A wind turbine comprises a tower provided at the top with a horizontal shaft having an axis. A turbine rotor comprises turbine blades connected by a mounting arrangement to bearing members and to a rotor or a generator. Components of forces acting on the blades parallel to the axis are substantially
A wind turbine comprises a tower provided at the top with a horizontal shaft having an axis. A turbine rotor comprises turbine blades connected by a mounting arrangement to bearing members and to a rotor or a generator. Components of forces acting on the blades parallel to the axis are substantially exclusively communicated to the bearing members, for example by rigid straight members. Torque about the axis produced by the blades is communicated substantially exclusively to the rotor through a member.
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1. A wind turbine rotor comprising at least one bearing member for permitting rotation of the rotor with respect to a shaft about an axis, a generator rotor and a plurality of turbine blades and blade mounting arrangements, the blade mounting arrangements defining a blade rotor which supports said b
1. A wind turbine rotor comprising at least one bearing member for permitting rotation of the rotor with respect to a shaft about an axis, a generator rotor and a plurality of turbine blades and blade mounting arrangements, the blade mounting arrangements defining a blade rotor which supports said blades, the generator rotor being connected to said blade rotor, and said generator rotor being located within said blade rotor; wherein each blade mounting arrangement comprises first and second support members disposed in a plane containing said axis; andwherein said first and second support members have: first ends which are connected together and also connected directly to a corresponding one of said blades; andsecond ends which are connected to the at least one bearing member at respective positions which are spaced apart parallel to the axis. 2. A wind turbine rotor as claimed in claim 1, in which each blade mounting arrangement comprises a first open frame structure. 3. A wind turbine rotor as claimed in claim 1, in which the generator rotor is connected to the at least one bearing member by a second open frame structure. 4. A wind turbine rotor as claimed in claim 3, in which each blade mounting arrangement comprises a first open frame structure, and in which the second open frame structure is mechanically substantially independent of the first open frame structure. 5. A wind turbine rotor as claimed in claim 1, in which each blade mounting arrangement is connected to the generator rotor by a torque transmitting member for transmitting substantially only torque about the axis from the associated blade to the generator rotor. 6. A wind turbine rotor as claimed in claim 5, in which said torque transmitting member is resilient, and/or is articulated to the blade mounting arrangement and the generator rotor, so as substantially to prevent the communication of components, acting parallel to the axis, of all forces acting on the blade to the generator rotor. 7. A wind turbine rotor as claimed in claim 1, in which each blade has a center of force for all force components acting parallel to the axis and the first and second support members extend in lines which substantially intersect each other at or adjacent the center of force. 8. A wind turbine rotor as claimed in claim 1, in which each blade mounting arrangement comprises first and second attachment points attached to the at least one bearing member and a third attachment point attached or connected to the generator rotor. 9. A wind turbine rotor as claimed in claim 8, in which the blade mounting arrangement has resilience at or adjacent the third attachment point for substantially preventing the communication of components, acting parallel to the axis, of all forces acting on the blade to the generator rotor. 10. A wind turbine rotor as claimed in claim 1, in which the generator rotor is connected to the at least one bearing member by a plurality of pairs of third and fourth support members disposed in respective second planes containing the axis and having first ends connected together and to the generator rotor and second ends connected to the at least one bearing member at respective positions which are spaced apart parallel to the axis. 11. A wind turbine rotor as claimed in claim 1, in which the at least one bearing member comprises first and second bearing members which are spaced apart axially to accommodate a generator stator. 12. A wind turbine rotor as claimed in claim 11, in which the first and second bearing members form part of or cooperate with a thrust bearing arrangement for determining or restricting the axial separation of the first and second bearing members. 13. A wind turbine rotor as claimed in claim 10, in which the at least one bearing member comprises first and second bearing members which are spaced apart axially to accommodate a generator stator, and in which the first and second bearing members are connected to the second ends of the first and second support members, respectively, and the second ends of the third and fourth support members, respectively. 14. A wind turbine rotor as claimed in claim 1, in which the generator rotor is annular and coaxial with the axis. 15. A wind turbine rotor as claimed in claim 1, in which the generator rotor comprises a plurality of permanent magnets or coils angularly spaced around the axis. 16. A wind turbine comprising: a) a generator; andb) a wind turbine rotor comprising at least one bearing member for permitting rotation of the rotor with respect to a shaft about an axis, a generator rotor and a plurality of turbine blades and blade mounting arrangements, the blade mounting arrangements defining a blade rotor which supports said blades, the generator rotor being connected to said blade rotor, and said generator rotor being located within said blade rotor;wherein each blade mounting arrangement comprises first and second support members disposed in a plane containing said axis; andwherein said first and second support members have: first ends which are connected together and also connected directly to a corresponding one of said blades; andsecond ends which are connected to the at least one bearing member at respective positions which are spaced apart parallel to the axis. 17. A wind turbine rotor as claimed in claim 1, wherein each blade mounting arrangement is arranged to communicate components, acting parallel to the axis, of all forces acting on the associated blade substantially exclusively to the at least one bearing member and to communicate torque acting about the axis on the associated blade substantially exclusively to the generator rotor. 18. A wind turbine rotor as claimed in claim 1, in which the blades are unsupported at their radially outer ends. 19. A wind turbine rotor comprising a hub for rotation about an axis and at least one turbine blade and blade mounting arrangement, the or each blade having a center of force for all force components acting parallel to the axis and the or each blade mounting arrangement comprising first and second members which connect the associated blade to the hub, which are connected to the hub at radially inner ends, spaced apart parallel to the axis, and which extend in lines which substantially intersect each other substantially at or adjacent the center of force. 20. A wind turbine rotor as claimed in claim 1, wherein said first and second support members are connected to said blades by means of a pitch bearing for permitting the pitch of the blades to vary.
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