Mechanism for extendable rotor blades for power generating wind and ocean current turbines and means for counter-balancing the extendable rotor blade
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01D-007/00
출원번호
US-0342910
(2003-01-15)
§371/§102 date
20030801
(20030801)
발명자
/ 주소
Dehlsen, James G. P.
출원인 / 주소
Clipper Windpower Technology, Inc.
인용정보
피인용 횟수 :
26인용 특허 :
18
초록▼
A power generating system wherein a turbine is mounted on top of a tower or tethered underwater. The turbine includes a rotor having a main blade section connected to a rotor hub and an extender section. An adjusting device positions the extender section between a retracted position within the main
A power generating system wherein a turbine is mounted on top of a tower or tethered underwater. The turbine includes a rotor having a main blade section connected to a rotor hub and an extender section. An adjusting device positions the extender section between a retracted position within the main blade section and to an extended position to expose more or less of the rotor to the fluid flow. The adjusting device includes a first web-engaging wheel anchored at a hub end of the main blade section and a second web-engaging wheel anchored at a distal end of the main blade section. A web is wound around the first and second web-engaging wheels. The extender section is attached to the web at a hub end of the extender section. A generator is connected to the turbine for generating electrical energy.
대표청구항▼
1. A fluid flow power generating system comprising:a turbine mounted on a structure that is held stationary with reference to said fluid flow;said turbine including a rotor having a main blade section connected to a rotor hub and an extender section, said turbine being positioned on said structure s
1. A fluid flow power generating system comprising:a turbine mounted on a structure that is held stationary with reference to said fluid flow;said turbine including a rotor having a main blade section connected to a rotor hub and an extender section, said turbine being positioned on said structure such that said rotor is in alignment with fluid flow direction;said extender section being moveable between a position at least partially retracted in respect of said main blade section and an extended position relative to said main blade section;an adjusting device connected to said extender section;said adjusting device including a first web-engaging wheel anchored at a hub end of said main blade section;a second web-engaging wheel anchored at a distal end of said main blade section; anda web wound around said first and second web-engaging wheels;said extender section being attached to said web at a hub end of said extender section;a motor connected to at least one of said web-engaging wheels, actuable to selectively extend said extender section at low flow velocity and retract said extender section as flow velocity increases such that the loads delivered by or exerted upon said rotor do not exceed set limits; and,a generator connected to said turbine for generating electrical energy.2. The fluid flow power generating system of claim 1 wherein said extender section travels along grooves in said main blade section.3. The rotor of claim 2 wherein said grooves in the main blade section are fitted with bearing rollers.4. The rotor of claim 2 wherein said web is a chain and said web-engaging wheel is a sprocket wheel.5. The rotor of claim 2 wherein said web is a belt and said web-engaging wheel is a friction wheel.6. A fluid flow power generating system comprising:a turbine mounted on a structure that is held stationary with reference to said fluid flow;said turbine including a rotor having a main blade section connected to a rotor hub and an extender section, said turbine being positioned on said structure such that said rotor is in alignment with fluid flow direction;said extender section being moveable between a position at least partially retracted in respect of said main blade section and an extended position relative to said main blade section;an adjusting device connected to said extender section;said adjusting device including a first web-engaging wheel anchored at a hub end of said main blade section;a second web-engaging wheel anchored at a distal end of said main blade section;a web wound around said first and second web-engaging wheels;a counter-balancing weight attached to said web such that centrifugal force generated by said weight at least partially counter-balances centrifugal force required to retract said extender section;said extender section being attached to said web at a hub end of said extender section; and,a generator connected to said turbine for generating electrical energy.7. The rotor of claim 6 wherein said web is a chain and said web-engaging wheel is a sprocket wheel.8. The rotor of claim 6 wherein said web is a belt and one of said web-engaging wheels is a friction wheel.9. In a fluid flow power-generating system, which includes a turbine, mounted on a structure that is held stationary with reference to said fluid flow;said turbine including a rotor, said turbine being positioned on said structure such that said rotor is in alignment with fluid flow direction;said rotor comprising:a rotor hub;a rotor blade having a main blade section connected to said rotor hub and an extender section;a first sprocket wheel anchored at a hub end of said main blade section;a second sprocket wheel anchored at a distal end of said main blade section;a chain wound around and between said sprocket wheels;said extender section being attached to said chain at a hub end of said extender section; and,a motor connected to at least one of said sprocket wheels, actuable to selectively extend said extender section at low flow velocity and retract said extender section as flow velocity increases such that the loads delivered by or exerted upon said rotor do not exceed set limits.10. The rotor of claim 9 wherein said extender section travels along grooves in said main blade section including bearing rollers within said grooves.11. In a fluid flow power-generating system, which includes a turbine, mounted on a structure that is held stationary with reference to said fluid flow;said turbine including a rotor, said turbine being positioned on said structure such that said rotor is in alignment with fluid flow direction;said rotor comprising:a rotor hub;a rotor blade having a main blade section connected to said rotor hub and an extender section;a first sprocket wheel anchored at a hub end of said main blade section;a second sprocket wheel anchored at a distal end of said main blade section;a chain wound around and between said sprocket wheels;said extender section being attached to said chain at a hub end of said extender section;an actuation mechanism connected to at least one of said sprocket wheels; and,a counter-balancing weight attached to said chain positioned on said chain so as to reduce the peak centrifugal force requirement of said actuation mechanism.12. In a fluid flow power-generating system, which includes a turbine, mounted on a structure that is held stationary with reference to said fluid flow;said turbine including a rotor, said turbine being positioned on said structure such that said rotor is in alignment with fluid flow direction;said rotor comprising:a rotor hub;a rotor blade having a main blade section connected to said rotor hub;said main blade section having a hub end attached to said rotor hub and continuing from said hub end to a distal end of said main blade section;said rotor blade including an extender section having a hub end;said extender section being moveable between a position at least partially retracted in respect of said main blade section and an extended position relative to said main blade section;a first sprocket wheel anchored at said hub end of said main blade section;a second sprocket wheel anchored at said distal end of said main blade section;a chain wound around and between said sprocket wheels;said extender section being attached to said chain at said hub end of said extender section; and,a motor connected to at least one of said sprocket wheels, actuable to selectively extend said extender section at low flow velocity and retract said extender section as flow velocity increases such that the loads delivered by or exerted upon said rotor do not exceed set limits.13. The rotor of claim 12 wherein said extender section travels along grooves in said main blade section including bearing rollers within said grooves.14. In a fluid flow power-generating system, which includes a turbine, mounted on a structure that is held stationary with reference to said fluid flow;said turbine including a rotor, said turbine being positioned on said structure such that said rotor is in alignment with fluid flow direction;said rotor comprising:a rotor hub;a rotor blade having a main blade section connected to said rotor hub;said main blade section having a hub end attached to said rotor hub and continuing from said hub end to a distal end of said main blade section;said rotor blade including an extender section having a hub end;said extender section being moveable between a position at least partially retracted in respect of said main blade section and an extended position relative to said main blade section;a first sprocket wheel anchored at said hub end of said main blade section;a second sprocket wheel anchored at said distal end of said main blade section;a chain wound around and between said sprocket wheels;said extender section being attached to said chain at said hub end of said extender section;an actuation mechanism connected to at least one of said sprocket wheels; and,a counter-balancing weight is attached to said chain to reduce the peak centrifugal force requirement of said actuation mechanism.15. In a fluid flow power-generating system, which includes a turbine mounted on a structure that is held stationary with reference to said fluid flow;said turbine including a rotor having a main blade section connected to a rotor hub and an extender section, said turbine being positioned on said structure such that said rotor is in alignment with fluid flow direction;an apparatus comprising:first anchoring means for anchoring a first web-engaging wheel at a hub end of said main blade section;second anchoring means for anchoring a second web-engaging wheel at a distal end of said main blade section;a web wound around said first web-engaging wheel and said second web-engaging wheel;said web being attached at a hub end of said extender section; and,a motor connected to at least one of said web-engaging wheels to selectively extend said extender section at low flow velocity and retract said extender section as flow velocity increases such that the loads delivered by or exerted upon said rotor do not exceed set limits.16. The apparatus of claim 15 wherein said extender section travels along grooves in the main blade section utilizing bearing rollers.17. The apparatus of claim 15 wherein said web is a chain and one of said web-engaging wheels is a sprocket wheel.18. The apparatus of claim 15 wherein said web is a belt and one of said web-engaging wheels is a friction wheel.19. In a fluid flow power-generating system, which includes a turbine mounted on a structure that is held stationary with reference to said fluid flow;said turbine including a rotor having a main blade section connected to a rotor hub and an extender section, said turbine being positioned on said structure such that said rotor is in alignment with fluid flow direction;an apparatus comprising:first anchoring means for anchoring a first web-engaging wheel at a hub end of said main blade section;second anchoring means for anchoring a second web-engaging wheel at a distal end of said main blade section;a web wound around said first web-engaging wheel and said second web-engaging wheel;said web being attached at a hub end of said extender section;actuating means for actuating at least one of said web-engaging wheels to selectively extend and retract said extender section; and,a counter-balancing weight attached to said web at such a location so as to reduce a peak centrifugal force requirement of said actuation means.20. In a fluid flow power-generating system, which includes a turbine mounted on a structure that is held stationary with reference to said fluid flow;said turbine including a rotor having a main blade section connected to a rotor hub and an extender section, said turbine being positioned on said structure such that said rotor is in alignment with fluid flow direction;a method comprising steps of:anchoring a first web-engaging wheel at a hub end of said main blade section;anchoring a second web-engaging wheel at a distal end of said main blade section;winding a web around said first web-engaging wheel and said second web-engaging wheel;attaching said web at a hub end of said extender section; and,actuating at least one of said web-engaging wheels to selectively extend said extender section at low flow velocity and retract said extender section as flow velocity increases such that the loads delivered by or exerted upon said rotor do not exceed set limits.21. The method of claim 20 wherein said extender section travels along grooves in the main blade section utilizing bearing rollers.22. The method of claim 20 wherein said web is a chain and one of said web-engaging wheels is a sprocket wheel.23. The method of claim 20 wherein said web is a belt and one of said web-engaging wheels is a friction wheel.24. In a fluid flow power-generating system, which includes a turbine mounted on a structure that is held stationary with reference to said fluid flow;said turbine including a rotor having a main blade section connected to a rotor hub and an extender section, said turbine being positioned on said structure such that said rotor is in alignment with fluid flow direction;a method comprising steps of:anchoring a first web-engaging wheel at a hub end of said main blade section;anchoring a second web-engaging wheel at a distal end of said main blade section;winding a web around said first web-engaging wheel and said second web-engaging wheel;attaching said web at a hub end of said extender section;actuating at least one of said web-engaging wheels to selectively extend and retract said extender section; and,attaching a counter-balancing weight to said web at such a location so as to reduce a peak centrifugal force requirement of an actuation system.
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이 특허에 인용된 특허 (18)
Neal Maynard J. (North Tonawanda NY), Adjustable vane centrifugal pump impeller construction.
Matsuka David G. (Huntington CT) Gronenthal Edward W. (Shelton CT) Moffitt Robert C. (Seymour CT), Rotor system having alternating length rotor blades and positioning means therefor for reducing blade-vortex interaction.
Moffitt Robert C. ; Matuska David G. ; Fradenburgh Evan A., Rotor system having alternating length rotor blades and positioning means therefor for reducing blade-vortex interaction.
Moffitt Robert C. (Seymour CT) Visintainer Joseph A. (Beacon Falls CT), Rotor system having alternating length rotor blades for reducing blade-vortex interaction (BVI) noise.
Matuska David G. (Huntington CT) Gronenthal Edward W. (Shelton CT) Jepson W. Donald (Huntington CT), Torque tube/spar assembly for variable diameter helicopter rotors.
Fradenburgh Evan A. (Fairfield CT) Davis S. Jon (Orange CT) Moffitt Robert C. (Seymour CT) Visintainer Joseph A. (Beacon Falls CT), Variable diameter rotor having an offset twist.
Dehlsen, James G. P.; Brown, Matthew; Grieco, Christopher, Multi-point tethering and stability system and control method for underwater current turbine.
Arendt, Cory P.; Baker, Myles L.; Wright, Rick Thomas, Segmented wind turbine blades with truss connection regions, and associated systems and methods.
Dehlsen, James G. P.; Mikhail, Amir S., Servo-controlled extender mechanism for extendable rotor blades for power generating wind and ocean current turbines.
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