WO2019078753A1 - Moteur électrique à mouvement perpétuel - Google Patents

Moteur électrique à mouvement perpétuel Download PDF

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Publication number
WO2019078753A1
WO2019078753A1 PCT/RU2017/000768 RU2017000768W WO2019078753A1 WO 2019078753 A1 WO2019078753 A1 WO 2019078753A1 RU 2017000768 W RU2017000768 W RU 2017000768W WO 2019078753 A1 WO2019078753 A1 WO 2019078753A1
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WO
WIPO (PCT)
Prior art keywords
electrodes
electrical
current
electric
special
Prior art date
Application number
PCT/RU2017/000768
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English (en)
Russian (ru)
Inventor
Геннадий Александрович ОЛЕЙНОВ
Original Assignee
Геннадий Александрович ОЛЕЙНОВ
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 Геннадий Александрович ОЛЕЙНОВ filed Critical Геннадий Александрович ОЛЕЙНОВ
Priority to PCT/RU2017/000768 priority Critical patent/WO2019078753A1/fr
Publication of WO2019078753A1 publication Critical patent/WO2019078753A1/fr

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Classifications

    • 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 invention allows to obtain electrical, thermal or mechanical energy when performing perpetual motion of the engine as an electrical device (hereinafter referred to as an engine or device) in the form of a structure with a special form and combination of electrical elements.
  • the mechanical energy can be obtained from the action of the unsupported force obtained when installing one of the variants of the device design, for example, on a vehicle.
  • This invention contains the main provisions of the application PCT / RU 2013/000179, PCT / RU 2013/000180, PCT / RU 2013/000181.
  • the perpetual motion machine has an electric structure with a special form and a combination of elements such as insulated and current-collecting electrodes, special conductive materials, sources of electrical potential difference, and a special ratio of circuit resistances.
  • a motor designed to generate electrical energy contains a special conductive material that permits the penetration, at a certain depth, of an electric field, for example, in the form of a semiconductor with mixed conductivity or electrolyte, as well as at least one partially or completely insulated from the material electrode connected to a source of electrical voltage to create a potential difference in the material, at the points of contact with current collector electrodes connected to the load circuit.
  • the engine as a device designed primarily to obtain mechanical energy by creating a support-free force, contains electrodes asymmetric with respect to the direction of the received force, namely, they have at least one surface transverse to the direction of the received force with elements of increasing the force, in a selected direction, on charges on such a surface, which can be achieved, for example, by a special form of electrodes, in the form of making one electrode flat and the other in the form of a grid, or with an additional arrangement between them of a special material that forms power electric field lines of the desired direction between the surfaces, for example, performing a device in the form of a capacitor with plates opened relative to each other, between whose surfaces the indicated material with high resistance.
  • the device can be used as a refrigerator, for example, when dividing a circuit with current collectors and material into areas with different values of electrical resistance, moreover, the cooling element is included in the section with a large one, and the heating element with a smaller one.
  • a device that creates a temperature difference can also be made in the form of a capacitor, in which, in addition to the insulating layer, there is a layer of a special material, such as a semiconductor, on the sides of which a temperature difference occurs.
  • the circuit connected to the current collectors contains at least two parallel circuits, one of which, with appropriate resistance or an electronics element, such as a diode, is generating, with a countercurrent, and, accordingly, the other circuits are consuming.
  • Figure 1 shows a variant of the perpetual motion engine, generating mainly electric power and containing parallel circuits.
  • Figure 2 is a variant of the location of the electrodes with two voltage sources.
  • Figure 5 is an embodiment of a device similar to an electric battery.
  • Figure 6 an embodiment of the device - electrolyzer.
  • Figure 7 is a variant of the engine, creating unsupported force.
  • Fig.1, 1 is a variant of a device intended to create a temperature difference in different parts of a circuit.
  • Fig is a variant of the device for creating temperature differences on the sides of the plate.
  • the perpetual motion machine contains electric electrodes, which can be current-collecting or insulated, a special material of various forms and a connection circuit to the current collectors.
  • a special electrically conductive material 1 is shown, the properties of which allow the electric field to penetrate to a certain depth or (as in Figs 7, 8 and 9) give the necessary shape to the lines of the electric field.
  • the material may have a sufficiently high resistance or be a semiconductor, for example, with mixed conductivity, electrolyte (FIGS. 5 and 6), or have a special composition, for example, contain lines 2 of electrically conductive material (FIG. 7) laid in the direction of the power lines electric field.
  • Electrodes 3 and 4 are in contact with material 1 and are current collectors. These electrodes can be of various shapes — flat, mesh (3, in FIGS. 1 and 1 1), pointed or composite of different materials (3 in FIG. 4).
  • electrodes 5, which are isolated from material 1, are additionally installed. They can be in the singular ( Figures 1, 4, and 1 1) or there can be more, for example, two - 5 and 6 (Fig.2,3,5 and 6).
  • a source of electrical for example, permanent voltage 7 (figure 1 and 7) or different sources 7 and 8 (figure 2.5 and 6) connected to insulated electrodes, are designed to create an electric field in the material 1.
  • alternating voltage terminals 9 In the other figures to connect sources, such as alternating voltage terminals 9 are shown (Figs 3,4,8, 10, 1 1, 12). Consumers of electrical energy or load are resistances 10 (Fig. 1, 2,3, 4,5, and 6) connected to current collectors 3 and 4. But, since the source of electricity is the section with the greatest resistance in one direction, then, in addition to the material 1, as a source of electrical energy, circuit elements connected to the current collectors 3 and 4 can be used. In particular, one of the parallel circuits ( Figures 1 and 2). In this circuit there can be such an element of electronics as a diode 1 1 (figure 1) or simply a resistance or conductor 12 (figure 2) of a certain length.
  • Resistance 13 serves to establish a balance between the resistance of material 1, located between electrodes 3 and 4, and the rest of the circuit.
  • electrodes 14 and 15 connected to terminals 9 must have surfaces 16 transverse to direction A of the resulting force.
  • the strip 17 is shown, of any length in material 1, from a conductor with surfaces parallel to the direction A of the resulting force and laying 18 of the insulator. 7,8,9 and 10 shows variants of the forms of the electrodes 14 and 15, and material 1, which provide the highest concentration of charges with increased field strength on the surfaces 16.
  • Fig.1 1 shows a variant with separation, material 1 with electrodes, into two parts connected electrically to each other, one of which (for example, 19) is a cooling element, and the other (20) is a heating element.
  • part 20 may simply be electrical resistance.
  • the parts must have an asymmetry, for example, the magnitude of the electrical resistance of the material 1 between the electrodes 3 and 4.
  • the simplest type of electrical device as a heat separator consists of conductive plates 21 and 22 (Fig. 12), between which there are layers of insulator 23 and material 1.
  • Movement with generation occurs in places of material 1 with a higher level of electrical resistance, and with discharge, in places with low resistance.
  • the place where the current flows in the direction of the current voltage can be replaced simply by electrical resistance, a heater.
  • the heat effect here is the same as the Peltier effect.
  • the efficiency of the device according to FIG. 12 is proved by the fact that the electric field as it attracts heat long ago (see Zaev N. “Energy Temptations”, g. “Inventor and Rationalizer”, N ° 12, 1976, Moscow, p.42) .
  • This is actually the same principle of action as the action of mass gravitational forces on air molecules (molecules moving upward lose kinetic energy, and moving downward they acquire), as a result of which the lower layers of air have a higher temperature than the upper ones.
  • the heating of the upper will lead to an increase in the temperature of the lower, while maintaining the temperature difference. This can also explain the warming up of the planet's interior, and the high temperature of the Stars.
  • electrodes 5 and 6 form between themselves in material 1 a zone with the same potential and the formation of a potential difference at the current collectors 3 and 4 (the current flowing through them does not flow through sources 7 and 8).
  • the electrodes 5 and 6 can be of various configurations, providing the greatest potential equalization in the specified zone.
  • Figure 5 the same principle of obtaining electricity in the battery.
  • electrodes 5 and 6, which are isolated from electrolyte form a similar zone, and create additional potential difference at current collectors 3 and 4.
  • Material 1 can have any shape (fig. 3), and through the "point" electrode 3, in the presence of a potential difference at terminals 9, current will flow. You can connect the electrodes 4 and 6 (fig.Z) or leave only the electrode 4, as in figure 1. Material 1 can be made in the form of a thin layer (figure 4) with a variety of current shape and composition of current collectors 3.
  • Electricity can generate, counter current, not only in material 1, but also in the circuit connected to current collectors 3 and 4, provided that the resistance of this circuit is greater than the material resistance between the current collectors.
  • the generator can make the circuit elements connected to the current collectors 3 and 4.
  • the resistance or conductor 12 (figure 2), provided that the resistance of this conductor is greater than the load resistance 10.
  • the resistance 13 (figure 1 and 2) calculated to meet the condition of the balance of resistance of the material 1 and the external circuit.
  • the diode 11 (Fig. 1) has the property of passing a countercurrent, i.e. is a generator of electrical energy, and consumers, together with a load of 10, a chain of material 1 and resistance 13.
  • material 1 (FIG. 7) can be isolated from surfaces 16 with circulation currents along lines 2.
  • electrolytes it is necessary to take into account the presence of high solutions in aqueous solutions of the dielectric constant and the presence of charge bias, significantly shielding the electric field.
  • This invention is applicable to the production of electrical energy, cooling or heating, for example, of premises, to drive the movement of vehicles, etc.

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  • Cell Electrode Carriers And Collectors (AREA)

Abstract

Le moteur perpétuel électrique comprend des électrodes isolées, des électrodes collectrices de courant, un matériau électrique, par exemple, un semi-conducteur et une source de tension électrique. Le moteur permet de produire de l'énergie électrique ou mécanique.
PCT/RU2017/000768 2017-10-20 2017-10-20 Moteur électrique à mouvement perpétuel WO2019078753A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PCT/RU2017/000768 WO2019078753A1 (fr) 2017-10-20 2017-10-20 Moteur électrique à mouvement perpétuel

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/RU2017/000768 WO2019078753A1 (fr) 2017-10-20 2017-10-20 Moteur électrique à mouvement perpétuel

Publications (1)

Publication Number Publication Date
WO2019078753A1 true WO2019078753A1 (fr) 2019-04-25

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ID=66173748

Family Applications (1)

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PCT/RU2017/000768 WO2019078753A1 (fr) 2017-10-20 2017-10-20 Moteur électrique à mouvement perpétuel

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WO (1) WO2019078753A1 (fr)

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2009095603A2 (fr) * 2008-01-31 2009-08-06 Universite Claude Bernard Lyon I Dispositif nanoelectromecanique de generation de courant alternatif
WO2014142697A1 (fr) * 2013-03-11 2014-09-18 Oleynov Gennady Aleksandrovich Dispositif de génération d'énergie électrique
RU2014127358A (ru) * 2014-01-09 2015-04-10 Геннадий Александрович ОЛЕЙНОВ Электрическое устройство
WO2017116258A1 (fr) * 2015-12-28 2017-07-06 Геннадий Александрович ОЛЕЙНОВ Dispositif électrique

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2009095603A2 (fr) * 2008-01-31 2009-08-06 Universite Claude Bernard Lyon I Dispositif nanoelectromecanique de generation de courant alternatif
WO2014142697A1 (fr) * 2013-03-11 2014-09-18 Oleynov Gennady Aleksandrovich Dispositif de génération d'énergie électrique
RU2014127358A (ru) * 2014-01-09 2015-04-10 Геннадий Александрович ОЛЕЙНОВ Электрическое устройство
WO2015105430A2 (fr) * 2014-01-09 2015-07-16 Геннадий Александрович ОЛЕЙНОВ Dispositif électrique
WO2017116258A1 (fr) * 2015-12-28 2017-07-06 Геннадий Александрович ОЛЕЙНОВ Dispositif électrique

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