PT104154A - MODELS OR SYSTEMS OF HYDRIC ENERGY PRODUCTION - Google Patents

Abstract

THE PRESENT MODELS OR SYSTEMS, OF HYDRIC POWER PRODUCTION PRESENTED, TO THE PRODUCTION OF ELECTRICITY, THROUGH THE WHEELS OR TURBINES OF GREAT, AVERAGE, SMALL AND LESS THAN DIMENSION, ARE BEEN OPERATED BY THE FORCE OF CURRENT WATER OF RIVERS, OF THE SEA OR TANKS. THESE WHEELS OR TURBINES WILL PRODUCE ELECTRICITY, THROUGH THEIR OPERATION, WHEN IT IS IMPULSIONED BY THE POWER OF CURRENT WATER, OR PUMPED. ALL MODELS OR SYSTEMS, WHEELS OR TURBINES, ARE AT THE EXTREMITY OF THE AXLES FIXED THE POLES WHEN THE WHEELS, AND BY INTERLIGATION OF THE BELTS, WITH THE POLES FIXED TO THE ROTOR OF THE GENERATORS, WILL PRODUCE THE ELECTRIC CURRENT. MAY BE STILL THESE WHEELS OR TURBINES OF GREATER DIMENSION, TO BE ADAPTED AT THE BACK OF THE BOATS OR SHIPS, FUNCTIONING WITH THE DISPLACEMENT OF THESE. THE WHEELS OR TURBINES OF SMALL DIMENSION, ARE CONSTITUTED BY AN AXIS (2) AND A FRAME IN GALVANIZED IRON PIPE (3), WHERE THE PASTES ARE FIXED (4), HAVING AT THE EXTREMITIES OF THE SHAFTS, THE POLIS (10) THAT GO ROTATE THE POLES (8), ATTACHED TO THE END OF THE GENERATOR ROTOR (7), BY THE INTERLIGATION OF THE BELTS (9), PRODUCING THE ELECTRIC CURRENT WHEN THE WHEELS ARE ACTUATED BY THE CURRENT WATER FORCE.

Description

* -mmmm * mmme »pn ea. *

At present there are many different ways of producing electricity through alternating current generators, as well as various ways of driving the generators. What we are going to invent is the way to produce electricity in unlimited quantities using wheels or turbines of different shapes and sizes , which interconnected by belts through the poles fixed at the ends of the axles of the wheels, with the poles fixed to the rotor of the generators, which also have various sizes and powers, produce the electric current. These wheels or turbines are driven by the force of the running water, or the pumped running water. These wheels or turbines may also be adapted to boats or ships by moving them to rotate the wheels or turbines by the current of the water caused by their displacement. These wheels or turbines will normally be applied in groups of several tens, hundreds or thousands, depending on the location, where they will be applied (rivers or water ditches). In rivers and water ditches of large flow, the wheels or larger turbines will be applied. The medium-sized wheels or turbines will be applied to pumped water troughs, which will be built on the slopes of the hills or saws, and can be applied for several kilometers. The small wheels or turbines will be applied in pumped water trenches, in a closed circuit. Smaller wheels or turbines will be applied in watertight pipes. 1/8

These models or systems of production of clean and renewable energies are intended to produce the electricity necessary for the consumption of the peoples and nations, thus contributing to the improvement of the economy of the same ones, since fossil fuels are not used, contributing also to the climate change.

The present models or systems of production of electric energy, are composed of wheels or turbines, built in galvanized iron frames, that take in the end of the axes the polis, where they will fit the belts, that will be interconnected through these, with the polis , fixed to the rotor of the generators, and the wheels to be driven by the force of the running water, producing the electric current, through the generators Fig. 1, 2, 3 and 4. The wheels or turbines referenced in Figures 1, 2 and 3 , work by the force of running water on the slope, and the larger the slope the greater the force of the water. The turbine referenced in Fig. 4 may operate level, i.e. without tilting, because it is driven by the force of the water pump.

The present inventions are described without limitation and exemplary and schematic shown in the accompanying drawings: Figure 1 represents a schematic and simplified perspective of the wheels or turbines adapted to operate through stream water in the rivers or ditches, and can be grouped as many as the production systems can take, in which the force of the water turns the wheels or turbines, producing the electric current, through the polis, that are fixed at the ends of the axis of the turbines, interconnected by the belts, the poles fixed to the rotor of the generators Fig. 1A and Fig. The current generators can also be adapted to the inside of these wheels or turbines, the shaft acting as a rotor and, around the latter, the extractor Fig. 1C and Fig. 1D can also function as boats or ships, the wheels or turbines , driven by the force of running water, produced by the displacement of these Fig. Turbines and current generators, as well as their quantity, will be sized and adapted to each power generation system. Figure 2 represents a schematic and simplified perspective of the wheels or turbines, adapted for the production of energy, in existing water ditches in the fields, or to water systems pumped to the heights of mountains or mountains, in quantities necessary, to feed the ditches to be built by the slopes of the same saws or mounts Fig.2B, these systems being able to take thousands of wheels or turbines, and of generators along its route, compensating thus much, the energy spent in the pumping of the water. This water can come from rivers, dams, lakes or the sea. This system of energy production can also create 3/8 tourist systems, making swimming pools or lakes on top of hills, or mountains, or in villages and towns through which the trenches pass with pumped water, then the water enters the trenches , for the production of energy by moving the wheels or turbines, which through the poles, fixed to the axis of the wheels or turbines, interconnected by belts to the poles of the rotor of the generators, produce the electric current Fig. 2A and Fig. 2B. With this system of energy production, fresh water can still be used in irrigation or other purposes, and salt water is returned to the sea after its use. Figure 3 represents a schematic and simplified perspective on the production of closed-loop energy in which water is pumped from a tank, lake or other source, to where it returns Fig. 3B, and the wheels or turbines Fig. 3Δ, are driven by the force of the water, which through the poles, fixed at the end of the axles of the wheels or turbines, interconnected by belts to poles of the rotor of the generators, produce the electric current. Figure 4 represents a schematic and simplified perspective on the production of closed-circuit power, the turbines being applied inside the watertight tubes, driven with the force of water printed by the water pump, operating at any inclination or level, producing the energy with its rotation, through the polis fixed at the end of the axes, interconnected by 4/8

Mn /

Mn /

belts, with the generator rotor poles. This system can be applied in the production of energy for buildings, mounted in cellars or attics, to factories or where their use is useful.

Description of the Preferred Embodiment

Referring to the figures, the preferred embodiment of the invention will be described, wherein the adapters are attached to the energy producing organs, assembled as follows. The energy production structure Fig 1 represents a schematic and simplified prespective of a wheel or turbine, adapted to a hose, to operate through the water stream of the rivers or water ditches of large flow, and can be grouped as many as is applicable to each model or system of energy production, and Fig. 1A represents a wheel or turbine (1) and is constituted by a frame in circular iron tubes (3), as shown in Fig. 1B, cross-section of Fig. 1A, wherein the blades 4 are fitted between two sets of wheels in iron tubes 3, having in the center of the wheel an axis in an iron tube 2, the poles (10) Fig. 1A, this wheel being mounted, on top of a hammer (5), and being floating in the river 5/8 or water ditch (6), where they are also mounted on the two generators 7 of alternating current, which has fixed at the tip of the rotor, a polis 8 which is to be interconnected with the polis 10, of the wheel or turbine by the belts 9 and the energy is produced when the wheel or turbine is actuated by the force of the running water which through the poles 10 of the belts 9 and the polis 8 rotating the rotor of the generator (7), may further be adapted to the interior of these wheels or turbines (see, the current generators, the shaft (11) functioning as a rotor and around it the extractor (12), Fig. a boat or ship which has engaged the wheel or turbine and generators shown in Fig. 1. The electric current is produced only when the wheel is driven by the displacement of running water caused by the movement of the boat or ship 20, by propelling them, to be driven by propellers driven by electric motors and fed by the electricity produced by the wheel or turbine shown in Fig. The energy producing structure Fig 2 represents a schematic and simplified perspective of a double wheel or turbine (13), adapted to a medium flow water ditch (14), Fig. 2A is constituted by a tube frame (2), and by rectilinear tubes, which leave the axle, and will fix the outer wheel, as shown in the cross-section Fig. 2B, where the blades (4) are to be fixed, having at the center of the wheel or turbine, the axle in iron tube (2), where the poles (10) are to be fixed Fig. 2B, this wheel being mounted on the top 6/8

of the structure forming the water ditch (14), where two alternating current generators are also fitted, which are fixed at the end of the rotor, a polis (8), which is to be interconnected with the polis (10) of the wheel or turbine, by the belts 9, the energy is produced when the wheel or turbine is driven by the force of the running water which, by means of the polis 10, the belts 9, and the polis 8, the generator rotor (7). Fig. 2C depicts a current or pumped water trench (14), constructed on the slope of hills or hills, showing the serially deployed of the wheel or turbine Fig. 2A adapted to an energy production model or system, and how many more wheels or turbines to implant in each model or moir system will be their profitability. The energy production structure Fig. 3 represents a schematic and simplified perspective of a single wheel (15), adapted to a small ditch

FIG. 3A shows a simple wheel constituted by an iron frame of a circular tube (3), bringing to the center the axis (2), from which straight tubes leave the outer wheel, where they are fixed the blades 4 and the iron tube shaft 2 are secured at the end to the poles 10 which, by interconnecting the belts 9, the poles 8 of the rotor of the generators 7 produce the electric current Fig. 3B shows a closed-circuit energy production system, wherein the wheel shown in Fig. 3A is implanted in the water ditch 14 in series, and these wheels are driven by the water pumped by the pump 17 a tank (16) to which it is turned. The energy production structure Fig 4 represents a schematic and simplified perspective of a turbine (18), Fig.4A shows this turbine adapted inside a sealed tube (19), operating in a closed circuit, the water is pumped by the pump 17 of a tank 16 to where it returns and the water is driven by the force of the pump 17, when passing in the pipe causes the turbines that through the polis 10 that have at the end of the shaft 2 and by interconnecting the belts 9 with the polis 8 fixed to the rotor of the generator 7, produces the electric current. Fig. 4B is also a schematic representation adapted to the interior of the tube and Fig. 4C is a cross-section of Fig. 4B showing the turbine in section.

Entroncamento, December 22, 2008

Claims (5)

11) 1.11.11.111ιΙΓιιΐιίιΐιΐ 111II1111 11) 1.11.11.111ιΙΓιιΐιίιΐιΐ 111II1111 1. The hydraulic power generation models or systems referred to are characterized by their application in the production of clean and renewable energies and are made up of large wheels or turbines of double wheels or medium-sized turbines (13), (15), and of smaller turbines (18), these wheels or turbines, fixed at the ends of the axles (2), the poles (10), these poles (10 ) interconnected by belts (9), the poles (8) fixed to the rotor of the alternating current generators (7) and these wheels or turbines are driven by the force of the running water, which when rotating, rotate the rotor of the generators (7), producing the electric current, these wheels or turbines, vary in size or model according to their application, the wheels or turbines being large (1) applied in rivers or large water troughs (6) current , the double medium-sized wheels (13 ) are applied to pumped water or medium flow tap water tanks (14), and also the small single wheels (15) are applied to pumped water troughs operating in closed circuit and small flow, the turbines (18), are applied inside sealed tubes, in a closed circuit, and are driven by the force of the water pump, which when rotated rotate the rotor of the generators, producing the electric current, these models or systems, can operate of level, that is without slope of the ground, since the force of the water, comes from the impulse of the force of the pump, and not of the slope of the ground, all the other models or systems of wheels or turbines, work with the force of the running water in troughs of unevenness, where the water force is greater, the greater the slope of the terrain, the number of wheels or turbines, and the generators to be applied in each model or system, will be as many as may be applied depending on the length of rivers and trenches, the more wheels or turbines, are applied in each model or system of energy production, the greater its profitability. The hydraulic power generation models or systems according to claim 1 are characterized in that wheels or turbines (1), of large dimensions, consist of a galvanized iron frame (3), and are composed of an axle 2 with a polis 10 at each end of the axle 2 and a frame in galvanized iron pipes 3, where the blades 4 are fixed, which when attached to the lugs 5) are placed in the rivers or water troughs (6) horizontally and are driven by the water stream, by rotating the wheel or turbine, which is driven by poles (10), the polis (8), the generator rotor ( 7, through the interconnection of the belts 9, producing the electric current, or further adapted to boats or ships 20, the lugs 5 and the wheels or turbines being adapted to the rear of the boats or ships 20. ), the turbines being driven by the force of the water, with the movement of the ships or ships, producing the electric current, can still the current generators being adapted to the interior of these wheels or turbines, the shaft acting as rotor (11), and around it the extractor (12). The hydraulic power generation models or systems according to the invention are characterized by double-sized medium-sized wheels or turbines (13), constituted by an axis (2), and by a frame in galvanized iron tube (3) where the blades (4) are fixed, these wheels or turbines being adapted to the medium flow water troughs (14), the blades (4) being driven by the displacement of the water, by rotating the wheel © k turbine , which will drive the poles (10), the axle (2), and the poles (8) of the rotor of the generators (7) through the interconnection of the belts (9), producing the electric current. The hydraulic power generation models or systems according to claim 1 are characterized by simple small wheels or turbines (15), constituted by an axis (2), and a frame in galvanized iron tube (3), where the blades (4) are fixed, and are applied in small flow water troughs (14), running in a closed circuit, wherein the water is pumped by the water pump (17), a tank ( 16, where it returns, and the water passing through the ditches 14 drives the wheels or turbines which, by means of the polis 10, fixed to the ends of the shafts 2, and by interconnection of the belts 9, , to the poles (8) of the rotor of the generators (7) produce the electric current. NpRM NpRM d d li. ΙΜΛΜΛ ". ' AllílLC) WiipnnnnniTTm- · Γ · 'ν · ν.νι> ι · ηιτηπππππι The models or systems for the production of hydroelectric energy according to the invention are characterized by smaller turbines (18), constituted by a galvanized iron shaft (2), having fixed at the end of the axis a polis ( 10, the blades 4 are also fixed to the axis 2, the turbines being fixed within the sealed pipes 19 and are driven by the force of displacement of the water through the water pump 17, , the water being pumped from a tank (16) to where it returns, and the rotating turbines actuating the poles (10), which are interconnected by the belts (9), the polis (8), the rotor of the generators (7) , producing the electric current. Entroncamento, December 22, 2008