WO2004082118A1 - Generateur statique d'energie electrique - Google Patents

Generateur statique d'energie electrique Download PDF

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Publication number
WO2004082118A1
WO2004082118A1 PCT/IB2003/004284 IB0304284W WO2004082118A1 WO 2004082118 A1 WO2004082118 A1 WO 2004082118A1 IB 0304284 W IB0304284 W IB 0304284W WO 2004082118 A1 WO2004082118 A1 WO 2004082118A1
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WO
WIPO (PCT)
Prior art keywords
energy
referred
conductors
point
port
Prior art date
Application number
PCT/IB2003/004284
Other languages
English (en)
Spanish (es)
Inventor
Julio José MOROS RENGIFO
Original Assignee
Padilla Puello, Julia, Mercedes
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 Padilla Puello, Julia, Mercedes filed Critical Padilla Puello, Julia, Mercedes
Priority to AU2003271994A priority Critical patent/AU2003271994A1/en
Publication of WO2004082118A1 publication Critical patent/WO2004082118A1/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
    • H02N11/008Alleged electric or magnetic perpetua mobilia

Definitions

  • the present invention pertains to the generation and conversion of electric energy. Description of the Stake of the Technique;
  • the present invention consists of a stage of generating electrical energy, without moving parts, which is the electrical part, and is controlled by an electronic device.
  • the electrical part has a primary coil, with two circuit ports, wound in a special way, a device capable of causing an initial current in said winding and at least secondary winding.
  • the electronic circuit has two switches, governed by a digital controller and connected to the two primary ports.
  • FIG. 1 Represents an electromagnetic phenomenon, it is the principle of the process that is controlled in the device.
  • FIG. 2. Represent an extrapolation of the phenomenon of FIG. 1 to an arrangement of several electrostatic falls on a curved rail in a double winding.
  • FIG. 3. Illustrate the way in which the primary and secondary coils are arranged to favor the development of the process referred to in FIG. 1 and 2.
  • HG-4 It is a state diagram that represents a suggested switching cycle for the exploitation of the physical process.
  • FIGS is a schematic illustrating a way of carrying out the process of generating easrgy and is the most representative drawing of the invention.
  • the present invention consists of an electronically controlled electric power generation system.
  • this control system the main element to be described and explained is the exploited physical process.
  • This physical process is based on classical electrodynamic theory.
  • a pair of parallel rails ( ⁇ ) and of long surface tension serves as a frictionless support for a pair of electrostatic charges of equal value and opposite sign (Q ⁇ f), with equal resting masses (tac) That they have been motionless for a long time, at a same level of horizontal elevation (2).
  • An external mechanical system simultaneously applies each load a force, constant and of equal magnitude (13). causing unitbrme acceleration (a). Under these circumstances, non-static electric and magnetic fields are established, predictable by the delay potentials of Liénard - Wiechert.
  • the electric field developed for each of the charges is schematized by the field lines (E + , E " ) that affect each of them.
  • the fields that correspond to the radiation due to the accelerated movement of the charges have not yet reached them (curved lines).
  • the field that affects them is the one corresponding to the electrostatic value (straight lines) of the period in which they were in the rest positions (2) If, after the moment in which the radiation fields, propagating at the speed of the light, reach each of the charges, stop supplying external feerza, the forces caused by each of the radiation fields, will cause the fall system to accelerate spontaneously, due to a reciprocal effect of positive feedback.In this process, the total kinetic energy of the system ema will increase until speeds asymptotically approximate the speed of light.
  • FIG, 2 a single long rail (3), has been curved in a double closed loop, where the radial distance between each turn (e) is very small and the radius of the winding ( ⁇ j is very large.
  • This rail serves as support , without appreciable friction, to a large group of electrostatic drops, of equal value, sign and resting mass (q ⁇ , m).
  • the charges of one turn do not collide with those of the other
  • This rail has an electric charge distributed linearly in it, opposite the mobile carcass, in such a way as to neutralize the net electrostatic charge of the system. In a steady state, these charges will keep a uniform distance between them.
  • the equilibrium state consists in the movement of all the loads on the rail, with niform angular velocity ( ⁇ ).
  • a partition (4) cqeea the passage of the loads in a point of the outer turn, such that ge locates in a diametral position opposite to the crossing point of the turns (S) .
  • This action slows down with an intense acceleration of negative charges. If you accept that the collisions will be neatly elastic due to the increase in friction, at the point of the septum, all the kinetic energy becomes potential energy. This variation in kinetic energy will be considered as the first order: ⁇ ⁇ S_.
  • the braking radiation originated in the outer turn will have electric fields in which the lines will be combed towards the previous direction of the movement, which will cause an additional positive acceleration to the loads found in the internal return at this time, increasing its kinetic energy.
  • This increase in kinetic energy will have a much lower value than the variation in energy that occurred in the partition and will be considered second order: ⁇ ⁇ %.
  • Said increase in kinetic energy in the internal turn corresponds to a reduction in inertia mass! at rest of the loads of the outer turn.
  • a primary winding (7) is schematized, made of the wire of some good conductive material, (for example: Copper, etc.) that although it is ilastra of 4 turns, it can generally have an even number (2XN of turns).
  • Primary winding is made up of two windings, with half of the turns (N turns), and winding with opposite helidities (where "opposing hedidities" has the indicated direction e ⁇ m rervindicadón N ° 1). Close to this primary winding, it is provided Nao sesnadario, also i-echo the thread of some matter! conductor (S), which although illustrated with 3 vceltas, g ⁇ de generally have M turns.
  • S some matter! conductor
  • Another swátcfe is indicated in another t ⁇ rceital passage in ds secondary airdo (11), as third svátcn ⁇ (Sv / 3). they act as riele® (Like the one in FIG. 2), the peers or is of fall (electrons) replace the eletrostatic charge stations and the foiroa?
  • the psychopathic mass by The length of the wire is cajyfe & or, it will keep the inertia at xepo ⁇ o of the charges and the scfess take up the times of partitions that prevent the passage of current.
  • the electric comment defines the kinetic energy states of the porters load and voltage, de ⁇ e the states of potential energy.In this case it can be accepted with the aid of fixation, in resistor electrical life, but it is considered to be sufficiently small to allow the appearance of the unfavorable effects of the processes described in reference to FIG. 2.
  • the third swilche (Sw 3) is closed, it would increase the number of turns in the turns of the secondary conductor wire, due to the effects of electromagnetic flux, which must be modified by means of distributed parameters, which describe the propagadones of the Longitudinal voltage waves and comment along the conductive wires of each winding.
  • These increases in current (éH / dt) in the secondary represent a wear in the inner mass of the conductive material of the primary winding and are also increases in second order energy
  • This standard of service to the electrical service can be stabilized over time, if it is established for periods of time, in accordance with the regime of comnutadén al ⁇ ernaate between coughs d sv ⁇ tches of the primary (Sw% ⁇ w 2), until you reach voltage levels (e% ,%) peak in any of the two ports, reach an allowed ⁇ s ⁇ aao, and then open both commuters dmu ⁇ neneNonetheless, psqnniendo qns the comment dare ve debidooanente due to the paralyzed capscilancias, pro ias of te switches and ⁇ a geometry of! overwhelmed, as the primary current decays to a n ⁇ nio value.
  • the internal energy extracted from the inerdal mass of the primary conductor will correspond first to the internal heat that theism stores, coming from the environment and corresponds to the states of exdtadón of the constituent matter of the conductor; If all this caloric energy is extracted, demanding a high level of power, cooling the material near OJK. then and only then could the material decay, converting mass into energy through, for example, beta decay, into the constituent nuclei of the material, becoming another chemical sastanda. But when the heat returns, the process would be mostly reversible. In any case, the energy emitted by these decays is completely limited by the process, since it is the efforts that it imposes that cause a stable material to degrade, this being a safe and non-polluting process.
  • the environment can be protected from electromagnetic disturbances originating from the device, object of the present invention.
  • the wires of this cage are recommended conductors and also magnetic. But magnetic material lines should not be used in the winding of the coils of this device, since these materials would compete for the energy that is transferred to the secondary winding, due to Foucau ⁇ t's comments
  • a digitally controlled accreting circuit BA 2
  • a digitally controlled accreting circuit BA 2
  • This primary coil (20) ⁇ s compares sa ve ⁇ , of des fcs nas, with the same number of turns, similar geometric parameters and the same type of Mine conductor, arranged in ⁇ srie and rolled with opposite helicities, but how about md or It is the parasitic layers that appear in its discharges (12, 14) are minimal, distancing as far as possible the turns where the wave fronts travel at the same moment Longitudinal currents, originating from the same cir ⁇ ta ⁇ port - but saving net spades, taking full advantage of the Magic Unjo's own links.
  • the digital signals to the actuating circuit (B / A 2) are redbied by means of an optocoupler (19) that allows independent identification of the actuator circuits (D / A 1, B / A 2), which govern each of the primary coil switches (IS, 16). This practice is recommended when the control of the switches used, forces uro and galvanic drone control with the control unit.
  • the alternating formula procedure referred to in FIG. 3 transferring energy to the secondary winding (21), used to power an electric sesvkio (24), connected to the secondary port (17).
  • two auxiliary coils (22, 23) are used to power two rectifiers (DI, D2) which in turn will feed two independent voltage regulators (BC-BC 1 » BC-BC 2) that will be connected in parallel to two independent batteries (BAT 1, BAT2), which add to the actuator circuits (D / 1, B / A 2).
  • the parallel of the first battery and first converter ⁇ BAT 1, BC-DC 1) also feed the controller circuit (CONTROL) and my sensor / comparator circuit (a /) that deraa the system tfe control loop.
  • CONTROL controller circuit
  • my sensor / comparator circuit a /
  • the controller must also comply with the output voltages of the regulating circuits (BC-BC 1, BC-DC 2), based on its input voltages (e * ,, ⁇ 4 b), by means of a appropriate algorithm.
  • nn of a clamping (18) type Faraday cage is made, consisting of wires of a good ferromagnetic and conductive material and is placed at the distance of the bobbins, surrounding them, so that the ferromagnetic thread is oriented in the most perpendicular way possible respect to the threads of the four coils (20, 21, 22, 23). In this case, you must protect the environment from disturbances that originate from the coils, for which its connection to an adequate grounding system (25) is recommended.
  • the type of switch preferred to be nti ⁇ fe-sfo for this system (15, tea), is some type of relay with the capacity to operate and respond with high speed and high frequencies, so that the relays become conrorod for a totally new year. ugly feather to control.
  • the initial accelerations that have been introduced in the steps, which are commuted and that are key to the process will be c_da vs more earas.
  • the comeitial device more suitable for this purpose, is constituted by the field effect transistor, either type 3FET or MOSFET, since, moreover, these components are voltage controllable, and can be connected to digital circuits. However, these devices link the reference of the controller circuit with some point of the governed circuit.
  • the e ⁇ qnenjati ⁇ ada system for Fig. S has an urn series of state variables, some of which are effected ( ⁇ i ® , e_, i., S 3 , fe- e $, __-, ® ⁇ ⁇ » « 4 b I) psr the little cypress senscH comparator (A®) of the system, which informs the coniler (D) -T ⁇ & ⁇ IL) «pe es ⁇ ⁇ ss proceeds or not with the following state of connintaden of the system.
  • each state is represented by the digital values of the government signals: v ⁇ , vi, v2).
  • Each logical interrogation highlights the truth of a criterion ( € BIT I ?, CBIT 22), using the sensor / comparator circuit (A B) of FIO. 5.
  • Each state transition takes place at the moment when the permissive condition (CNB A, etc.) goes from being fidsa to being derta.
  • this corresponds to the transition flank of some logical variable, which at that time is observed by a flank detector, by means of the selection of that signal, with nn mn ⁇ tip ⁇ exor or similar dtcu ⁇ to.
  • This logical variable is obtained from an analog stage of the comparator sensor circuit (A B).
  • CRIT 1 ? Evaluates how the input voltages to the voltage regulators ⁇ 4a , e »), according to FIG. 5, have reduced their rip ⁇ ey to nn minimum, and if their DC values exceed an immune threshold. If this criterion is derto (T), it advances to the state 4 ⁇ S 4). according to connection G (CNB G). If it is false ( ⁇ ), it advances to state 2 (S 2), according to condition A (CND A).
  • CNB B It is tilling the variable e ⁇ , of FIG. 5, reaches nn first peak value.
  • CIÉ ⁇ ES It is derta cm & sla the conferencecMe ia, of FIG 5, is zero.
  • CNB F It is true when an optimal condition, obtained experimentally, enters the moment that certain criterion 2 is detected ( € BIT 2) and the moment that the variable i__ in FIG.5 is zero.
  • CND G It is true when variablea variable i & of FIG. 5, reaches an optimal minimum, obtained experimentally, so that its meaning is reversed with respect to the value that __> had, the last time it was passed through state 4 (S 4).
  • the system also controls other variables and circuits, such as voltage regulators, as well as the adaptation of the variables delivered to the third port (17), by means of a potentiating conditioner (not shown) that may involve the use of converters.

Landscapes

  • Charge And Discharge Circuits For Batteries Or The Like (AREA)

Abstract

L'invention se rapporte à un système commandé de génération d'énergie électrique et à un procédé correspondant dans lequel on exploite l'énergie interne (principalement thermique) du composant générateur, comprenant un enroulement primaire (20) enroulé de façon particulière, et deux bornes de circuit (12, 14) reliées à deux commutateurs (15, 16). Le procédé comprend une étape de commutation alternée entre les commutateurs, suite à l'application d'un courant initial au primaire (20) de manière à provoquer des séries incrémentales de pics de courant, l'énergie étant transmise par induction à une charge électrique reliée à un enroulement secondaire.
PCT/IB2003/004284 2003-03-14 2003-09-08 Generateur statique d'energie electrique WO2004082118A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AU2003271994A AU2003271994A1 (en) 2003-03-14 2003-09-08 Static electric power generator

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
VE40103 2003-03-14
VE00401 2003-03-14

Publications (1)

Publication Number Publication Date
WO2004082118A1 true WO2004082118A1 (fr) 2004-09-23

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Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/IB2003/004284 WO2004082118A1 (fr) 2003-03-14 2003-09-08 Generateur statique d'energie electrique

Country Status (2)

Country Link
AU (1) AU2003271994A1 (fr)
WO (1) WO2004082118A1 (fr)

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3610971A (en) * 1969-04-15 1971-10-05 Electrodynamic Gravity Inc All-electric motional electric field generator
DE4307106A1 (de) * 1992-01-02 1994-09-08 Juergen Blum Strom-Generator (5) und Transformator (5) mit radioaktiver Sekundärwicklung

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3610971A (en) * 1969-04-15 1971-10-05 Electrodynamic Gravity Inc All-electric motional electric field generator
DE4307106A1 (de) * 1992-01-02 1994-09-08 Juergen Blum Strom-Generator (5) und Transformator (5) mit radioaktiver Sekundärwicklung

Also Published As

Publication number Publication date
AU2003271994A1 (en) 2004-09-30

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