Method of actuating an ocean current electric power generator and an actuation control apparatus

The invention claimed is: 1. A method of actuating an ocean current electric power generator in an ocean, the ocean current electric power generator comprising a nacelle, a rotatable wing disposed on the nacelle and including blades each having a fixed pitch angle, an electric power generator enclosed in the nacelle, and a rotor of the electric power generator driven by the rotatable wing, a mechanical brake that restricts a rotation of a rotor shaft of the rotatable wing and a power transmission mechanism that is disposed between the rotor shaft of the rotatable wing and the rotor of the electric power generator, the power transmission mechanism comprising a switching section that switches between a power transmission state and a power disconnection state, a load application section that applies a rotation load on the rotor shaft of the rotatable wing during the power disconnection state, and a speed varying section that varies a revolution speed of the rotor shaft of the rotatable wing, and transmits a revolution of the rotor shaft of the rotatable wing to the rotor of the electric power generator during the power transmission state, the method comprising the following steps that are carried out in sequence: a brake releasing step of setting the power transmission mechanism to the power disconnection state by the switching section to switch the mechanical brake from an applied state to a released state; a rotatable wing accelerating step of increasing the revolution speed of the rotor shaft of the rotatable wing while applying the rotation load on the rotor shaft of the rotatable wing by the load application section; an electric power generator startup step of switching the power transmission mechanism to the power transmission state by the switching section, and initiating the a rotation of the rotor of the electric power generator; an electric power generator accelerating step of increasing a revolution speed of the rotor of the electric power generator by the speed varying section; and an electric power generation initiation step of initiating power generation of the electric power generator by connecting the electric power generator to a system power supply. 2. The method of actuating the ocean current electric power generator according to claim 1 , wherein the brake releasing step, the rotatable wing accelerating step, the electric power generator startup step, the electric power generator accelerating step, and the electric power generation initiation step are carried out while the ocean current electric power generator is configured as a float that is an undersea floating ocean current electric power generator that generates electric power, remaining in the ocean while being moored to a bottom of the ocean with a mooring cable thereby restricting a depth level of the float, the method further comprises: a revolution number accelerating step of sinking the ocean current electric power generator to a predetermined depth region where an ocean current speed is higher than a current speed of the surface of the ocean, and increasing the revolution speed of the rotor shaft of the rotatable wing, the revolution number accelerating step being carried out after the electric power generation initiation step. 3. The method of actuating the ocean current electric power generator according to claim 2 , wherein the power transmission mechanism is a hydraulic power transmission mechanism that transmits a driving power using hydraulic oil, the hydraulic power transmission mechanism comprises: a hydraulic pump driven by the rotor shaft of the rotatable wing; a hydraulic motor that functions as the speed varying section, the hydraulic motor being provided with a rotation control mechanism; an oil feed route that connects the hydraulic pump to the hydraulic motor and that feeds hydraulic oil from the hydraulic pump to the hydraulic motor; an oil return route that connects the hydraulic motor to the hydraulic pump and that returns the hydraulic oil from the hydraulic motor to the hydraulic pump; a switching valve that functions as the switching section, the switching valve opens and closes the oil feed route; an oil bypass route that connects a point on the oil feed route between the hydraulic pump and the switching valve to the oil return route; and a bypass valve that opens and closes the oil bypass route, the brake releasing step comprises closing the switching valve and the bypass valve to release the mechanical brake, the rotatable wing accelerating step comprises switching the bypass valve to open, to increase the revolution speed of the rotor shaft of the rotatable wing while applying the rotation load on the rotor shaft of the rotatable wing with an operation load of the hydraulic pump; the electric power generator startup step comprises switching the switching valve to open to initiate the rotation of the rotor of the electric power generator; and the electric power generator accelerating step comprises increasing the revolution speed of the rotor of the electric power generator. 4. The method of actuating the ocean current electric power generator according to claim 3 , wherein the float undergoes a passive depth control for spontaneously staying at a constant depth level depending on a balance among a buoyancy acting on the float, an acting force applied on the float by an ocean current, and a tension of the mooring cable, when the restriction on the depth level of the float is released. 5. The method of actuating the ocean current electric power generator according to claim 1 , wherein the power transmission mechanism is a hydraulic power transmission mechanism that transmits a driving power using hydraulic oil, the hydraulic power transmission mechanism comprises: a hydraulic pump driven by the rotor shaft of the rotatable wing; a hydraulic motor that functions as the speed varying section, the hydraulic motor being provided with a rotation control mechanism; an oil feed route that connects the hydraulic pump to the hydraulic motor and that feeds hydraulic oil from the hydraulic pump to the hydraulic motor; an oil return route that connects the hydraulic motor to the hydraulic pump and that returns the hydraulic oil from the hydraulic motor to the hydraulic pump; a switching valve that functions as the switching section, the switching valve opens and closes the oil feed route; an oil bypass route that connects a point on the oil feed route between the hydraulic pump and the switching valve to the oil return route; and a bypass valve that opens and closes the oil bypass route, the brake releasing step comprises closing the switching valve and the bypass valve to release the mechanical brake, the rotatable wing accelerating step comprises switching the bypass valve to open, to increase the revolution speed of the rotor shaft of the rotatable wing while applying the rotation load on the rotor shaft of the rotatable wing with an operation load of the hydraulic pump; the electric power generator startup step comprises switching the switching valve to open to initiate the rotation of the rotor of the electric power generator; and the electric power generator accelerating step comprises increasing the revolution speed of the rotor of the electric power generator. 6. An actuation control apparatus that actuates an ocean current electric power generator in an ocean, the ocean current electric power generator comprising a nacelle, a rotatable wing disposed on the nacelle and including blades each having a fixed pitch angle, an electric power generator enclosed in the nacelle, and a rotor of the electric power generator driven by the rotatable wing, a mechanical brake that restricts a rotation of a rotor shaft of the rotatable wing and a power transmis