WO2010053344A1 - Portable self-sufficient electricity plant - Google Patents

Portable self-sufficient electricity plant Download PDF

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Publication number
WO2010053344A1
WO2010053344A1 PCT/MX2009/000119 MX2009000119W WO2010053344A1 WO 2010053344 A1 WO2010053344 A1 WO 2010053344A1 MX 2009000119 W MX2009000119 W MX 2009000119W WO 2010053344 A1 WO2010053344 A1 WO 2010053344A1
Authority
WO
WIPO (PCT)
Prior art keywords
plant
electric power
portable self
battery
batteries
Prior art date
Application number
PCT/MX2009/000119
Other languages
Spanish (es)
French (fr)
Inventor
Sergio Martín DE LA TORRE ROSALES
Original Assignee
De La Torre Rosales Sergio Mar
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by De La Torre Rosales Sergio Mar filed Critical De La Torre Rosales Sergio Mar
Publication of WO2010053344A1 publication Critical patent/WO2010053344A1/en

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Classifications

    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K53/00Alleged dynamo-electric perpetua mobilia

Definitions

  • the invention consists of a self-sufficient plant for generating usable electric power for electricity supply in residential homes and for the operation of electrical appliances and lighting where there is no access to the public electricity grid.
  • wind is another source that is beginning to take greater advantage given the developments of new turbine or wind turbine technologies. Even today, the use of this energy requires large investments due to the cost of the turbines and the difficulties in locating and installing them.
  • Figure 1 is a front view of the plant where the arrangement of the following components is appreciated: the electricity generator (1); the electric motor (2); Ia band (3) for pulleys; The fixing base (4) of the generator and the motor; electrical wiring (5); The first battery (6); The second battery (7); Ia box containing an electromechanical change control and an internal voltage controller (8); and, the chassis of the plant (9).
  • Figure 2 represents the right side view of the plant where in addition to the components of Figure 1, the pulley of the electricity generator (10) and the DC / AC power inverter (11) can be seen.
  • Figure 3 is a left side view of the plant where you can see in the power inverter, the outlets (13); the power switch (14); and, the operation indicator light (15).
  • Figure 4 is a rear view of the plant.
  • Figure 5 is a top view of the plant
  • FIG. 6 is a perspective view of the chassis (9) of the plant and of the fixing base (4) of the motor and the generator.
  • Figure 7 represents an electrical diagram of the plant connections.
  • the present invention has as relevant characteristics, its self-sufficiency in not requiring external energy resources for its operation, does not produce polluting emissions and does not depend on natural phenomena or any other renewable and non-renewable resource .
  • the invention consists of an electric power plant consisting mainly of an electric motor (2) with a pulley (12) that drives a belt (3) for pulleys Ia which in turn drives another pulley (10) attached to a generator electricity (1) which, when operating, recharges a first battery (6) that can be 12 or 24 volts, which is connected to a DC / AC power inverter (11).
  • the inverter can be of a power of 2500 to 5000 Watts.
  • the system of the plant has a second battery (7) that receives charge from the electricity generator (1) and has output for delivery of the charge to the current inverter (11) and to the electric motor (2), likewise that the first battery (6), also receives charge from the electricity generator (1) and has output for delivery of the load to the current inverter (11) and to the electricity generator (1).
  • the electricity generator (1) recharges the first battery (6) in a first cycle, while the second battery (7) has a charge output to the current inverter (11) and to the electric motor (2) at the same time.
  • Both charging and alternate discharge of both batteries is regulated by an electromechanical change control (8) offering the same charging time to the first battery (6) as well as discharge to the second battery (7) and vice versa.
  • the chassis (9) where the plant is mounted serves as an electric landing for the entire system.
  • the excitation of the electricity generator (1) is regulated by an internal voltage controller (8) that allows the constant repetition of the alternating cycles of charging and discharging of the two batteries making them permanently charged.
  • the plant can be turned on and off thanks to a power switch (14), without the need for external power to operate.
  • the plant has a peak of maximum charge for batteries of 12 Volts of maximum 900 Amps per battery and 600 Amps in constant work, reaching up to 10 Amps in regular use maintained.
  • the plant can be manufactured in larger p smaller dimensions, using components of greater or lesser capacity, to meet basic lighting needs, power household electrical equipment, even to operate industrial electrical equipment.
  • the construction of the plant allows the use of materials and components that allow its use in extreme environmental conditions 24 hours a day. The more robust its construction, the plant will require maintenance during more spaced periods.
  • the plant does not require large spaces to be installed and is portable.
  • the chassis (9) or structure containing the plant can be preferably constructed of metal to serve as an electrical landing to the system. If non-metallic components are used that offer the same resistance as the metal, the system may include an anchor or earthing connected to it. From the structure of the chassis (9), covers (9) can be optionally fixed to this chassis that offer greater protection to the internal components of the plant.
  • the chassis (9) that contains the plant preferably requires a fixing base (4) of the electricity generator (1) and of the electric motor (2) so that they can be held in the upper part of the chassis (9), aligning the pulleys where the belt (3) that connects to the two components will be installed.
  • the fixing base (4) can be a metal angle section with perforations that allow the electricity generator (1) and the electric motor (2) to be fastened with screws. Said arrangement facilitates the ventilation of these two components and a better handling for the purpose of maintenance, repair and replacement of spare parts.
  • the two batteries are preferably installed, the electromechanical change control and the internal voltage control.
  • the power inverter (11) containing the receptacles (13), the ignition switch (14) and the ignition light (15) are preferably installed, so that facilitate your access to connect the devices that require the energy generated by the plant, to turn off and on the system and, the indicator light that comes on when the plant is put into operation, respectively.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Charge And Discharge Circuits For Batteries Or The Like (AREA)

Abstract

This invention relates to a portable plant for generating electricity self-sufficiently. The plant comprises an electricity generator, an electrical motor, two batteries, a DC/AC inverter, an electromechanical change control and an internal voltage controller.  When the plant is in operation, the electricity generator recharges the first battery in a first cycle, while a second battery is discharging to a current inverter and to the electrical motor at the same time. The alternating discharging and charging of both batteries is regulated by an electromechanical change control providing the same charging time for the first battery as discharging time for the second battery and vice versa. The frame on which the plant is installed is used as the electrical ground for the entire system.

Description

PLANTA PORTÁTIL DE ENERGÍA ELÉCTRICA AUTOSUFICIENTE PORTABLE PLANT OF SELF-SUFFICIENT ELECTRICAL ENERGY
APLICACIÓN DE LA INVENCIÓNAPPLICATION OF THE INVENTION
La invención consiste en una planta autosuficiente para generación de energía eléctrica utilizable para suministro eléctrico en casas habitación y para el funcionamiento de aparatos eléctricos e iluminación donde no se cuente con acceso a Ia red eléctrica pública.The invention consists of a self-sufficient plant for generating usable electric power for electricity supply in residential homes and for the operation of electrical appliances and lighting where there is no access to the public electricity grid.
ANTECEDENTES DE LA INVENCIÓNBACKGROUND OF THE INVENTION
Desde siempre, el desarrollo de Ia actividad humana se halla directamente ligada al uso de Ia energía en sus distintas formas. Desde el primitivo uso del fuego en Ia antigüedad, hasta nuestros días, Ia energía ha sido factor de bienestar y elemento indispensable en Ia transformación de Ia naturaleza.The development of human activity has always been directly linked to the use of energy in its different forms. From the primitive use of fire in ancient times, until today, energy has been a factor of well-being and an indispensable element in the transformation of nature.
Un problema permanente que ha tenido Ia humanidad para generar energía utilizable, es Ia escasez y el costo de obtención de energéticos así como su proceso de transformación. Este problema se recrudece con Ia disminución de recursos energéticos tradicionales como el gas natural y el petróleo, por Io que se vuelve indispensable el desarrollo de energías alternativas que vengan a solucionar el problema de costos relacionados con Ia producción de energía y disminuir Ia afectación ambiental derivada de dicha producción.A permanent problem that humanity has had to generate usable energy, is the shortage and the cost of obtaining energy as well as its transformation process. This problem is exacerbated by the decrease in traditional energy resources such as natural gas and oil, so it becomes essential to develop alternative energies that come to solve the problem of costs related to energy production and reduce the environmental impact derived of said production.
Una de las fuentes aprovechables y aparentemente inagotables de energía es el sol. Sin embargo, hasta ahora las tecnologías de aprovechamiento de Ia energía solar requieren del uso de celdas para absorber Ia energía que conforme se requiera una mayor cantidad de energía, las celdas deben ser de mayor tamaño y conectarse en mayor número, requiriendo de grandes espacios y gran inversión en celdas o paneles solares. Otra limitación que presenta este tipo de tecnologías es Ia disponibilidad de luz solar, subsanándose este inconveniente con sistemas de almacenamiento de Ia energía para su uso posterior.One of the usable and seemingly inexhaustible sources of energy is the sun. However, until now the technologies for harnessing solar energy require the use of cells to absorb the energy that, as required, a greater amount of energy, the cells must be larger and connected in greater numbers, requiring large spaces and large investment in solar cells or panels. Another limitation presented by this type of technologies is the availability of sunlight, this problem being remedied with energy storage systems for later use.
Continuando con otras fuentes de energía, Ia eólica es otra fuente que se empieza a aprovechar en mayor grado dados los desarrollos de nuevas tecnologías de turbinas o aerogeneradores. Aun en Ia actualidad el aprovechamiento de esta energía requiere de grandes inversiones por el costo de las turbinas y las dificultades para ubicarlas e instalarlas.Continuing with other sources of energy, wind is another source that is beginning to take greater advantage given the developments of new turbine or wind turbine technologies. Even today, the use of this energy requires large investments due to the cost of the turbines and the difficulties in locating and installing them.
BREVE DESCRIPCIÓN DE LOS DIBUJOSBRIEF DESCRIPTION OF THE DRAWINGS
La Figura 1 es una vista frontal de Ia planta donde se aprecia Ia disposición de los siguientes componentes: el generador de electricidad (1); el motor eléctrico (2); Ia banda (3) para poleas; Ia base de fijación (4) del generador y el motor; el cableado eléctrico (5); Ia primera batería (6); Ia segunda batería (7); Ia caja que contiene un control de cambios electromecánico y un controlador interno de voltaje(8); y, el chasis de Ia planta (9).Figure 1 is a front view of the plant where the arrangement of the following components is appreciated: the electricity generator (1); the electric motor (2); Ia band (3) for pulleys; The fixing base (4) of the generator and the motor; electrical wiring (5); The first battery (6); The second battery (7); Ia box containing an electromechanical change control and an internal voltage controller (8); and, the chassis of the plant (9).
La Figura 2 representa Ia vista lateral derecha de Ia planta donde se aprecia además de los componentes de Ia Figura 1, Ia polea del generador de electricidad (10) y el inversor de corriente DC/AC (11).Figure 2 represents the right side view of the plant where in addition to the components of Figure 1, the pulley of the electricity generator (10) and the DC / AC power inverter (11) can be seen.
La Figura 3 es una vista lateral izquierda de Ia planta donde se pueden apreciar en el inversor de corriente, los tomacorrientes (13); el interruptor de encendido (14); y, Ia luz indicadora de funcionamiento (15). La Figura 4 es una vista posterior de Ia planta.Figure 3 is a left side view of the plant where you can see in the power inverter, the outlets (13); the power switch (14); and, the operation indicator light (15). Figure 4 is a rear view of the plant.
La Figura 5 es una vista superior de Ia plantaFigure 5 is a top view of the plant
La Figura 6 es una vista en perspectiva del chasis (9) de Ia planta y de Ia base de fijación (4) del motor y del generador.Figure 6 is a perspective view of the chassis (9) of the plant and of the fixing base (4) of the motor and the generator.
La Figura 7 representa un diagrama eléctrico de las conexiones de Ia planta.Figure 7 represents an electrical diagram of the plant connections.
DESCRIPCIÓN DE LA INVENCIÓNDESCRIPTION OF THE INVENTION
Como preámbulo de Io que a continuación se describe, Ia presente invención tiene como características relevantes, su autosuficiencia al no requerir de recursos energéticos externos para su funcionamiento, no produce emisiones contaminantes y no depende de fenómenos naturales o de cualquier otro recurso renovable y no renovable.As a preamble of what is described below, the present invention has as relevant characteristics, its self-sufficiency in not requiring external energy resources for its operation, does not produce polluting emissions and does not depend on natural phenomena or any other renewable and non-renewable resource .
La invención consiste en una planta de energía eléctrica que consta principalmente de un motor eléctrico (2) con una polea (12) que acciona una banda (3) para poleas Ia cual a su vez acciona otra polea (10) unida a un generador de electricidad (1) el cual al funcionar recarga una primera batería (6) que puede ser de 12 ó 24 voltios, Ia cual se conecta a un inversor de corriente DC/AC (11). El inversor puede ser de una potencia de 2500 a 5000 Watts. El sistema de Ia planta cuenta con una segunda batería (7) que recibe carga del generador de electricidad (1) y tiene salida para entrega de Ia carga hacia el inversor de corriente (11) y hacia el motor eléctrico (2), al igual que Ia primera batería (6), también recibe carga del generador de electricidad (1) y tiene salida para entrega de Ia carga hacia el inversor de corriente (11) y hacia el generador de electricidad (1).The invention consists of an electric power plant consisting mainly of an electric motor (2) with a pulley (12) that drives a belt (3) for pulleys Ia which in turn drives another pulley (10) attached to a generator electricity (1) which, when operating, recharges a first battery (6) that can be 12 or 24 volts, which is connected to a DC / AC power inverter (11). The inverter can be of a power of 2500 to 5000 Watts. The system of the plant has a second battery (7) that receives charge from the electricity generator (1) and has output for delivery of the charge to the current inverter (11) and to the electric motor (2), likewise that the first battery (6), also receives charge from the electricity generator (1) and has output for delivery of the load to the current inverter (11) and to the electricity generator (1).
Cuando Ia planta está en funcionamiento, el generador de electricidad (1) recarga en un primer ciclo a Ia primera batería (6), mientras que Ia segunda batería (7) tiene salida de carga hacia el inversor de corriente (11) y hacia el motor eléctrico (2) al mismo tiempo. Tanto carga como descarga alternada de ambas baterías es regulada por un control de cambios electromecánico (8) ofreciendo el mismo tiempo de carga a Ia primera batería (6) como de descarga a Ia segunda batería (7) y viceversa.When the plant is in operation, the electricity generator (1) recharges the first battery (6) in a first cycle, while the second battery (7) has a charge output to the current inverter (11) and to the electric motor (2) at the same time. Both charging and alternate discharge of both batteries is regulated by an electromechanical change control (8) offering the same charging time to the first battery (6) as well as discharge to the second battery (7) and vice versa.
El chasis (9) donde va montada Ia planta, sirve de aterrizaje eléctrico para todo el sistema.The chassis (9) where the plant is mounted, serves as an electric landing for the entire system.
La excitación del generador de electricidad (1) es regulada por un controlador interno de voltaje (8) que permite Ia repetición constante de los ciclos alternados de carga y descarga de las dos baterías logrando que cuenten con carga de manera permanente.The excitation of the electricity generator (1) is regulated by an internal voltage controller (8) that allows the constant repetition of the alternating cycles of charging and discharging of the two batteries making them permanently charged.
La planta se puede encender y apagar gracias a un interruptor de encendido (14), sin necesidad de energía externa para su funcionamiento.The plant can be turned on and off thanks to a power switch (14), without the need for external power to operate.
La planta presenta un pico de carga máximo para baterías de 12 Voltios de máximo 900 Amperios por batería y de 600 Amperios en trabajo constante, llegando hasta los 10 Amperios en uso regular mantenido.The plant has a peak of maximum charge for batteries of 12 Volts of maximum 900 Amps per battery and 600 Amps in constant work, reaching up to 10 Amps in regular use maintained.
De acuerdo a las necesidades de abastecimiento, Ia planta se puede fabricar en mayores p menores dimensiones, utilizando componentes de mayor o menor capacidad, para satisfacer necesidades básicas de iluminación, alimentación equipos eléctricos de uso doméstico, hasta para hacer funcionar equipos eléctricos industriales. La construcción de Ia planta permite usar materiales y componentes que permitan su uso en condiciones ambientales extremosas durante las 24 horas del día. Entre más robusta su construcción, Ia planta requerirá mantenimiento durante periodos más espaciados.According to the supply needs, the plant can be manufactured in larger p smaller dimensions, using components of greater or lesser capacity, to meet basic lighting needs, power household electrical equipment, even to operate industrial electrical equipment. The construction of the plant allows the use of materials and components that allow its use in extreme environmental conditions 24 hours a day. The more robust its construction, the plant will require maintenance during more spaced periods.
Debido a las características de su construcción y los componentes utilizados, Ia planta no requiere de grandes espacios para instalarse y es portátil.Due to the characteristics of its construction and the components used, the plant does not require large spaces to be installed and is portable.
El chasis (9) o estructura que contiene Ia planta puede ser construido preferentemente de metal para que sirva de aterrizaje eléctrico al sistema. En caso de utilizarse componentes no metálicos que ofrezcan Ia misma resistencia que el metal, el sistema puede incluir un ancla o salida a tierra conectada a éste. A partir de Ia estructura del chasis (9), se pueden fijar opcionalmente a este chasis (9) tapaderas que Ie ofrezcan mayor protección a los componentes internos de Ia planta.The chassis (9) or structure containing the plant can be preferably constructed of metal to serve as an electrical landing to the system. If non-metallic components are used that offer the same resistance as the metal, the system may include an anchor or earthing connected to it. From the structure of the chassis (9), covers (9) can be optionally fixed to this chassis that offer greater protection to the internal components of the plant.
El chasis (9) que contiene Ia planta requiere preferentemente de una base de fijación (4) del generador de electricidad (1) y del motor eléctrico (2) de manera que puedan sujetarse en Ia parte superior del chasis (9), alineando las poleas donde se instalará Ia banda (3) que conecta a los dos componentes. La base de fijación (4) puede ser un tramo de ángulo metálico con perforaciones que permitan sujetar con tornillos el generador de electricidad (1) y el motor eléctrico (2). Dicha disposición facilita Ia ventilación de estos dos componentes y una mejor manipulación para efectos de mantenimiento, reparación y sustitución de refacciones.The chassis (9) that contains the plant preferably requires a fixing base (4) of the electricity generator (1) and of the electric motor (2) so that they can be held in the upper part of the chassis (9), aligning the pulleys where the belt (3) that connects to the two components will be installed. The fixing base (4) can be a metal angle section with perforations that allow the electricity generator (1) and the electric motor (2) to be fastened with screws. Said arrangement facilitates the ventilation of these two components and a better handling for the purpose of maintenance, repair and replacement of spare parts.
Dentro de Ia estructura principal del chasis (3) preferentemente se instalan las dos baterías, el control de cambios electromecánico y el control interno de voltaje. A un costado por Ia parte exterior del chasis (9) se instala preferentemente el inversor de corriente (11) que contiene los tomacorrientes (13), el interruptor de encendido (14) y Ia luz de encendido (15), de manera que se facilite su acceso para conectar los aparatos que requieren Ia energía generada por Ia planta, para el apagado y encendido del sistema y, Ia luz indicadora que se enciende cuando se pone a funcionar Ia planta, respectivamente. Within the main structure of the chassis (3) the two batteries are preferably installed, the electromechanical change control and the internal voltage control. On one side of the outer part of the chassis (9), the power inverter (11) containing the receptacles (13), the ignition switch (14) and the ignition light (15) are preferably installed, so that facilitate your access to connect the devices that require the energy generated by the plant, to turn off and on the system and, the indicator light that comes on when the plant is put into operation, respectively.

Claims

REIVINDICACIONESEstablecido todo Io anterior, reclamo como de mi exclusiva propiedad Io que señalo en las siguientes cláusulas: CLAIMS Established all of the above, I claim as my exclusive property as indicated in the following clauses:
1. Planta portátil de energía eléctrica autosuficiente; caracterizada porque no requiere de recursos energéticos externos para su funcionamiento.1. Portable self-sufficient electric power plant; characterized in that it does not require external energy resources for its operation.
2. Planta portátil de energía eléctrica autosuficiente, tal como se reivindicó en Ia cláusula primera, caracterizada porque se compone de los siguientes elementos: a. Un generador; b. Un motor eléctrico; c. Una primera y una segunda batería; d. Una banda para poleas; e. Un Inversor de corriente DC/AC; f. Un control interno de voltaje; g. Un control de cambios electromecánico; h. Una luz de encendido y un interruptor de encendido; i. Cableado eléctrico de conexión; j. Una base de fijación para el motor y el generador de electricidad; y k. Un chasis o estructura que contiene Ia planta.2. Portable self-sufficient electric power plant, as claimed in the first clause, characterized in that it is composed of the following elements: a. A generator; b. An electric motor; C. A first and a second battery; d. A belt for pulleys; and. A DC / AC power inverter; F. An internal voltage control; g. An electromechanical change control; h. A power light and a power switch; i. Electrical wiring connection; j. A fixing base for the motor and the electricity generator; and k. A chassis or structure that contains the plant.
3. Planta portátil de energía eléctrica autosuficiente, tal como se reivindicó en Ia cláusula primera, caracterizada por que; Ia carga y descarga alternada de las dos baterías permite que Ia planta produzca energía eléctrica de manera autosuficiente. 3. Portable self-sufficient electric power plant, as claimed in the first clause, characterized in that; The alternate charging and discharge of the two batteries allows the plant to produce electric power in a self-sufficient manner.
4. Planta portátil de energía eléctrica autosuficiente, tal como se reivindicó en Ia cláusula anterior, caracterizada por que los ciclos alternados de carga y descarga de las dos baterías es regulado por un control de cambios electromecánico.4. Portable self-sufficient electric power plant, as claimed in the previous clause, characterized in that the alternating cycles of charge and discharge of the two batteries is regulated by an electromechanical change control.
5. Planta portátil de energía eléctrica autosuficiente, tal como se reivindicó en Ia cláusula primera, caracterizada por que Ia excitación del generador de electricidad es regulada por un controlador interno de voltaje que permite Ia repetición constante de los ciclos de carga y descarga entre las dos baterías permitiendo que cuenten con carga eléctrica de manera permanente. 5. Portable self-sufficient electric power plant, as claimed in the first clause, characterized in that the excitation of the electricity generator is regulated by an internal voltage controller that allows the constant repetition of the charge and discharge cycles between the two batteries allowing permanent electric charge.
PCT/MX2009/000119 2008-11-04 2009-11-04 Portable self-sufficient electricity plant WO2010053344A1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
MX2008014124A MX2008014124A (en) 2008-11-04 2008-11-04 Portable self-sufficient electricity plant.
MXMX/A/2008/014124 2008-11-04

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WO2010053344A1 true WO2010053344A1 (en) 2010-05-14

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2020005051A1 (en) * 2018-06-25 2020-01-02 Espinoza Rendon Carlos Recharging system for a current generator

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB2366455A (en) * 2000-09-01 2002-03-06 David Brown Motor/Generator combination
US20060087122A1 (en) * 2004-10-25 2006-04-27 Kent Saunders Sheffield Electric surplus power generator
US20060290138A1 (en) * 2005-06-27 2006-12-28 Kuo Che Y Power generator
CN201018396Y (en) * 2007-03-06 2008-02-06 蔡坤龙 Self-feeding type charging, power generation system

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB2366455A (en) * 2000-09-01 2002-03-06 David Brown Motor/Generator combination
US20060087122A1 (en) * 2004-10-25 2006-04-27 Kent Saunders Sheffield Electric surplus power generator
US20060290138A1 (en) * 2005-06-27 2006-12-28 Kuo Che Y Power generator
CN201018396Y (en) * 2007-03-06 2008-02-06 蔡坤龙 Self-feeding type charging, power generation system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2020005051A1 (en) * 2018-06-25 2020-01-02 Espinoza Rendon Carlos Recharging system for a current generator

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