Hybrid friction wheel gearbox drivetrain for wind turbine applications
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F03D-009/00
H02P-009/04
F03D-011/02
출원번호
US-0462257
(2012-05-02)
등록번호
US-8933576
(2015-01-13)
발명자
/ 주소
Himmelmann, Richard A.
출원인 / 주소
United Technologies Corporation
대리인 / 주소
Miller, Matthias & Hull LLP
인용정보
피인용 횟수 :
0인용 특허 :
31
초록▼
A drivetrain for a wind turbine is provided. The drivetrain may include a first stage speed increaser adapted for low speed operations, and a second stage speed increaser adapted for moderate and high speed operations. The first stage speed increaser may include at least one drive wheel being rotata
A drivetrain for a wind turbine is provided. The drivetrain may include a first stage speed increaser adapted for low speed operations, and a second stage speed increaser adapted for moderate and high speed operations. The first stage speed increaser may include at least one drive wheel being rotatably driven by a main shaft of the wind turbine and at least one driven wheel in frictional communication with the drive wheel. The second stage speed increaser may include a gearbox coupled to each driven wheel and a generator coupled to each gearbox.
대표청구항▼
1. A drivetrain for a wind turbine, comprising: a first stage speed increaser adapted for low speed operations, the first stage speed increaser including at least one drive wheel being rotatably driven by a main shaft of the wind turbine and one or more driven wheels in frictional communication with
1. A drivetrain for a wind turbine, comprising: a first stage speed increaser adapted for low speed operations, the first stage speed increaser including at least one drive wheel being rotatably driven by a main shaft of the wind turbine and one or more driven wheels in frictional communication with the drive wheel; anda second stage speed increaser adapted for moderate and high speed operations, the second stage speed increaser including one or more gearboxes coupled to each of the one or more driven wheels and one or more generators coupled to each of the one or more gearboxes, the one or more gearboxes including a planetary gear set. 2. The drivetrain of claim 1, wherein each of the one or more driven wheels, the one or more gearboxes, and the one or more generators is selectively translatable relative to the drive wheel so as to move a friction interface formed between the drive wheel and each driven wheel, and effectively vary a speed ratio therebetween. 3. The drivetrain of claim 1, wherein each of the one or more driven wheels is of a substantially smaller circumference than the drive wheel so as to convert low speed, high torque rotations of the drive wheel into higher speed, lower torque rotations of the one or more driven wheels. 4. The drivetrain of claim 1, wherein each of the one or more driven wheels includes one of a substantially conical surface and a circular surface which frictionally communicates with a corresponding surface of the drive wheel. 5. The drivetrain of claim 1, wherein the planetary gear set of each of the one or more gearboxes is configured to increase a rotational speed of each of the one or more driven wheels coupled thereto and supply the increased rotational speed to each of the one or more generators coupled thereto. 6. The drivetrain of claim 1, wherein the first and second stage speed increasers are configured to substantially increase the tolerance for any misalignment therein and reduce generator size. 7. A drivetrain for a wind turbine, comprising: at least one drive wheel rotatably driven by a main shaft of the wind turbine;one or more driven wheels forming a friction interface with and being rotatably driven by the drive wheel;one or more gearboxes coupled to each of the one or more driven wheels; andone or more generators coupled to each of the one or more gearboxes, the one or more gearboxes including a planetary gear set. 8. The drivetrain of claim 7, wherein the friction interface is movable so as to effectively vary a speed ratio between the drive wheel and the driven wheels. 9. The drivetrain of claim 7, wherein each of the one or more driven wheels, the one or more gearboxes, and the one or more generators are translatable relative to the drive wheel so as to effectively vary a speed ratio between at least the drive wheel and the driven wheels. 10. The drivetrain of claim 7, wherein each of the one or more driven wheels is of a substantially smaller circumference than the drive wheel so as to convert low speed, high torque rotations of the drive wheel into higher speed, lower torque rotations of the driven wheels. 11. The drivetrain of claim 7, wherein each of the one or more driven wheels includes a substantially conical surface which communicates with a corresponding surface of the drive wheel. 12. The drivetrain of claim 7, wherein each of the one or more driven wheels includes a substantially circular surface which communicates with a corresponding surface of the drive wheel. 13. The drivetrain of claim 7, wherein the planetary gear set of each of the one or more gearboxes is configured to increase a rotational speed of each of the one or more driven wheels coupled thereto and supply the increased rotational speed to each of the one or more generators coupled thereto. 14. The drivetrain of claim 7, wherein the drive wheel and the driven wheels form a first stage speed increaser adapted for low speed operations, the first stage speed increaser being configured to convert low speed, high torque rotations of the drive wheel into higher speed, lower torque rotations of the driven wheels. 15. The drivetrain of claim 7, wherein each of the one or more gearboxes form a second stage speed increaser adapted for moderate and high speed operations, each of the one or more gearboxes including a planetary gear set configured to increase a rotational speed of each of the one or more driven wheels coupled thereto and supply the increased rotational speed to each of the one or more generators coupled thereto. 16. A wind turbine, comprising: a hub;a main shaft rotating with the hub; anda drivetrain coupled to the main shaft, the drivetrain comprising:a first stage speed increaser adapted for low speed operations, the first stage speed increaser including a drive wheel being driven by the main shaft and a plurality of driven wheels in frictional communication with the drive wheel; anda second stage speed increaser adapted for moderate and high speed operations, the second stage speed increaser including a gearbox coupled to each driven wheel and a generator coupled to each gearbox, the gearbox including a planetary gear set. 17. The wind turbine of claim 16, wherein each of the driven wheels, gearboxes, and generators is selectively translatable relative to the drive wheel so as to move a friction interface formed between the drive wheel and each driven wheel, and effectively vary a speed ratio therebetween. 18. The wind turbine of claim 16, wherein each driven wheel is of a substantially smaller circumference than the drive wheel so as to convert low speed, high torque rotations of the drive wheel into higher speed, lower torque rotations of the driven wheels. 19. The wind turbine of claim 16, wherein each driven wheel includes one of a substantially conical surface and a circular surface which frictionally communicates with a corresponding surface of the drive wheel. 20. The wind turbine of claim 16, wherein the planetary gear set is configured to increase a rotational speed of the associated driven wheel and supply the increased rotational speed to the associated generator.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (31)
Blank, Anatoly; Blank, Leonio; Blank, Emil, Airflow power station.
Feldman Lewis (2000 Valley Forge ; Apt. 1233 King of Prussia PA 19406) Concannon Michael (R.R. #1 ; Port Dufferin Nova Scotia CAX B0J 2R0), Vertical axis sail bladed wind turbine.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.