• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The system and method for collecting the energy of fluidic currents consists of turbines (12p) that have one free end and the other, or its axis, is attached to the mechanical element to be moved, or to an electric generator (4). directly or through an rpm multiplier. The generators being held by a bar (45) and a joint or hinge (46). to a collar that rotates and rests on a mast (7), post, etc. which allow the turbines and generators to tilt vertically and horizontally and to orient themselves in the fluid stream and capture and take advantage of the flow of said current, but not to turn around its axis. The turbines must be preferably axial, with peripheral fins, receiving the flow of water or air parallel to their axes and automatically addressing themselves in the form of vanes. The generators can feed electrical resistors. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2678994A1
    申请号:ES201700136
    申请日:2017-02-15
    公开日:2018-08-21
    发明作者:Manuel MUÑOZ SÁIZ
    申请人:Manuel MUÑOZ SÁIZ;
    IPC主号:
    专利说明:

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    Use winds and currents of water of all the senses and of low and high intensity, obtaining a reduced cost of the Kw / h.
    Use turbines that do not require the use of rigid or heavy shafts, bearings and supports. Facilitating its rapid and easy implantation in isolated houses.
    Use turbines of a piece or articulated in series that practically have no limit of length.
    To be able to use electric generators of multiple pairs of poles or with rpm multipliers, or installations with air compressors or hydraulic pumps driven directly by the axes of the turbines, whose regulated flow drives alterators by motor pumps.
    Being able to obtain electricity, hydrogen, water elevation from wells, storage of water by raising it or from the air or at sea in deep areas. However, being the most constant water currents, its storage is not necessary, the great problem of renewables.
    As for simplicity, cost, amount of energy that can be produced, price of kW / h, places to place it, almost constant use time (at sea and rivers) avoiding the need to store energy, use the currents of all senses without the need for electromechanical addresses, its versatility, benefit and care of the environment, has no competence, both in small and large ones.
    Problem to solve.
    Renewable energy is not yet productive enough to use it in large quantities, it is not usually constant and produces environmental contamination. Due to its lack of continuity it needs and its storage. With this system you can get a lot of constant energy from the sea and rivers, so it is not so necessary to store and can be placed in areas that do not harm or pollute the environment, both electrically, audibly and visually. In the air it allows to obtain the energy of high zones.
    The system and method for capturing the energy of fluid currents of the invention, consists of turbines that have a free end and the other, or its axis, is subjected to the mechanical element to be moved, to an electric generator directly or through a rpm multiplier. By means of a bar and an articulation or hinge, or a pair of links, the generators and also the mechanical elements to be moved are fastened to nails, anchors, concrete blocks, mesh bags filled with stones, posts, towers,
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    bar (45), hinged with the articulation (46) to the collar (6) of the mast (7), so that it allows it to rotate horizontally and vertically but not to rotate around the axis of said bar.
    Figure 4 shows the tape or twisted band (12h) without a shaft, which has its end attached to the axis of the electric generator (4). The generator is connected by means of a pair of links (5) to the rotating collar (6) on the mast (7), so that it allows it to lean horizontally and vertically but not to rotate around the axis of said bar, only the small turn Let the links.
    Figure 5 shows the turbine (lm) with the helical fin (2m). Which swells or inflates with the flow of water or air flow, for which it carries a mouth with a ring (28), which is attached to the generator shaft (4) with the cords (29). The generator is attached and rotates horizontally with respect to the mast (7) with the collar (6). This inflation system is valid for all devices used herein. You can add a trellis to prevent the entry of solid products, or place the trellis in the form of a cap covering the entire pyramidal area covered by the cords.
    Figure 6 shows a hollow turbine (12r) that can be a float in the water or a balloon filled with helium in the air, which can also act as a comet, so that once it has been raised it is maintained by the action of the wind . It rotates the generator shaft (4) and is attached to the ground by means of the cable (26) and the nail (23). It has the advantage, like all wind power plants of this type, of being able to rise and take advantage of the large air currents existing in height. The cable or rope must be derived electrically to ground to avoid static or lightning strikes.
    Figure 7 shows a hollow turbine (lc) with its fin (2c) which can be a float in the water or a balloon in the air, which can also act as a comet, so that once it has been raised it is maintained by the wind action. Turn the generator shaft (4) and it is attached to! ground using the cable (26) and the nail (23). It has the advantage, of being used as a wind power, of being able to rise and take advantage of the large air currents existing in height. The cable or rope shows the inclination it can take depending on the flow of the fluid and its buoyancy. The cable or rope must be derived to ground to avoid static or lightning strikes.
    Figure 8 shows helical axial turbines, the upper one (lc) on a hollow shaft (3c) with the helical fin (2c). The lower one (lb) on a compact shaft (3b) and the helical fin (2b). They can be flexible and formed by several longitudinally articulated sections, their axes are oriented in the direction of the water current as vanes and electric generators (4) attached to the mast (7) are held and operated by means of the
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    BRIEF DESCRIPTION OF THE DRAWINGS.
    Figure 1 shows a schematic, partial and side view of a turbine-type turbine, generator and a method of fastening the system of the invention.
    The figure shows a schematic, partial and side view of a variant of a turbine and spiral and spiral fin, generator and a fastening mode.
    Figure 2 shows a schematic, partial and side view of a variant of turbine and spiral and spiral fin, generator and a fastening mode.
    Figure 3 shows a schematic, partial and side view of a helical spring type turbine variant, and a clamping mode.
    Figure 3a shows a schematic, partial and side view of a spiral and spiral spring type turbine variant, and a clamping mode.
    Figure 3b shows a schematic, partial and side view of a spiral and spiral spring type turbine variant, and a clamping mode.
    Figure 4 shows a schematic, partial and side view of a variant of a belt or twisted band type turbine, and a fastening mode.
    Figure 5 shows a schematic and side view of a turbine variant whose axis or drum is formed by a very thick Iona or mesh.
    Figure 6 shows a schematic and side view of a variant of helical turbine used in high-altitude air.
    Figure 7 shows a schematic and side view of a turbine variant with a helical fin, used in high-altitude air.
    Figures 8 through 13 show schematic, side and partial views of turbine variants with the sensor system of the invention.
    Figure 14 shows a schematic and side view of a turbine variant with pairs of inclined triangular fins.
    Figure 14a shows a schematic and perspective view of a turbine variant with pairs of triangular fins attached to its vertices with cables.
    Figure 15 shows a side and partial view of a turbine variant formed by two inclined wings on both sides of the shaft.
    Figure 15a shows a plan view of the turbine of Figure 15.
    Figures 16 and 16a show schematic views of a turbine field of the system of the invention.
    Figures 17 and 18 show schematic and partial views of two turbines with helical fins of different pitch and number of fins.
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    Figure 19 shows a schematic view of a turbine formed by several stages or vane wheels.
    Figure 20 shows a schematic and partially sectioned view of an electric generator and its cover.
    Figure 21 shows a schematic, partially sectioned perspective view of a generator variant and its cover.
    MORE DETAILED DESCRIPTION OF A FORM OF EMBODIMENT OF THE INVENTION
    Figure 1 shows an embodiment of the invention, with a turbine formed by a single helical fin and without shaft (12p), which has its end attached to the axis of the electric generator (4). The generator is connected by the bar (45), hinged with the articulation (46) to the collar (6) of the mast (7), so that it allows it to rotate horizontally and vertically but not to rotate around the axis of said bar. This fin can also be hollow.
    The figure shows a turbine formed by a single helical fin without axis (12q), which has its end attached to the axis of the electric generator (4) and this by means of a pair of links (5) to the collar (6) of the mast (7) that allows it to rotate vertically and horizontally and only allows a slight torsion. The turbine is similar to that of figure 2, but with more turns or stages.
    Figure 2 shows a turbine formed by a single fin and without axis, helical and spiral (12n), which has its end attached to the axis of the electric generator (4). The generator is connected by the bar (45), hinged with the articulation (46) to the neck of the mast (7), so that it allows it to rotate horizontally and vertically but not to rotate around the axis of said bar.
    Figure 3 shows the turbine formed by a coil spring (12r), which has its end attached to the axis of the electric generator (4). The generator is connected by the bar (45), hinged with the articulation (46) to the collar (6) of the mast (7), so that it allows it to rotate horizontally and vertically but not to rotate around the axis of said bar.
    Figure 3a shows the turbine formed by a coil spring (12s), which has its end attached to the axis of the electric generator (4). The generator is connected by the bar (45), hinged with the articulation (46) to the collar (6) of the mast (7), so that it allows it to rotate horizontally and vertically but not to rotate around the axis of said bar.
    Figure 3b shows the turbine formed by a coil spring (12t), which has its end attached to the axis of the electric generator (4). The generator is linked by
    image 1

    OHCIMA SSPANOLA OF PATENTS AND BRANDS
    l 1 FEB. 2017
    E N T Rh PA
    SYSTEM AND PROCEDURE
    FLUID CURRENTS.
    P 2 0 1 7 00136
    one
    ENERGY RECEIVER OF
    FIELD OF THE INVENTION.- In mini and megasystems, wind and maritime * fluvial collectors, which generate a large amount of electricity and housing, agriculture, 5 desalination of sea water, water elevation, feedback of the current to the electricity grid, obtaining of hydrogen by electrolysis of water and storage of pressurized air in bags in the sea at great depth. In many cases, when the energy obtained is almost constant, as with some sea currents or rivers, the need or current problem of having to store the energy obtained can be eliminated.
    10 STATE OF THE TECHNIQUE.- The energy systems of the water currents in
    The current sea needs high technologies and high costs to achieve high yields. They are difficult to control, complex, you need to direct them to the currents. Regarding wind systems, they need high technologies, high costs, high altitude placement and high winds to achieve high yields, depending on 15 difficult wind conditions. They are difficult to control, complex, you need to direct them to the wind, they visually pollute the landscape, produce radioelectric distortions and kill the birds. The energy is more expensive than with conventional systems. The present invention eliminates said drawbacks by providing a simple, useful and economical system, using axial blades, helical and similar turbines. It can be considered continuation of the patent P201600696.
    DESCRIPTION OF THE INVENTION
    Obligatory of the invention and sales.
    Provide a high energy source without the need to place the turbines in large streams of water or in the air at high altitude.
    25 Obtain energy from marine currents, which, unlike solar energy
    and the wind are usually more constant and do not have great periods of calm. Especially when they are generated as a result of the displacement of large bodies of water. Like the Gulf Stream or Kuroshio, in straits, capes and around many islands, where large amounts of water must pass from one area to another. In addition to the same volume of fluid displaced, water is about 832 times denser than air.
    Provide a simple and high-performance system, with little maintenance, which does not pollute, does not produce noise, vibration, radioelectric interference, or visual pollution in the case of the sea, nor does it harm wildlife.
    It allows to use large sensors.
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    links (5) and collar (6). The rotating fins (2c and 2b) facilitate the movement of the sensor. A strobe light (9) at the end of the mast warns of its presence. In this case, the fins and shafts have constant dimensions along them.
    Figure 9 shows two axial helical turbines (1 and 1) whose hollow axis, the (3) conical trunk and the (3) cylindrical, gives them buoyancy, can float or remain submerged, can be flexible and formed by several longitudinally articulated sections, fastened by means of links (5), its axis is oriented in the direction of the wind as a weather vane and drives an electric generator (4), air compressor or hydraulic pump. The upper one is fixed to the ground by means of the nail (23) and the lower one with the concrete block (8a) at the bottom of the sea, rotating helical fins (2 and 2a), which can be flexible produce the movement of the sensor. They take advantage of both wind energy and water currents. Both fins increase their dimensions towards the loose end. Changing the density of its elements can be used in the air. The lower turbine shows how the forces, direction and inclination are applied, depending on the difference LW (sustaining force minus the upward thrust equal to the weight of the volume of fluid in which it is immersed. FW being the force of the wind. And resulting in the force R and with the inclination shown by it.
    Figure 10 shows the helical turbine (Id) with a hollow truncated conical shaft (3d) with increasing dimensions of the shaft and the fin (2d) towards the free end. The clamping end joins the generator shaft (4) and the generator with links (5) to a buoy (32d) that is supported by the chain (13d) anchored at the bottom of the sea or river.
    Figure 11 shows multiple turbines (lb) attached to one of its ends, or shafts, to the generators (4) and these in turn by means of links (5) to a chain (11) supported by the upper ends of two masts (7 and 7a). Its axes (3b) are not hollow and the fins (2b) are of constant dimensions. Strobe lights (9) at the end of the mast warns of their presence
    Figure 12 shows a helical axial turbine (la) that can float or remain submerged by the buoy (32). It can be flexible and be formed by several longitudinally articulated sections, its axis (3a) is oriented in the direction of the water current as a vane and is secured and operated by an electric generator (4), the links (5) to the concrete block (8). The rotating fin (2a) facilitates the movement of the sensor. The shaft (3a) of the turbine is hollow and provides a high degree of flotation. In this case, the buoy increases the buoyancy of the turbine. The fin increases its dimensions towards the opposite end to the one attached to the concrete block.
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    Figure 13 shows the helical turbine (the) attached to the axis of the electric generator (4) which is attached to the cable (13) which can be a chain, attached at one end (15) to a cliff (14) and the other to a concrete block (8a) at the bottom of the sea. The turbine has a hollow and float shaft (3a) and a helical fin around it (2a).
    Figure 14 shows the turbine (50) with pairs of inclined triangular fins (51), its axis (52). The generator is connected by the bar (45) to the collar (6) on the mast (7).
    Figure 14a shows the turbine (53) with pairs of triangular fins (54) attached to its vertices with cables. It rotates around its axis (55).
    Figure 15 shows the turbine (60) formed by two inclined fins (61) one on each side of the axis of rotation (62) represented by the dashed line. Here the inclinations of both with respect to the fluidic current are shown. They are held by the crank-shaped part (63 and 63a) one at each end. The (63a) is connected by cables or cords to the generator or the mast.
    Figure 15a shows the turbine (60) formed by two inclined fins (61) one on each side of the axis of rotation (62). They are held by the crank-shaped part (63 and 63a) one at each end. One of them is connected by cables or cords to the generator or the mast.
    Figure 16 shows a mantima or land field or farm with multiple helical turbines (lb) fixed to the bottom of the sea or to the ground by means of concrete blocks (8). The arrow indicates the direction of the fluid, which in this case is the same for all turbines.
    Figure 16a shows a mantima or land field or farm with multiple helical turbines (lb) fixed to the bottom by the cables (13s) placed between two points (8b and 8c). The arrow indicates the direction of the fluid, which in this case is the same for all turbines. The cables can be the same that collect the electric current, and must be interconnected between them to facilitate this task and eliminate part of the wiring.
    Figure 17 shows the turbine (lb) with a helical fin (2b) of constant dimensions, attached to a cement block (8), which drives the generator (4) and is connected to other turbines in series by means of the articulation or rings (22).
    Figure 18 shows the turbine (lh) with two helical fins (2b), attached to a cement block (8), which drives the generator (4).
    Figure 19 shows the turbine (lp) consisting of multiple stages or wheels of
    vanes, attached to a cement block (8), which drives the generator (4) and is connected to other turbines with the articulation (22), (28) being the line of union of the different stages or paddle wheels.
    Figure 20 shows the generator (4), fastened by links (5) to a fixed point, inside the housing (20), whose rotor (27) and shaft (18) rotates supported by the roller bearings ( 19) and through the chain (5g) that would be attached to a turbine, being (24) the generator stator. Seals or gaskets that keep the internal elements of the generator tight are not shown. The rpm multiplier is optional, it is used for very low speed turbines.
    Figure 21 shows the generator (4), fastened by links (5) to a fixed point, inside the housing (20), whose shaft (18) rotates supported by roller bearings (19) and by means of chain (5g) that would be attached to a turbine. It is similar to that in Figure 20.
    The drawings reflect turbines, which with changing the fluid used and of course its densities are valid for use with water and air.
    In all cases they are related to ships or cetaceans to make their relative measures visible. The thick stroke arrow shows the direction of the fluidic current.
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    * 3
    lampposts, buildings, mounds, cliffs, buoys or floats, or a cable or chain supported between two points mentioned above, which allow the turbines to turn, orient themselves in the fluid stream and capture and take advantage of the flow of said stream . Generators are only allowed to lean horizontally or vertically but not to rotate around their axis.
    The turbines can also be attached to a fixed point: Mast, concrete block, etc. through a cardan union or label. In this case the generator is fixed to the fixed point and its axis is connected to the rotating end of the turbine by a pair of gears.
    As mechanical elements motor pumps are used to raise water or drive electric generators, or the pressurized air can be stored in the sea at great depth.
    The turbines should preferably be axial, receiving the flow of water or air parallel to their axes and addressing automatically as vanes, but may have an inclination with respect to the horizontal, which depends on the difference between the weight of the turbines, including the adjoining installation, generator, and the weight of the fluid that dislodges. When both factors are equal they remain horizontal. Any type of turbine can be used, with or without a shaft, especially those that are longitudinally extended and with blades or vanes inclined, twisted or helically arranged. To increase their stability, it is done, although with aerodynamic profiles, that the dimensions of the turbines, their axes and / or their fins are greater in or towards the free end, or not subject, of the same.
    The turbines can consist exclusively of the helical fins of the turbines, in springs or in twisted bands or belts, that is without the shaft. Which can also be hollow
    An axial turbine variant (50, 53 and 60) uses, with or without an axis, two (or more) inclined fins (51, 54 or 61) that can be symmetrical with each other, which create a torque around said axis .
    In the water some turbines can be formed by a very thick Iona or mesh that supports the fins.
    With the turbines inclined with respect to the flow of the fluid the yield can be even greater since the section of the affected surface is much greater than with the frontal current. However, when the turbines receive the current parallel to the axis, when they are not covered by a tube, the performance is very high and increases or multiplies with its length.
    ' 4
    The rotation of several of these turbines can be applied to a supported and driven shaft
    inside a mast, which can drive a pump and draw water from the wells.
    The turbines can have the free end attached to a balloon or a float.
    The turbines can have their shafts, blades or solid or hollow blades and act partially as balloons or floats. In all cases the turbine, cables, chains, generators or grab bars can have a density equal to or similar to that of the medium in which they move.
    The hollow and flexible turbines, shafts, fins or vanes of Iona, plastic or very dense mesh act as bags and can be kept inflated with the current of air or water in which they are immersed. For this, the end of the turbine that is attached carries a fluid inlet bounded by a ring, which is attached to the generator rotor by means of cords.
    The turbines can be placed in an orderly manner, in rows and columns, so that they can use common electrical or water installations and a large area.
    15 The blades or blades of the turbines can be rigid or flexible. Leaning the
    flexible and reducing its impact surface with increasing fluid velocity.
    In some cases the lengths of the turbines may be somewhat greater than the depth of the water. In this way, when they are anchored at the bottom, they can be turned and raised for repair or maintenance. It may be necessary to vary the degree of flotation with a remote control to perform its exit abroad for maintenance. Using for this an air chamber, which expands for ascent and compresses for descent.
    The turbines can be placed semi-submerged in the water taking advantage simultaneously of the action of the water and the wind.
    In the sea to transport the current you can use a single conductor, the positive or the phase cable if it is altema and the other for the negative, mass or earth using the water that is conductive.
    In wind energy collectors, balloons and turbines, their shafts or hollow elements can be filled with helium.
    The turbines can carry a hollow cylindrical shaft that acts as a total or partial float, and the use of floats may not be necessary in this case.
    At sea, turbines can carry a floating rope or rope, which is used to lift the system for repair or maintenance. A specific color is applied as distinctive.
    On land and in the water when posts or buoys are used that stand out they are
    5
    apply red or amber strobe lights, preferably LED diodes, the power can be supplied with the generated with the system itself.
    Especially in high-rise wind power plants, instead of the clamping cable, one or multiple turbines can be used in series. That being flexible could be a single turbine.
    5 Small turbines tend to be very revolutionized and do not need
    Multipliers When possible the mechanical energy obtained can be used to raise or pump water on land where it is stored at high altitude, then a motor pump that drives an electric generator is operated.
    The end of the turbines can be connected to the axis of the electric generator or to the support point by means of a cardan joint or label. In the latter case, the generator is attached to the support point and the movement of the sensor is applied by means of a pair of gears. In the first case the generator is attached to a support point by means of a bar and a joint and a collar that allows them to lean vertically and horizontally but not to rotate around its axis. This is also achieved with a pair of 15 links.
    Radial fins can help avoid oscillations due to turbulence or gusty winds.
    The generators can feed electric heating resistors. Being a simple and very economical system.
    20 A control, warning and safety system informs about the status of each of the
    systems.
    Stainless materials based on steel, film, plastic, concrete and the like can be used. The plastic can be reinforced with graphene and very resistant synthetic fibers, kevlar, glass, carbon, etc.
    25 Operation: The weight of the turbine and moving parts is matched, with the thrust
    upwards of the water or air that dislodges, in this way the turbine is arranged horizontally, except when the current of water or air has some vertical inclination. However, if we want it to be tilted upwards by having its supports on the ground, or tilted downwards by having them in the upper area of the water, the weight of the turbine should be varied to achieve it. More or less heavy turbines can be used than the fluid, so they will be tilted but their performance is still very high. This may be necessary to avoid hindering the navigation of ships or airplanes, etc. In addition, the turbines, in addition to being hollow and filled with helium, can be made of plastic polymer foam, polyurethane with a resistant cover.
    权利要求:
    Claims (25)
    [1]
    12
    1. System to capture the energy of fluid currents, using axial turbines that have a density between 70% and 130% of that of the fluid in which it moves, which are placed attached to one of its ends, automatically addressing the flow from
    5 water or air currents as vanes, comprising:
    a) Axial turbines that have one end or its axis free and the other is attached to the mechanical element to be moved, or to an electric generator;
    b) Mechanical elements, devices or electric generators to which the movement of the turbines is applied;
    10 c) A fastening, support or anchoring means to which said turbines are attached;
    Y
    d) Control, warning and safety devices.
    [2]
    2. System according to claim 1, characterized in that the axial turbines are helical fins (12p) and have no axis.
    15 3. System according to claim 1, characterized in that the axial turbines are fins
    Helical and turbines have shaft.
    [4]
    4. System according to claim 1, characterized in that the axial turbines are helical springs (12r).
    [5]
    5. System according to claim 1, characterized in that the axial turbines are belts 20 or twisted bands (12h).
    [6]
    6. System according to claim 1, characterized in that the axial turbines are radial blades.
    [7]
    7. System according to claim 6, characterized in that the radial vane turbines consist of several blades or vane wheels.
    25 8. System according to claim 1, characterized in that the turbines (50) are formed
    by pairs of inclined triangular fins (51) distributed around its axis of rotation (52).
    [9]
    9. System according to claim 1, characterized in that the turbines (53) are formed by pairs of inclined triangular fins (54) distributed around their axis of rotation
    30 (55) and attached to their vertices with cables (56).
    [10]
    10. System according to claim 1, characterized in that the turbines (60) are formed by two inclined fins (61) one on each side of the axis of rotation (62), being held between two crank-shaped pieces (63 and 63a) a at each end, one of them is connected by cables or cords to the generator or a metal element.
    [11]
    11. System according to claim 1, characterized in that the axis of the turbines is solid.
    [12]
    12. System according to claim 1, characterized in that the axis of the turbines is hollow and full of helium.
    [13]
    13. System according to claim 12, characterized in that the axis of the turbines is filled with foam of plastic polymers, polyurethane, polyethylene, coated with a layer
    protective and resistant.
    [14]
    14. System according to claim 2 to 6, characterized in that the fins, vanes or blades of the turbines are flexible.
    [15]
    15. System according to claim 2 to 6, characterized in that the fins, vanes or vanes 10 of the turbines are rigid.
    [16]
    16. System according to claim 3 to 6, characterized in that the fins, vanes or shafts of the turbines have their dimensions increasing towards the loose or free end of said turbines.
    [17]
    17. System according to claim 1, characterized in that the turbines are placed in an orderly manner, in rows and columns.
    [18]
    18. System according to claim 1, characterized in that the turbines have the free end attached to a balloon or a float.
    [19]
    19. System according to claim 1, characterized in that as mechanical elements motor pumps are used to raise water.
    20 20. System according to claim 1, characterized in that the anchoring means are nails,
    anchors, concrete blocks, mesh bags filled with stones, posts, towers, lampposts, buildings, mounds, cliffs, buoys or floats, or a cable or chain supported between two points of those mentioned above, which allow the turbines turn and orient in the fluid stream.
    25 21. System according to claim 1, characterized in that as warning devices or
    safety poles protruding from water or buoys are used, and red lights or strobes are applied to them, preferably LED diodes.
    [22]
    22. System according to claim 1, characterized in that a conductive cable is used as means of transporting the energy to carry the positive current, or the phase if it is
    30 altema current, and for the negative or mass the water that is conductive is used.
    [23]
    23. System according to claim 1, characterized in that rpm multipliers are applied between the turbine and the generators or generators of multiple pole pairs are used.
    [24]
    24. System according to claim 1, characterized in that the turbines are formed by multiple turbines in series or one of great length.
    14
    [25]
    25. System according to claim 1, characterized in that stainless materials based on steel, film, concrete, plastic and the like are used.
    [26]
    26. System according to claim 1, characterized in that the rotary movement is applied to the electric generators to which they are attached or through multipliers of
    5 rpm
    [27]
    27. System according to claim 1, characterized in that the turbines, their shafts, fins or vanes are hollow and flexible and are kept inflated with the current of air or water in which they are immersed, for which the end of the turbine, which is attached , carries a fluid inlet port delimited with a ring (28), which is attached to the cable or rotor of the
    10 generator using cords (29). -
    [28]
    28. System according to claim 14, characterized in that the fins or blades of the flexible turbines are inclined and reduce their impact surface with increasing wind or water velocity.
    [29]
    29. System according to claim 1, characterized in that the energy of the electric generators 15 is applied to electric heating resistors.
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    同族专利:
    公开号 | 公开日
    ES2678994B1|2019-06-21|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    FR600368A|1925-07-06|1926-02-05|Turbo-engine using the force of a moving fluid|
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    法律状态:
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    优先权:
    申请号 | 申请日 | 专利标题
    ES201700136A|ES2678994B1|2017-02-15|2017-02-15|System and procedure for collecting energy from fluid currents|ES201700136A| ES2678994B1|2017-02-15|2017-02-15|System and procedure for collecting energy from fluid currents|
    EP17838856.7A| EP3508717A4|2016-08-09|2017-08-03|System for capturing the energy of fluid currents|
    CA3033460A| CA3033460A1|2017-02-15|2017-08-30|Fluid current energy capture system|
    PCT/ES2017/000101| WO2018029387A1|2016-08-09|2017-08-30|System for capturing the energy of fluid currents|
    AU2017309337A| AU2017309337A1|2016-08-09|2017-08-30|System for capturing the energy of fluid currents|
    US16/324,820| US11067055B2|2016-08-09|2017-08-30|System for capturing the energy of fluid currents|
    CL2019000290A| CL2019000290A1|2016-08-09|2019-02-04|Fluid stream energy sensing system.|
    US17/360,673| US20210363964A1|2016-08-09|2021-06-28|Energy collecting systems of the marine, river and wind currents|
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