IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0951553
(2010-11-22)
|
등록번호 |
US-8618689
(2013-12-31)
|
우선권정보 |
IT-MI2009A2060 (2009-11-23) |
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Neal, Gerber & Eisenberg LLP
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
213 |
초록
▼
A wind power turbine configured to generate electric energy, having a supporting structure; a nacelle; a blade assembly rotating with respect to the nacelle; a first and second electric machine having, respectively, a first and second stator, and a first and second rotor substantially coaxial with e
A wind power turbine configured to generate electric energy, having a supporting structure; a nacelle; a blade assembly rotating with respect to the nacelle; a first and second electric machine having, respectively, a first and second stator, and a first and second rotor substantially coaxial with each other and fitted to the first and second stator to rotate about a first and second axis; and a transmission assembly for connecting the first and second rotor; the transmission assembly being deformable.
대표청구항
▼
1. An electric energy generating wind power turbine including a supporting structure, a nacelle, and a blade assembly configured to rotate with respect to the nacelle, said wind power turbine comprising: a first electric machine including: a first stator, anda first rotor fitted to the first stator,
1. An electric energy generating wind power turbine including a supporting structure, a nacelle, and a blade assembly configured to rotate with respect to the nacelle, said wind power turbine comprising: a first electric machine including: a first stator, anda first rotor fitted to the first stator, said first rotor configured to rotate about a first axis;a second electric machine including: a second stator substantially coaxial with the first stator, anda second rotor fitted to the second stator, said second rotor configured to rotate about a second axis; anda transmission assembly connecting the first rotor to the second rotor, said transmission assembly including at least one elastic joint and a transmission shaft, said at least one elastic joint being interposed between the transmission shaft and at least one of the first rotor and the second rotor, and said transmission assembly being deformable to permit relative movement between the first electric machine and the second electric machine. 2. The electric energy generating wind power turbine of claim 1, wherein the at least one elastic joint includes a plurality of elastic blocks of elastomeric material interposed between the transmission shaft and at least one of the first rotor and the second rotor. 3. The electric energy generating wind power turbine of claim 2, wherein each elastic block includes a reinforcing structure incorporated in the elastomeric material. 4. The electric energy generating wind power turbine of claim 1, wherein the at least one elastic joint includes a ring comprising elastomeric material. 5. The electric energy generating wind power turbine of claim 4, wherein the ring includes a reinforcing structure incorporated in the elastomeric material. 6. The electric energy generating wind power turbine of claim 4, wherein the ring has substantially the same diameter as the transmission shaft. 7. The electric energy generating wind power turbine of claim 1, wherein the at least one elastic joint includes at least one metal plate. 8. The electric energy generating wind power turbine of claim 1, wherein: the first electric machine and the second electric machine are annular generators;the first rotor includes a first hollow rotor drum;the second rotor includes a second hollow rotor drum;the transmission shaft includes a hollow cylinder; andthe at least one elastic joint is annular and configured to connect the inside of the first rotor to the inside of the second rotor. 9. The electric energy generating wind power turbine of claim 8, wherein: the hollow cylinder and the at least one elastic joint have respective outside diameters smaller than the outside diameter of the first hollow rotor drum and the second hollow rotor drum;the first rotor and the second rotor are each divided into a plurality of rotor segments; andthe first stator and the second stator are each divided into a plurality of stator segments. 10. The electric energy generating wind power turbine of claim 8, wherein the hollow cylinder and at least one the elastic joint have respective inside diameters configured to allow passage by an operator. 11. The electric energy generating wind power turbine of claim 8, wherein the hollow cylinder has at least one lateral opening configured to allow an operator access to the inside of the hollow cylinder. 12. The electric energy generating wind power turbine of claim 8, wherein the transmission shaft includes a further hollow cylinder coaxial with and connected reversibly to the hollow cylinder. 13. The electric energy generating wind power turbine of claim 12, wherein the hollow cylinder and the further hollow cylinder are configured to slide axially with respect to each other. 14. The electric energy generating wind power turbine of claim 13, wherein when at least one of the hollow cylinder and the further hollow cylinder slide toward the other of the hollow cylinder and the further hollow cylinder, the second rotor does not rotate about the second axis when wind causes the blade assembly to rotate. 15. The electric energy generating wind power turbine of claim 1, including: a first bearing assembly located at a first end of the nacelle, anda second bearing assembly located at a second, opposite end of the nacelle. 16. The electric energy generating wind power turbine of claim 15, wherein the first rotor, the second rotor and the transmission assembly are supported solely by the first bearing assembly and the second bearing assembly. 17. The electric energy generating wind power turbine of claim 1, wherein said transmission assembly is deformable to permit the first electric machine to move towards and away from the second electric machine. 18. An electric energy generating wind power turbine comprising: a supporting structure;a nacelle;a blade assembly configured to rotate with respect to the nacelle;a first electric machine including a first stator and a first rotor fitted to the first stator;a second electric machine including a second stator and a second rotor fitted to the second stator; anda transmission assembly connecting the first rotor to the second rotor, said transmission assembly including at least one elastic joint and a transmission shaft, said at least one elastic joint being interposed between the transmission shaft and at least one of the first rotor and the second rotor, said transmission assembly configured to: (i) permit the first electric machine to move towards and away from the second electric machine, and (ii) permit the first electric machine to move towards and away from the supporting structure. 19. An electric energy generating wind power turbine transmission assembly comprising: a transmission shaft configured to connect a first rotor of a first electric machine to a second rotor of a second electric machine, said first rotor fitted to a first stator and configured to rotate about a first axis and said second rotor fitted to a second stator substantially coaxial with the first stator and configured to rotate about a second axis; andat least one elastic joint interposed between the transmission shaft and at least one of the first rotor and the second rotor, said at least one elastic joint being deformable to permit relative movement between the first electric machine and the second electric machine. 20. An electric energy generating wind power turbine including a supporting structure, a nacelle, and a blade assembly configured to rotate with respect to the nacelle, said wind power turbine comprising: a first electric machine including: a first stator, anda first rotor fitted to the first stator, said first rotor configured to rotate about a first axis;a second electric machine including: a second stator substantially coaxial with the first stator, anda second rotor fitted to the second stator, said second rotor configured to rotate about a second axis; anda transmission assembly connecting the first rotor to the second rotor, said transmission assembly including at least one elastic joint and a transmission shaft, the at least one elastic joint including a plurality of elastic blocks of elastomeric material interposed between the transmission shaft and at least one of the first rotor and the second rotor, and said transmission assembly being deformable to permit relative movement between the first electric machine and the second electric machine. 21. The electric energy generating wind power turbine of claim 20, wherein each elastic block includes a reinforcing structure incorporated in the elastomeric material. 22. An electric energy generating wind power turbine including a supporting structure, a nacelle, and a blade assembly configured to rotate with respect to the nacelle, said wind power turbine comprising: a first electric machine including: a first stator, anda first rotor fitted to the first stator, said first rotor configured to rotate about a first axis;a second electric machine including: a second stator substantially coaxial with the first stator, anda second rotor fitted to the second stator, said second rotor configured to rotate about a second axis; anda transmission assembly connecting the first rotor to the second rotor, said transmission assembly including at least one elastic joint and a transmission shaft, the at least one elastic joint including a ring including elastomeric material, the ring having substantially the same diameter as the transmission shaft, and said transmission assembly being deformable to permit relative movement between the first electric machine and the second electric machine. 23. An electric energy generating wind power turbine including a supporting structure, a nacelle, and a blade assembly configured to rotate with respect to the nacelle, said wind power turbine comprising: a first electric machine including: a first stator, anda first rotor fitted to the first stator, said first rotor configured to rotate about a first axis;a second electric machine including: a second stator substantially coaxial with the first stator, anda second rotor fitted to the second stator, said second rotor configured to rotate about a second axis; anda transmission assembly connecting the first rotor to the second rotor, said transmission assembly including at least one elastic joint and a transmission shaft, the at least one elastic joint including at least one metal plate, and said transmission assembly being deformable to permit relative movement between the first electric machine and the second electric machine. 24. An electric energy generating wind power turbine including a supporting structure, a nacelle, and a blade assembly configured to rotate with respect to the nacelle, said wind power turbine comprising: a first annular generator electric machine including: a first stator, anda first rotor fitted to the first stator and including a first hollow rotor drum, said first rotor configured to rotate about a first axis;a second annular generator electric machine including: a second stator substantially coaxial with the first stator, anda second rotor fitted to the second stator and including a second hollow rotor drum, said second rotor configured to rotate about a second axis; anda transmission assembly connecting the first rotor to the second rotor, said transmission assembly including at least one annular elastic joint and a transmission shaft including a hollow cylinder, the at least one annular elastic joint configured to connect the inside of the first rotor to the inside of the second rotor, and said transmission assembly being deformable to permit relative movement between the first electric machine and the second electric machine. 25. The electric energy generating wind power turbine of claim 24, wherein: the hollow cylinder and the at least one elastic joint have respective outside diameters smaller than the outside diameter of the first hollow rotor drum and the second hollow rotor drum;the first rotor and the second rotor are each divided into a plurality of rotor segments; andthe first stator and the second stator are each divided into a plurality of stator segments. 26. The electric energy generating wind power turbine of claim 24, wherein the hollow cylinder and at least one the elastic joint have respective inside diameters configured to allow passage by an operator. 27. The electric energy generating wind power turbine of claim 24, wherein the hollow cylinder has at least one lateral opening configured to allow an operator access to the inside of the hollow cylinder. 28. The electric energy generating wind power turbine of claim 24, wherein the transmission shaft includes a further hollow cylinder coaxial with and connected reversibly to the hollow cylinder. 29. The electric energy generating wind power turbine of claim 28, wherein the hollow cylinder and the further hollow cylinder are configured to slide axially with respect to each other. 30. The electric energy generating wind power turbine of claim 29, wherein when at least one of the hollow cylinder and the further hollow cylinder slide toward the other of the hollow cylinder and the further hollow cylinder, the second rotor does not rotate about the second axis when wind causes the blade assembly to rotate. 31. An electric energy generating wind power turbine including a supporting structure, a nacelle, and a blade assembly configured to rotate with respect to the nacelle, said wind power turbine comprising: a first electric machine including: a first stator including a first hollow stator drum at least partly defining a load-bearing structure of said nacelle, anda first rotor fitted to the first stator, said first rotor configured to rotate about a first axis;a second electric machine including: a second stator substantially coaxial with the first stator and including a second hollow stator drum connected to the first hollow stator drum and at least partly defining the load-bearing structure of said nacelle which includes a central member fitted to the supporting structure and configured to rotate about a third axis, said central member being interposed between the first stator drum and the second stator drum such that the first electric machine and the second electric machine are located on opposite sides of the third axis, anda second rotor fitted to the second stator, said second rotor configured to rotate about a second axis; anda transmission assembly connecting the first rotor to the second rotor, said transmission assembly being deformable to permit relative movement between the first electric machine and the second electric machine.
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