System for generating electrical energy from the wave motion of the sea

The invention claimed is: 1. A system for generating electrical energy from the wave motion of the sea, comprising: a floating body, designed to oscillate about a main axis of oscillation; and an electrical-energy generating device which is set on said floating body and which comprises a body that is configured to move as a result of an oscillation of said floating body about said main axis, and electric-generating means configured to generate electrical energy as a result of the movement of said body; said floating body comprising equipment provided with at least one chamber containing a variable volume of liquid material controlled by a regulation device to vary a frequency of a resonance peak of said system with respect to a movement of oscillation of said body about said main axis; and a control unit configured for controlling said regulation device so as to regulate said frequency of the resonance peak towards or on a value substantially corresponding to a frequency of oscillation of the wave motion; said system comprising a first chamber and a second chamber, which contain said material and are hydraulically connected together so that, as a result of said movement of oscillation about said main axis, said liquid material displaces at least partially from said first chamber to said second chamber, and vice versa: said regulation device configured for regulating the flow of said material from said first chamber to said second chamber, and vice versa; and wherein said control unit is configured for controlling said regulation device as a function of said frequency of oscillation of the wave motion; and wherein said system comprises at least one acceleration sensor, and said control unit is configured for controlling said regulation device on the basis of an acceleration signal transmitted by said sensor. 2. The system according to claim 1 , wherein said control unit is configured for receiving a signal indicating said frequency of oscillation of the wave motion from an external device or from a weather-forecast centre. 3. The system according to claim 1 , wherein said electrical-energy generating device is a gyroscopic structure which comprises a frame rotatably mounted on the floating body so that said frame can rotate about a first axis of rotation, and carrying a rotor, which is in turn rotatable about a second axis of rotation. 4. The system of claim 3 , comprising an electric motor designed to drive in rotation said rotor, wherein said control unit is configured for controlling said motor as a function of said frequency of oscillation of the wave motion so as to regulate the value of the frequency of the resonance peak of the system towards or on a value substantially corresponding to the frequency of oscillation of the wave motion. 5. The system according to claim 1 , wherein said equipment comprises, for each chamber, a device designed to vary the level of said material within said chamber, and wherein said control unit is configured for controlling said device as a function of said frequency of oscillation of the wave motion so as to regulate the value of the frequency of the resonance peak of the system towards or on a value substantially corresponding to the frequency of oscillation of the wave motion. 6. The system according to claim 1 , wherein said device is constituted by a valve set along the duct for connection of said first and second chambers. 7. The system according to claim 1 , wherein said device is constituted by a valve designed to control communication of said chamber with the external atmospheric pressure. 8. The system according to claim 1 , wherein said device is constituted by an active device, such as a pump or a compressor, placed in the duct or on the top of the chamber, respectively, designed to increase the flow rate of liquid material between the two chambers. 9. The system according to claim 1 , wherein said gyroscopic structure is with just one degree of freedom. 10. The system of claim 3 , wherein said frame carries a concentrated mass that is positioned above or below said rotor to limit a range of a precession angle of the rotor such that a gyroscopic torque at a time of an inversion of the motion is sufficiently large to enable a restarting of the motion.