the central region,the central magnet region, the plurality of first side magnetic regions and the plurality of second side magnetic regions collectively forming a permanent magnet producing a magnetic field with a first magnetic angle of polarization relative to a top surface of the magnet that increases from the central magnetic region to each successive first side magnetic regions, and a second magnetic angle of polarization that decreases from the central magnetic region to each successive second side magnetic regions, the first and second magnetic angles of polarization not intersecting at a point above the top surface;the first magnetic angle of polarization increasing from zero degrees relative to a nominal flux direction at the central magnetic region up to an angle less than ninety degrees,the second magnetic angle of polarization decreasing from zero degrees relative to the nominal flux direction at the central magnetic region to an angle greater than negative ninety degrees. 10. The apparatus of claim 9, further comprising a ferromagnetic lens disposed in operative relationship with the magnet assembly. 11. The apparatus of claim 9, wherein the magnet assembly is a first magnet assembly, the magnetic angles of polarization of the first magnet assembly lie approximately in a plane, and further comprising a second magnet assembly coupled to the first magnet assembly and having an angle of polarization that intersects the plane. 12. The apparatus of claim 9, further comprising: a stator; anda rotor disposed for movement relative to the stator, the rotor including the magnetic assembly.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (117)
Judson John,GBX, A.C. electrical machine and method of transducing power between two different systems.
Gardner, Donald S.; Schrom, Gerhard; Hazucha, Peter; Paillet, Fabrice; Kamik, Tanay, Control of eddy currents in magnetic vias for inductors and transformers in integrated circuits.
Ward,Terence G.; Rahman,Khwaja M.; Nagashima,James M.; Crescimbini,Fabio; Caricchi,Federico; Lucchi,Giorgio, Cooling and handling of reaction torque for an axial flux motor.
Kvam, Michael A.; Sullivan, Brian J.; Duford, James David; Jore, James D.; Jore, Matthew B.; Samsel, David; Smith, James S., Devices and methods for magnetic pole and back iron retention in electromagnetic machines.
Qu, Ronghai; Jansen, Patrick Lee; Bagepalli, Bharat Sampathkumar; Carl, Jr., Ralph James; Gadre, Aniruddha Dattatraya; Lopez, Fulton Jose, Electrical machines and assemblies including a yokeless stator with modular lamination stacks.
Spooner Edward,GBX ; Williamson Alan Charles,GBX, Electromagnetic machine with at least one pair of concentric rings having modularized magnets and yokes.
Smith, James S.; Pillsbury, Robert; Sullivan, Brian, Flux focusing arrangement for permanent magnets, methods of fabricating such arrangements, and machines including such arrangements.
Smith, James S.; Pillsbury, Robert; Sullivan, Brian, Flux focusing arrangement for permanent magnets, methods of fabricating such arrangements, and machines including such arrangements.
Smith, James S.; Pillsbury, Robert; Sullivan, Brian J., Flux focusing arrangement for permanent magnets, methods of fabricating such arrangements, and machines including such arrangements.
Spiegel Ronald J. (Chapel Hill NC) Bose Bimal K. (Knoxville TN), Fuzzy logic integrated electrical control to improve variable speed wind turbine efficiency and performance.
Wang, Shiang-Bau; Hoffman, Daniel J.; Cui, Chunshi; Ye, Yan; Delgadino, Gerardo; McParland, David; Miller, Matthew L.; Buchberger, Jr., Douglas A.; Shannon, Steven C., Inductive antenna for a plasma reactor producing reduced fluorine dissociation.
Shimazu Chiyuki,JPX ; Yabase Koji,JPX ; Shimazu Kunio,JPX, Method and device for automatically switching three-phase voltage for power saving transformer.
Nakano, Masatsugu; Kometani, Haruyuki; Kawamura, Mitsuhiro; Ikeda, Yuji, Permanent magnet dynamo electric machine, and permanent magnet synchronous generator for wind power generation.
William Edward Vanderbeck ; Gregory Weston Terpay ; Ka-Shu Lee ; George Gustave Zipfel ; Victor G. Mishkevich ; Thomas Edward Smith, Jr., Permanent magnet phase-control motor.
Jore, Matthew B.; Jore, Lincoln; Kvam, Michael A.; Jore, James D.; Samsel, David; Duford, James David; Smith, James S., Systems and methods for improved direct drive generators.
Hallidy William M. (620 E. Laurel Glendora CA 91740), Variable speed constant frequency synchronous electric power generating system and method of using same.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.