A pitch controller, uninterruptible power supply, and rotational speed detector are disposed in the rotor in a wind turbine. When a slip ring failure or wire breakage occurs, the pitch controller internally creates a pitch angle command so as to control the pitch angle.
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1. A wind turbine including a pitch controller, a turbine controller, and a first uninterruptible power supply, the turbine controller having a function for creating a pitch angle command according to a quantity of the state of the wind turbine, a power output of the first uninterruptible power supp
1. A wind turbine including a pitch controller, a turbine controller, and a first uninterruptible power supply, the turbine controller having a function for creating a pitch angle command according to a quantity of the state of the wind turbine, a power output of the first uninterruptible power supply being connected to a power input of the turbine controller, wherein: the wind turbine has a second uninterruptible power supply;a power output of the second uninterruptible power supply is connected to a power input of the pitch controller;the pitch controller includesa pitch angle command creating unit that has a function of changing a pitch angle according to a pitch angle command received from the turbine controller andanother function of creating a pitch angle command internally, according to a reception error detected based on the pitch angle command received or a voltage drop of electric power supplied to the second uninterruptible power supply; andthe pitch controller has a selector for making a switchover between the pitch angle command created by the turbine controller according to the quantity of the state of the wind turbine and the pitch angle command internally created by the pitch controller. 2. The wind turbine according to claim 1, wherein the turbine controller and the first uninterruptible power supply are disposed in a nacelle or a tower in the wind turbine; the pitch controller and the second uninterruptible power supply are disposed in a rotor of the wind turbine. 3. The wind turbine according to claim 1, wherein the pitch controller further comprising a pitch angle command reception unit that has a detection function for detecting a reception error in the pitch angle command created by the turbine controller; when the detection function detects a reception error, the pitch controller selects the pitch angle command created by the pitch controller itself. 4. The wind turbine according to claim 1, wherein when the first uniterruptable power supply failed to supply power to the second uninterruptible power supply, the second uninterruptible power supply supplies electric power to the pitch controller; the pitch controller then selects the pitch angle command created therein. 5. The wind turbine according to claim 1, further including: a first power failure detector in a nacelle or a tower; anda second power failure detector in a rotor;wherein when the first power failure detector or the second power failure detector detects a grid failure, the first uninterruptible power supply supplies electric power to the turbine controller and the second uninterruptible power supply supplies electric power to the pitch controller; the pitch controller selects the pitch angle command created therein. 6. The wind turbine according to claim 1, wherein a rotational speed detector for detecting the rotational speed of a rotor of the wind turbine is provided in the rotor. 7. The wind turbine according to claim 6, further including: a first power failure detector in a nacelle or a tower; anda second power failure detector in a rotor;wherein when the first power failure detector or the second power failure detector detects a power supply voltage drop caused by a grid failure, the pitch controller creates a pitch angle command according to a rotational speed detected by the rotational speed detector and selects the pitch angle command created therein so that the rotational speed of the rotor falls within a prescribed range. 8. The wind turbine according to claim 6, wherein if the grid failure continues for a prescribed period or longer, the pitch controller creates a pitch angle command that places a blade in a feather state, and then selects the pitch angle command created by the pitch controller itself so as to place the pitch angle in the feather state. 9. The wind turbine according to claim 8, wherein the pitch controller creates a pitch angle command that places a blade in the feather state slowly in time, and then selects the pitch angle command created by the pitch controller itself so as to place the pitch angle in the feather state slowly in time. 10. The wind turbine according to claim 6, wherein if the rotational speed detected by the rotational speed detector in the rotor is outside a predetermined range, the pitch controller selects the pitch angle command created by the pitch controller itself. 11. The wind turbine according to claim 1, wherein only when a state of charge of the first uninterruptible power supply and a state of charge of the second uninterruptible power supply are greater than respective prescribed values, the wind turbine shifts to an operation state for power generation. 12. The wind turbine according to claim 1, wherein the first uninterruptible power supply and the second uninterruptible power supply each have any one of a storage battery, a capacitor, an electrical double-layer capacitor, and a fuel cell, or may have a combination thereof. 13. The wind turbine according to claim 1, wherein a rotational speed detector for detecting the rotational speed of a rotor is provided in the rotor and another rotational speed detector for detecting the rotational speed of the rotor is provided in a nacelle or a tower. 14. The wind turbine according to claim 5, wherein a rotational speed detector for detecting the rotational speed of the rotor is disposed at a rotating body in the nacelle, the rotating body transmitting the rotation of the rotor in the wind turbine to the nacelle and rotates at the same rotational speed as the pitch controller; the rotational speed measured by the rotational speed detector is transmitted to the pitch controller in the rotor through signal line in the rotating body. 15. The wind turbine according to claim 1, wherein a rotational speed detector is provided only in a rotor; a pitch controller creates a pitch angle command from a rotational speed detected by the rotational speed detector and controls the pitch angle. 16. The wind turbine according to claim 1, wherein: a rotational speed detector is provided in a rotor in the wind turbine, the rotational speed of the rotor in the wind turbine being detected by the rotational speed detector; andthe rotational speed of a generator in the wind turbine is measured through speed sensorless control by a power converter in the wind turbine. 17. The wind turbine according to claim 1, wherein the turbine controller has a function for creating the pitch angle command based on a wind speed detected by an anemometer and a detected rotational speeds of a rotor. 18. A method of operating a wind turbine having at least a pitch controller in a rotor, and a first uninterruptible power supply and a turbine controller in a nacelle, the turbine controller having a function for creating a pitch angle command according to a quantity of the state of the wind turbine, a power output of the first uninterruptible power supply being connected to a power input of the turbine controller, and the wind turbine has a second uninterruptible power supply with a power output of the second uninterruptible power supply being connected to a power input of the pitch controller, the method comprising: changing a pitch angle according to a pitch angle command received from the turbine controller;creating a pitch angle command internally, by the pitch controller, according to a reception error detected based on the pitch angle command received or a voltage drop of electric power supplied to the second uninterruptible power supply; andmaking a switchover between the pitch angle command created by the turbine controller according to the quantity of the state of the wind turbine and the pitch angle command internally created by the pitch controller.
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이 특허에 인용된 특허 (6)
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Sakamoto, Kiyoshi; Yanagibashi, Takuji; Hasegawa, Tsutomu; Ichinose, Masaya; Matsunobu, Takashi; Azegami, Kenichi; Uchiyama, Noriyuki, Wind power generator system, and control method for the same.
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