WO2019148258A1 - Process for generating electrical energy by means of magnetic repulsion - Google Patents

Process for generating electrical energy by means of magnetic repulsion Download PDF

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Publication number
WO2019148258A1
WO2019148258A1 PCT/BR2019/050006 BR2019050006W WO2019148258A1 WO 2019148258 A1 WO2019148258 A1 WO 2019148258A1 BR 2019050006 W BR2019050006 W BR 2019050006W WO 2019148258 A1 WO2019148258 A1 WO 2019148258A1
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WIPO (PCT)
Prior art keywords
magnetic
motor
repulsion
magnetic repulsion
central
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PCT/BR2019/050006
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French (fr)
Portuguese (pt)
Inventor
Guilherme Augusto BARBOSA
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Barbosa Guilherme Augusto
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Publication of WO2019148258A1 publication Critical patent/WO2019148258A1/en

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    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K1/00Details of the magnetic circuit
    • H02K1/06Details of the magnetic circuit characterised by the shape, form or construction
    • H02K1/12Stationary parts of the magnetic circuit
    • H02K1/17Stator cores with permanent magnets
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K1/00Details of the magnetic circuit
    • H02K1/06Details of the magnetic circuit characterised by the shape, form or construction
    • H02K1/22Rotating parts of the magnetic circuit
    • H02K1/27Rotor cores with permanent magnets
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K33/00Motors with reciprocating, oscillating or vibrating magnet, armature or coil system
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K5/00Casings; Enclosures; Supports
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K53/00Alleged dynamo-electric perpetua mobilia
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K7/00Arrangements for handling mechanical energy structurally associated with dynamo-electric machines, e.g. structural association with mechanical driving motors or auxiliary dynamo-electric machines
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K7/00Arrangements for handling mechanical energy structurally associated with dynamo-electric machines, e.g. structural association with mechanical driving motors or auxiliary dynamo-electric machines
    • H02K7/18Structural association of electric generators with mechanical driving motors, e.g. with turbines
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02NELECTRIC MACHINES NOT OTHERWISE PROVIDED FOR
    • H02N11/00Generators or motors not provided for elsewhere; Alleged perpetua mobilia obtained by electric or magnetic means

Definitions

  • This descriptive report relates to a MAGNETIC REPULSION ELECTRIC POWER GENERATION PROCESS, which is intended to generate electricity by means of a magnetic repulsion motor which does not require the use of any type of fuel. allowing the conversion of movements and at the end of the process the effective generation of clean electricity.
  • This PROCESS FOR MAGNETIC REPULSION ELECTRIC POWER GENERATION aims to supply electrical energy, through the force of magnetic repulsion generated between magnetic fields, present between an external set and an internal set of elements with chemical compounds encapsulated in magnetic bars. .
  • This process enables the sustainable supply of electricity through a self-powered generation system, fueling only the reactions between chemical-magnetic compounds within the magnetic bars that make up the motor.
  • This PROCESS FOR MAGNETIC REPULSION ELECTRIC POWER GENERATION aims to enable the generation of electricity through state-of-the-art technology, which is extremely economical as it does not use external sources of energy for its work.
  • This process for power generation by magnetic repulsion allows it to be used in any environment or region. that have no structure or feature whatsoever, hostile or inhospitable as it may be, can work 24 hours a day without interruption.
  • Supply Stability This process deals with an autonomous and self-sustaining system, generating electricity independently of external supply factors.
  • Power Quality The present process allows the generated electric power to adjust to the actual power being consumed at the moment, increasing the power quality in the grid, ensuring a longer service life to the equipment and increasing the your performance.
  • Deployment Cost This process has a 280% lower deployment cost than conventional systems.
  • Cost of energy generated The cost of energy generated by this process is virtually zero.
  • Equipment Safety The technology applied in this power generation process has no location restrictions for its installation and does not need to keep a safe distance from flammable products. This system also does not generate economic impacts, such as increased hazard or unhealthiness for employees.
  • FIG. 1 Schematic view of the magnetic repulsion system
  • Fig. 2 Side schematic view of the arrangements of the parts that make up the power generation process
  • FIG. 3 Schematic perspective view of the arrangements of the parts that make up the power generation process.
  • the first step of this process is in the composition of the magnetic repulsion motor (1), which is composed of two sets, the outer set (5), which moves in only two directions, approaching or moving away from the central set. (6), thus forcing the controlled collision of the magnetic fields, initiating the motor rotation of the central assembly (6) by means of its central axis (7).
  • These assemblies consist of magnetic bars (8), which have protections for directing the magnetic field by means of a steering jacket (9), allowing the control of rotation.
  • the external assembly (5) is composed of a determined number of magnetic bars, proportional to the equivalent radius for the different motor powers required by the system.
  • plates (10) of non-magnetic conductor materials are used, which, in addition to locking the motor parts, also serve to shape the external assembly (5), following the circumference of the central assembly (6). of the engine.
  • These plates have cavities (1 1) to house the magnetic bars, which facilitates mounting and maintains field positioning and concentration.
  • Magnetic bars are made of a mutually reactive chemical compound suitable for this application which, at a given temperature, allows a reaction between related bodies such as chemical compounds, the magnetic bar capsule and the magnetic jacket. field direction.
  • the second step of this process is the connection of the motor (1) with the gearbox (2) by means of the central axis (7) of the motor, interconnected with a ground shaft (12) which transmits movements to the said transmission box.
  • the third step of this process is the connection of the transmission box (2) to the alternator (3).
  • This torque is variable according to the demand demanded by the network, since the alternator must maintain speeds of 1 800rpm to generate 6GHz and 1,500rpm to generate 50Hz.
  • This control unit performs output torque and rotational input torque readings in the gearbox (2), configuring the internal gears and couplings, adjusting the output to meet the torque required by the alternator (3) at each working moment. .
  • the magnetic repulsion motor (1) operates at high speed, according to the power set for the generator, in the case of a 4GKva generator, the rotation of the The engine will be approximately 8Q,000rpm, and on a 2,500Kva generator, the speed of the magnetic repulsion motor may reach 180,000rpm.

Abstract

The invention comprises a process that generates energy, by means of a magnetic repulsion motor, which dispenses with the use of any type of external fuel, permitting the conversion of movements and at the end of the process the effective generation of clean electrical energy, constituted by a magnetic repulsion motor (1), a transmission box (2), an alternator (3), and a central control unit (4), all these components being arranged on a structure, wherein the motor is linked to the central shaft (7) connected to the transmission box (2) by a rectified shaft (12) which transmits the movements to said transmission box, wherein the magnetic repulsion motor is formed by two distinct parts, the central assembly (6) and the external assembly (5), which are constituted by magnetic bars (8) protected by a directing jacket (9).

Description

PROCESSO PARA GERAÇÃO DE EMERGIA ELÉTRICA POR REPULSÃO MAGNÉTICA CAMPO DE APLICAÇÃO:  PROCESS FOR GENERATING ELECTRIC EMERGY BY MAGNETIC REPULSION FIELD:
[001] O presente relatório descritivo, refere-se a um PROCESSO PARA GERAÇÃO DE ENERGIA ELÉTRICA POR REPULSÃO MAGNÉTICA, o qual se destina a gerar energia elétrica, por meio de um motor de repulsão magnética, que dispensa o uso de qualquer tipo de combustível externo, permitindo a conversão de movimentos e ao final do processo, a geração efetiva de energia elétrica limpa.  [001] This descriptive report relates to a MAGNETIC REPULSION ELECTRIC POWER GENERATION PROCESS, which is intended to generate electricity by means of a magnetic repulsion motor which does not require the use of any type of fuel. allowing the conversion of movements and at the end of the process the effective generation of clean electricity.
SUMÁRIO DA INVENÇÃO:  SUMMARY OF THE INVENTION:
[002] Este PROCESSO PARA GERAÇÃO DE ENERGIA ELÉTRICA POR REPULSÃO MAGNÉTICA visa o fornecimento de energia elétrica, através da força da repulsão magnética gerada entre campos magnéticos, presentes entre um conjunto externo e um conjunto interno de elementos dotados de compostos químicos encapsulados em barras magnéticas.  [002] This PROCESS FOR MAGNETIC REPULSION ELECTRIC POWER GENERATION aims to supply electrical energy, through the force of magnetic repulsion generated between magnetic fields, present between an external set and an internal set of elements with chemical compounds encapsulated in magnetic bars. .
[003] Este processo possibilita o fornecimento sustentável de energia elétrica, através de um sistema de geração autoalimentado, tendo como combustível apenas as reações entre compostos químico-magnéticos existentes no interior das barras magnéticas que compõe o motor.  [003] This process enables the sustainable supply of electricity through a self-powered generation system, fueling only the reactions between chemical-magnetic compounds within the magnetic bars that make up the motor.
[004] Estes campos magnéticos geram forças que são direcionadas ao eixo do conjunto interno que obtém uma rotação constante, gerando energia mecânica, que é aplicada ao eixo principal do gerador, convertendo-se em energia elétrica limpa. [005] Este processo para geração de energia elétrica por repulsão magnética tem infinitas aplicações, pois, partindo do princípio que os componentes químicos utilizados no motor, possuem vida útil de 50 a 70 anos, se torna uma fonte de energia elétrica com um apelo ambienta! imensurável, visto que seu impacto é quase zero, mesmo após a vida útil se esgotar, pois seus elementos químicos são inertes. [004] These magnetic fields generate forces that are directed to the axis of the internal assembly that obtains a constant rotation, generating mechanical energy, which is applied to the main axis of the generator, converting it into clean electric energy. [005] This process for generating electric power by magnetic repulsion has infinite applications because, assuming that the chemical components used in the motor have a useful life of 50 to 70 years, it becomes a source of electricity with an environmental appeal. ! immeasurable, as its impact is almost zero, even after its life has run out, because its chemical elements are inert.
ANTECEDENTES DA TÉCNICA:  TECHNICAL BACKGROUND:
[006] Já são conhecidos do estado da técnica vários tipos de processos para geração de energia elétrica, mas todos os processos existentes necessitam de alimentação por meio de uma fonte externa, como a queima de combustíveis fósseis como o gás, carvão, derivados do petróleo e nuclear.  Various types of power generation processes are known from the state of the art, but all existing processes require power from an external source, such as burning fossil fuels such as gas, coal, petroleum derivatives and nuclear.
[007] Todos os processos de geração de energia elétrica existentes possuem limitações e inconvenientes, como: dependência de algum tipo de combustível externo, limitação tecnológica, custo elevado de implantação e manutenção, restrições proporcionais entre espaço físico para implantar os equipamentos e a necessidade de potência requisitada, entre outros fatores.  All existing power generation processes have limitations and drawbacks, such as: dependence on some type of external fuel, technological limitation, high cost of deployment and maintenance, proportional constraints between physical space to deploy equipment and the need for required power, among other factors.
OBJETIVOS DA INVENÇÃO:  OBJECTIVES OF THE INVENTION:
[008] Este PROCESSO PARA GERAÇÃO DE ENERGIA ELÉTRICA POR REPULSÃO MAGNÉTICA tem como objetivo, viabilizar a geração de energia elétrica, através de uma tecnologia de ponta, que é extremamente económica, pois não utiliza fontes de energia externa para seu trabalho.  [008] This PROCESS FOR MAGNETIC REPULSION ELECTRIC POWER GENERATION aims to enable the generation of electricity through state-of-the-art technology, which is extremely economical as it does not use external sources of energy for its work.
[009] Este processo para geração de energia elétrica por repulsão magnética permite ser utilizado em quaisquer ambientes ou regiões que não tenham nenhuma estrutura ou qualquer tipo de recurso, por mais hostil ou inóspito que seja ele poderá ser instalado, e trabalhar 24 horas por dia, sem interrupção. [009] This process for power generation by magnetic repulsion allows it to be used in any environment or region. that have no structure or feature whatsoever, hostile or inhospitable as it may be, can work 24 hours a day without interruption.
[010] Para um melhor entendimento da concepção deste processo destacamos algumas características e vantagens:  [010] For a better understanding of the design of this process we highlight some features and advantages:
[01 1] Ampla aplicação: Este processo gerar a melhor e mais eficiente fonte de geração de energia limpa e sustentável desenvolvida, o qual viabiliza sua implantação desde residências até subestações, devido à maleabilidade de potências que podemos atender a um custo muito baixo.  [01 1] Wide application: This process generates the best and most efficient source of clean and sustainable energy generation developed, which enables its implementation from homes to substations, due to the malleability of powers that we can meet at a very low cost.
[012] Implantação: Este processo permite a geração de energia estável e controlada para qualquer complexo, sem necessitar de grandes áreas para implantação, solucionando assim dois dos principais fatores apresentados por outros sistemas de geração.  [012] Deployment: This process enables stable and controlled power generation for any complex without requiring large areas for deployment, thus solving two of the key factors presented by other generation systems.
[013] Infraestrutura: Ao contrário dos processos de geração de energia convencionais como: energia solar, eólico, gás e biomassa, que necessitam de preparações estruturais para sua instalação e operação, o processo em questão, dispensa qualquer tipo de preparação estrutural. [013] Infrastructure: Unlike conventional energy generation processes such as solar, wind, gas and biomass, which require structural preparations for their installation and operation, the process in question does not require any structural preparation.
[014] Estabilidade no fornecimento: Este processo trata de um sistema autónomo e autossustentável, gerando energia elétrica de forma independente de fatores externos de fornecimento.  [014] Supply Stability: This process deals with an autonomous and self-sustaining system, generating electricity independently of external supply factors.
[015] Qualidade da energia: O presente processo permite que a energia elétrica gerada, se ajuste de acordo com a potência real que está sendo consumido no momento, elevando a qualidade da energia na rede, garantindo uma vida útil maior aos equipamentos e aumentando o seu desempenho. [016] Custo de implantação: Este processo tem um custo de implantação 280% menor que os sistemas convencionais. [015] Power Quality: The present process allows the generated electric power to adjust to the actual power being consumed at the moment, increasing the power quality in the grid, ensuring a longer service life to the equipment and increasing the your performance. [016] Deployment Cost: This process has a 280% lower deployment cost than conventional systems.
[017] Custo da energia gerada: o custo da energia gerada, por este processo é praticamente zero.  [017] Cost of energy generated: The cost of energy generated by this process is virtually zero.
[018] Segurança do equipamento: A tecnologia aplicada neste processo de geração de energia, não possui restrições de locais para sua instalação e não necessita de guardar distância segura de produtos inflamáveis. Este sistema também não gera impactos económicos, como, por exemplo, acréscimo de periculosidade ou insalubridade para funcionários.  [018] Equipment Safety: The technology applied in this power generation process has no location restrictions for its installation and does not need to keep a safe distance from flammable products. This system also does not generate economic impacts, such as increased hazard or unhealthiness for employees.
[019] Potências alcançadas: Não há limite de potência para este processo de geração de energia elétrica, pois apenas um gerador, atinge potências entre 1 kva a 2.5QQKva, mas este processo permite a combinação de vários geradores, independente de terem potências iguais ou diferentes, estes fatores serão somados.  [019] Powers Achieved: There is no power limit for this power generation process, as only one generator achieves power between 1 kva to 2.5QQKva, but this process allows the combination of multiple generators, regardless of whether they have equal or equal power. different, these factors will be added together.
BREVE DESCRIÇÃO DOS DESENHOS:  BRIEF DESCRIPTION OF DRAWINGS:
[020] Para melhor entendimento do PROCESSO PARA GERAÇÃO DE ENERGIA ELÉTRICA POR REPULSÃO MAGNÉTICA, e suas características construtivas e funcionais em questão, faz-se referência aos desenhos em vistas esquemáticas, de modo que possa ser integralmente reproduzido por técnica apropriada, permitindo plena caracterização da sua funcionalidade, sendo, no entanto, estes desenhos meramente ilustrativos e não limitativo, podendo apresentar variações, desde que não fujam do princípio funciona! do processo, ora proposto, não limitando as formas e desenhos, onde:  [020] For a better understanding of the PROCESS FOR GENERATING REPULSION ELECTRIC POWER GENERATION, and its constructive and functional characteristics, reference is made to the drawings in schematic views, so that it can be fully reproduced by appropriate technique, allowing full characterization. However, these drawings are merely illustrative and not limiting and may vary, as long as they do not depart from the principle it works! proposed, not limiting the shapes and designs, where:
[021] Fig. 1 - Vista esquemática do sistema de repulsão magnética; [022] Fig. 2 - Vista esquemática lateral, das disposições das partes que compõe o processo de geração de energia; e, [021] Fig. 1 - Schematic view of the magnetic repulsion system; [022] Fig. 2 - Side schematic view of the arrangements of the parts that make up the power generation process; and,
[023] Fig. 3 - Vista esquemática em perspectiva, das disposições das partes que compõe o processo de geração de energia.  [023] Fig. 3 - Schematic perspective view of the arrangements of the parts that make up the power generation process.
[024] Destacado as características deste PROCESSO PARA GERAÇÃO DE EMERGIA ELÉTRICA POR REPULSÃO IVIAGMÉTICA, passamos a descrever o processo e forma de operação deste, para gerar a energia elétrica, definidas em etapas.  [024] Highlighting the characteristics of this PROCESS FOR GENERATION OF ELECTRIC EMERGY BY IVIAGMETIC REPULSION, we now describe the process and way of its operation, to generate electricity, defined in stages.
[025] - A primeira etapa deste processo está na composição do motor de repulsão magnética (1), que é composto por dois conjuntos, o conjunto externo (5), o qual se movimenta em apenas duas direções, aproximando ou afastando do conjunto central (6), forçando assim a colisão controlada dos campos magnéticos, iniciando a rotação motora do conjunto central (6), por meio de seu eixo centrai (7). [025] - The first step of this process is in the composition of the magnetic repulsion motor (1), which is composed of two sets, the outer set (5), which moves in only two directions, approaching or moving away from the central set. (6), thus forcing the controlled collision of the magnetic fields, initiating the motor rotation of the central assembly (6) by means of its central axis (7).
[028] Estes conjuntos são constituídos por barras magnéticas (8), as quais possuem proteções para direcionamento do campo magnético, por meio de jaqueta de direcionamento (9), permitindo o controle da rotação.  [028] These assemblies consist of magnetic bars (8), which have protections for directing the magnetic field by means of a steering jacket (9), allowing the control of rotation.
[027] O conjunto externo (5) é composto por um número determinado de barras magnéticas, proporcional ao raio equivalente para as diferentes potências de motor que o sistema requisitar. Para fixar e travar as barras magnéticas utiliza-se placas (10) de materiais não condutores magnéticos, que além de travar as partes do motor, também servem para a conformação do conjunto externo (5), acompanhando a circunferência do conjunto central (6) do motor. [028] Estas placas possuem cavidades (1 1) para alojar as barras magnéticas, o que facilita a montagem e mantém o posicionamento e concentração do campo [027] The external assembly (5) is composed of a determined number of magnetic bars, proportional to the equivalent radius for the different motor powers required by the system. For fixing and locking the magnetic bars, plates (10) of non-magnetic conductor materials are used, which, in addition to locking the motor parts, also serve to shape the external assembly (5), following the circumference of the central assembly (6). of the engine. [028] These plates have cavities (1 1) to house the magnetic bars, which facilitates mounting and maintains field positioning and concentration.
[029] Através do eixo central (7), do conjunto central (6), será transferida toda a força exercida pela repulsão dos campos magnéticos direcionados, o que é possível, visto a existência de secções não bloqueadas pela jaqueta de direcionamento (9), onde aproximadamente 1/3 da barra magnética fica exposto.  Through the central axis (7) of the central assembly (6), all the force exerted by the repulsion of the directed magnetic fields will be transferred, which is possible given the existence of sections not blocked by the steering jacket (9). where approximately 1/3 of the magnetic bar is exposed.
[030] As barras magnéticas são fabricadas com um composto químico reativo entre si, próprio para esta aplicação que, em determinada temperatura, permite uma reação entre os corpos relacionados, como os compostos químicos, a cápsula que forma a barra magnética e a jaqueta de direcionamento do campo.  [030] Magnetic bars are made of a mutually reactive chemical compound suitable for this application which, at a given temperature, allows a reaction between related bodies such as chemical compounds, the magnetic bar capsule and the magnetic jacket. field direction.
[031] Esta reação permite reduzir o campo magnético em contato com os metais envolvidos, mantendo o comprimento da onda em cerca de 90%, na secção onde a jaqueta de direcionamento não obstrui a barra magnética, obtendo um sentido de giro para o motor de repulsão magnética, enquanto os compostos se consomem para tal reação inferna.  [031] This reaction makes it possible to reduce the magnetic field in contact with the metals involved, keeping the wavelength by about 90% in the section where the steering jacket does not obstruct the magnetic bar, obtaining a direction of rotation for the motor. magnetic repulsion, while the compounds consume themselves for such an infernal reaction.
[032] - A segunda etapa deste processo consiste na conexão do motor (1) com a caixa de transmissão (2), por meio do eixo central (7) do motor, interligado a um eixo retificado (12) que transmite movimentos para a dita caixa de transmissão.  [032] - The second step of this process is the connection of the motor (1) with the gearbox (2) by means of the central axis (7) of the motor, interconnected with a ground shaft (12) which transmits movements to the said transmission box.
[033] - A terceira etapa deste processo é a conexão da caixa de transmissão (2) ao alternador (3).  [033] - The third step of this process is the connection of the transmission box (2) to the alternator (3).
[034] As conversões realizadas, no inferior da caixa de transmissão (2), são realizadas por relações de troca contínua, de maneira inteligente e controladas eletronicamente, ajustando com precisão cada faixa de trabalho que o alternador (3) vier operar. Estes ajustes acontecem em conjunto, com as leituras do eixo de transmissão, adequando à potência entregue nas diversas faixas de torque requisitadas pelo alternador (3). [034] Conversions at the bottom of the gearbox (2) are performed by continuous exchange ratios in a manner intelligent and electronically controlled, precisely adjusting each working range that the alternator (3) comes to operate. These adjustments occur in conjunction with the drive shaft readings, matching the power delivered to the various torque ranges required by the alternator (3).
[035] Este torque é variável de acordo com a demanda requisitada pela rede, pois o alternador deve manter rotações de 1 800rpm para gerar 6GHz e 1.500rpm para gerar 50Hz.  [035] This torque is variable according to the demand demanded by the network, since the alternator must maintain speeds of 1 800rpm to generate 6GHz and 1,500rpm to generate 50Hz.
[036] - A quarta etapa deste processo ocorre na central de controle (4), a qual faz as leituras e medições instantâneas de todos os sistemas, bem como do controle final da rede, balanceando todo o sistema de maneira constante.  [036] - The fourth step of this process takes place at the control center (4), which takes instant readings and measurements of all systems as well as the final network control, balancing the entire system steadily.
[037] Esta central realiza leituras de torque de saída e entrada de rotação na caixa de transmissão (2), configurando as engrenagens e acoplamentos internos, ajustando a saída de modo a atender o torque exigido pelo alternador (3) em cada momento de trabalho.  [037] This control unit performs output torque and rotational input torque readings in the gearbox (2), configuring the internal gears and couplings, adjusting the output to meet the torque required by the alternator (3) at each working moment. .
[038] Dentro do painel, da central de controle (4), estão os filtros de linha, estabilizadores e condicionadores de energia, além de banco de capacitores, sistemas por onde a energia será filtrada e sua qualidade assegurada nos pontos finais. [038] Inside the control center panel (4) are the line filters, stabilizers and power conditioners, as well as capacitor banks, systems through which the energy will be filtered and their quality assured at the end points.
[039] Para obter a máxima eficiência, no processo de geração de energia, o motor de repulsão magnética (1) trabalha com alta rotação, de acordo com as potências estabelecidas para o gerador, no caso de um gerador de 4GKva, a rotação do motor será de aproximadamente 8Q.000rpm, e num gerador de 2.500Kva, a rotação do motor de repulsão magnética poderá chegar a 180.000rpm.  [039] For maximum efficiency in the power generation process, the magnetic repulsion motor (1) operates at high speed, according to the power set for the generator, in the case of a 4GKva generator, the rotation of the The engine will be approximately 8Q,000rpm, and on a 2,500Kva generator, the speed of the magnetic repulsion motor may reach 180,000rpm.

Claims

REIVINDICAÇÕES
1o) PROCESSO PARA GERAÇÃO DE ENERGIA ELÉTRICA POR REPULSÃO MAGNÉTICA, que se destina a geração de energia elétrica, através da força de repulsão magnética gerada entre campos magnéticos, caracierizado peia primeira etapa deste processo descrever a composição do motor de repulsão magnética (1), que é composto por dois conjuntos, o conjunto externo (5), o qual se movimenta em apenas duas direções, aproximando ou afastando do conjunto central (6), que força a colisão controlada dos campos magnéticos, iniciando a rotação motora do conjunto central (6), por meio de seu eixo (7), onde os conjuntos que compõe o motor de repulsão são constituídos por barras magnéticas (8), as quais possuem proteções para direcionamento do campo magnético, denominado de jaqueta de direcionamento (9), que controla da rotação, sendo que o conjunto externo é composto por um número determinado de barras magnéticas, proporcional ao raio equivalente para as diferentes potências de motor, as quais são fixadas e travas por meio de placas (10), de materiais não condutores magnéticos, que conformam o conjunto externo (5), acompanhando a circunferência do conjunto central (6), sendo que as ditas placas possuem cavidades (1 1) para alojar as barras magnéticas, mantendo o posicionamento e concentração do campo, sendo que, através do eixo central (7), do conjunto central (6), será transferida toda a força exercida pela repulsão dos campos magnéticos direcionados, o que é possível visto a existência de secções não bloqueadas pela jaqueta de direcionamento (9), onde aproximadamente 1/3 da barra magnética fica exposto; as barras magnéticas são fabricadas com um composto químico reativo entre si, que em determinada temperatura, permite uma reação entre os corpos relacionados, como os compostos químicos, a cápsula que forma a barra magnética e a jaqueta de direcionamento do campo, o que permite reduzir o campo magnético em contato com os metais envolvidos, mantendo o comprimento da onda em cerca de 90%, na secção onde a jaqueta de direcionamento não obstrui a barra magnética, obtendo um sentido de giro para o motor de repulsão magnética, enquanto os compostos se consomem para tal reação interna. 1 o ) MAGNETIC REPULSION ELECTRIC POWER GENERATION PROCESS, which is intended for the generation of electrical energy through the magnetic repulsion force generated between magnetic fields, characterized by the first step of this process to describe the composition of the magnetic repulsion motor (1) , which consists of two sets, the outer set (5), which moves in only two directions, approaching or moving away from the central set (6), which forces the controlled collision of the magnetic fields, initiating the motor rotation of the central set (6), by means of its axis (7), where the assemblies that compose the repulsion motor are constituted by magnetic bars (8), which have protections for directing the magnetic field, called the directing jacket (9), that controls the rotation, and the external set is composed of a determined number of magnetic bars, proportional to the equivalent radius for the different power which are fixed and locked by means of plates (10), of non-magnetic conductive materials, which form the external assembly (5), following the circumference of the central assembly (6), said plates having cavities (1 1) to house the magnetic bars, maintaining the positioning and concentration of the field, and through the central axis (7) of the central assembly (6), all the force exerted by the repulsion of the directed magnetic fields will be transferred. whereas it is possible to see sections not blocked by the steering jacket (9), where approximately 1/3 of the magnetic bar is exposed; the bars The magnetic strips are made of a reactive chemical compound, which at a given temperature allows a reaction between the related bodies, such as the chemical compounds, the capsule that forms the magnetic bar and the field steering jacket, which allows the field to be reduced. in contact with the metals involved, keeping the wavelength at about 90%, in the section where the steering jacket does not obstruct the magnetic bar, obtaining a direction of rotation for the magnetic repulsion motor, while the compounds are consumed to such an internal reaction.
2o) PROCESSO PARA GERAÇÃO DE ENERGIA ELÉTRICA POR REPULSÃO MAGNÉTICA, de acordo com a reivindicação 1 , caracterlzado pela segunda etapa deste processo consiste na conexão do motor (1) com a caixa de transmissão (2), o que ocorre por meio de um eixo centrai (7) do motor, que é interligado a um eixo retificado (12), que transmite os movimentos para a dita caixa de transmissão, com a menor perda possível e o máximo de controle. 2. The process for generating electric power by magnetic repulsion according to claim 1, characterized by the second step of this process is the connection of the motor (1) with the gearbox (2), which occurs by means of a central shaft (7) of the motor, which is interconnected with a ground shaft (12), which transmits the motions to said gearbox, with the least possible loss and maximum control.
3o) PROCESSO PARA GERAÇÃO DE ENERGIA ELÉTRICA POR REPULSÃO MAGNÉTICA, de acordo com as reivindicações 1 e 2, caracterlzado pela terceira etapa deste processo, conectar a caixa de transmissão (2) ao alternador (3), onde as conversões realizadas, no interior da caixa de transmissão (2), são realizadas por relações de troca contínua, de maneira inteligente e controladas eletronicamente, ajustando com precisão cada faixa de trabalho que o alternador (3) vier operar, sendo que estes ajustes acontecem em conjunto, com as leituras do eixo de transmissão, adequando à potência entregue nas diversas faixas de torque requisitadas peio aiternador (3), sendo os ditos torque variável de acordo com a demanda requisitada pela rede, pois o aiternador deve manter rotações de 1 800rpm para gerar 60Hz e 1 500rpm para gerar 50Hz. 4o) PROCESSO PARA GERAÇÃO DE ENERGIA ELÉTRICA POR REPULSÃO MAGNÉTICA, de acordo com as reivindicações 1 , 2 e 3, caracterizado pela quarta etapa deste processo ocorre com a introdução de uma central de controle (4), a qual faz as leituras e medições instantâneas de todos os sistemas, bem como do controle final da rede, balanceando todo o sistema de maneira constante, realizando leituras de torque de saída e entrada de rotação na caixa de transmissão (2), configurando as engrenagens e acoplamentos internos, ajustando a saída de modo a atender o torque exigido pelo aiternador (3) em cada momento de trabalho, sendo que, dentro do painel da central de controle (4), estão os filtros de linha, estabilizadores e condicionadores de energia, além de banco de capacitores, sistemas por onde a energia será filtrada e sua qualidade assegurada nos pontos finais. 3. The process for generating electric power by magnetic repulsion according to claims 1 and 2, characterized by the third step of this process, connecting the transmission box (2) to the alternator (3), where the conversions performed inside of the gearbox (2), are performed by continuously shifting ratios, intelligently and electronically controlled, precisely adjusting each working range that the alternator (3) will operate, and these adjustments happen together with the readings drive shaft, adapting to the power delivered in the various torque ranges required by the finisher (3), said torque being variable according to the demand required by the network, as the finisher must maintain speeds of 1 800rpm to generate 60Hz and 1 500rpm to generate 50Hz. The process for generating electric power by magnetic repulsion according to claims 1, 2 and 3, characterized by the fourth step of this process occurs with the introduction of a control center (4), which makes the readings and measurements. instantaneous control of all systems, as well as final control of the network, balancing the entire system steadily, taking output torque readings and rotational input into the gearbox (2), configuring the internal gears and couplings, adjusting the output to meet the torque required by the finisher (3) at each working moment, and within the control center panel (4) are the line filters, stabilizers and power conditioners, plus capacitor bank, systems through which energy will be filtered and its quality assured at the end points.
PCT/BR2019/050006 2018-01-31 2019-01-07 Process for generating electrical energy by means of magnetic repulsion WO2019148258A1 (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2022266729A1 (en) * 2021-06-22 2022-12-29 Tejo Energia Industria Comercio E Servicos Ltda Vertical propulsion magnetic generation turbine

Citations (4)

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Publication number Priority date Publication date Assignee Title
US4695736A (en) * 1985-11-18 1987-09-22 United Technologies Corporation Variable speed wind turbine
JPH0332379A (en) * 1989-06-26 1991-02-12 Katsuaki Takahashi Permanent rotating engine
US20080164778A1 (en) * 2007-01-04 2008-07-10 Steven James Schieffer Magnetic motor
US20170163103A1 (en) * 2015-12-07 2017-06-08 Wassim Amer Magnet assembly

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4695736A (en) * 1985-11-18 1987-09-22 United Technologies Corporation Variable speed wind turbine
JPH0332379A (en) * 1989-06-26 1991-02-12 Katsuaki Takahashi Permanent rotating engine
US20080164778A1 (en) * 2007-01-04 2008-07-10 Steven James Schieffer Magnetic motor
US20170163103A1 (en) * 2015-12-07 2017-06-08 Wassim Amer Magnet assembly

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2022266729A1 (en) * 2021-06-22 2022-12-29 Tejo Energia Industria Comercio E Servicos Ltda Vertical propulsion magnetic generation turbine

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