FR2992033A1 - Device for recovering and storing renewable energies from e.g. water, has rotor for providing permanent rotation of two inertial wheels, and hydraulic system that is arranged with actuator, and double kinematic chain coupled with rotor - Google Patents

Abstract

The device has a rotor (11) that is utilized for providing permanent rotation of two inertial wheels (25), and a hydraulic system that is arranged with an actuator (14). The rotation of the two inertial wheels is provided for conversion of recovered inertial energy into kinetic energy. The kinetic energy is transformed into electricity. A double kinematic chain is coupled with the rotor. The two inertial wheels and a set of generators (29) are coupled with the rotor. The hydraulic system is arranged with a pump (12).

Description

DESCRIPTION The recovery of renewable energies, by nature variable in time, is not always in phase with the instant demand of the users. The need for storage to match production with demand for electricity has received many solutions, already implemented around the world.

The present invention is based on an inertial storage system described in a request concerning the floaters-heaters (registered by the INPI on 24/09/2012, No. 12.02558). It concerns all machines dedicated to the recovery of natural energy (wind, tides, currents, rivers, waves, waves ...) and consists of PROVISIONALLY STORING THIS NATURAL ENERGY IN INERTIAL WHEELS BEFORE ITS TRANSFORMATION INTO ELECTRICITY. The coupling between the rotor (11) of the natural energy recovery machine and the ratchet wheel (22 of the kinematic chain is made by a conventional hydraulic circuit with pump (12), accumulator (13) and motor (14). A / CINEMATIC CHAIN 15 It comprises the following organs: a) A carrier shaft (21): It supports all the organs of the inertial system. The rotary members (25) & (29) can have different speeds of rotation but always in the same direction. b) A ratchet wheel (22): 20 Intercalated between the motor (14) and the damper (23) it allows the activation of the second by the first when there is effective transfer of the energy recovered at the flywheel (25). On the other hand, it allows the steering wheel (25) to retain its acquired angular velocity when the energy recovered by the rotor (11) is low or non-existent.a damping device (23): A damping device (23) is interposed between the ratchet wheel (22) and the flywheel (25) to overcome a sudden acceleration of the motor (14), the damper (23) may be a spiral spring or an oleo-pneumatic accumulator, in a sophisticated version of the invention a regulator (24) associated with the damper (23) has the role of blocking the latter so that it stores, in the form of potential energy, a recovered natural energy insufficient to effectively drive the flywheel (25). is controlled by the programmer (39) which releases by elsewhere the potential energy accumulated as soon as the impulse supplied to the steering wheel (25) allows it to increase its angular velocity. e The flywheel (25): The inertial flywheel (25), key element of the kinematic chain, has the function of storing the renewable energy transmitted by the motor (14) via the kinematic chain. The kinetic moment of the flywheel (25) is stopped during construction or adjustable by radial displacement of symmetrical masses of inertia (26). The devices for moving these masses, not described here, are controlled by the programmer (39). f Clutch (27): Normally driven by the flywheel (25), the generator (29) is decoupled when there is no demand for electricity, in order to avoid unnecessary pumping of electricity. kinetic energy 10 of the steering wheel. This decoupling depends on the type of generator: - if the generator is a conventional alternator, the clutch can be mechanical or magnetic; - If the generator is of disc type, a special device (28) provides an axial displacement of the rotor to optimally adjust the effect of magnetic fields on the coils. The device (28) or the clutch (27) is controlled by the programmer (39). G) The generator (29): Whatever its form and design, the generator (29) is assisted by conventional devices used for the production, regulation and transport of electricity. B / BOTH VERSIONS FOR ROTOR MACHINES. a) Inertial single-handwheel system: 20 For land-based wind turbines, some tidal turbines and run-of-the-mills, a system with a single steering wheel is perfect. The kinematic chain described above is repeated as it is. Inertial system with two wheels: Different reasons (sizing of the flywheels, inertial system on board, facilitation of maintenance, choice of redundancy, etc.) make use of an inertial system with two wheels. These two flywheels (25) in front, to ensure a certain directional stability to the entire system, rotate at the same angular speed but in the opposite direction, a bevel gear is necessary. - The ratchet wheel (22) is integral with the central gear (31) driving; the two driven gears (32) are carried by two half-shafts (21) orthogonal to the axis of the ratchet wheel (22); from the driven gears (32) two symmetrical kinematic chains will drive the two flywheels (25) in rotations at the same angular velocity but in opposite directions. Obviously, all the organs described above are included in both chains.

C / CAS OF FLOATERS HOULOGENERATORS. Unlike the rotor machines, the houlogénérateurs recover a wave energy which requires an adaptation of the inertial system described above. a) The recovery of the energy of the sea: To recover the energy of the waves and the waves, the houlogénérateurs floats use two techniques: - A pendulum which oscillates with the undulations of the swell; an oscillating hull containing a suspended inertial system which, by its own weight, performs a relative pendulum movement.

But in these two versions, the recovery of the energy of the swell is done by means of a reduction gear coupling: - a toothed circular sector, which is integral with either the balance or the hull, is coupled to a small toothed wheel located at middle of a motor shaft. this motor shaft thus performs alternating partial rotations, following oscillation of the balance wheel or the pitch of the hull, since it is integral with the small toothed wheel. b) The double kinematic chain: On each side of the small toothed wheel, a ratchet wheel (22) is secured, on the one hand, to the motor shaft and on the other hand to the two pinions (32) of the gear wheel. 'angle. Once driving, the two pinions (32) meshing with the central gear (31), cause the two symmetrical kinematic chains, and therefore the flywheels (25), in rotations of opposite direction but at the same angular speed. The inertial system used for the houlogénérateurs floats is thus identical to that seen for machines with rotor. Each of the two symmetrical kinematic chains therefore comprises: a damper (23) associated with a regulator (24); The inertial flywheel (25) possibly with masses of inertia (26); the generator (29) possibly with a clutch (27).

Claims (4)

CLAIMS1- A device for recovering and storing renewable energies, characterized in that the rotation of the rotor (11) of the machine causes the permanent rotation of two flywheels (25) by means of the actuator (14). a hydraulic circuit. The rotation of the flywheels (25) transforms the renewable energy recovered by the machine into kinetic energy, which is stored before transformation into electricity. 2 - Device according to claim 1, characterized in that a double kinematic chain, comprising essentially the flywheels (25) and the generatrices (29), is coupled to the rotor (11) through a conventional hydraulic circuit with pump (12). ), accumulator (13) and motor (14). 10 3- Device according to claims 1 & 2, characterized in that the two inertial flywheels (25) of the dual kinematic chain are secured by a double angle transmission (31) & (32) which forces them to turn to the same angular velocity but in the opposite direction. 4- Device according to claims 1,2 & 3, characterized in that the rotation of the flywheels (25) is provided by the central gear (31) coupled to a ratchet wheel (22) itself integral with the motor ( 14). Its role is to drive the steering wheel (25) when the energy recovered and transmitted by the motor (14) is sufficient and let it spin freely at its speed acquired in the opposite case. - Device according to claims 1, 2, 3 & 4, 20 characterized in that a damper (23), spiral spring or oleopneumatic accumulator, is interposed between the ratchet wheel (22) and the flywheel (25). 6. Device according to claim 5, characterized in that a regulator (24) associated with the damper (23) serves to block it when the energy transmitted by the motor (14) is too low to impulse effectively 25 the steering wheel (25). But since during these periods the damper (25) accumulates little by little a potential energy, it will unlock the damper (23) upon reaching a predetermined threshold of this potential energy accumulated or on command of the programmer (39). 7 - Device according to claims 1, 2, 3,4 and 5, characterized in that a flywheel (25), rotated by the damper (23), retains or even increases its kinetic energy as long as it is decoupled from the generator (29) .8- Device according to claim 7, characterized in that two masses (26) radially movable to change as necessary the kinetic moment of the flywheel (25). The positioning of these masses (26) is controlled by the programmer (39). 9 - Device according to claims 1, 2, 3 and 7, characterized in that the dual kinematic chain ultimately comprises the generator (29), directly or indirectly coupled to the flywheel (25). It is naturally associated with the usual devices of regulation and transfer of electricity. 10- Device according to claim 9, characterized in that the coupling between the wheel (25) and the generator 29) is provided by a clutch (27) mechanical or magnetic. If the generator (29) is of disc shape, the clutch is replaced by a device (28) which moves the rotor axially to better adjust the effect of permanent magnets on the coils. In both cases, the operation is controlled by the programmer (39).