Upwind wind turbine and operation method thereof
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0810174
(2008-05-23)
|
등록번호 |
US-8753080
(2014-06-17)
|
우선권정보 |
JP-2007-339280 (2007-12-28) |
국제출원번호 |
PCT/JP2008/001288
(2008-05-23)
|
§371/§102 date |
20100623
(20100623)
|
국제공개번호 |
WO2009/084123
(2009-07-09)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- Kawasaki Jukogyo Kabushiki Kaisha
|
대리인 / 주소 |
Alleman Hall McCoy Russell & Tuttle LLP
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
3 |
초록
▼
An upwind wind turbine includes a tilting coupling mechanism configured to couple base end portions of blades to a hub such that the blades can tilt between a normal position and a retracted position in which the blades are tilted in a downwind direction relative to the normal position. The upwind w
An upwind wind turbine includes a tilting coupling mechanism configured to couple base end portions of blades to a hub such that the blades can tilt between a normal position and a retracted position in which the blades are tilted in a downwind direction relative to the normal position. The upwind wind turbine also includes a tilting drive operating in association with the tilting coupling mechanism to switch the positions of the blades and a rotation stop to stop the rotation of the rotor. When the blades are switched to the retracted position, the rotation stop is actuated to stop the rotor in a predetermined rotational position in which the blades can tilt without interference with the tower, and the tilting drive is actuated to tilt the blades to the retracted position after stop of the rotation of the rotor.
대표청구항
▼
1. An upwind wind turbine including a nacelle horizontally rotatably attached to a tower; a rotor rotatably attached to the nacelle; a hub which is provided at a center portion of the rotor and forms a part of the rotor; a plurality of blades which are attached to the hub, form a part of the rotor a
1. An upwind wind turbine including a nacelle horizontally rotatably attached to a tower; a rotor rotatably attached to the nacelle; a hub which is provided at a center portion of the rotor and forms a part of the rotor; a plurality of blades which are attached to the hub, form a part of the rotor and are rotatable within a substantially vertical operation plane; and a yawing drive device configured to yaw the nacelle to direct the blades upwind, the upwind wind turbine comprising: a tilting coupling mechanism configured to couple base end portions of the blades to the hub such that the blades tilt between a normal position in which the blades are present within the operation plane and a retracted position in which the blades are tilted in a downwind direction relative to the normal position;a tilting drive means configured to operate in association with the tilting coupling mechanism to switch positions of the blades;a rotation stop means configured to stop rotation of the rotor; anda control means configured to actuate the rotation stop means to stop the rotor in a predetermined rotational position in which the blades tilt without interference with the tower and to actuate the tilting drive means to tilt the blades to the retracted position after stop of rotation of the rotor, to switch the blades to the retracted position. 2. The upwind wind turbine according to claim 1, further comprising: an anemometer means configured to detect a wind speed; wherein the control means is configured to start control for switching the blades to the retracted position when it is determined that the wind speed detected by the anemometer means is not lower than a predetermined wind speed. 3. The upwind wind turbine according to claim 1, further comprising: an azimuth angle detector means configured to detect an azimuth angle of the rotor; wherein the control means is configured to detect the predetermined rotational position based on the azimuth angle detected by the azimuth angle detector means and to actuate the rotation stop means to stop the rotation of the rotor. 4. The upwind wind turbine according to claim 1, wherein the rotation stop means includes a pitch angle adjusting means for each of the blades and a rotor braking means configured to brake the rotor. 5. The upwind wind turbine according to claim 4, wherein, to stop the rotation of the rotor, the control means is configured to actuate the pitch angle adjusting means to adjust pitch angles of the blades to decrease rotational speeds of the blades and to then actuate the rotor braking means to brake the rotor to stop the rotation of the rotor. 6. The upwind wind turbine according to claim 1, wherein the control means is configured to actuate the tilting drive means to tilt the blades by a wind load applied to the blades and weights of the blades to tilt the blades to the retracted position. 7. The upwind wind turbine according to claim 1, wherein in a state where the blades are placed in the retracted position, a resultant force center of a wind load applied to the plurality of blades is located downwind relative to a center axis of the tower. 8. The upwind wind turbine according to claim 1, further comprising: a yawing braking means configured to brake yawing of the nacelle; wherein the control means is configured to deactuate the yawing braking means in a state where the blades have reached the refracted position. 9. The upwind wind turbine according to claim 1, wherein the tilting drive means includes a single double-acting hydraulic cylinder configured to be extended and contracted to tilt the plurality of blades, a first oil passage and a second oil passage which are connected to a pair of oil chambers of the hydraulic cylinder, respectively, a connecting oil passage connecting the first oil passage to the second oil passage, and an electromagnetic on-off valve provided in the connecting oil passage. 10. The upwind wind turbine according to claim 9, wherein the electromagnetic on-off valve is a normally-open valve. 11. The upwind wind turbine according to claim 10, wherein the tilting drive means includes a variable throttle valve provided in the first oil passage or the second oil passage. 12. The upwind wind turbine according to claim 9, wherein the tilting drive means includes a pressurized oil feed device configured to feed a pressurized oil and an electromagnetic direction changeover valve connected to the pressurized oil feed device; andwherein the first oil passage and the second oil passage are connected to the electromagnetic direction changeover valve. 13. The upwind wind turbine according to claim 1, wherein the tilting drive means includes a plurality of double-acting hydraulic cylinders which are configured to be extended and contracted to tilt the associated blades, respectively, and a synchronous operation means configured to synchronously operate the plurality of hydraulic cylinders to cause the blades to be synchronously switched to the retracted position by a wind load applied to the blades and by weights of the blades. 14. The upwind wind turbine according to claim 13, wherein the tilting drive means includes a hydraulic pump configured to feed a pressurized oil and an electromagnetic direction changeover valve provided between the hydraulic pump and the synchronous operation means. 15. The upwind wind turbine according to claim 1, further comprising: a power generator configured to generate an electric power by a rotational driving force of the rotor. 16. A method of operating an upwind wind turbine including a nacelle horizontally rotatably attached to a tower; a rotor rotatably attached to the nacelle; a hub which is provided at a center portion of the rotor and forms a part of the rotor; a plurality of blades which are attached to the hub, form a part of the rotor and are rotatable within a substantially vertical operation plane; and a yawing drive device configured to yaw the nacelle to direct the blades upwind, wherein base end portions of the blades are coupled to the hub such that the blades tilt between a normal position in which the blades are present within the operation plane and a retracted position in which the blades are tilted in a downwind direction relative to the normal position; the method comprising the steps of: stopping the rotor in a predetermined rotational position in which the blades tilt in a downwind direction without interference with the tower; andtilting the blades to the refracted position after the stopping of the rotation of the rotor. 17. The method of operating the upwind wind turbine according to claim 16, wherein the upwind wind turbine is configured such that a resultant force center of a wind load applied to the plurality of blades is located downwind relative to a center axis of the tower, after the step for tilting the blades. 18. The method of operating the upwind wind turbine according to claim 16, wherein the upwind wind turbine includes a yawing braking means configured to brake yawing of the nacelle; the method further comprising: deactuating the yawing braking means after the tilting of the blades.
이 특허에 인용된 특허 (3)
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Denbraber Lee R. (Peoria IL) Hawkins Mark R. (Chillicothe IL) Meinhold David R. (Metamora IL) Zmuda Steven J. (Dunlap IL), Cold oil protection circuit for a hydraulic system.
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Jeppesen, Ole Mølgaard; Bengtson, John; Hansen, Torben Møller, Method of controlling the pitch velocity of a wind turbine blade and control system therefore.
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Shibata,Masaaki; Hayashi,Yoshiyuki; Furukawa,Toyoaki; Yatomi,Yuuji; Kato,Eiji; Teramoto,Yoshinari; Miyake,Hisao; Hayakawa,Koshi, Wind turbine provided with a controller for adjusting active annular plane area and the operating method thereof.
이 특허를 인용한 특허 (5)
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Opaits, Dmitry Floryovych; Saddoughi, Seyed Gholamali; Bennett, Grover Andrew; Boespflug, Matthew Patrick; Johnson, Stephen Bertram; Baehmann, Peggy Lynn; Lopez, Fulton Jose; Erno, Daniel Jason; Zirin, Robert Michael; Gupta, Anurag, Apparatus and method for aerodynamic performance enhancement of a wind turbine.
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Lee, Jong Rai, Blade pitch control apparatus for small size wind power generator.
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Pitre, John, Folding blade wind turbine.
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Sutz, Richard K., Horizontal axis wind machine with multiple rotors.
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Sutz, Richard K.; Jenkins, Peter E., Multiple-blade wind machine with shrouded rotors.
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