WO2014182149A1 - Mechanical pump with continuous autonomous movement, driven by a defined quantity of water - Google Patents

Mechanical pump with continuous autonomous movement, driven by a defined quantity of water Download PDF

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Publication number
WO2014182149A1
WO2014182149A1 PCT/MX2014/000066 MX2014000066W WO2014182149A1 WO 2014182149 A1 WO2014182149 A1 WO 2014182149A1 MX 2014000066 W MX2014000066 W MX 2014000066W WO 2014182149 A1 WO2014182149 A1 WO 2014182149A1
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WO
WIPO (PCT)
Prior art keywords
ring
axis
water
band
force
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Application number
PCT/MX2014/000066
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Spanish (es)
French (fr)
Inventor
Gustavo GUTIÉRREZ CONTRERAS
Teresa de Jesús PÉREZ PÉREZ
Original Assignee
Gutiérrez Contreras Gustavo
Pérez Pérez Teresa De Jesús
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Application filed by Gutiérrez Contreras Gustavo, Pérez Pérez Teresa De Jesús filed Critical Gutiérrez Contreras Gustavo
Publication of WO2014182149A1 publication Critical patent/WO2014182149A1/en

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03BMACHINES OR ENGINES FOR LIQUIDS
    • F03B7/00Water wheels
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03BMACHINES OR ENGINES FOR LIQUIDS
    • F03B17/00Other machines or engines
    • F03B17/005Installations wherein the liquid circulates in a closed loop ; Alleged perpetua mobilia of this or similar kind
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/20Hydro energy

Definitions

  • the present invention belongs to the technical field of Mechanics. Particularly to the technical field of Mechanical Engineering, more particularly in the field of continuous movement mechanics without the use of fuel or electrical energy.
  • the development of the present invention is based on a mechanical system composed of driving wheels, rings, bands, axles, recovery tubes, tubs at different heights or levels.
  • the process begins when a high level tub moves water through a pipe towards a driving wheel composed of twelve containers that, when filling one of the containers with water, creates an accumulated weight and begins the movement.
  • a driving wheel composed of twelve containers that, when filling one of the containers with water, creates an accumulated weight and begins the movement.
  • the driving wheel is systematically connected to shafts, bands and rings until it reaches a height recovery tube, at the beginning of the movement the driving wheel also starts movement in all the rings, axes, bands and recuperator.
  • the driving wheel creates two cycles in the mechanism, the first cycle is that of the force, that is, when the weight of the water accumulated in the first container rotates the driving wheel a quarter of a turn, the force is obtained and it moves along shafts, rings and bands to a recovery tube, but not before adding speed thanks to the different diameters of the rings; when the force reaches the recovery tube it does so with speed, they create a suction and this causes it to recover more water than it uses to start the movement, and this water falls into the high level tub where the movement began.
  • the second cycle is the path that the water takes when the water accumulated in the wheel container moves a quarter of a turn and the force starts the cycle by axes, rings and bands, the water on the contrary falls to a tub of medium level of 40 cm high losing most of the height with which the movement began. It then moves to another low level tub where one end of the recuperator is sunk.
  • This recuperator is in constant movement and placed with a certain inclination, its interior is composed of a spiral in which a suction is created and manages to transport more water than the one used for the initial movement (in the container of the driving wheel) and creates us a surplus (profit); this surplus creates with each cycle an accumulation of water and this accumulation gives the possibility of using it in another source of force.
  • the accumulation of water occurs in the high level tub and through a pipe moves to another driving wheel No.
  • Figure 1 is a perspective view of the drive wheel No. 1 (13) used to start the operation of the pump. Its twelve containers are appreciated, the high level tub (14), the medium level tub (15) and the low level tub (16), the No. 1 ring (17), the No. 2 ring (18), the band No. 1 (19), axis No. 1 (20) and axis No. 2 (21), as well as the pipe (22) that moves the water from the high level tub to the containers of the driving wheel No. 1 (13) and this is where the whole movement begins.
  • Figure 2 is a perspective view of axis No. 2 (21) and axis No. 3 (27), ring No. 3 (25), ring No. 4 (26), band No. 2 ( 24) which is where the speed is increased.
  • Figure No. 3 is a perspective view of axis No. 3 (27) and axis No. 4 (31), ring No. 5 (28), ring No. 6 (30) and band No. 3 (29) is where the speed is multiplied.
  • Figure No. 4 is a perspective view of axis No. 4 (31), ring No. 7 (32), band No. 4 (33), the spiral recuperator (34) where water regains its height and multiply its volume.
  • Figure No. 5 is a perspective view of the band No. 4 (33) and the spiral recuperator (34), the low level tub (16) and the high level tub (14) where the two meet cycles: that of force and that of water, and sinks at one end of the recuperator.
  • Figure No. 6 is a perspective view of the drive wheel No. 1 (13), the drive wheel No. 2 (35), the recuperator (34) and the high level tub (14), the axis No. 1 (48) and the ring No. 1 (49) and the pipe that displaces the water of the high level tub (14), the container No. 1 (36) of the driving wheel No. 2 (35).
  • Figure No. 7 is a perspective view of drive wheel No. 2 (35), axle No. 1 (48), axle No.
  • Figure No. 8 is a perspective view of axis No. 2 (52) and axis No. 3 (58), ring No. 3 (55), ring No. 4 (57) and band No. 2 (56) where the speed is multiplied.
  • Figure No. 9 is a perspective view of axis No. 3 (58), axis No. 4 (62), ring No. 5 (59), ring No. 6 (61) and band No. 3 (60) where the speed is multiplied.
  • Figure No. 10 is a perspective view of axis No. 4 (62), axis No. 5 (66), ring No. 7 (63), ring No. 8 (65), band No. 4 (64) and the connection to a turbine (67) where the water is pumped.
  • the mechanical pump of continuous autonomous movement driven by a certain amount of water can create continuous cycles because it is possible to gather the force obtained from the weight more speed created by rings and bands and in this way to be able to rotate a recuperator at great speeds and with this create a suction, which gives us the possibility of obtaining more water than the one we use for the initial operation and in this way originate both continuous cycles of movement and accumulation of water as gain to use it in new processes in the next driving wheel .
  • the first step of this mechanical system is the displacement of water through a pipe (22) from a high level tub (14) to a container No. 1 (1) of the driving wheel No. 1 (13).
  • the driving wheel No. 1 (13) which is composed of twelve containers, when filling the container No. 1 of the driving wheel No. 1 (13), it absorbs the weight of the water and when turning it transforms that weight into force and moves it by means of the axis No. 1 (20) to the ring No. 1 which rotates one turn for each turn of the impeller wheel of 120 cm in diameter ( 17) by means of the band No. 1 (19) said force is transferred from the ring No. 1 (17) to the ring No. 2 (18) of 1
  • the force is transferred by means of the No. 2 axis (21) to the No. 3 ring 120 cm in diameter (25).
  • the force of the ring No. 3 (25) is transferred to the ring No. 4 (26) which rotates 64 turns for each turn of the driving wheel No. 1 (13) creating more speed
  • the No. 4 ring (26) transfers the force by means of the No. 3 axis (27) to the No. 5 ring (28) of 120 cm in diameter.
  • the force is transferred to the ring No. 6 of 15 cm in diameter (30) which Turn 512 turns for each turn of the No.
  • Said recuperator absorbs the force and accumulated speed and tends to rotate 946 turns for each turn of the driving wheel No.1 (13) .
  • This recuperator is a tube with a spiral inside and is supported by 152 wheels that make it rotate reducing the resistance and friction of such so that it manages to create a suction inside the recuperator (spiral) and a water recovery of up to 300% of that used in the driving wheel No.1 (13) is obtained to create the initial movement.
  • recuperator (34) is installed in an inclined manner where one end is submerged in the low level tub and the other end is above the high level tub which is 2 meters high (14).
  • the main objective of the recuperator is to recover 300% of water and also its height.
  • the recuperator also acts as a brake so that the drive wheel No. 1 (13) does not develop high speeds and maintain a low speed. Therefore, from the recovered one third part is used for a new cycle passing from the driving wheel No. 1 (13) to the recuperator (34) and the other two thirds can be used to create new sources of force.
  • the recovery tube recovers 120 liters formed in this way a continuous movement.
  • these can be used to create another source of force to move a driving wheel with its rings, bands and axes being connected to a turbine, to a generator, etc. instead of being connected to a recuperator as is the case with the number 1 drive wheel.
  • the recuperator, turning 1946 turns for each turn of the impeller wheel No. 1 (13), creates an interior movement where a spiral is found and sucks it by moving it to a high level tub (14) thus completing the cycle and initiating another while that the water performs continuous cycles from the high level tub (14), through the containers (1, 2, 3, 4, 5, 6, 7, 8, 9, 10,1 1, 12) of the driving wheel ( 13), the medium level tub (15), the low level tub (16), the recuperator (34) and again to the high level tub (14) where the cycle begins.
  • it also has an outlet to use the water that was obtained as a gain and through a pipe (53) it moves to the container No. 1 (36) of the driving wheel No. 2 (35), when filling the container 1 (36) spins a quarter more.
  • the container which rotates the drive wheel No. 2 (35) a quarter of a turn which is also composed of twelve containers (36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47).
  • the container No. 1 (36) of the driving wheel No. 2 (35) When filling the container No. 1 (36) of the driving wheel No. 2 (35), it absorbs the weight of the water, turns and transforms that weight into force and transfers it by means of the axis No. 1 (48) to the ring No. 1 (49), which rotates one turn for each turn of drive wheel No. 2 (35).
  • said force is moved from the ring No. 1 (49) to the ring No. 2 (51) which rotates 8 turns for each turn of the driving wheel No. 2 (35) creating speed.
  • the force is transferred by means of the No. 2 axis (52) to the No. 3 ring (55) by means of the No. 2 band (56) the force of the No. 3 ring is transferred (55) to ring No. 4 (57) which rotates 64 turns for each turn of drive wheel No. 2 (35) accumulating more speed.
  • the No. 4 ring (57) transfers the force by means of the axis No. 3 (58) to the ring No. 5 (59) by means of the band No. 3 (60) the force is transferred to the ring No. 6 ( 61) which rotates 512 turns for each turn of drive wheel No. 2 (35). This accumulates more speed to be used in the turbine (67)
  • the force obtained to spin the turbine or generator will be determined by the size of the drive wheel containers, the more storage capacity, the more force obtained. However, the speed will be the same in all cases as long as a scale is maintained.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Other Liquid Machine Or Engine Such As Wave Power Use (AREA)

Abstract

The invention relates to a mechanical system or machine consisting of driving wheels, rings, axles, belts, tanks and collectors, which uses the weight of the water to move the whole mechanism thereof and transform the weight into force, adding speed thereto as a result of the different diameters of the rings thereof, and when said force and speed are connected, the collector is rotated 1946 times per turn of driving wheel No. 1 (13), creating suction, producing an excess of water, at the same time as which continuous cycles of both force and water circulation are created. The excess of water produced by said cycles of driving wheel No. 1 is discharged towards driving wheel No. 2 which also consists of rings, axles, belts and a tank, which also uses the weight of the water to move the entire mechanism thereof and add force and speed in order to create continuous cycles of both force and water circulation, except that in this case it does not connect to a height-recovery tube but rather to a turbine used to pump water or to an electrical generator.

Description

DENOMINACIÓN O TÍTULO DE LA INVENCIÓN  NAME OR TITLE OF THE INVENTION
Bombeadora Mecánica de Movimiento Autónomo Continuo Impulsada por una Continuous Autonomous Mechanical Movement Pump driven by a
Cantidad Determinada de Agua  Determined Amount of Water
CAMPO TÉCNICO DE LA INVENCIÓN TECHNICAL FIELD OF THE INVENTION
La presente invención pertenece al campo técnico de la Mecánica. Particularmente al campo técnico de la Ingeniería Mecánica, más particularmente en el campo de la mecánica del movimiento continuo sin la utilización de combustible ni energía eléctrica. The present invention belongs to the technical field of Mechanics. Particularly to the technical field of Mechanical Engineering, more particularly in the field of continuous movement mechanics without the use of fuel or electrical energy.
ESTADO DE LA TÉCNICA STATE OF THE TECHNIQUE
En la actualidad las limitantes que presentan las maquinarias actuales es que requieren de gastos excesivos y continuos en la adquisición y compra de energía eléctrica y combustibles para lograr su funcionamiento continuo. Esto causa un encarecimiento en los procesos de producción y encarecimiento en los productos terminados. At present, the limitations presented by current machinery are that they require excessive and continuous expenses in the acquisition and purchase of electrical energy and fuels to achieve continuous operation. This causes an increase in the production processes and more expensive in the finished products.
A diferencia de esto, la Bombeadora Mecánica de Movimiento Autónomo Continuo impulsada por una determinada cantidad de agua, no requiere de estos gastos excesivos en la compra y adquisición de energía eléctrica y combustibles. Unlike this, the Continuous Autonomous Mechanical Movement Pump driven by a certain amount of water does not require these excessive expenses in the purchase and acquisition of electrical energy and fuels.
La Bombeadora Mecánica de Movimiento Autónomo continuo impulsada por una determinada cantidad de agua simplemente requiere de una determinada cantidad de agua que, aunada a su mecanismo inician el funcionamiento y lo mantienen en continuo movimiento creando fuerza y velocidad y una cierta cantidad de altura y acumulación de agua que nos da una ganancia en volumen de agua y de esta manera iniciar más fuentes de fuerza. ESPECIFICACIÓN DE LA INVENCIÓN The Continuous Autonomous Mechanical Movement Pump driven by a certain amount of water simply requires a certain amount of water that, together with its mechanism, starts the operation and keeps it in continuous motion creating strength and speed and a certain amount of height and accumulation of water that gives us a gain in water volume and in this way initiate more sources of force. SPECIFICATION OF THE INVENTION
El desarrollo de la presente invención está basado en un sistema mecánico compuesto de ruedas impulsadoras, arillos, bandas, ejes, tubos recuperadores, tinas a diferentes alturas o niveles. The development of the present invention is based on a mechanical system composed of driving wheels, rings, bands, axles, recovery tubes, tubs at different heights or levels.
El proceso inicia cuando una tina de nivel alto desplaza agua por una tubería hacia una rueda impulsadora compuesta de doce contenedores que al llenar con agua uno de los contenedores, crea un peso acumulado y comienza el movimiento. Como la rueda impulsadora está conectada sistemáticamente a ejes, bandas y arillos hasta llegar a un tubo recuperador de altura, al iniciar el movimiento la rueda impulsadora también inicia movimiento en todos los arillos, ejes, bandas y recuperador.  The process begins when a high level tub moves water through a pipe towards a driving wheel composed of twelve containers that, when filling one of the containers with water, creates an accumulated weight and begins the movement. As the driving wheel is systematically connected to shafts, bands and rings until it reaches a height recovery tube, at the beginning of the movement the driving wheel also starts movement in all the rings, axes, bands and recuperator.
Todos los arillos, ejes y bandas crean además velocidad que se le inyecta al tubo recuperador de altura. Al iniciar el movimiento, la rueda impulsadora crea dos ciclos en el mecanismo, el primer ciclo es el de la fuerza es decir, cuando el peso del agua acumulada en el primer contenedor hace girar un cuarto de vuelta a la rueda impulsadora se obtiene fuerza y se traslada por ejes, arillos y bandas hasta un tubo recuperador, no sin antes añadirle velocidad gracias a los diferentes diámetros de los arillos; cuando la fuerza llega al tubo recuperador lo hace ya con velocidad, crean una succión y esto hace que recupere más cantidad de agua que la que utiliza para iniciar el movimiento, y esta agua cae en la tina de nivel alto donde inició el movimiento. All the rings, shafts and bands also create speed that is injected into the height recovery tube. When starting the movement, the driving wheel creates two cycles in the mechanism, the first cycle is that of the force, that is, when the weight of the water accumulated in the first container rotates the driving wheel a quarter of a turn, the force is obtained and it moves along shafts, rings and bands to a recovery tube, but not before adding speed thanks to the different diameters of the rings; when the force reaches the recovery tube it does so with speed, they create a suction and this causes it to recover more water than it uses to start the movement, and this water falls into the high level tub where the movement began.
El segundo ciclo es el camino que toma el agua cuando el agua acumulada en el contenedor de la rueda mueve un cuarto de vuelta y la fuerza inicia el ciclo por ejes, arillos y bandas, el agua al contrario cae a una tina de nivel medio de 40 cm de altura perdiendo la mayoría de la altura con la que inició el movimiento. Después se desplaza a otra tina de nivel bajo donde está hundido un extremo del recuperador. The second cycle is the path that the water takes when the water accumulated in the wheel container moves a quarter of a turn and the force starts the cycle by axes, rings and bands, the water on the contrary falls to a tub of medium level of 40 cm high losing most of the height with which the movement began. It then moves to another low level tub where one end of the recuperator is sunk.
Este recuperador está en constante movimiento y colocado con cierta inclinación, su interior está compuesto por un espiral en la cual se crea una succión y logra transportar más agua que la utilizada para el movimiento inicial (en el contenedor de la rueda impulsadora) y nos crea un excedente (ganancia); este excedente crea con cada ciclo una acumulación de agua y esta acumulación da la posibilidad de utilizarla en otra fuente de fuerza. La acumulación de agua se da en la tina de nivel alto y por una tubería se desplaza a otra rueda impulsadora No. 2 (35) que al acumular agua en uno de sus contenedores mueve un cuarto de vuelta y esto inicia el movimiento de un ciclo de fuerza es decir, traslada por ejes, arillos y bandas la fuerza y le añade velocidad hasta conectarlo a una turbina o a un generador de energía eléctrica, lo hacen girar a grandes velocidades y a consecuencia de esto logran que funcionen y el agua que sale del contenedor cae a la tina de nivel medio es decir a 40 cm de altura y luego se desplaza a la tina de nivel bajo donde está hundido un extremo del tubo recuperador transportándola a la tina de nivel alto terminando su ciclo y poder iniciar otro. En esta rueda impulsadora No.2 (35) también se inician dos ciclos, el del agua que pasa por el contenedor tina media a tina baja y el recuperador la regresa a la tina de nivel alto. En cambio, en el ciclo de la fuerza obtenida del peso del agua se traslada por los ejes, bandas y arillos pero no cierra el circuito. Se descarga la fuerza y velocidad sobre la turbina, se utiliza creando un trabajo de bombeo, en el caso de que se conectara a un generador el trabajo sería de generación de energía eléctrica sin interrupción. This recuperator is in constant movement and placed with a certain inclination, its interior is composed of a spiral in which a suction is created and manages to transport more water than the one used for the initial movement (in the container of the driving wheel) and creates us a surplus (profit); this surplus creates with each cycle an accumulation of water and this accumulation gives the possibility of using it in another source of force. The accumulation of water occurs in the high level tub and through a pipe moves to another driving wheel No. 2 (35) that accumulates water in one of its containers moves a quarter turn and this starts the movement of a cycle of force that is to say, it moves the axes, rings and bands of force and adds speed until it is connected to a turbine or an electric power generator, they rotate it at great speeds and as a result they make it work and the water that leaves the container it falls to the medium level tub, that is to say 40 cm high and then moves to the low level tub where one end of the recovery tube is sunk, transporting it to the high level tub, ending its cycle and being able to start another. In this driving wheel No.2 (35) two cycles are also started, the one of the water that passes through the medium tub container to low tub and the recuperator returns it to the high level tub. On the other hand, in the cycle of the force obtained from the weight of the water, it moves through the axes, bands and rings but does not close the circuit. The force and speed on the turbine are discharged, it is used by creating a pumping job, in the event that it is connected to a generator the job would be to generate electricity without interruption.
De esta manera se demuestra que se ha creado un movimiento continuo sin la necesidad de combustible ni de energía eléctrica. Esto hace los procesos productivos más baratos y por lo tanto los productos terminados más económicos, siendo esto un beneficio para la población consumidora. Otra de los beneficios es que se puede hacer llegar agua de una manera más económica a los lugares donde escasea beneficiando a un gran número de personas que requiere el uso de agua. Por otro lado, se puede crear electricidad más económica y beneficiar a ciudades que son consumidoras. BREVE DESCRIPCIÓN DE LAS FIGURAS This demonstrates that a continuous movement has been created without the need for fuel or electricity. This makes the production processes cheaper and therefore the finished products cheaper, this being a benefit for the consuming population. Another benefit is that water can be delivered more economically to places where it is scarce, benefiting a large number of people who require the use of water. On the other hand, you can create cheaper electricity and benefit cities that are consumers. BRIEF DESCRIPTION OF THE FIGURES
La figura 1 es una vista en perspectiva de la rueda impulsadora No. 1 (13) que sirve para iniciar el funcionamiento de la bombeadora. Se aprecian sus doce contenedores, la tina nivel alto(14), la tina nivel medio(15) y la tina nivel bajo(16), el arillo No. 1 (17), el arillo No. 2 (18), la banda No. 1 (19), el eje No. 1 (20) y el eje No. 2(21 ), así como la tubería (22) que desplaza el agua de la tina nivel alto a los contenedores de la rueda impulsadora No. 1 (13) y es aquí donde inicia todo el movimiento. Figure 1 is a perspective view of the drive wheel No. 1 (13) used to start the operation of the pump. Its twelve containers are appreciated, the high level tub (14), the medium level tub (15) and the low level tub (16), the No. 1 ring (17), the No. 2 ring (18), the band No. 1 (19), axis No. 1 (20) and axis No. 2 (21), as well as the pipe (22) that moves the water from the high level tub to the containers of the driving wheel No. 1 (13) and this is where the whole movement begins.
La figura 2 es una vista en perspectiva del eje No. 2 (21 ) y el eje No. 3 (27), el arillo No. 3 (25), el arillo No. 4 (26), la banda No. 2 (24) que es donde se aumenta la velocidad. Figure 2 is a perspective view of axis No. 2 (21) and axis No. 3 (27), ring No. 3 (25), ring No. 4 (26), band No. 2 ( 24) which is where the speed is increased.
La figura No. 3 es una vista en perspectiva del eje No. 3 (27) y el eje No. 4 (31 ), el arillo No. 5 (28), el arillo N. 6 (30) y la banda No. 3 (29) es donde se multiplica la velocidad. Figure No. 3 is a perspective view of axis No. 3 (27) and axis No. 4 (31), ring No. 5 (28), ring No. 6 (30) and band No. 3 (29) is where the speed is multiplied.
La figura No. 4 es una vista en perspectiva del eje No. 4(31 ), el arillo No.7 (32), la banda No. 4(33), el recuperador con espiral (34) donde el agua recupera su altura y multiplica su volumen. Figure No. 4 is a perspective view of axis No. 4 (31), ring No. 7 (32), band No. 4 (33), the spiral recuperator (34) where water regains its height and multiply its volume.
La figura No. 5 es una vista en perspectiva de la banda No. 4 (33) y el recuperador con espiral (34), la tina de nivel bajo(16) y la tina de nivel alto (14) donde se juntan los dos ciclos: el de fuerza y el del agua, y se hunde en un extremo del recuperador. La figura No. 6 es una vista en perspectiva de la rueda impulsadora No. 1 (13), la rueda impulsadora No. 2 (35), el recuperador (34) y la tina nivel alto (14), el eje No. 1 (48) y el arillo No. 1 (49) y la tubería que desplaza el agua de la tina nivel alto (14), el contenedor No. 1 (36) de la rueda impulsadora No. 2 (35). La figura No. 7 es una vista en perspectiva de la rueda impulsadora No. 2 (35), el eje No. 1 (48), el eje No. 2(52), el arillo 1 (49) y el arillo 2 (51 ) así como la banda No. 1 (50) de la rueda impulsadora No. 2. (35) y los contenedores No. 1 (36), No. 2 (37), No. 3 (38), No.4 (39), No. 5 (40), No. 6 (41 ), No. 7 (42), No. 8 (43), No. 9 (44), No. 10 (45), No.1 1 (46) y No. 12 (47). La figura No. 8 es una vista en perspectiva del eje No. 2 (52) y el eje No. 3 (58), el arillo No. 3 (55), el arillo No. 4(57) y la banda No. 2 (56) donde se multiplica la velocidad. La figura No. 9 es una vista en perspectiva del eje No. 3 (58), el eje No. 4(62), el arillo No. 5 (59), el arillo No. 6 (61 ) y la banda No. 3 (60) donde se multiplica la velocidad. Figure No. 5 is a perspective view of the band No. 4 (33) and the spiral recuperator (34), the low level tub (16) and the high level tub (14) where the two meet cycles: that of force and that of water, and sinks at one end of the recuperator. Figure No. 6 is a perspective view of the drive wheel No. 1 (13), the drive wheel No. 2 (35), the recuperator (34) and the high level tub (14), the axis No. 1 (48) and the ring No. 1 (49) and the pipe that displaces the water of the high level tub (14), the container No. 1 (36) of the driving wheel No. 2 (35). Figure No. 7 is a perspective view of drive wheel No. 2 (35), axle No. 1 (48), axle No. 2 (52), ring 1 (49) and ring 2 ( 51) as well as the band No. 1 (50) of the drive wheel No. 2. (35) and the containers No. 1 (36), No. 2 (37), No. 3 (38), No.4 (39), No. 5 (40), No. 6 (41), No. 7 (42), No. 8 (43), No. 9 (44), No. 10 (45), No.1 1 (46) and No. 12 (47). Figure No. 8 is a perspective view of axis No. 2 (52) and axis No. 3 (58), ring No. 3 (55), ring No. 4 (57) and band No. 2 (56) where the speed is multiplied. Figure No. 9 is a perspective view of axis No. 3 (58), axis No. 4 (62), ring No. 5 (59), ring No. 6 (61) and band No. 3 (60) where the speed is multiplied.
La figura No. 10 es una vista en perspectiva del eje No. 4 (62), el eje No. 5 (66), el arillo No.7 (63), el arillo No. 8(65), la banda No.4 (64) y la conexión a una turbina (67) donde se bombea el agua. Figure No. 10 is a perspective view of axis No. 4 (62), axis No. 5 (66), ring No. 7 (63), ring No. 8 (65), band No. 4 (64) and the connection to a turbine (67) where the water is pumped.
MEJOR MÉTODO PARA LLEVAR A CABO LA INVENCIÓN BEST METHOD FOR CARRYING OUT THE INVENTION
Es un sistema mecánico impulsado por el peso neto del agua. A diferencia de otros mecanismos más simples que no pueden completar ciclos continuos por que obtienen menor cantidad de agua que la que ocupan para poder funcionar. It is a mechanical system driven by the net weight of water. Unlike other simpler mechanisms that cannot complete continuous cycles because they obtain less water than they use to function.
La bombeadora mecánica de movimiento autónomo continuo impulsada por una determinada cantidad de agua, sí puede crear ciclos continuos por que se logra juntar la fuerza obtenida del peso más velocidad creada por arillos y bandas y de esta manera poder hacer girar un recuperador a grandes velocidades y con esto crear una succión, la cual nos da la posibilidad de obtener más agua que la que utilizamos para el funcionamiento inicial y de esta manera originar tanto ciclos continuos de movimiento como acumulación de agua como ganancia para utilizarla en nuevos procesos en la rueda impulsadora siguiente. The mechanical pump of continuous autonomous movement driven by a certain amount of water, can create continuous cycles because it is possible to gather the force obtained from the weight more speed created by rings and bands and in this way to be able to rotate a recuperator at great speeds and with this create a suction, which gives us the possibility of obtaining more water than the one we use for the initial operation and in this way originate both continuous cycles of movement and accumulation of water as gain to use it in new processes in the next driving wheel .
El primer paso de este sistema mecánico es el desplazamiento del agua a través de una tubería (22) de una tina de un nivel alto (14) a un contenedor No. 1 (1 ) de la rueda impulsadora No. 1 (13). Al llenar dicho contenedor (1 ), hace girar un cuarto de vuelta a la rueda impulsadora No. 1 (13) la cual está compuesta de doce contenedores, al llenar el contenedor No. 1 de la rueda impulsadora No. 1 (13), ésta absorbe el peso del agua y al girar transforma ese peso en fuerza y lo traslada por medio del eje No. 1 (20) al arillo No. 1 el cual gira una vuelta por cada vuelta de la rueda impulsadora de 120 cm de diámetro (17) por medio de la banda No. 1 (19) se traslada dicha fuerza del arillo No. 1 (17) al arillo No. 2 (18) de 1 |5 cm de diámetro, el cual gira 8 vueltas por cada vuelta de la rueda impulsadora No.1 (13) creando velocidad. The first step of this mechanical system is the displacement of water through a pipe (22) from a high level tub (14) to a container No. 1 (1) of the driving wheel No. 1 (13). When filling said container (1), it rotates a quarter turn to the driving wheel No. 1 (13) which is composed of twelve containers, when filling the container No. 1 of the driving wheel No. 1 (13), it absorbs the weight of the water and when turning it transforms that weight into force and moves it by means of the axis No. 1 (20) to the ring No. 1 which rotates one turn for each turn of the impeller wheel of 120 cm in diameter ( 17) by means of the band No. 1 (19) said force is transferred from the ring No. 1 (17) to the ring No. 2 (18) of 1 | 5 cm in diameter, which rotates 8 turns for each turn of the driving wheel No.1 (13) creating speed.
Del arillo No. 2 (18) se traslada la fuerza por medio del eje No. 2 (21 ) al arillo No. 3 de 120 cm de diámetro (25). Por medio de la banda No. 2 (24), se traslada la fuerza del arillo No. 3 (25) al arillo No. 4 (26) el cual gira 64 vueltas por cada vuelta de la rueda impulsadora No. 1 (13) creando más velocidad. El arillo No. 4 (26) traslada la fuerza por medio del eje No. 3 (27) al arillo No. 5 (28) de 120 cm de diámetro. Por medio de la banda No. 3 (29) se traslada la fuerza al arillo No. 6 de 15 cm de diámetro (30) el cual gira 512 vueltas por cada vuelta de la rueda impulsadora No. 1 (13), esto produce más velocidad para poder crear una succión en el recuperador (34). Del arillo No. 6 (30) se traslada la fuerza y el aumento de velocidad por medio de un eje No. 4 (31 ) al arillo No. 7 de 60 cm de diámetro (32). Por medio de la banda No. 4 (33) se traslada la fuerza y velocidad acumulada del arillo No. 7(32 al espiral del tubo recuperador de 15 cm de diámetro por 6 metros de largo (34). Dicho recuperador absorbe la fuerza y velocidad acumulada y tiende a girar 946 vueltas por cada vuelta de la rueda impulsadora No.1 (13). Este recuperador es un tubo con una espiral en su interior y está sostenido por 152 ruedas que lo hacen girar reduciéndoles la resistencia y fricción de tal manera que logre crear una succión en el interior del recuperador (espiral) y se obtiene una recuperación de agua hasta de un 300% de la utilizada en la rueda impulsadora No.1 (13) para crear el movimiento inicial. From the No. 2 ring (18) the force is transferred by means of the No. 2 axis (21) to the No. 3 ring 120 cm in diameter (25). By means of the band No. 2 (24), the force of the ring No. 3 (25) is transferred to the ring No. 4 (26) which rotates 64 turns for each turn of the driving wheel No. 1 (13) creating more speed The No. 4 ring (26) transfers the force by means of the No. 3 axis (27) to the No. 5 ring (28) of 120 cm in diameter. By means of the band No. 3 (29) the force is transferred to the ring No. 6 of 15 cm in diameter (30) which Turn 512 turns for each turn of the No. 1 drive wheel (13), this produces more speed to create a suction in the recuperator (34). From the No. 6 ring (30), the force and the speed increase are transferred by means of a No. 4 axis (31) to the No. 7 ring 60 cm in diameter (32). By means of the band No. 4 (33), the accumulated force and speed of the ring No. 7 (32 is transferred to the spiral of the recovery tube 15 cm in diameter by 6 meters long (34). Said recuperator absorbs the force and accumulated speed and tends to rotate 946 turns for each turn of the driving wheel No.1 (13) .This recuperator is a tube with a spiral inside and is supported by 152 wheels that make it rotate reducing the resistance and friction of such so that it manages to create a suction inside the recuperator (spiral) and a water recovery of up to 300% of that used in the driving wheel No.1 (13) is obtained to create the initial movement.
Aunado a lo anterior, el recuperador (34) está instalado de forma inclinada donde un extremo está sumergido en la tina del nivel bajo y el otro extremo está sobre la tina de nivel alto el cual se encuentra a 2 metros de altura (14). In addition to the above, the recuperator (34) is installed in an inclined manner where one end is submerged in the low level tub and the other end is above the high level tub which is 2 meters high (14).
El objetivo principal del recuperador es recuperar el 300 % de agua y también su altura. Además, el recuperador también sirve de freno para que la rueda impulsadora No. 1 (13) no desarrolle altas velocidades y mantenga una velocidad baja. Por lo tanto, de lo recuperado una tercera parte se utiliza para un nuevo ciclo pasando de la rueda impulsadora No. 1 (13) hasta el recuperador (34) y las otras dos terceras partes se podrán utilizar para crear nuevas fuentes de fuerza.  The main objective of the recuperator is to recover 300% of water and also its height. In addition, the recuperator also acts as a brake so that the drive wheel No. 1 (13) does not develop high speeds and maintain a low speed. Therefore, from the recovered one third part is used for a new cycle passing from the driving wheel No. 1 (13) to the recuperator (34) and the other two thirds can be used to create new sources of force.
Por cada 40 litros utilizados para mover la rueda 1 , el tubo recuperador recupera 120 litros formado de esta manera un movimiento continuo. Asimismo, con la misma cantidad de agua que se recicla en cada vuelta y los 80 litros restantes, éstos pueden ser utilizados para crear otra fuente de fuerza para mover una rueda impulsadora con sus arillos, bandas y ejes quedando conectada a una turbina, a un generador, etc. en lugar de ser conectada a un recuperador como es el caso de la rueda impulsadora número 1 . For every 40 liters used to move the wheel 1, the recovery tube recovers 120 liters formed in this way a continuous movement. Likewise, with the same amount of water that is recycled at each turn and the remaining 80 liters, these can be used to create another source of force to move a driving wheel with its rings, bands and axes being connected to a turbine, to a generator, etc. instead of being connected to a recuperator as is the case with the number 1 drive wheel.
En la descripción anterior nos enfocamos simplemente en el camino de la fuerza que obtuvimos del peso del agua y se observa todo el recorrido hasta llegar al recuperador. Con esto podemos afirmar que el agua y su peso (transformado en fuerza) tomaron caminos diferentes es decir, el camino que recorrió la fuerza ya la describimos y el camino que sigue el agua es el siguiente: cuando el agua entra a la rueda impulsadora se separa por unos segundos de su peso, y al girar esta rueda termina cayendo en la tina hasta el nivel 2 (40 cm al ras del suelo), posteriormente cae a la tina del nivel número 3 (ras del suelo) donde se encuentra la parte inferior del recuperador. In the previous description we focus simply on the path of the force we obtained from the weight of the water and the whole route is observed until we reach the recuperator. With this we can affirm that the water and its weight (transformed into force) took different paths, that is, the path that the force traveled and we described it and the The path that the water follows is the following: when the water enters the driving wheel, it separates for a few seconds from its weight, and when turning this wheel it ends up falling into the tub until level 2 (40 cm at ground level), later it falls into the tub of level number 3 (ground level) where the bottom of the recuperator is located.
Cuando iniciamos el ciclo desplazando el agua de la tina nivel alto (14) por medio de una tubería al contenedor de la rueda impulsadora No. 1 (13) y al acumularse el agua en el contenedor crea más peso hasta que gira la rueda y crea un movimiento general en todo el sistema, al girar un cuarto de vuelta el agua cae a una tina de nivel medio (15), posteriormente se desplaza a una tina (16) de nivel bajo (a ras del piso), donde se encuentra sumergido el extremo inferior del recuperador.  When we start the cycle by displacing the water from the high level tub (14) by means of a pipe to the impeller wheel container No. 1 (13) and when the water accumulates in the container it creates more weight until the wheel rotates and creates a general movement in the whole system, when turning a quarter of a turn the water falls to a medium level tub (15), then it moves to a low level tub (16) (at ground level), where it is submerged the lower end of the recuperator.
El recuperador, al girar 1946 vueltas por cada vuelta de la rueda impulsadora No. 1 (13), crea un movimiento interior donde se encuentra una espiral y succiona trasladándola a una tina de nivel alto (14) completando así el ciclo e iniciando otro mientras que el agua realiza ciclos continuos desde la tina nivel alto (14), pasando por los contenedores (1 , 2, 3, 4, 5, 6, 7, 8, 9, 10,1 1 ,12) de la rueda impulsadora (13), la tina nivel medio (15), la tina nivel bajo(16), el recuperador (34) y de nuevo a la tina de nivel alto (14) donde inicia el ciclo. Por otro lado, también tiene una salida para utilizar el agua que se obtuvo como ganancia y por medio de una tubería (53) se desplaza al contenedor No. 1 (36) de la rueda impulsadora No. 2 (35), al llenar el contenedor 1 (36) hace girar un cuarto de vuelta mas.  The recuperator, turning 1946 turns for each turn of the impeller wheel No. 1 (13), creates an interior movement where a spiral is found and sucks it by moving it to a high level tub (14) thus completing the cycle and initiating another while that the water performs continuous cycles from the high level tub (14), through the containers (1, 2, 3, 4, 5, 6, 7, 8, 9, 10,1 1, 12) of the driving wheel ( 13), the medium level tub (15), the low level tub (16), the recuperator (34) and again to the high level tub (14) where the cycle begins. On the other hand, it also has an outlet to use the water that was obtained as a gain and through a pipe (53) it moves to the container No. 1 (36) of the driving wheel No. 2 (35), when filling the container 1 (36) spins a quarter more.
El contenedor el cual hace girar un cuarto de vuelta a la rueda impulsadora No. 2 (35) que está compuesta también por doce contenedores (36, 37, 38, 39, 40, 41 , 42, 43, 44, 45, 46, 47). Al llenar el contenedor No. 1 (36) de la rueda impulsadora No. 2 (35), ésta absorbe el peso del agua, gira y transforma ese peso en fuerza y lo traslada por medio del eje No. 1 (48) al arillo No. 1 (49), el cual gira una vuelta por cada vuelta de la rueda impulsadora No. 2 (35). Por medio de la banda No. 1 (50) se traslada dicha fuerza del arillo No. 1 (49) al arillo No. 2 (51 ) el cual gira 8 vueltas por cada vuelta de la rueda impulsadora No. 2 (35) creando velocidad. The container which rotates the drive wheel No. 2 (35) a quarter of a turn which is also composed of twelve containers (36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47). When filling the container No. 1 (36) of the driving wheel No. 2 (35), it absorbs the weight of the water, turns and transforms that weight into force and transfers it by means of the axis No. 1 (48) to the ring No. 1 (49), which rotates one turn for each turn of drive wheel No. 2 (35). By means of the band No. 1 (50) said force is moved from the ring No. 1 (49) to the ring No. 2 (51) which rotates 8 turns for each turn of the driving wheel No. 2 (35) creating speed.
Del arillo No. 2 (51 ) se traslada la fuerza por medio del eje No. 2 (52) al arillo No. 3 (55) por medio de la banda No. 2 (56) se traslada la fuerza del arillo No. 3 (55) al arillo No. 4 (57) el cual gira 64 vueltas por cada vuelta de la rueda impulsadora No. 2 (35) acumulando más velocidad. El arillo No. 4 (57) traslada la fuerza por medio del eje No. 3 (58) al arillo No. 5 (59) por medio de la banda No. 3 (60) se traslada la fuerza al arillo No. 6 (61 ) el cual gira 512 vueltas por cada vuelta de la rueda impulsadora No. 2 (35). Esto acumula mas velocidad para poder utilizarla en la turbina (67)  From the No. 2 ring (51) the force is transferred by means of the No. 2 axis (52) to the No. 3 ring (55) by means of the No. 2 band (56) the force of the No. 3 ring is transferred (55) to ring No. 4 (57) which rotates 64 turns for each turn of drive wheel No. 2 (35) accumulating more speed. The No. 4 ring (57) transfers the force by means of the axis No. 3 (58) to the ring No. 5 (59) by means of the band No. 3 (60) the force is transferred to the ring No. 6 ( 61) which rotates 512 turns for each turn of drive wheel No. 2 (35). This accumulates more speed to be used in the turbine (67)
Del arillo No. 6 (61 ), se traslada la fuerza y el aumento de velocidad por medio de un eje No. 4 (62) al arillo No. 7 (63). Por medio de la banda No, 4 (64) se traslada la fuerza y la velocidad acumulada del arillo No. 7 (63) al arillo No. 8 (65), el cual gira 4096 vueltas por cada vuelta de la rueda impulsadora No. 2 (35). El arillo No. 8 (65) traslada la fuerza por medio de un eje No. 5 (66) a una turbina (67) y ésta puede impulsar (bombear) agua a una cierta distancia. De esta manera también se puede conectar a un generador de energía eléctrica y hacerlo funcionar utilizando la velocidad y la fuerza constante para crear electricidad a partir solo del peso del agua. From the No. 6 ring (61), the force and the speed increase are transferred by means of an axis No. 4 (62) to the ring No. 7 (63). Through the band No, 4 (64) the force is transferred and the accumulated speed of ring No. 7 (63) to ring No. 8 (65), which rotates 4096 turns for each turn of drive wheel No. 2 (35). Ring No. 8 (65) moves the force by means of a shaft No. 5 (66) to a turbine (67) and it can propel (pump) water at a certain distance. This way you can also connect to an electric power generator and make it work using constant speed and force to create electricity from just the weight of water.
Nota: la fuerza obtenida para hacer girar la turbina o el generador será determinado por el tamaño de los contenedores de las ruedas impulsadoras, entre más capacidad de almacenamiento, más fuerza obtenida. Sin embargo, la velocidad será la misma en todos los casos siempre y cuando se mantenga una escala.  Note: the force obtained to spin the turbine or generator will be determined by the size of the drive wheel containers, the more storage capacity, the more force obtained. However, the speed will be the same in all cases as long as a scale is maintained.

Claims

REIVINDICACIONES Habiendo descrito suficientemente mi invención, considero como una novedad y por lo tanto reclamo como de mi exclusiva propiedad, lo contenido en las siguientes cláusulas: CLAIMS Having sufficiently described my invention, I consider as a novelty and therefore claim as my exclusive property, what is contained in the following clauses:
1 . Una máquina que se conforma de dos ruedas impulsadoras con doce contenedores cada una. La rueda impulsadora No. 1 conecta al eje No.1 y éste conecta al arillo No. 1 . El arillo No. 1 es abrazado por la banda No.1 , que a su vez abraza al arillo No. 2, y el arillo No. 2 está conectado al eje No. 2. El eje No. 2 está conectado al arillo No. 3. El arillo No. 3 es abrazado por la banda No. 2 que también abraza al arillo 4. El arillo 4 está conectado al eje No. 3. El arillo No. 3 es abrazado por la banda No. 2 que también abraza al arillo 4. El arillo No. 4 está conectado ai eje No. 3. El eje No. 3 está conectado al arillo No. 5. El arilloone . A machine that consists of two driving wheels with twelve containers each. Drive wheel No. 1 connects to axis No.1 and it connects to ring No. 1. The No. 1 ring is hugged by the No. 1 band, which in turn embraces the No. 2 ring, and the No. 2 ring is connected to the No. 2 axis. The No. 2 axis is connected to the No. ring. 3. Ring No. 3 is hugged by the band No. 2 which also hugs the ring 4. The ring 4 is connected to the axis No. 3. The ring No. 3 is hugged by the band No. 2 which also hugs the ring 4. Ring No. 4 is connected to axis No. 3. Shaft No. 3 is connected to ring No. 5. The ring
No. 5 está abrazado por la banda No. 3 que también abraza al arillo No. 6 y éste arillo No. 6 está conectado al eje No. 4. El eje No. 4 está conectado al arillo No. 7 que es abrazado por la banda No. 4. La banda No. 4 también abraza a un recuperador, el cual es un tubo de 6 metros de largo por 15 cm de diámetro con un espiral en su interior y un extremo está sumergido en una tina de nivel bajoNo. 5 is embraced by the band No. 3 which also embraces the ring No. 6 and this ring No. 6 is connected to the axis No. 4. The axis No. 4 is connected to the ring No. 7 which is embraced by the band No. 4. Band No. 4 also hugs a recuperator, which is a tube 6 meters long by 15 cm in diameter with a spiral inside and one end is submerged in a low level tub
(ras del piso) y el otro extremo está sobre la tina de nivel alto. (flush) and the other end is on the high level tub.
2. Se caracteriza por que utiliza el peso del agua para transformarla en fuerza y velocidad para poder impulsar turbinas o generadores sin la necesidad de energía eléctrica o combustibles. 2. It is characterized by the fact that it uses the weight of water to transform it into force and speed to be able to drive turbines or generators without the need for electrical energy or fuels.
3. Una rueda impulsadora No. 2 con doce contendores conectada a un eje No. 1 y éste eje está conectado a un arillo No. 1 abrazado por la banda No. 1 que también abraza al arillo No. 2. El arillo No. 2 está conectada al eje no. 2 y el eje No. 2 está conectado al arillo No. 3 y este es abrazado por la banda No. 2 que también abraza al arillo No. 4. El arillo No. 4 está conectado al eje No. 3, el eje No. 3 está conectado al arillo No. 5 que es abrazado por la banda No. 3 que también abraza al arillo No. 6. El arillo No. 6 está conectado al eje No. 4, el eje No. 4 está conectado al arillo No. 7. El arillo No. 7 es abrazado por la banda No. 4 que también abraza al arillo No. 8. El arillo No. 8 está conectado al eje No. 5, el eje No. 5 está conectado a una turbina o también puede estar conectado a un generador eléctrico. 3. A No. 2 drive wheel with twelve containers connected to a No. 1 axis and this axis is connected to a No. 1 ring embraced by the No. 1 band that also embraces No. 2 ring. It is connected to axis no. 2 and the axis No. 2 is connected to the ring No. 3 and this is embraced by the band No. 2 which also embraces the ring No. 4. The ring No. 4 is connected to the axis No. 3, the axis No. 3 is connected to the No. 5 ring which is hugged by the No. 3 band that also embraces the No. 6 ring. The No. 6 ring is connected to the No. 4 axis, the No. 4 axis is connected to the No. ring. 7. Ring No. 7 is embraced by the band No. 4 which also hugs the No. 8 ring. The No. 8 ring is connected to the No. 5 axis, the No. 5 axis is connected to a turbine or can also be connected to an electric generator.
4. Debajo de las ruedas impulsadoras se encuentran las tinas de nivel medio que captan las descargas de agua de los contenedores y transportan el agua a la tina de nivel bajo. 4. Under the driving wheels are the medium level tubs that capture the water discharges from the containers and transport the water to the low level tub.
5. En la tina de nivel alto cuenta con una tubería hacia la rueda impulsadora No. 1 que sirve para el llenado de los contenedores, la misma tina de nivel alto cuenta con otra tubería que va hacia la rueda impulsadora No. 2. En esta tubería se desplaza el agua excedente para el llenado de los contenedores de la rueda impulsadora No. 2. 5. In the high level tub it has a pipe towards the No. 1 drive wheel that serves to fill the containers, the same high level tub has another pipe that goes to the No. 2 drive wheel. The excess water is displaced to fill the containers of the drive wheel No. 2.
PCT/MX2014/000066 2013-05-08 2014-04-29 Mechanical pump with continuous autonomous movement, driven by a defined quantity of water WO2014182149A1 (en)

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DE102007048067A1 (en) * 2007-10-06 2009-04-09 Henningsen, Sigrid Driving mechanism for a shaft, e.g. for a water or steam turbine, drives a blade/paddle wheel in rotating motion by allowing a flowing substance to flow through and to generate electric power
WO2011006546A1 (en) * 2009-07-13 2011-01-20 Manuel Barroso Tavares Systems for producing clean and renewable types of energy
DE202010006367U1 (en) * 2010-05-04 2011-06-09 Lucky, David Evince, 14478 Electric water pressure power plant

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AU1655183A (en) * 1982-08-23 1984-03-01 Hogan, J.J.C. Liquid driven motor
DE102007048067A1 (en) * 2007-10-06 2009-04-09 Henningsen, Sigrid Driving mechanism for a shaft, e.g. for a water or steam turbine, drives a blade/paddle wheel in rotating motion by allowing a flowing substance to flow through and to generate electric power
DE202009000184U1 (en) * 2009-01-08 2009-03-12 Geiger, Wassili Modular Hydro Power Plant Device
WO2011006546A1 (en) * 2009-07-13 2011-01-20 Manuel Barroso Tavares Systems for producing clean and renewable types of energy
DE202010006367U1 (en) * 2010-05-04 2011-06-09 Lucky, David Evince, 14478 Electric water pressure power plant

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