ES2472321A2 - Energy production system (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Energy production system, formed by a duct (1) for circulating water in a closed circuit arranged vertically and a circulation, also in a closed circuit, of float elements (2) that rise by flotation through a vertical section (3) of the water circulation conduit (1), to fall outside said water conduit (1) through a guide tube (6), there being in the lower part a system for collecting the float elements (2). ) and introducing them into the water circulation conduit (1). (Machine-translation by Google Translate, not legally binding)

Description

ENERGY PRODUCTION SYSTEM

Technical sector

The present invention is related to the production of energy by means of rotating devices, such as turbines or any other type of similar machines, proposing a system formed by a closed circuit of water circulation and a path, also in a closed circuit, of floating elements that they ascend by flotation in the water circuit and fall freely outside of it, going below that functional set a system that collects the floating elements when they fall and introduces them back into the water circuit, the flow of the water can be used circulating water and the fall of the floating elements to actuate the actuation of rotating devices, either directly or through a motion transmission.

State of the art

Given the environmental impact caused by the production of electricity through thermal fuels, such as coal, oil, natural gas, oils, alcohol, wood, etc.,

or by nuclear techniques, as well as due to the high cost of these energy sources and the progressive depletion of the natural resources that provide them, non-polluting energy sources and non-exhaustible sources, such as the use of water, air or solar radiation.

The production of electricity through waterfalls has, however, the inconvenience of large installation costs and impact on nature, since you have to build canals, dams and swamps, and also the performance is very dependent on the amount of water available in natural environments, which in turn depends largely on the times of the year and the places of installation.

The production of electricity by wind or solar systems, in turn has a great dependence on nature, since when there is no wind or sun, or these sources do not have enough intensity, the production of electricity obtained is very small or null, which also determines a condition related to the places of application, so that where the annual average of wind or sun does not exceed certain values, the wind or solar installations do not reach profitable production values.

Therefore, it is clear that the technical progress in this field of electricity production must be oriented to systems that meet the requirements of a profitable production, low installation cost and minimal environmental damage and pollution.

In this sense, solutions have been developed based on the movement of fluids and objects by means of simple systems and basic fundamentals that, by applying the buoyant force and the force of gravity, allow the actuation of elements by weight and pressure. rotating, whose movement can be transmitted for the operation of electricity generators or any type of rotary devices. A solution of this type is, for example, that of the patent ES 2288419, of the same holder as the present invention, based on the impulsion of a fluid by means of the fall of heavy bodies in a vertical conduit, to actuate, by means of the fluid driven, a rotating device that can be used in coupling to a rotating machine, such as an electricity generator. The solution proposed by said Patent, however, results from expensive and complex installation, fundamentally in regard to the return of lifting of the heavy bodies to the high part from which they have to fall to drive the actuating fluid of the rotating device .

Object of the invention

According to the invention, a system is proposed that allows, by means of a simple installation and with a minimum consumption expense, the production of a motive energy that can be applied to drive rotating devices, for example electric generators, without this application be limiting, the system based on its operation on the natural principles of gravity and flotation.

This system object of the invention comprises a flow duct of a vertically arranged closed circuit water flow and a flow path of floating elements that ascend by flotation in the section of water rise through the circulation conduit and fall freely on the outside of said duct, a system that collects the float elements when they fall and introduces them back into the water circulation duct.

Under these conditions, in the section of water fall in the circulation duct and / or in relation to the fall of the floating elements outside said water circulation duct, and even in relation to the collection system of the elements floats in the lower part to introduce them into the water circulation duct, rotating vane elements can be arranged, which are actuated in a rotating drive, outside the water circulation duct or inside it, allowing mechanisms to be operated with said rotating elements of electricity production or any type of rotating machine independent of the system.

According to one embodiment, the system for introducing the float elements in the water circulation duct can be formed by a receptacle provided with an upper opening gate to the water circulation duct and a side entrance gate of the elements floats from a conductive surface that picks them up in the fall from the top, a piston that is actuated by a vertical moving drive in the receptacle, by means of which, the water that is collected in the receptacle is propelled through a hose to return it to the water circulation conduit, while the float element in the receptacle rises by its own buoyancy, ascending through the water circulation conduit, where it drives water circulation, and in the upper part the Float element exits the water circulation duct to fall out of it.

The actuation of the piston of the receptacle from which the float elements are introduced into the water circulation conduit can be operated by any system capable of producing a vertical reciprocating movement of the piston, such as a hydraulic system operated by a piston driven by the weight of the float elements when they fall outside from the top, or by any other system that is driven by the weight of the float elements or by the fall and pressure of the water in the water circulation circuit, or a Lever system or levers also actuated by the weight of the float elements when they fall from the top, or any other system that allows to perform the same functionality.

The system for introducing the float elements into the water circulation duct, however, can have any other embodiment that allows the float elements to be collected when the water circulation duct falls and introduced, such as a rotating impeller of the revolver type, capable of receiving the floating elements from a conductive surface for collecting them when they fall, to take them, by turning said impeller, to a floating position to the water circulation duct.

Thus, in any case, a system is obtained in which the floating elements circulate ascending by flotation inside the water circulation duct and falling by gravity outside said water circulation duct, so that in the Floating ascension the float elements themselves propel the water for recirculation, while in the fall both the water and the float elements allow the actuation of rotating vane elements to act, obtaining a motive energy that can be applied for the actuation of any device or machine independent of the system.

In some cases, the system for introducing the floating elements into the water circulation duct, can also be used to indirectly activate other rotating elements capable of simultaneously activating external devices or machines, thus being able to multiply the action of the system of energy production.

Therefore, said energy production system object of the invention results in very advantageous characteristics, acquiring its own life and preferential character for a profitable production of motor energy, for the generation of electricity or other applications, without damaging the environment.

Description of the figures

Figure 1 shows an elementary scheme of the energy production system according to the invention, with actuation of the system of introduction of the float elements in the water circulation duct by the fall of the float elements themselves.

Figure 2 is a diagram of another possible drive solution of the system for introducing the float elements into the water circulation duct by the fall of the float elements themselves.

Figure 3 is a diagram of another embodiment of the energy production system according to the invention, with actuation of the system for introducing the float elements in the water circulation circuit by the force of the pressure at a low point of the Drop in the flow of circulating water.

Figure 4 is a diagram of the energy production system according to the embodiment of the previous figure, incorporating an additional indirect drive of a rotating element.

Figures 5, 6 and 7 show schematically some embodiments of the system for introducing the float elements in the water circulation duct, using a revolver type rotating element.

DETAILED DESCRIPTION OF THE INVENTION

The object of the invention relates to an energy production system, for the application of rotating devices or machines, such as turbines coupled to electric generators or other rotating machines, by means of a functional concept based on the circulation of a flow of water in a closed circuit through a conduit (1) arranged vertically and the movement of movement, also in a closed circuit, of floating elements (2) that ascend by flotation through said circulation conduit (1) of water and fall by gravity from the outside of it.

The water circulation duct (1) comprises a vertical section (3), through which the water and the floating elements (2) ascend, there being in the upper part an opening (4), through which the floating elements ( 2), by the impulse of the flotation or any mechanical system that complements or replaces said flotation action, up to a ramp (5) from which said float elements (2) fall outside the duct (1) to the part lower.

According to one embodiment, in the fall outside the duct (1) the floating elements

(2) run through a guide tube (6) through which they reach a stop (7) that retains them and releases retention when the weight of a certain number of stacked float elements (2) acts on it, going below said stopper (7) a plunger (8) that is capable of raising and lowering in a path that passes in front of an opening (9) of the lower part of the guide tube (6), through which the floating elements (2) they leave individually to a surface (10) that leads them to a receptacle (11) provided with a side gate (12) through which the float elements (2) that arrive enter it and with an upper gate (13 ) whereby the float elements (2) leave from said receptacle (11) to the water circulation conduit (1).

The receptacle (11) is arranged in relation to a cylinder (14) in which a piston (15) that acts as the lower base of the receptacle (11) moves up and down, said piston (15) being connected in a combination of antagonistic movement with the plunger

(8) that is below the stop (7) that retains the float elements (2) when they fall through the guide tube (6) from the top.

Thus, according to the embodiment shown in Figure 1, each float element (2), when it is in the vertical section (3) of the water circulation duct (1), rises by flotation to the top, where by the impulsion of the ascent it goes out through the opening (4) to the ramp (5), through which it will fall to the guide tube (6), so that, when falling, the floating elements (2) accumulate in stacking on the stop (7), until a certain number of stacked float elements (2) causes said stop (7) to release the retention, opening by force of the weight of the accumulated float elements (2) or by any actuator mechanism that perform this function, whereby the set of the float elements (2) stacked happens to rest on the plunger (8), exerting on it a downward force that makes it descend, so that, when the float element descends (2) lower of the stack exceeds the stop (7), said stop (7) returns na to the retention position, retaining the rest of the float elements (2), and the float element (2) that has been below the clumsy (7) exits through the opening (9) to the surface (10), the which leads to the receptacle (11), which enters through the side gate (12).

Under these conditions, when a float element (2) is in the receptacle (11), the upper gate (13) of said receptacle (11) is opened, the float element rising

(2) due to its own buoyancy to the water circulation duct (1), after which the gate (13) is closed again and, when the plunger (8) is lowered as described above, due to the ratio of said piston (8) with the plunger (15) that acts as the base of the receptacle (11), this piston rises (15), pushing up the water inside the receptacle (11), which is driven through a hose (21) to the top where it is discharged to the water circulation duct (1)

When they leave the receptacle (11), the floating elements (2) ascend by flotation through the vertical section (3), and propel the water that is above them, thus causing said ascent of the floating elements (2) a continuous circulation of water through the duct (1), rising up the vertical section (3) and falling down the other side.

On the other hand, when the piston (8) descends by the weight of the stacked float elements (2) acting on it and the stop (7) is closed behind the bottom float element (2) of the stacking, once said lower float element (2) exits through the opening

(9) to the surface (10), the piston (8) returns to the upper position and when another float element (2) falls on the stack, the stop (7) is opened again, so that the piston (8) ) is pushed again by the weight of the stack, leaving another float element (2) through the opening (9) and, thus, successively; whereby the float elements (2) circulate continuously, ascending the vertical section (3) of the water circulation duct (1) and falling through the guide tube (6), to go along the surface (10) to the receptacle (11), from which they return to the vertical section (3) of the duct (1).

According to another embodiment, represented in Figure 3, which has the same effect of continuous circulation of a water flow through the conduit (1) and of the floating elements (2) rising up the vertical section (3) of said conduit (1) of water circulation and fall outside to the surface (10) that leads to the receptacle (11), the piston (15) that acts as the base of the receptacle (11) is related, by means of a hydraulic communication ( 16), with a piston (17) arranged in relation to the part of the water drop in the circulation duct (1), this piston (17) having a water inlet gate (18) in the upper part of the duct (1) and an outlet (19) to which a water return hose (26) is connected to the upper part of the duct (1); said piston (17) housing a piston (20) that is of less weight than the base piston (15) of the receptacle (11).

With this embodiment, when a float element (2) enters the receptacle (11) through the side gate (12) thereof, this gate (12) closes and the gate (13) of the upper part is opened, thus� as the gate (18) of the upper part of the piston (17), so that the water that descends through the lowering part of the conduit (1) enters said piston (17), lowering the piston (20) thereof , whereby a hydraulic pressure (16) exerts a pressure that causes the piston to rise (15), which pushes up the water in the receptacle (11), towards the duct (1) of circulation, to which the float element (2) rises in turn, so that when the float element (2) reaches the water circulation duct (1), it rises by flotation through the vertical section (3) of said water circulation conduit (1), to exit through the upper opening (4) and fall down the ramp (5) to the tube (6).

In this case, when the float element (2) leaves the receptacle (11) to the vertical section (3) of the water circulation duct (1), the upper gate (13) of said receptacle (11) is closed and also the upper gate (18) of the piston (17), whereby the fall of the water flowing through the conduit (1) stops pushing the piston (20) down, so that the greater weight of the base piston (15) of the receptacle (11) causes this piston (15) to descend, exerting through the hydraulic communication (16) a pressure that forces the piston (20) to rise, which when ascending forces the water contained in the piston (17) to exit through the exit (19), returning it through the hose (26) to the duct (1).

In this way, as in the embodiment of Figure 1, there is a continuous movement of water circulation through the duct (1) and, in combination, a continuous movement of movement of the float elements (2) ascending along the vertical section (3) and falling down the guide tube (6) to the surface (10) that leads to the receptacle (11).

In order to maintain the functionality of the system in that operative way it is necessary that the duct (1) remains full of water, so that the flotation of the float elements (2) does not lose effectiveness, being able to be arranged for that purpose, as observed in figures 3 and 4, a regulating tank (22), from which the variations in water level that are produced by the exit and entry of the float elements (2) in the duct (1) are compensated, since each Float element (2) when entering the conduit (1) displaces an amount of water that is introduced into said regulator tank (22), just as when each float element (2) leaves the conduit (1), the volume of the float element is compensated by an equivalent amount of water entering from said regulating tank (22); the variations in the volume of water in the duct (1) being compensated in the same way by the entry and exit of water in the piston (17); so that it is in the regulating tank (22) where variations in the water level occur, keeping the duct (1) always full of water.

The relationship between the base piston (15) of the receptacle (11) and the piston (8) located below the stop (7) or the piston (20) of the piston (17), for the operational operation of the return return system The float elements (2) to the water circulation duct (1) through the receptacle (11), can be a hydraulic system, by means of a hydraulic communication (16), as in the embodiments of Figures 1 and 3, a system mechanical relationship by means of a tilting lever (23), as in the embodiment of figure 2, or any other system that is capable of operating a vertical reciprocating movement of the plunger

(15) by the force of the weight of the floating elements (2) in the pipe or by the pressure of the water in the descent of the circulation through the conduit (1).

The whole of the double circuit, formed by the circulation of water and the circulation of the floating elements (2), determines with this system of the invention a constant movement of both circulations, by combination between them, being able to use the water fall and / or the fall of the floating elements (2), in their respective paths, for the operation of rotating vane elements that can be coupled to any type of rotary machines, such as turbines coupled to electricity generators.

In that sense, for example, a rotating vane element (24) can be disposed within the water drop section in the duct (1), as seen in Figure 1; and a rotating vane element (25) may be arranged in relation to the fall of the float elements (2), as seen in Figure 3; for driving different machines

or mechanisms

An embodiment, according to Figure 4, is also provided with the base piston (15) of the receptacle (11) formed by two end plates determining a hollow space between them, and in relation to said hollow space a hydraulic connection of a piston (27) accessory provided with a piston (28) related to a crank (29), to drive, directly or through a wheel (30) and a transmission (31), a respective device

(32)

 outside, taking advantage of the round trips of the plunger (15) in the drive of the float elements (2) from the receptacle (11) to the water circulation duct (1).

In any case, without altering the object of the invention, the recommended system can be used to simultaneously operate the rotating vane elements (24 and 25), and the device (32), or to operate any of they independently, regardless of the others, or any combination thereof.

Within the fundamental concept of the invention, which refers to the production of energy by means of the use of a continuous circulation of water through a vertical duct (1) and a movement of continuous circulation of floating elements (2) in ascent by flotation through of said water circulation duct (1) and free fall outside it, the system for collecting the float elements (2) at the bottom, when they fall, to return them to the water circulation duct (1), I could have other embodiments that are capable of performing this function of automatically collecting and returning the float elements (2) to the water circulation duct (1).

In that sense, solutions are also provided, for example, such as those of Figures 5, 6 and 7, formed with a rotating element (33) of the revolver type provided on its periphery with holes (34) in which the float elements (2) that arrive on the driving surface (10), so that turning said revolving element (33) of the revolver type brings the float elements (2) to the exit position to the circulation duct (1) of water, which they ascend by flotation.

The revolving element (33) of the revolver type can be connected, by means of a piston (35) or through a lever (36), as in Figures 5 and 6, with a plunger (8) arranged below a provisional retention of the float elements (2) in stacking in the guide tube (6) of fall, so that when a number of the float elements (2) accumulates in the stacking, the retention is opened by allowing a float element to pass

(2) to exit to the conduction surface (10), the piston (8) being displaced downwards by the weight of the stacked float elements (2), when the stacking retention is opened, whereby a swaying occurs vertical of said piston (8) that drives the piston (35) or the lever (36), these turning the rotation of the rotating element (33) of the revolver type, which in turn, by means of its rotation, drives a pump ( 37) that absorbs the water contained in the housing (38) in which that revolving element (33) of the revolver type is included, to drive said water, through a hose (39), to the circulation conduit (1) of water.

The rotating element (33) of the revolver type can also be driven by an external motor (40), as in the embodiment of Figure 7, leading the drop tube (6) of the drop of the floating elements (2) into the housing (38) of the rotating element (33) of the revolver type, to be driven directly thereto said floating elements (2) when they fall, while the water collected in the housing (38) is sent through a respective hose (39) to the water circulation duct (1), by means of a pump (41) that can be independent or actuated by the rotation of the revolving element (33) of the revolver type itself.

Claims (13)

1.- Energy production system, formed by a water circulation and a circulation of float elements (2), to drive rotating elements coupled to external rotating machines or mechanisms, characterized in that it comprises a water circulation duct (1) in vertically arranged closed circuit and a circulation, also in a closed circuit, of floating elements (2) that ascend by flotation through a vertical section (3) of the water circulation conduit (1), to fall outside said conduit (1) of water circulation through a guide tube (6), there being in the lower part a collection system of the floating elements (2) when they fall, to introduce them back into the water circulation duct (1) . 2. Energy production system, according to the first claim, characterized in that the system for collecting the floating elements (2) in the lower part comprises a receptacle (11), into which the floating elements (2) are introduced. ) to float out to the water circulation duct (1), in relation to said receptacle (11) going a piston (15) that is related by means of a motion transmission with a plunger (8) located below the drop of the float elements (2) and which is driven by them in vertical reciprocating motion. 3. Energy production system, according to the first claim, characterized in that the system for collecting the float elements (2) in the lower part comprises a receptacle (11), into which the float elements (2) are introduced ) to float out to the water circulation duct (1), in relation to said receptacle (11) going a piston (15) that is related by means of a motion transmission with a piston (20) of lower weight located by under the fall of the water in the circulation duct (1) and which is driven by said fall of the water in vertical reciprocating motion. 4. Energy production system, according to the first claim, characterized in that the system for collecting the float elements (2) in the lower part comprises a rotating element (33) of the revolver type provided with holes (34) in its periphery, in which the float elements (2) are introduced to be carried thereto to a position of flotation exit to the water circulation conduit (1), said revolving element (33) of the revolver type being connected by means of a transmission of movement with a piston (8) located below the fall of the float elements (2) and which is driven by them in vertical reciprocating motion. 5.- Energy production system, according to the first claim, characterized in that the system for collecting the floating elements (2) in the lower part comprises a rotating element (33) of the revolver type provided with holes (34) in its periphery, in which the float elements (2) are introduced to be carried by it to a floating position to the water circulation conduit (1), said revolving element (33) of the revolver type being connected with a external motor (40) of rotation drive. 6. Energy production system, according to the first claim, characterized in that in the upper part of the vertical section (3) of the water circulation conduit (1) there is an opening (4), through which the elements leave floats (2) to a ramp (5) from which they fall through the guide tube (6). 7. Energy production system, according to the first claim, characterized in that the system for collecting the floating elements (2) in the lower part comprises a surface (10) for conducting the floating elements (2) from the they fall to the introduction zone in the water circulation duct (1). 8.- Energy production system, according to the first claim, characterized in that in the guide tube (6) a stop (7) of retention of the floating elements (2) is arranged in its fall, which releases said retention when a certain number of stacked float elements (2) is accumulated, to allow each time a float element (2) to pass to the collection system at the bottom. 9.- Energy production system, according to the first claim, characterized in that in relation to the collection system of the float elements (2) in the lower part, recirculation hoses (21, 26) are arranged, for the return of the water that is collected in that system of collection of the floating elements (2), to the duct (1) water circulation. 10.- Energy production system, according to the first claim, characterized in that in relation to the water circulation conduit (1) a regulating tank (22) is arranged that compensates for variations in water volume to always keep it full said water circulation conduit (1). 11. Energy production system, according to the first claim, 5 characterized in that a rotating blade element (24) is arranged in the water drop section in the water circulation duct (1) which is actuated by Water fall 12.- Energy production system, according to the first claim, characterized in that in relation to the fall of the floating elements (2) from the upper part 10 there is a rotating blade element (25), on which they impact the float elements (2) when falling driving the rotation of the same. 13.- Energy production system, according to the first claim, characterized in that in relation to the system that introduces the float elements (2) 15 into the water circulation duct (1) a piston (27) is arranged which It allows to operate an external device (32).