ES2208066B1 - SUBMARINE PUMP DRIVEN BY THE KINETIC ENERGY OF THE SEA SWELL. - Google Patents

Abstract

It is a plunger pump that takes advantage of the kinetic energy of the movement of the waves of the sea to move large bodies of water and conduct them inland for later use as more convenient. Said pump has a cylindrical body (1) in which a piston (5) is guided with a rod (2) that at its upper end supports a float (15) with the cylindrical body (1) anchored by its lower end in a pile (21) fixed on the bottom of the sea. The whole assembly is submerged in seawater and communicated, through an outlet (19), with a pipe (29) from which a duct (28) is derived that flows into an intake valve (23) and conduit (32) leading to a pair of check valves (24) communicated with a manifold (53), so that in the movements of the float (15) by the waves of the sea, water aspiration occurs through the inlet valve (23), while in the movements of the float down (15) the pressure of the water to the check valves (24) and from them to the general manifold (53) occurs.

Description

Underwater pump powered by kinetic energy  of the waves of the sea.

Object of the invention

The present invention relates to a pump submarine, which is the type of piston and uses energy kinetics of the movement of sea waves to perform their work, so that by connecting many pumps between yes, by means of collecting tubes, large masses of sea water and lead them to any point inland for most convenient use.

It is an object of the invention to provide a pump submarine that is powered by a fully energy free, as is the kinetic energy of wave movement from the sea, allowing to obtain water for different uses, or obtain hydrogen for use as fuel, or get energy electric, etc.

Background of the invention

Numerous systems are known, at the document level as are patents of invention, and even tests carried out in situ , to obtain electrical energy, or other types of energy, from the kinetic energy of the movement of sea waves.

Now, both certain facilities performed at the trial level, such as theoretical realizations described in invention patent documents, have not given the expected results and much less desired ones, as a consequence that the degree of sophistication and complexity of the facilities conceived, at the time of its implementation, give rise to such number of problems and inconveniences that not only prevent correct operation and obtaining performance moderately permissible, but the beginning of the setting in operation and subsequent maintenance require such energy which makes the entire system unfeasible so far unfeasible and that from a theoretical point of view it seems feasible.

Description of the invention

The submarine pump that has been recommended has been conceived in a simple way, easily implantable and viable in its application and operation, since the pump in question is based on what is the structure of a conventional plunger pump, is say with a cylinder inside which a plunger is movable associated with a stem, which is implanted submerged in the sea and statically mounted on a pile anchored at the bottom of the sea, in such a way that the rod corresponding to the pump supports in its upper end a buoy or float that is floating on the sea surface and that can be loaded with a greater or lesser volume of water to provide a greater or lesser weight thereto, according to the work need of the pump itself piston, so that the chamber determined in it is in communication with an intake valve also submerged in the sea and check valves that all act in their opening by upward water flow while they close by simple gravity when that pressure stops working of the water up. Check valves communicate with a common manifold through a ball-type stopcock that is it will close in case of failure in any of the parts of the set or module that constitute both the pump previously referred to as the intake and check valves, with the peculiarity that this general collector is the water receiver under pressure that drives the pump during downward movements of its corresponding piston, after having moved vertically up to load the pump chamber during the passage of the waves, which logically, will raise the float, producing the corresponding aspiration of seawater through the intake valve, so that when said wave has passed the float with its weight move to the piston compressing the water contained in the pump chamber, being driven through the check valve to the general manifold, so that the water collected by it can be used for any use or application.

The intake valve has means that allow it to be locked in the closed position for those cases in which the pump is required not to work for any circumstance, being easily unlockable.

The pump so constituted will keep working 24 hours a day and every day of the year, since implanted in a place or area of the sea with high and constant swell, the constant functioning of the bomb, which through it and its combination in other equals they will move large bodies of water from the sea to any place of the earth, through the aforementioned common collector, and all of that totally free way since free is energy kinetics of the movement of sea waves used for the pump operation.

Obtaining the water that is achieved in the General collector can have different uses, including cite the following:

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For convert it into drinking water through its corresponding desalination.

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For be able to use it as irrigation water, properly desalinated.

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Possibility to directly desalinate the water of the sea since by means of the pumps you can get that the water moves at high pressures, to be able to use the pressure desalination system using a membrane reverse osmotic, thus obtaining a desalination of totally free way.

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For Obtain hydrogen-based fuel, since with water from the sea under pressure that can be supplied by the pump or set of pumps conveniently coupled to each other, can be obtained at through an electric turbine-generator, the necessary electrical energy and use it by electrolysis in decompose seawater, installing a procurement factory of hydrogen, with both economic and economic advantages environmental that this implies.

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For Obtaining electric power without more than driving the water obtained from pumps to turbines-generators electrical, logically transforming kinetic energy into electric power.

The various elements and components of both The pump, such as ducts, valves, etc., are designed to be manufactured in series, in order not to have to perform no assembly work under the sea, so that components and elements will move from factory to installation site, all mounted and fixing only the body of each pump on its corresponding pile anchored in the bottom of the sea.

The materials to be used will be resistant to corrosive effects of seawater, preferably used in the practical embodiment of the pump the pozzolanic cement as well as high strength plastics (polycarbonates, polyamides, nylon, silicone, etc.) not requiring the use of element any metallic

Among the numerous advantages derived from the functionality of the pump or set of pumps associated with each other, The following can be cited:

1º.- The operation is permanent and continuous 24 hours a day and every day of the year, since its drive only depends on the swell, so the source of System drive designed is inexhaustible.

2 .- The referred drive source, which is the waves are free and very abundant, extremes that constitute a factor of great relevance to having the account, so that a once the cost of the installation has been amortized, the water would be obtained totally for free.

3 .- Each pump with its intake valves and retention, form a modular assembly that allows easy configuration of different installations of underwater pumps `` a measure '', according to the needs.

4 .- Great simplicity in its operation, based mainly in mechanical drives, regardless of electrical, which minimizes the likelihood that they can failures

5th .- Maximum simplicity of the elements and components involved in the pump module assembly submarine, which entails on the one hand the significant reduction in the costs of realization and, on the other, a wide range of companies that can undertake the manufacture of the elements and components, since neither high tech nor large is needed specialization.

Description of the drawings

To complement the description that is being performing and in order to help a better understanding of the characteristics of the invention, according to a preferred example of practical realization of it, is accompanied as part member of that description, a set of drawings where with illustrative and non-limiting nature, what has been represented next:

Figure 1.- Shows a representation according to a sectioned elevation view of the unit module that constitutes an underwater pump made in accordance with the purpose of the invention, mounted on the corresponding pile anchored on the sea floor and associated with the corresponding valves admission and retention, as well as to the general collector.

Figures 2 and 3.- Show respective details enlarged in figure 1.

Figures 4 and 5.- Show respective views in section of the device or mechanism involved in the lock / unlock of the corresponding intake valve.

Figures 6, 7, 8 and 9.- Show respective schematic views corresponding to the different phases of operation of the underwater pump object of the invention.

Preferred Embodiment of the Invention

In view of the figures outlined, you can observe how the underwater pump of the invention is constituted to from a cylindrical and hollow body (1) of reinforced concrete, with pozzolanic cement and sea water resistant, inside moves axially upwards and downwards the corresponding rod (2), also constituted and of form preferred in reinforced concrete with pozzolanic cement. At inside the cylindrical body (1) is located a shirt (3) of plastic made of polyester, with its inner surface provided of a specular polish in order to avoid the wear of the corresponding sealing gasket (4) mounted on the corresponding piston (5) displaced inside the jacket (3), said piston (5) establishing two chambers (6) and (7), that superiorly limited by a bowl-shaped lid (8) that fits superiorly over the mouth of the body cylindrical (1), and the chamber (7) limited inferiorly by the own one bottom of the shirt (3) housed inside the cylindrical body (one). The piston (5) is made of high plastic material resistance, such as polycarbonate, with a cavity like of bowl (9) provided in its upper part where the lower and trunk-conical section of the stem (2), fixing this by means of a transverse mooring bolt (10). That piston (5) is guided in its ascending and descending displacements by rollers (11) made of high plastic material resistance as is polycarbonate.

The cover (8) is fixed on the upper end or cylindrical body mouth (1) by screws or studs (12), being established at the top of the cover (8) ribs or projections on which rollers (13) are placed of guidance, in vertical upward and downward sliding of the stem (2), this being limited in its displacement ascending by stops (14) established on the surface lateral and emerging from it. On the upper end, also of trunk-conical configuration, is mounted and fixed a float (15) that at its base has, below, a neck (16) determinant of a complementary end housing upper of the rod (2), being fixed both parts by means of a transverse bolt (17). The float (15) is constituted by a hollow container-shaped body with an upper hole (18) on which a plug will be arranged, through whose hole (18) is capable of introducing or extracting water in order to the weight of said float may vary for convenience (15) and with this can modify the pressure communicated by the piston (5) to the water on the chamber (7), for the pump outlet through a  pipe (19) provided laterally in correspondence with the part lower cylindrical body (1) and of course the shirt (3).

Lowerly, the cylindrical body (1) has also a trunk-conical configuration for staying in a complementary cavity (20) provided for that purpose in the upper end of a pile (21) that is conveniently anchored at the bottom of the sea, fixing by means of a bolt or pin (22).

Generally, the fixing bolts referred to and referenced with numbers (10), (17) and (22), will be made of plastic high strength, preferably in nylon material, while that the cylindrical body (1), as well as the rod (2) and the proper pile (21), will be made of reinforced concrete with pozzolanic cement, Water resistant from the sea.

Also, the stops (14), rollers (13) and even the piston itself (5), will be made of high plastic material resistance, preferably polycarbonate, without ruling out others materials such as nylon or similar, while the referred seal (4) as well as others that will leave citing throughout this description, they will be of a material Abrasion resistant silicone elastomer, when there is friction and appropriate material when only purpose of sealing and remain static

The referred pump assembly is complemented, to form the corresponding unit module, with a valve intake (23) and check valves (24), so that the intake valve (23) is established inside a inverted bowl or cap (25) connected, through a flange (26) and gasket (27), on the end of a conduit (28) with the configuration shown in figure 1, which it is derived from a connected pipe (29), through the joint (30) and  flange (31), to the outlet pipe (19) of the pump body (1), providing a flat flange in these connection means for get the sealing of the gaskets corresponding.

The pipe (29), in addition to the conduit (28) in communication with the intake valve (23), it is continued in another conduit (32) that relates to check valves (24).

In the intake valve (23), in addition to the inverted bowl or cap (25), a section is involved cylindrical (33) coupled to the bowl or cap (25) by a flange (34) and sealing gasket (35), settling in that joining a horizontal disk (36) as a support element for the corresponding valve (23), specifically for the head (37) flat of the same, from which the corresponding stem is derived (38) which is sliding, in ascending displacements and downstream of the valve, inside a disc hole (36) constituting the seat of the valve head, disc that It also has holes (39) for the passage of water as more forward it will be exposed.

Said intake valve (23) is completed with a blocking assembly (40) which allows said valve to be kept in closing position, and whose locking assembly is intended for that the closure of such valve (23) prevents the operation of the pump at those times that are necessary or desired, including that locking device (40) a pair of coils of solenoid (41) and (41 ') provided inside a container airtight polycarbonate plastic, associated with respective magnetic cores (42) and (42 ') that are related to a piece  movable (43), displacement that is performed on some slides (44), all in such a way that the activation of one or another of the solenoids (41-41 ') carries with it the traction of one or another magnetic core (42-42 ') and therefore the displacement in one or the other direction of the piece (43), so that the part (43 ') thereof will be inserted into a slot (45) of the  own stem or shaft (38) of the intake valve, including the locking device a ratchet (46) with a moving part (47) thereof, capable of being located in a notch (48) or (48 ') in resting positions, allowing upward displacement and descending the stem (38) and therefore allowing the operation of the intake valve, or causing blockage to prevent the operation of such valve.

The lower end of the cylindrical section (33) of the intake valve assembly (23), attaches to a body bottom cylindrical (49), affected by holes that act as filter in the admission of seawater to the pump itself, specifically towards his camera (7), so that body cylindrical (49) with its holes, acting as a filter and coupled with a seal (50) to the cylindrical section (3), prevents the entrance of fish or any other solid body.

As for the check valves (24), they are constituted in the same way as the intake valves (23), having referenced with the same elements or components, both as regards the couplings, that is to say the gaskets (27), and flanges (26), as to what is refers to the support discs (36) or their holes (39), stem (38) and head (37) of these check valves (24).

At the exit of the set that form the two check valves (24) shown in figure 1, a duct (51), which is coupled, through a ball valve (52) and by means of flanges (26) and joints (27), to the inlet neck (52) of the general collector (53) to which the water driven by the own pump, manifold (53) that is placed on a support (54) forming a camera conveniently configured for adaptation and immobilization of that general collector (53). Stop valve ball type (52), it is planned to make a closure in those cases in which failures can occur in any of the parts of the set or module described, in order to make the pump independent of the general collector.

According to the referred characteristics, the operation of the pump after its installation submerged inside the sea and at a distance from the coast that can be approximately 100 meters and at a depth of 8 or 10 meters, is the next:

In figure 8, the float (15) is located floating on the surface of the sea (M), so that at that float (15) is approaching a wave (55), being in that closed position both the inlet valve (23) and the check valves (24).

Now when the wave (55) reaches the float (15), as shown in figure 7, said float (15) ascends as a result of the wave itself (55), so that for to carry out this lift it is necessary that the intake valve (23) has been opened due to the aspiration produced by the move the piston (5) upwards, so that a once that inlet valve (23) has opened the water, through the filter (49), is suctioned and through the conduit (28) is introduced into the chamber (7) of the pump, penetrating an amount of water that It will depend on the height of the wave. During this time the valves retention (24) are in closed position.

When the wave (55) passes the float (15), as represented in figure 8, then said float descends by gravity, producing the closure of the intake valve (23), since when that float reaches its highest point the aspiration.

By lowering the plunger (5) and as consequence of the weight of the float (15) pressure will be exerted that it goes through the pipe (29), and through the pipe (32) it will reach the check valves (24), producing their opening. The general collector (53) will be reached through the duct (51), for the transfer of said water to any point of the earth. In Figure 9, the float (15) can be seen in its position of maximum descent and floating on the surface of the sea (M), in whose moment the intake valves (23) and retention (24), because at that time there is no aspiration or compression, thus closing the cycle and finding the float (15) waiting for another new wave to come so that it is repeated the cycle as described above.

Claims (9)

1. Underwater pump powered by the kinetic energy of sea waves, which being intended to move large bodies of water from the sea and lead them to the shore or into interior areas, for the subsequent use of said water, or to obtain drinking water, from irrigation or obtain hydrogen as fuel, or even electrical energy, all without any expense or energy requirement that is not the kinetics of the movement of sea waves, is characterized in that it is constituted from a cylindrical body (1) with a shirt (3), inside which a rod (2) is movable, which at its upper end supports a float (15), while at its lower end a movable pin (5) is fixed inside the jacket (3) of the cylindrical body (1), the latter being fixed at its bottom end to a pile (21) fixed at the bottom of the sea, all forming a set submerged in the sea except for the float (15), communicating the ca mara (7) established below the plunger (5) with a pipe (29) provided with a conduit bypass (28) that flows into an intake valve (23) and a conduit bypass (32) that flows into valves of retention (24), in communication, through a conduit (51) with a general manifold (53), it being provided that said inlet (23) and non-return valves (24) are closed by gravity and opened by the water pressure, in the first case by the admission caused by the upward displacement of the plunger (5) caused by the rise of the float (15) by a wave of the sea, and in the second case by the pressure of the pressurized water from the chamber (7), by descent of the plunger (5) when the sea wave has passed to the float (15). 2. Underwater pump driven by the kinetic energy of sea waves, according to claim 1, characterized in that the plunger (5) is guided in its upward and downward displacement inside the jacket (3) of the cylindrical body (1) by rollers (11), while the rod (2) is guided in its upward and downward displacements on rollers (13) established for this purpose in the upper part of the upper closing cover (8) of the cylindrical body itself (1). 3. Underwater pump driven by the kinetic energy of sea waves, according to previous claims, characterized in that both the fixation of the float (15) on the upper end of the rod (2) and of the latter on the piston (5) and the body itself cylindrical (1) on the pile (21), it is made by corresponding transverse pins (17), (10) and (22), respectively. 4. Underwater pump driven by the kinetic energy of sea waves, according to previous claims, characterized in that the rod (2) has on its lateral surface with stops (14) limiting the upward movement thereof, while the float (15) has in its upper part with a hole (18) complemented with a plug that allows the introduction or extraction of water to increase or decrease the weight of said float (15). 5. Underwater pump driven by the kinetic energy of sea waves, according to previous claims, characterized in that both the duct (28) that flows into the intake valve (23) and the duct (32) that flows into the check valves ( 24) and the duct (51) that communicates this inlet valve (24) with the general manifold (53), are coupled to corresponding cups (25), with flanges (26) and corresponding sealing gaskets (27), each being valve constituted by a head (37) and a rod (38) that can be moved upwards and downwards over a hole provided for this purpose in a support disk (36), which has steps (39) to allow both the aspiration of water through the intake valve (23) as the flow of water through the check valves (24). 6. Underwater pump driven by the kinetic energy of sea waves, according to claim 5, characterized in that the intake valve (23) is complemented by a lower cylindrical body (49) with holes, determining a filter to allow water aspiration and prevent the passage of fish and other solid bodies. 7. Underwater pump driven by the kinetic energy of sea waves, according to claim 5, characterized in that two check valves (24) mounted in parallel planes are included. 8. Underwater pump driven by the kinetic energy of sea waves, according to any of the preceding claims, characterized in that between the outlet duct (51) of the check valves (24) and the general manifold (53), it is provided a ball valve (52). 9. Underwater pump driven by the kinetic energy of sea waves, according to claims 1 to 6, characterized in that the intake valve (23) is complemented with a blocking device provided to keep it closed when desired, a blocking device that is constituted by means of a pair of solenoid coils (41) and (41 ') associated to corresponding magnetic cores (42) and (42') related to a movable body (43) which, in the activation of one or another solenoid coil (41 ) and (41 ') and the corresponding traction of one or another magnetic core (42) and (42'), carries with it the displacement towards one side or another of said piece (43) and the introduction or exit of a part (43 ') thereof in a groove (45) established for that purpose on the shaft or stem (38) of the intake valve (23), blocking or releasing the movement of said rod or shaft and preventing or enabling the opening of such valve (23), collaborating in the maintenance When the lock is locked, a ratchet (46) is placed on a notch (48 ') of the piece (43), while in the rest position it is placed on a notch (48) of said piece (43).