WO2018020059A2 - Magnetic reluctance generator by j.f.s. - Google Patents

Magnetic reluctance generator by j.f.s. Download PDF

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Publication number
WO2018020059A2
WO2018020059A2 PCT/ES2017/000047 ES2017000047W WO2018020059A2 WO 2018020059 A2 WO2018020059 A2 WO 2018020059A2 ES 2017000047 W ES2017000047 W ES 2017000047W WO 2018020059 A2 WO2018020059 A2 WO 2018020059A2
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WO
WIPO (PCT)
Prior art keywords
magnetic
disk
reluctance generator
generator according
magnetic field
Prior art date
Application number
PCT/ES2017/000047
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Spanish (es)
French (fr)
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WO2018020059A3 (en
Inventor
Antonio Fco. ALONSO GARCIA
José Faustino SABATER PEREZ
Guy CAZELLE
Original Assignee
Alonso Garcia Antonio Fco
Sabater Perez José Faustino
Cazelle Guy
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 Alonso Garcia Antonio Fco, Sabater Perez José Faustino, Cazelle Guy filed Critical Alonso Garcia Antonio Fco
Publication of WO2018020059A2 publication Critical patent/WO2018020059A2/en
Publication of WO2018020059A3 publication Critical patent/WO2018020059A3/en

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Classifications

    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K21/00Synchronous motors having permanent magnets; Synchronous generators having permanent magnets
    • H02K21/38Synchronous motors having permanent magnets; Synchronous generators having permanent magnets with rotating flux distributors, and armatures and magnets both stationary

Definitions

  • the present invention relates to a Magnetic Reluctance Generator, the Electric Power Generator (1) composed of six permanent magnets (3) arranged one after the other at a fixed distance; a separating disk (4) of the magnetic field acting between both magnets; six coils (8) wound on the extension of the permanent magnet core (8.1) and a disk impeller with any element that forces the system to rotate.
  • the distance between each permanent magnet with the separating disk is just two millimeters.
  • This invention consists of a new Magnetic Reluctance Generator composed of six permanent magnets arranged one after the other at a fixed distance with their equal poles facing each other; a rotating disk separating the magnetic field that acts between both magnets; a coil wound on the extension of the core of one of the permanent magnets and an impeller of the rotating disk.
  • the field separator is composed of an iron disk that is ferromagnetic material. In its periphery finished in blade that allow to interact directly the poles of the permanent magnets.
  • the distance between each permanent magnet with the separating disk is just two millimeters.
  • the generator works as follows: when one of the windows of the disk passes between the two permanent magnets, the induced voltage on the coil terminals is zero. When the solid part of the separating disk passes between them, the magnetic field varies producing a variation of the magnetic field intensity that induces an electromotive force on the coil terminals. This means that as the disk rotates, the resulting magnetic field varies at the same speed of rotation as the disk generating an alternating voltage between the coil terminals, which is directly proportional to the variation of the magnetic flux and inversely proportional to the span. of elapsed time.
  • the Magnetic Reluctance Generator can be manufactured with twelve coils and twelve magnets, that is, six on one side and six on the other, although depending on the diameter of the disk the quantities of coils and magnets can increase or decrease. Each coil can individually feed a load or they can all be connected in parallel. Also on the same axis of rotation several generators can be connected.
  • the magnetic flux will also be variable.
  • the flow varies between the maximum value (for the minimum reluctance position) and a minimum value (for the maximum reluctance position).
  • This flux variation induces an electromotive force in the coil.
  • the positive derivatives of magnetic energy with respect to the angle are equal to the negative derivatives and the resulting mechanical torque is zero (except friction).
  • the proper offset of the basic components may also allow the mechanical torque to be canceled in all positions.
  • Figure 1 is an elevational view of the generator (1) in which its main components are observed: benches (2), magnets (3), with their NORTH-NORTH poles facing each other, the separator disk (4), blades separator disk (4.1), disk support bracket (4.2), coil (6), coil support, (6.1), bench support screws (7), enclosure housing (8).
  • Figure 2 is a view of the generator (1), in which the bench is observed
  • Figure 3 is a view of the bench or stator (2), with the holes of the magnets
  • Figure 4 is a view of the cylinder or casing (8), axis of rotation (5).
  • Complete generator in interconnected standard (1), bench (2), magnets (3), separating disc (4), separating disc blades (4.1), rotation axis (5).
  • the variation of magnetic flux in the unit of time causes the EMF in the terminals of the coil.
  • this generator (1) of magnetic reluctance, it is based on permanent magnets (3) of circular section arranged in a bed (2) as can be seen in Figures 1 and 2, with their NORTH-NORTH poles facing each other.
  • One of these magnets is in contact with the coil (6) by means of the coil holder (6.1).
  • an F.E. M. electrotive force
  • an F.E. M. electrotive force due to the variation of the permanent magnet field strength (3) that is in contact with said coil (8) when the separator disk (4) rotates on its axis of rotation (5) driven by Any element that forces the system to rotate.
  • the separating disc (4) of ferromagnetic material has on its periphery a series of blades that cause a variation of the magnetic reluctance in the space between both magnets in a range between a maximum when the window passes and a minimum when the part passes solid disk.
  • the JFS generator basically consists of a stator and a rotor.
  • the stator is responsible for housing the magnets and coils and the rotor in this type of generator is fundamentally coupled an iron metal disk with blades arranged in exact divisions.
  • Figure 2 shows the following illustration.
  • the stator This block is where the permanent magnet cores and their respective coils are joined and arranged.
  • This element is at rest and is constructed of a material with non-magnetic properties so as not to affect the inductive behavior of the coils.
  • the prototype is made of polystyrene with the relevant slots for installing the coils.
  • a cylinder of suitable diameter can accommodate the number of generating units needed. Which are interconnected according to the application to obtain the output terminals. In this way a robust and tight generator is obtained to be used outdoors. As you can see in figure 4.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Permanent Magnet Type Synchronous Machine (AREA)

Abstract

The present invention relates to a magnetic reluctance generator, an electrical energy generator (1) composed of six permanent magnets (3) arranged in a row at a fixed distance from each other; a magnetic field separating disk (4) active between two magnets; six coils (6) wound about the extension of the core of the permanent magnets (6, 1) and a disk driver comprising any element that forces the system to rotate. The distance between each permanent magnet and the separator disk measures only two millimetres.

Description

TÍTULO  TITLE
Generador de Reluctancia Magnética J.F.S J.F.S Magnetic Reluctance Generator
SECTOR TÉCNICO TECHNICAL SECTOR
La presente invención se refiere a un Generador de Reluctancia Magnética, el Generador (1 ) de energía eléctrica compuesto por seis imanes permanentes (3) dispuestos uno a continuación del otro a una distancia fija; un disco separador (4) del campo magnético que actúa entre ambos imanes; seis bobinas (8) arrolladas sobre la prolongación del núcleo de los imanes permanentes (8,1 ) y un impulsor del disco con cualquier elemento que obligue al giro del sistema. La distancia entre cada imán permanente con el disco separador es de apenas dos milímetros. The present invention relates to a Magnetic Reluctance Generator, the Electric Power Generator (1) composed of six permanent magnets (3) arranged one after the other at a fixed distance; a separating disk (4) of the magnetic field acting between both magnets; six coils (8) wound on the extension of the permanent magnet core (8.1) and a disk impeller with any element that forces the system to rotate. The distance between each permanent magnet with the separating disk is just two millimeters.
ANTECEDENTES DE LA INVENCIÓN Generador de Energía Eléctrica, del inventor José Faustino Sabater Pérez (uno de los inventores de la presente invención), con numero de Solicitud de Patente Española n° 200501558, con concesión publicada ef 16 de marzo de 2008. BACKGROUND OF THE INVENTION Electric Power Generator, of the inventor José Faustino Sabater Pérez (one of the inventors of the present invention), with Spanish Patent Application Number No. 200501558, with concession published on March 16, 2008.
DIVULGACIÓN DE LA INVENCIÓN Esta invención consiste en un nuevo Generador de Reluctancia Magnética compuesto por seis imanes permanentes dispuestos uno a continuación del otro a una distancia fija con sus polos iguales enfrentados; un disco giratorio separador del campo magnético que actúa entre ambos imanes; una bobina arrollada sobre la prolongación del núcleo de uno de los imanes permanentes y un impulsor del disco giratorio. El separador de campo está compuesto por un disco de hierro es decir de material ferromagnético. En su periferia terminado en aspa que permiten interactuar directamente los polos de los imanes permanentes. DISCLOSURE OF THE INVENTION This invention consists of a new Magnetic Reluctance Generator composed of six permanent magnets arranged one after the other at a fixed distance with their equal poles facing each other; a rotating disk separating the magnetic field that acts between both magnets; a coil wound on the extension of the core of one of the permanent magnets and an impeller of the rotating disk. The field separator is composed of an iron disk that is ferromagnetic material. In its periphery finished in blade that allow to interact directly the poles of the permanent magnets.
La distancia entre cada imán permanente con el disco separador es de apenas dos milímetros. El generador funciona de ¡a siguiente manera: cuando una de ¡as ventanas del disco pasa entre los dos imanes permanentes, la tensión inducida en los bornes de la bobina es cero. Cuando la parte sólida del disco separador pasa entre ambos, el campo magnético varia produciéndose una variación de la intensidad de campo magnético que induce una fuerza electromotriz en los bornes de la bobina. Esto significa que a medida que el disco gira, el campo magnético resultante varía a la misma velocidad de giro que el disco generando una tensión alterna entre los bornes de la bobina, que es directamente proporcional a la variación del flujo magnético e inversamente proporcional al lapso de tiempo transcurrido. The distance between each permanent magnet with the separating disk is just two millimeters. The generator works as follows: when one of the windows of the disk passes between the two permanent magnets, the induced voltage on the coil terminals is zero. When the solid part of the separating disk passes between them, the magnetic field varies producing a variation of the magnetic field intensity that induces an electromotive force on the coil terminals. This means that as the disk rotates, the resulting magnetic field varies at the same speed of rotation as the disk generating an alternating voltage between the coil terminals, which is directly proportional to the variation of the magnetic flux and inversely proportional to the span. of elapsed time.
El Generador de Reluctancia Magnética se puede fabricar con doce bobinas y doce imanes, es decir seis de un lado y seis del otro, aunque dependiendo del diámetro del disco las cantidades de bobinas e imanes pueden incrementar o disminuir. Cada bobina puede alimentar individualmente una carga o se pueden conectar todas en paralelo. También en el mismo eje de rotación se pueden conectar varios generadores. The Magnetic Reluctance Generator can be manufactured with twelve coils and twelve magnets, that is, six on one side and six on the other, although depending on the diameter of the disk the quantities of coils and magnets can increase or decrease. Each coil can individually feed a load or they can all be connected in parallel. Also on the same axis of rotation several generators can be connected.
Dado que la reluctancia magnética es variable con la posición angular debida a las aberturas, el flujo magnético será también variable. Cuando no circula corriente por la bobina, el flujo varía entre ei valor máximo (para ¡a posición de mínima reluctancia) y un valor mínimo (para la posición de máxima reluctancia). Esta variación de flujo induce una fuerza electromotriz en la bobina, En estas condiciones, en cada ciclo completo de reluctancia, las derivadas positivas de energía magnética respecto al ángulo son iguales a las derivadas negativas y el par mecánico resultante es nulo (excepto rozamientos). El apropiado decalado de los componentes básicos puede permitir, además, que se anule el par mecánico en todas las posiciones. Since the magnetic reluctance is variable with the angular position due to the openings, the magnetic flux will also be variable. When no current flows through the coil, the flow varies between the maximum value (for the minimum reluctance position) and a minimum value (for the maximum reluctance position). This flux variation induces an electromotive force in the coil. Under these conditions, in each complete reluctance cycle, the positive derivatives of magnetic energy with respect to the angle are equal to the negative derivatives and the resulting mechanical torque is zero (except friction). The proper offset of the basic components may also allow the mechanical torque to be canceled in all positions.
BREVE DESCRIPCIÓN DE LOS DIBUJOS BRIEF DESCRIPTION OF THE DRAWINGS
Para complementar la descripción de este invento y con el objeto de facilitar la compresión de sus características, se acompaña unas figuras en la que con carácter ilustrativo y no limitativo, se han representado los siguientes dibujos cuyo componentes principal es el siguiente: To complement the description of this invention and in order to facilitate the compression of its characteristics, some figures are accompanied in which Illustrative and non-limiting, the following drawings have been represented whose main components are as follows:
1 Generador de reluctancia magnética. 1 Magnetic reluctance generator.
2 Bancadas-Estator  2 Stator Benches
3 Imán permanente.  3 Permanent magnet.
4 Disco separador de campo magnético,  4 Magnetic field separator disk,
4.1 Aspas del separador  4.1 Separator blades
4.2Soporte sujeción disco.  4.2 Disc holder.
5 Eje de rotación.  5 Rotation axis.
8 Bobinas.  8 coils
6.1 Soporte bobinas.  6.1 Support coils.
7 Tomillos sujeción del conjunto.  7 Thyme clamping set.
8 Carcasa envolvente.  8 Enclosure housing.
La Figura 1 , es una vista en alzado del generador (1 ) en la que se observan sus componentes principales: bancadas (2), los imanes (3), con sus polos NORTE- NORTE enfrentados, el disco separador (4), aspas disco separador (4.1 ),soporte sujeción disco (4,2), bobina (6), soporte bobinas, (6.1 ), tornillos sujeción bancada (7), carcasa envolvente (8). Figure 1 is an elevational view of the generator (1) in which its main components are observed: benches (2), magnets (3), with their NORTH-NORTH poles facing each other, the separator disk (4), blades separator disk (4.1), disk support bracket (4.2), coil (6), coil support, (6.1), bench support screws (7), enclosure housing (8).
La Figura 2, es una vista en del generador (1 ), en ¡a que se observa el bancadasFigure 2 is a view of the generator (1), in which the bench is observed
(2) , imanes (3), hueco de imanes (3.1 ), el disco separador (4), ei eje de rotación(5) , (2), magnets (3), hollow magnets (3.1), the separator disk (4), and the axis of rotation (5),
Figura 3, es una vista de la bancada o estátor (2), con los taladros de los imanes Figure 3, is a view of the bench or stator (2), with the holes of the magnets
(3) , taladro para el eje de rotación (5). Disco separador de campo magnético (4), aspas separador (4.1 ). (3), drill for the rotation axis (5). Magnetic field separator disk (4), separator blades (4.1).
Figura 4, es una vista del cilindro o carcasa envolvente (8), eje de rotación (5). Generador completo en estander interconectados entre sí (1 ), bancada (2), imanes (3), disco separador (4), aspas disco separador (4.1 ),eje de rotación (5).  Figure 4 is a view of the cylinder or casing (8), axis of rotation (5). Complete generator in interconnected standard (1), bench (2), magnets (3), separating disc (4), separating disc blades (4.1), rotation axis (5).
REALIZACIÓN PREFERENTE DE LA INVENCIÓN PREFERRED EMBODIMENT OF THE INVENTION
Entre los diferentes tipos de generadores de energía eléctrica que se pueden fabricar tomamos como base de esta invención la realización preferente que se describe a continuación Among the different types of electric power generators that can be manufactured, we take as a basis for this invention the preferred embodiment describe below
La variación de flujo magnético en la unidad de tiempo, ocasiona la FEM en ¡os bornes de ¡a bobina. The variation of magnetic flux in the unit of time causes the EMF in the terminals of the coil.
Para construir este generador (1 ) de reluctancia magnética, se parte de imanes permanentes(3) de sección circular dispuestos en un bancada (2) como se puede observaren en ¡as Figuras 1 y 2, con sus polos NORTE -NORTE enfrentados. Uno de estos imanes está en contacto con la bobina (6) mediante el soporte bobina (6.1 ), En los bornes de esta bobina (6) se genera una F.E. M. (fuerza electromotriz) debido a la variación de ia intensidad de campo de imán permanente (3) que esta en contacto con dicha bobina (8) cuando e¡ disco separador (4) gira sobre su eje de rotación (5) impulsado por cualquier elemento que obligue el giro del sistema. To construct this generator (1) of magnetic reluctance, it is based on permanent magnets (3) of circular section arranged in a bed (2) as can be seen in Figures 1 and 2, with their NORTH-NORTH poles facing each other. One of these magnets is in contact with the coil (6) by means of the coil holder (6.1). In the terminals of this coil (6) an F.E. M. (electromotive force) due to the variation of the permanent magnet field strength (3) that is in contact with said coil (8) when the separator disk (4) rotates on its axis of rotation (5) driven by Any element that forces the system to rotate.
El disco separador (4) de material ferromagnético, tiene en su periferia una serie aspas que ocasionan una variación de la reluctancia magnética en el espacio comprendido entre ambos imanes en un rango comprendido entre un máximo cuando pasa la ventana y un mínimo cuando pasa la parte solida del disco. The separating disc (4) of ferromagnetic material, has on its periphery a series of blades that cause a variation of the magnetic reluctance in the space between both magnets in a range between a maximum when the window passes and a minimum when the part passes solid disk.
Una vez descrita suficientemente la naturaleza de esta invención así como su aplicación práctica de la misma, sólo queda por añadir que tanto su forma como los materiales y procedimiento de fabricación, son susceptibles de modificaciones, siempre que no afecten de forma de sustancial a las características que se reivindican a continuación. Once the nature of this invention as well as its practical application thereof is sufficiently described, it only remains to be added that both its form and the materials and manufacturing process are susceptible to modifications, provided that they do not substantially affect the characteristics which are claimed below.
Funcionamiento y generación: Como si de un generador convencional se tratara, el generador J.F.S. se constituye básicamente por un estator y un rotor. El estátor es el encargado de albergar los imanes y bobinas y el rotor en este tipo de generador se encuentra acoplado fundamentalmente un disco de metal de hierro con aspas dispuestas en divisiones exactas. En la figura 2 se puede apreciar la siguiente ilustración. Operation and generation: As if it were a conventional generator, the JFS generator basically consists of a stator and a rotor. The stator is responsible for housing the magnets and coils and the rotor in this type of generator is fundamentally coupled an iron metal disk with blades arranged in exact divisions. Figure 2 shows the following illustration.
Las partes fundamentales del generador son las siguientes: The fundamental parts of the generator are the following:
1 Bobinas. Aquí se encuentra las bobinas arrolladas al irmán que inducirán los impulsos magnéticos en eléctricos El número de estas bobinas dependerá de muchos factores, entre ellos la potencia de salida deseada. El prototipo actualmente construido alberga un total de 6 bobinas por esíátor 1 coils Here you can find the coils rolled to the irman that will induce the magnetic impulses in electric. The number of these coils will depend on many factors, including the desired output power. The currently built prototype houses a total of 6 coils per esátátor
2 El estátor En este bloque es donde se unen y disponen los núcleos de imanes permanentes con sus respectivas bobinas arrolladas. Este elemento se encuentra en reposo y está construido en un material con propiedades no magnéticas para no afectar al comportamiento inductivo de las bobinas. En este caso del prototipo es de poSiestireno con las ranuras pertinentes para instalar las bobinas. 2 The stator This block is where the permanent magnet cores and their respective coils are joined and arranged. This element is at rest and is constructed of a material with non-magnetic properties so as not to affect the inductive behavior of the coils. In this case, the prototype is made of polystyrene with the relevant slots for installing the coils.
3 Eje del árbol o Rotor. Este eje es el encargado de transmitir el movimiento angular a la mascara de aberturas. 4 y 5 Mascara y aberturas de aspas. Este dispositivo juega un papel importante ya que es la encargada de provocar los impulsos magnéticos entre otros factores. 3 Tree shaft or Rotor. This axis is responsible for transmitting angular movement to the opening mask. 4 and 5 Mask and blade openings. This device plays an important role since it is responsible for causing magnetic impulses among other factors.
Aplicaciones Applications
Teniendo claro que la suma en cascada de unidades generadoras tiene el fin exclusivo de incrementar la energía de salida como generador eléctrico La implantación de estos generadores se puede realizar en infinidad de aplicaciones. Bearing in mind that the cascade sum of generating units has the exclusive purpose of increasing the output energy as an electric generator. The implementation of these generators can be carried out in countless applications.
Se pueden conectar tantas unidades generadoras como sean posibles o requeridas, para alcanzar !a potencia de salida necesaria. Un cilindro de diámetro adecuado puede albergar el numero de unidades generadoras necesitadas. El cual se interconectan según la aplicación para obtener los bornes de salida. De esta forma se obtiene un generador robusto y estanco para poder ser utilizado en el exterior. Como se puede ver en la figura 4. You can connect as many generating units as possible or required, to reach the necessary output power. A cylinder of suitable diameter can accommodate the number of generating units needed. Which are interconnected according to the application to obtain the output terminals. In this way a robust and tight generator is obtained to be used outdoors. As you can see in figure 4.

Claims

REIVINDICACIONES
1 - Generador de reluctancia magnética, caracterizado porque la versión básica está compuesta por dos bancadas, seis imanes permanentes por lateral y seis bobinas, un disco separador de campo magnético, un eje de rotación de! disco. 1 - Magnetic reluctance generator, characterized in that the basic version consists of two benches, six permanent magnets on the side and six coils, a magnetic field separator disk, a rotation axis of! disk.
2- Generador de reluctancia magnética según reivindicación primera caracterizado porque los imanes están fijados en el soporte dispuestos uno a continuación del otro con sus polos iguales NORTE-NORTE enfrentados, separados alrededor de dos milímetros. 2- Magnetic reluctance generator according to claim one, characterized in that the magnets are fixed on the support arranged next to each other with their equal NORTH-NORTH poles facing each other, separated by about two millimeters.
3- Generador de reluctancia magnética según reivindicaciones anteriores caracterizado porque el disco separador del campo magnético comprendido entre ambos imanes gira sobre su eje impulsado por cualquier elemento que obligue ai giro del sistema. 3- Magnetic reluctance generator according to previous claims characterized in that the magnetic field separator disk between both magnets rotates on its axis driven by any element that forces the system to rotate.
4- Generador de reluctancia magnética según reivindicaciones anteriores caracterizado porque el disco separador del campo magnético es una lámina ferromagnética redonda de 2 mm de espesor, que dispone en su superficie de varias aspas similares a los huecos existentes. 4- Magnetic reluctance generator according to previous claims characterized in that the magnetic field separator disk is a 2 mm thick round ferromagnetic sheet, which has on its surface several blades similar to the existing holes.
5- Generador de reluctancia magnética según reivindicaciones anteriores caracterizado porque, al girar el disco separador, la reluctancia del campo magnético comprendida entre ambos imanes permanentes varia entre un máximo y un mínimo cuando pasa una ventana y luego cuando pasa una de las partes sólidas del disco. 5- Magnetic reluctance generator according to previous claims characterized in that, when rotating the separator disk, the reluctance of the magnetic field between both permanent magnets varies between a maximum and a minimum when a window passes and then when one of the solid parts of the disk passes .
6- Generador de reluctancia magnética según reivindicaciones anteriores caracterizado porque, debido a la variación de la intensidad del campo magnético en el núcleo ferromagnética de la bobina, se genera entre sus bornes una fuerza electromotriz que es directamente proporcional a la velocidad de variación de la intensidad del flujo magnético 6- Magnetic reluctance generator according to previous claims characterized in that, due to the variation of the intensity of the magnetic field in the ferromagnetic core of the coil, an electromotive force is generated between its terminals that is directly proportional to the speed of variation of the magnetic flux intensity
7- Generador de reluctancia magnética según reivindicaciones primera caracterizado porque el núcleo ferromagnético de la bobina está en contacto directo con su correspondiente imán permanente. 7- Magnetic reluctance generator according to claims first characterized in that the ferromagnetic core of the coil is in direct contact with its corresponding permanent magnet.
8- Generador de reluctancia magnética según reivindicaciones primera caracterizado porque la versión industrial está compuesta por dos soportes, doce imanes permanentes, doce bobinas, un disco separador de campo magnético , un eje de rotación del disco, impulsado por cualquier elemento que obligue al giro del sistema. 8- Magnetic reluctance generator according to claims first characterized in that the industrial version is composed of two supports, twelve permanent magnets, twelve coils, a magnetic field separator disk, an axis of rotation of the disk, driven by any element that forces the rotation of the system.
PCT/ES2017/000047 2016-04-26 2017-04-25 Magnetic reluctance generator by j.f.s. WO2018020059A2 (en)

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ESU201600322 2016-04-26
ES201600322U ES1161141Y (en) 2016-04-26 2016-04-26 J.F.S. magnetic reluctance generator

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DE19908557A1 (en) * 1998-03-03 1999-09-09 Westerfeld Electrical generator for use with wind turbine
ES2264648B1 (en) * 2005-06-24 2008-03-16 Juan Carlos Tortosa Gonzalez ELECTRICAL POWER GENERATOR.

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