FR2919685A1 - Energy recovering device for e.g. bank of sea, has hollow structure formed with opening and fixations to fix pedestal for being ballasted at bottom part, and gear box connected to generator for gearing down movement of sea - Google Patents

Abstract

The device has a molded steel part or a concrete hollow structure (2) in which a platform floor (4) is positioned. A floating cylinder (19) is made of polyurethane, and is reinforced on an upper part by a steel plate (18). The floor has a connecting rod passage (17) for passing a pneumatic connecting rod (3). A gear box (7) is connected to a generator (6) for gearing down movement of a sea. The connecting rod connects a bias momentum wheel system (9) and the cylinder. The structure has an opening (11), and fixations to fix a pedestal (12) for being ballasted at a bottom part.

Description

The present invention relates to a device for recovering the 5

  movement of the sea to transform it into electrical energy.

  The sea represents a great source of alternative energy for the future either by its current or is movement. 10 Nowadays we are looking for alternative renewable energies. As for wind turbines, the wind, the sea offers us this ecological and inexhaustible energy that is its movement, 15 many people were interested in this way of producing energy systems not always easy to implement, or too expensive (tidal, hydro) and other techniques of recovering the movement of the sea. The object of this invention is to overcome these disadvantages, to produce energy using the movement of the sea.

  For this purpose, according to the invention, the method of the system 25 Unlike the prior art it maximizes the movement to transform it into energy, it is remarkable in that:

  The system is constituted in fact according to a first characteristic, of a hollow structure, either of steel or of concrete, its outer shape is rounded or rectangular, it will be well integrated with its environment, and will be in the upper internal part: a closed platform stage for the technical part, one or more openings on the lower part, at the base, a base to be strongly ballast at the bottom, equipped with a float cylinder, the said cylinder connects the energy generators on the plate shaped by a connecting rod, this connecting rod is multi directional, the said connecting rod driving the flywheels which transforms the movement in rotation, said flywheels are connected to the gearboxes which connect the current generators.

  According to particular embodiments, the MORCI system, is made in a single element, so it can be installed in places not very deep and easy to access, (dykes, advance port, seaside or lake) or several elements to be installed in series in a building by the sea, to make a power station.

  Also, according to the invention: the MORCI system, can constitute a hollow and cylindrical structure, inside which a float cylinder is placed, by the fact of the movement of the sea it will slide from bottom to top at the inside said structure, said float cylinder may be made of a plastic or polyurethane material, reinforced by a steel plate, connected by a bearing to the pneumatic connecting rod, said pneumatic connecting rod is formed in two parts one fits together in the other, in the part of the upper diameter is inserted the pneumatic system and the springs, by the fact of compressed air injection is obtained a launcher effect and damper for the catching of the differences in movement, the said connecting rod transmits its power of movement through the central crank which is equipped with a disengageable gear mechanism that launches the flywheels, the said crank is inserted into the flywheels, said flywheels of ine they are made of steel, their diameter will be determined in relation to geographical locations to optimize power, the said flywheels are placed on an axis and coupled to the gearboxes, to obtain a higher speed and torque to ensure the maximum transmission to the generators, which will supply the current, said generators will be placed on disengageable chassis to increase or decrease the number of generators in use, according to the required power consumption.

  Additional drawings will emerge more clearly from the features of the description of an embodiment of the invention, given by way of non-limiting example: FIG. 1 represents a sectional view of the device of the invention N 1 Figure 2 represents a diagonal cross-sectional view of the steering wheel. Referring to these drawings, FIGS. 1 and 2 show a structure 2, made of steel or cast concrete, in which a platform stage 4 is placed, with a connecting rod 17, equipped with a gasket Sealing 15, and ventilation holes 13, on this platform stage 4, this place, the compressed air system 24, the steel supports 16, to hold the set of generators 6, the gearboxes 7, on these gearboxes 7, the flywheels 9 are coupled, in these flywheels 9 are inserted the reduction plates of the cranks 23, connected together by the bearing 5, the pneumatic connecting rod 3 connects the float cylinder 19, Through the bearing 21, the float cylinder 19 is provided with a gasket 14, and a steel reinforcing plate 18. In FIG. 2, the pneumatic connecting rod 3, which connects the flywheels 9, and the float cylinder 19, comprises two parts, an upper part which connects the flywheels of inertia 9 and a lower part of a larger diameter in which the spring 22 engages and place the pneumatic system 24, the bearing 21 which connects the float cylinder 19. For maintenance and service, an inlet 10 is placed at the top and steps 8 for access to the floor. The lower part of the structure 2, has openings 11, fasteners (20) for fixing or base 12, to be ballasted firmly at the bottom. According to a variant not illustrated, the diameter of the structure 2 can be modified so that the number of generators can be doubled by placing three-way gearboxes, on adjustable supports and slide (16) on the platform stage which will increase the power of electrical production. Also all of the said structure, can be installed in series to make a larger power plant.

Claims (10)

  1. Device for recovering the movement of the sea to transform it into electrical energy, (1) characterized in that it comprises: A steel or molded concrete structure (2), in which is placed, a platform stage for the technical part (4). 10 equipped inside a float cylinder (19), a pneumatic connecting rod (3), at least one flywheel (9), at least one gearbox (7) , and at least one generator (6). The lower part, of at least one opening (11), and at the base a base (12) to be ballasted, 15   2. Device according to claim 1, characterized in that the structure (2) has an internal cylindrical shape, and comprise an opening (10) and stair steps (8) for access to the technical part, a flat stage (4) having ventilation openings (13) and an opening (17) for the passage of the connecting rod (3), the lower part to at least one opening (11).   3. Device according to any one of claims l202 characterized in that the flywheel is made of steel and is equipped with a crank plate with a releasable gearing mechanism disengageable inside (23).   4. Device according to any one of the preceding claims characterized in that the connecting rod (3) is made in two parts, a first of a smaller diameter which comes to fit as well as the springs (22) in the second part of the upper diameter, equipped with a pneumatic system (24), for the launcher of said rod, and a bearing (21).   5. Device according to any one of the preceding claims characterized in that the float cylinder (19) is made of a plastic material, or polyurethane, reinforced on the upper part by a steel plate (18), on which comes soldering bearing supports (21) provided with centering joints (14).   6. Device according to any one of the preceding claims characterized in that the gearbox (7) for the gear reduction is connected to a generator.   7. Device according to any one of claims 1 to 5 characterized in that the gearbox (7) for the reduction of the movement, has one or two output channels to thereby connect one or two generators.   8. Device according to any one of the preceding claims characterized in that the generator or generators (6) for the production of the current are disengageable or removable.   9. Device according to any one of the preceding claims characterized in that the entire technical part is placed on adjustable supports and slide (16) to the platform stage (4).   10. Device according to any one of the preceding claims characterized in that the base (12) has a round or rectangular shape and is made of concrete or steel to be ballasted at the bottom.