WO2012096592A1 - Procédé pour créer un effet d'action pondéromotrice et propulseurs à « annihilation » - Google Patents

Procédé pour créer un effet d'action pondéromotrice et propulseurs à « annihilation » Download PDF

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Publication number
WO2012096592A1
WO2012096592A1 PCT/RU2011/000839 RU2011000839W WO2012096592A1 WO 2012096592 A1 WO2012096592 A1 WO 2012096592A1 RU 2011000839 W RU2011000839 W RU 2011000839W WO 2012096592 A1 WO2012096592 A1 WO 2012096592A1
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energy
quarter
magnetic
electric
current
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PCT/RU2011/000839
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Russian (ru)
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WO2012096592A8 (fr
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Владимир Феликсович СОКОЛОВ
Владимир Иванович БЫКОВСКИЙ
Дмитрий Семенович СТРЕБКОВ
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Закрытое Акционерное Общество "Техмаш"
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Priority to RU2015105124A priority Critical patent/RU2015105124A/ru
Publication of WO2012096592A1 publication Critical patent/WO2012096592A1/fr
Publication of WO2012096592A8 publication Critical patent/WO2012096592A8/fr

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    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02NELECTRIC MACHINES NOT OTHERWISE PROVIDED FOR
    • H02N99/00Subject matter not provided for in other groups of this subclass

Definitions

  • Field of technology general engineering, drives, propulsion systems, propulsion systems, converters.
  • inventions are intended for (implementing and regulating) converting propulsion energy into usable energy that provides movement.
  • the main provisions of the present invention can be used to create and construct engines, as well as in the development of principles, methods, circuits, processes, devices, means of distribution: energy and (or) signals, information, potential.
  • the present inventions do not obey the third law of Newtonian mechanics, the Gauss potential theorem, cannot be described by the Maxwell equations of the electromagnetic field, do not obey Ohm's law and the Joule law, Planck’s law of energy distribution in the spectrum of free charges, are not covered by Hertz’s experiments, are not based on the axiomatic base of the physical sciences (Einstein's postulates, etc.), etc.
  • a vacuum tube having (as an option) a toroidal configuration is located along the power element of the propulsion structure made in the form of a metal conductor with an active electric current of conductivity ij, or any highly conductive conductor, superconducting coil or any other conductive medium (metal, electrolyte, gas plasma) with current; either a beam of charges and / or a beam of other charged particles, for example, an electron beam acts on a permanent magnet, an electromagnet, a ferromagnet, or a dielectric.
  • the magnetic field H of the current in the conductor acts on individual beam electrons “flying” in a vacuum tube (or in a rarefied gas), which are affected by the Lorentz force always directed perpendicular to the plane in which the directions of the magnetic vectors are induction and velocity about electron propagation. This means that it is simultaneously orthogonal to each of these vectors. Consequently, the Lorentz force, without changing the numerical value of the charge velocity, cannot change the energy of a charge moving in a magnetic field N.
  • the momentum (full mechanical momentum) of electrons incident on a collector of opposite polarity can be neglected.
  • only one Ampere magnetic force F, which is actually applied to nothing, is significant, which is applied to a power element with current i ⁇ .
  • the method of creating electromagnetic traction can also be implemented in a general scheme in which electrons (beam) or other charged particles (and (or) current) are injected tangentially to a coil or an electromagnet.
  • the vacuum current (energy released in the form of current) with its field should act on the power element of the propulsion structure.
  • Electromagnetic traction without rejection of the reactive mass is created due to the uncompensated force impact of the current of this electron vortex in a vacuum and the power element of the propulsion structure.
  • the known method has the following main disadvantages: it is difficult to realize a resonant effect, characteristic of strong energy exchange; limitations of mechanical impact, fundamentally associated with significant losses of active energy, which is lost on the heat generated by the electrical conductivity currents dissipated in the host medium; the need to use evacuation, sensitivity to shocks, shocks and vibrations, etc .; the possibility of complex miniaturization is limited; the method, as a whole, is not intended for general engineering use; low order of magnitude of the magnetic force of the mechanical effect of the magnetic fields of the currents with the Ampere law, which is much (much) less than the level of electrostatic interaction of electric fields using the Coulomb formula, and the mechanical interaction does not allow due effect.
  • the presence of an external magnetic field determines the environmental danger of using the electromagnetic traction method.
  • the source of energy on our planet is believed to be the Sun.
  • About 10 Joules of solar energy falls to the Earth per year — a thousand times more than what civilization is now consuming.
  • the daytime Sun at its zenith is one of the strongest light sources, however unpolarized, the so-called natural light.
  • the intensity of solar radiation at sea level is about one kilowatt per square meter.
  • the aim of the invention is to get rid of these drawbacks, and also to help technology lovers consciously approach self-manufacture and design to increase the efficiency of using the following advantages of engines.
  • the electric field can be excited not only by electric charges, but also by changes (unevenness, for example: in the vicinity of the “inhomogeneity” of the bulk energy density; “spatial” “inhomogeneity” of the standing wave field; distortions; in the vicinity of the local “inhomogeneity volumetric energy density; for example, in the vicinity of a nonmagnetic gap cops with high magnetic permeability, etc.) of the magnetic field — that’s the whole phenomenon.
  • the process is based on the phenomenon of resonance during magnetization reversal of magnets and (or) alternating polarization of dielectrics.
  • a non-linear circuit element is typically an inductance.
  • the operating frequency values from the range of 0 Hz ... 3 ⁇ 10 15 Hz and more are used.
  • the optimum operating frequency lies mainly in the range of 500 Hz ... 300 kHz.
  • the gap (or gap, joint, “seam”, heterogeneity), violation of the integrity of the core (magneto-wire), the gap at the junction of adjacent parts of fragments (magnetic cores) of almost a closed (or slotted) core, separating parts of the core with high magnetic permeability made of ferromagnetic, magnetodielectric, etc. material filled with non-magnetic material (substance, system, medium) (see Fig. 1.), and the gap can be filled with a gasket (interlayer) of dielectric material fashionable complex dielectric constant (or from a dielectric with high dielectric constant).
  • the energy density in the core is inversely proportional to the magnetic permeability ( ⁇ ) of the material, so most of the energy is localized in the non-magnetic gap. neighborhoods of those points of a strong field (flow) at which it vanishes (a node or a minimum decreases). In such areas (magnetic field nodes), thin so-called neutral “current sheets” separating magnetic fields of the opposite direction. In these current layers there is a process of “annihilation” (“annihilation”, “disappearance”) of magnetic energy (annihilation of the magnetic field), i.e. its release and transformation into other forms. In particular, strong electric fields appear in them, accelerating the charged "particles".
  • an essential feature of the considered set of phenomena is that the arising electric (electro-magnetic) field, for example, spherical or cylindrical, etc. the electric component (ie this current) differs from the “generally accepted” vortex and potential types of fields, strictly speaking, is not electrostatic, i.e. it can lead to the emergence (leads to the occurrence) of an “electromotive force” and is able to act on electric charges, accelerate charged particles, and act on electrically charged objects.
  • Magnetic clumps can be very complex and consist of ensembles of elementary clumps, while remaining non-radiating. Rotating elementary bunches of magnetic flux are mutually permeable and can be combined until the axes and planes exactly coincide, etc. Moreover, if we form another magnetic field of the same intensity, but with the opposite phase, then the total (total) magnetic field will become equal to zero; magnetic field lines and local magnetic lines of force cancel each other out, multiplying the intensity of the electric effect. Therefore, in particular,
  • a rotating (committing arbitrary motion) magnetic field in particular, similar to the field of a rotating permanent magnet, is a self-sufficient field-forming factor, independent of the presence-absence condition of a (test) positive charge, which should distort (“deform”) the enclosing “space” ".
  • This induced electric field observed in the macrocosm also takes place in the microcosm.
  • the energy of this induced electric field will be determined both by the magnitude of the magnetic field (i.e., the energy stored in it) and the mechanical energy contained in an arbitrary relative motion (energy of motion, flow through space, energy of rotation, etc.) of this magnetic fields.
  • the magnitude of the magnetic field i.e., the energy stored in it
  • the mechanical energy contained in an arbitrary relative motion energy of motion, flow through space, energy of rotation, etc.
  • the electric field induced in the enclosing “space” is independent of time.
  • This induced electric field generated by the magnetokinematic method can be constant in time both in magnitude and in direction, that is, it fully corresponds to the concept of “electrostatic”. In this induced electric field is the motion of gii.
  • the negative and positive external induced electric field is also due to two possible directions of rotation of the magnetic field relative to the orientation of the magnetic induction vector: clockwise and counterclockwise.
  • clockwise and counterclockwise When the sign of the angular velocity of the magnetic field changes, the possible lines of force retain their configuration, but the components of elementary electric tension tangent to them change direction in the opposite direction, without changing their absolute value.
  • the set of phenomena noted here can be obtained using alternating magnetic (electromagnetic) fields.
  • this energy should not be identified with “reactive electromagnetic energy”, that is, with energy of non-electric origin alternating from magnetic to electric, and vice versa.
  • An inductive source of a magnetic field is a coil, a frame, or a solenoid, or an inductance coil in the form of a plane arithmetic (Archimedean) spiral, Helmholtz rings, etc., with current.
  • the physical analogue of an inductive radiation source (emitter) of an induction (induced) electric component is: a current conductor or a single or multi-turn toroidal inductor with a certain free opening area (except for a ring one, cores and other configurations can be used) with magnetic current (moving magnetic field), for example: a toroidal solenoid, i.e. single-row toroidal inductor made in the form of a single-layer resonant moderator, along the turns of which a current flows, for example, an alternating or (and) pulsed or (and) harmonically varying current.
  • a coil may also be partitioned.
  • One of the promising designs providing an increase in the sensitivity of this system is distinguished by the presence (application) of the axial core of a high-frequency transformer or a spiral quarter-wave resonator with a large modulus of the complex dielectric constant.
  • This design can be performed in two versions: in one, the axial core is placed (located, inserted) in the opening of the toroidal inductor along its axial line, and in the second, the inductor is placed inside the axial core.
  • the terminals of a high-frequency transformer and a toroidal inductor that operate simultaneously can be connected to two separate power sources (generators) or one.
  • a high-frequency transformer, a quarter-wave resonator, as well as an inductor can be connected to a power source in an asymmetric circuit.
  • the absorbing load (energy absorber) of the coil (screen) of the secondary winding of the inductance coil of the electric resonant "transformer” it is also possible to use quarter-wave frequency transformer or electric spiral quarter-wave is a new resonator.
  • Tesla resonant "transformer" generators can create a current in an open single-conductor circuit between such a generator and the load, which can vary in any part of the circuit and in different turns of the coil local values, including zero.
  • Current in different parts of the circuit and in different (for example, adjacent) turns of the coil can be directed in opposite directions.
  • the current can be formed (created) by charges of different, negative and positive signs.
  • Magnetic fields complex magnetic moments of currents
  • Neumann the physics of energy exchange through potential (and the transfer of energy, signals, information) with superluminal speed and, where: 0 ⁇ ⁇ Ltd. induced or induced by electric induction or processes (quantum phenomena) of magnetoelectric induction, fundamentally differs from the “mechanism” and physics of the propagation in a homogeneous medium of non-electric energy (and information) of plane transversely polarized traveling light (electromagnetic) waves of an alternating electromagnetic field, which contain At only mutually electric and magnetic fields are interconnected, but not an excess charge of the same sign (not potential).
  • the carrier element of the propulsion structure (the area of application of traction or ponderomotive repulsion) is either a lining system (“electrode” - screen) or a charged surface is the working surface at the end of a high-frequency quarter-wave transformer (frequencies to high values of “variable” potential, static electric field) or an electric spiral quarter-wave resonator [8, 9], or a dielectric coated with a layer (film, etc.) can be used as a supporting element of the propulsion structure ctric material (or (and) substance, or (and) medium) or used directly conductive or conductive convex-flat or convex (outer) surface of the (inner) lining of a spherical (or cylindrical (for example, 2 orders of magnitude), disk-shaped, dome-shaped , truncated spherical, part of a sphere, ball, toroid or the like) of a capacitor (capacity) or battery, as an option touching the surface at the end of this
  • An electric spiral quarter-wave resonator (spiral waveguide with electric distributed parameters L, C, R, deceleration coefficient K 3 ) is performed on a rod (washer, disk, etc.) or frame (axial core) in the form of a single-entry single-layer cylindrical spiral winding in the form of a single-layer resonant moderator with a geometric and electric length such that at the resonant frequency, taking into account the deceleration for the electromagnetic wave and the capacitance of the capacitor on the winding along the axis of the rod about a quarter of the wavelength fit.
  • the high-voltage microwire is wound round to round without gaps between the turns, in one layer along the entire length of the rod of dielectric material with a large modulus of the complex dielectric constant.
  • the resonator is connected to the generator according to an asymmetric scheme: the second clamp (the end of the resonant reactive coil of the generator located outside the coil) has a (localized) antinode or maximum current and the node (or zero or are at a small potential) of potential with respect to the ground, »To the common bus of the device (or (and) communicated with the primary oscillatory circuit, or remains insulated free).
  • the capacity for example, of the (inner lining) of a spherical (or cylindrical, etc.) capacitor in series with its winding.
  • the resulting capacitance (as with any series connection of capacitors) is less, due to which the natural frequency of the spiral resonator increases, and the wavelength corresponding to the resonance decreases.
  • the capacitor or accumulator is installed having a convex or convex-flat (outer) surface of the inner lining touching the working surface at the end of the electric spiral quarter-wave resonator: disk-shaped, truncated spherical, cylindrical (for example, made in the form of a cylindrical surface of the 2nd order), toroidal, etc.
  • the inner lining can be made in the form of a substrate, an interlayer, a sublayer with high conductivity in the dielectric material of the rod at the end of the resonator, for example, thread-shaped meniscus restricted 2
  • the sphere ary surfaces having the same direction of curvature.
  • a feature of a spiral resonator is the low phase velocity of the electromagnetic wave along the resonator, which is 10 2 ... 10 6 times less than the speed of light propagation in vacuum.
  • Such a resonator has a certain deceleration coefficient K 3 for an electromagnetic wave; therefore, the effective length of the conductor of the winding is not equal to its geometric length. This facilitates the construction of a quarter-wave resonator, since in
  • the geometrical length of the winding conductor and the cavity dimension are significantly reduced by 10 ... 10 times.
  • Voltage on capacitors (on the inner lining of the capacitor) at the end of this electric spiral quarter-wave resonator exceeds the voltage at its input of 10 ... several. thousand times and, if necessary, can reach more than 100 million volts.
  • An additional feature of a quarter-wavelength winding open from the side of the capacitor is its ability to operate in the energy pump mode with virtually no energy loss, followed by the release of stored energy in a very short period of time.
  • the radiation of the energy of the inductor is focused along the axis of the coil.
  • a high-frequency quarter-wave transformer is an electric artificial “long” line (for example, a solenoid or a single-row inductance coil, which is made of a single or two-wire single-layer two-input (or multi-layer) for example, with a pair of coaxial inductance windings, each of which made in the form of a cylindrical spiral in the form of a single-layer resonant moderator with such a geometric and electric length that at the resonant frequency, taking into account the deceleration for electric About a quarter of the wavelength / 4 was laid on each coil along the axis of the coil along the axis of the coil, with one coil being made in the form of a left-handed cylindrical spiral with a left-handed direction of winding, and the second winding was made in the form of a right-handed cylindrical spiral with (opposite ) by the right-helical direction of winding (braid cross to cross), and the currents in the windings have opposite directions and opposite phases.
  • the high-voltage high-frequency quarter-wave transformer is also performed as a spiral quarter-wave resonator. Adjacent windings of a high-frequency quarter-wave transformer (resonator) are sequentially connected (out of phase) to a current source (generator) and load according to an asymmetric circuit.
  • a high-frequency quarter-wave transformer can also be performed by a group of threaded connections, for example, in the form of a pair of bolts with right and left threads in the form of a single-layer resonant moderator, etc.
  • the internal resistance of the power source must be consistent with the input resistance of the inductance coil (reactive coil, coil (screen, housing), shell, inductor, and also a high-frequency quarter-wave transformer) at a resonant frequency loaded by a wave impedance equal to (matched) its output impedance (its wave impedance) or at a resonant frequency loaded by an absorbing load (absorber energy) with the impedance consistent with the impedance of such an inductor.
  • a load resonant circuits tuned to the resonant frequency, electric lamps, and other energy absorbers can be used.
  • the radiation maximum of the induction (induced) electric component is directed along the conductor, and not isotropically in the directions perpendicular to the axis of the conductor, as radio waves propagate in the classical Hertz electric dipole in free space [3, Fig. 13.].
  • a single or multi-coil inductor through which current flows is an inductive (non-contact) electromagnetic radiation source (emitter) fields.
  • the charges Due to the fact that the charges are always striving to move away from each other as far as possible, they are distributed only on the convex (or convex-flat, etc. shape) of the outer surface (on the outside) of the inner lining (electrically conductive or conductive lining).
  • a capacitor with slightly different radii of curvature of the inner surface of the outer shell and the outer surface of the inner shell can be used [19].
  • protrusions or microroughnesses or nanoscale roughnesses for example, a wave-like relief, etc.
  • the protrusions of the relief may not be current emitters, since there is no effect of amplification of the electric field near the protrusion due to screening by adjacent protrusions (“comb effect”).
  • Field tension is a local concept and has a certain value at each point of “space”.
  • the external (shielding) lining (of a spherical or the like) of the capacitor communicates with the device’s common bus (“ground”), which has a (localized) antinode or current maximum and a potential node (or under a small potential, or having value close to zero, or zero potential).
  • ground common bus
  • the voltage transformation coefficient is expressed in terms of the complex propagation constant of the electromagnetic wave y, effective wavelength ZQ and input resistance z BX , and the length of the conductor (waveguide) 1 wound around the dielectric rod in the form of a single-layer resonant moderator as follows:
  • Conductive plates are made of a material (substance, medium) with high conductivity, for example, of an electrically conductive diamagnetic material: copper, silver.
  • an open electrostatic shield (external cover) can also be used, having a working gap or (and) consisting of two parts with high conductivity isolated from each other.
  • an open screen can also be used, for example, a screen of insulated coils of high conductivity (electrically conductive) material (substance) (for example, a metal tape of non-ferromagnetic materials), a toroidal (or a cylindrical or other) conductive screen (cover, casing, case, box, shell, “electrode”), consisting of two parts isolated from each other in the working gap (joint, gap, etc.), and the screen ( screens) or only one of the screen covers (layers) connected to a common bus (the "middle" point of the two secondary windings of the inductor having opposite winding directions or to the end of the primary coil of the resonant "transformer" of the device (circuit) ("ground”), which has the so-called antinode or maximum current and node ( zero) potential), for example, acting as a “grounded Faraday cage”.
  • a common bus the "middle" point of the two secondary windings of the inductor having opposite winding directions or
  • exciting (creating) a magnetic field (magnetic manifestation of an electromagnetic field) and these coils inductances can be made in an electrically insulating shell (in a container, case, casing, shield) made of electrically insulating magnetically transparent material (substance, medium) or dielectric magneto-transparent material (substance, medium), for example, from ebonite, fiberglass, transparent to radiation of a magnetic form of energy (magnetic manifestation of an electromagnetic field) with frequencies in the range containing the operating value of the resonant frequency and resistant to the action of an electric field, as well as for - cots can be immersed (the working gap is placed) in an electrically insulating magneto-transparent or dielectric magneto-transparent medium (substance, system, material), transparent for the emission of magnetic form s energy (magnetic manifestations electromagnetic
  • charges or other charged particles or quanta should be free.
  • the concentration of the induction (induced) electric (free ordinary) components reduce the field volume, provide an increase in its intensity by distributing the field in a relatively narrow volume (gap, strip, point).
  • a spacer (film, interlayer) of a dielectric material (substance, system, medium) with a small attenuation of electromagnetic radiation in it from an interval with operating frequency values and an electric field resistant to the action of a fluoroplastic can also be introduced into the working gap film, polystyrene or others.
  • the process should be distinguished from the process of creating known emission currents in dielectrics, for example, emission currents flowing through an insulator during tunnel emission, etc., which also does not require energy for heating the emitting electrode ”and does not face the problem of heat dissipation.
  • the action of the "power" element of the mover, the working gap, the inhomogeneity in the material (substance, system, environment) of the screen is based on the principle of "closure” of the power lines of the induction (induced) chargeless electric (“electrostatic") components of the electric field vector E of the inductive radiation source (emitter) in the wire yaschem (conductive) the screen material the electric induction.
  • the distribution of energy released in the working gap (concentrated in the vicinity of the gap, heterogeneity) in the conductive material (substance, system, medium) along the length of the screen conductor (coil) is proportional to the dielectric constant ( ⁇ ) of the filling material (substance, system, medium) the working gap depends on the impedance of the gap; therefore, most of the energy is concentrated in the working gap of the screen (coil) filled with a dielectric (substance, system, material, medium) with a small attenuation of the electro-magnet ny waves in it.
  • the impact is carried out using energy transfer of the potential (excitation quanta), and therefore, energy, signals, information induced or induced, or generated by electric induction and / or, for example, magnetokinematically [14], or (and) processes (quantum phenomena) ) magnetoelectric induction [18].
  • circuits circuits or (and) a circuit, sections of circuits, individual elements can be tuned into resonance: they realize (excite or (and) create) a resonance of currents and (or) a resonance of voltages, besides it can also be, if necessary , mechanical resonance was used (for example, mechanical resonance of the core magnetic cores; electrode, etc.).
  • the interaction is realized using the resonance of de Broglie phase “material waves”.
  • a new technical result of the claimed invention is the creation of a ponderomotive effect effect by (or (and): based on, using, due to, with the possibility of using) the conversion of the “magnetic” form of energy (energy: magnetic field (or fields ) or (and) magnetic flux, resulting magnetic induction, magnetostatic field, material substance in the “magnetic” form, magnetic manifestation of the electromagnetic field, etc.), as well as (as an option) the energy contained in an arbitrary relative motion and (energy: movement, flow through “space”, rotation, pulsation, etc.) of this “magnetic” form of energy (this electromagnetic field), and this is a magnetic (electromagnetic) manifestation (field component or components, or so on.
  • .) may be a moving field of changing localization or (and) changing concentration) or (and) a moving magnetic (electromagnetic) field like a traveling wave, a magnetic (electromagnetic) field with the effect of relative mobility (energy) into the energy of electrical manifestation (induced either generated, or induced, or excited by the electric (“electrostatic”) (chargeless “pendant”) components of the electromagnetic field that can lead to the emergence of an “electromotive force” and can act on electric charges, accelerate charged “particles”, act on electrically charged objects, the electrical form of energy released in the form (by) current (or currents), the implementation of resonant interaction (impact) and (or), as an option, with the possibility of energy exchange of realization in h-actions by means of potential (excitation quanta) or (and) charges, realization of resonant interaction (action), alternatively, energy exchange, energy transfer by means of potential (excitation quanta) or (and) charges with an electric vector, energy, allocated in the form or by means of
  • the magnetic field (this is an electromagnetic field) can be (can be) a total (total, complex), that is, a field that is the result of addition (superposition) of fields (components) from several separate sources (emitters) of such “magnetism” - ma ”, while these magnetic (electromagnetic) fields (complex magnetic moments of currents) can be of the same intensity, but with opposite phases, they can be (between themselves and mutually) compensated (fully or almost completely compensated), so on a certain race the distance (for example, equal to a quarter of the wavelength ⁇ ) from the source (emitter) of such “magnetism” (or (and) from the system of radiation sources (emitters), in the particular case, from a spherical or (and) cylindrical, or ( i) etc. of the system of emitters) this total (total) magnetic field is either close to zero or compensated to a certain (required, permissible) level, to a certain given value.
  • the control of the movers can be provided by changing the magnitude of the relative velocity of the magnetic (electromagnetic) fields or (and) the mutual orientation of the fields, or (and) the frequency, or (and) the phase shift (phase difference ) supply currents, or (and) by changing the distance between structural elements, or (or) changing the magnitude of the developed voltage, or (and) changing (smoothly increasing or decreasing) the current, or (and) by changing the current density ( current c), or (i) changing the physical parameters of the circuit, or (ii) container, or (ii) a change in the gap, or (ii) by departing from the resonance, and the like. d.
  • the set of essential features characterizing the proposed technical solution can be repeatedly manufactured industrially in mechanical engineering on the physical material and technical basis of the prior art, repeatedly reproduced in radio engineering and electrical engineering, which allows us to conclude that the invention meets the criterion of "industrial applicability".
  • FIG. 1 The scheme of cutting into parts of the toroidal core is shown. Parts (magnetic wires) of an almost closed (split or fragmented) core can be unequal.
  • FIG. 2. shows a diagram of the mechanical effect of a uniform constant magnetic field of constant (or (and) pulsed) currents [20].
  • FIG. 4 The distribution of current density / and output potential U along a conductor (waveguide), wound on a dielectric “rod” of a quarter-wave transformer or resonator coil, is shown.
  • the invention operates as follows.
  • variable induced EMF of the excited induction (induced) chargeless electric (“electrostatic”) components of the stress vector are spherical or cylindrical, or (and) non-uniform, etc. the electric field E distributed in the vicinity of the working gap (gap, gap, joint, “seam”, etc.), heterogeneity, for example, violation of the integrity of layers (material, substance) with high conductivity acts on the system plates (“electrode” - screen) or on the surface of the supporting element of the propulsion structure, for example, on a high-frequency quarter-wave transformer (resonator) with the Coulomb formula.
  • F] is the force with which current ⁇ 2 acts on an element with current i ⁇ ;
  • the speed of the mover is not limited to the “time” factor of the propagation of electromagnetic energy (signal) of plane transversely polarized traveling light (electromagnetic) waves of an alternating electromagnetic field, which contain only interconnected and mutually electric and magnetic fields, but not an electric charge (not potential), determined by the static properties of the enclosing “space” (which in the SI system to the limit under the conditions of a void homogeneous medium coincides with a “positive” constant ⁇ 3 * 10 8 , has a phase velocity dimension: m / s ).
  • Electric power is used to power the propulsion.
  • the mover has the idea of using a system that will control machines without human assistance, and, consequently, the inevitable Communism is completely elementary.
  • the mover allows a large maximum number of inclusions.
  • the mover can be used for flying in outer space.
  • the mover is intended for general engineering applications.
  • the operational range of flight altitudes may be unattainable for existing types of air defense and missile defense.

Abstract

L'invention concerne le génie énergétique et les équipements électriques. Le propulseur à annihilation comprend une source de composante électrique induite (composante sans charge « de Coulomb ») d'un champ électromagnétique, un résonateur ou un transformateur quart d'onde possédant une connexion à une source de courant (une génératrice) dans un circuit asymétrique et/ou un condensateur (en forme de sphère, de disque, de coupole, de tore, etc.) et/ou un accumulateur. L'armature écran externe du condensateur et/ou l'écran du transformateur quart d'onde communiquent avec un bus commun.
PCT/RU2011/000839 2011-07-18 2011-10-31 Procédé pour créer un effet d'action pondéromotrice et propulseurs à « annihilation » WO2012096592A1 (fr)

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