RU2004115383A - METHOD V.F. CRACK OF OBTAINING AN ALTERNATIVE SOURCE OF PRODUCTION OF ELECTRIC ENERGY AND ITS DEVICE FOR IMPLEMENTING THIS METHOD - Google Patents

Claims (2)

1. A method of obtaining an alternative source of electric energy production, which consists in the fact that to carry out electricity production in an alternative way, a set of properties and phenomena associated with magnetic interaction is used, which on a macroscopic scale appears between magnets, i.e. bodies having a magnetic moment, and this interaction is carried out by means of a magnetic field, which is significantly enhanced by supplying the magnetic poles of the magnets made of a ferromagnet, which are able, in particular, to repel the same magnetic poles, covering the conductive winding, while as an alternative source of energy for electricity production uses the working fluid itself, in which ferromagnets interact with the same magnetic poles rotor and stator magnets, as a result, the rotor acquires an inertial, rotational motion, and the synchronous transmission of rotation from the rotor shaft to each stator ferromagnet shaft is provided by means of a rotational motion transmission mechanism, for example, gear, or chain, or belt, with such a calculated angular velocity, with the help of which the maximum interaction of the magnetic moments of the magnetic poles of the working fluid, in particular, the ferromagnets of the rotor and stator, is carried out, with each subsequent interaction with the same magnetic poles of the rotor and stator ferromagnets, an inertial rotational motion of the rotor is given an additional angular acceleration pulse, as a result, the rotational speed of the working fluid is stably increased, while the synchronous rotational motion of the rotor and stator ferromagnets in a magnetic field interacts, and electromotive electromagnets are induced in the covering conductive windings force - EMF, which is then included in total on the circuit load consumption in the grid. 2. A device for producing an alternative source of electricity production consisting in the fact that in order to obtain an alternative source of electricity production, it contains a working fluid — a magnet generator made of two blocks — specifically, a rotor and a stator, which can interact with the same magnetic poles in the synchronous process rotational motion, by means of non-contact proximity to a minimum short distance, while the rotor is made of a ferromagnet (magnetic gland nyak - Fe ² + Fe ^{2 3} + O ⁴ ) in the form of rods, for example, of square cross section, equipped with a covering conductive winding, perpendicular to each other and fixedly attached to the rotor shaft, with opposite poles pointing symmetrically in opposite directions, with the rotor shaft both the end sections are pivotally mounted in the support trunnions of the stator housing, which is also permanently attached to the bed and then to the foundation, while at one end of the rotor shaft, the collector structurally combined with the rotor, and fixed brushes adjoining the collector that slide along the conductive plates connected to the rotor winding, while at the other end of each rotor shaft is located and fixedly attached rigidly to the transmission mechanism of the rotational movement, for example, gear, or chain, or belt, from the rotor shaft, on each shaft of the stator ferromagnets, with the possibility of changing the angular velocity of the stators ferromagnets, with such a design that the simultaneous convergence of the magnetic poles rromagnets, rotor and stator to a contactless short distance, had the maximum effect of the magnetic moments of the magnetic poles of the ferromagnets of the working fluid during synchronous rotational motion, while the stators of the working body of the magnetogenerator are located on the stator housing and correspond to the number of rotor magnetic poles made of a ferromagnet (magnetic iron ) in the form of a rod, for example, of square cross section, equipped with a female conductive winding, attached to the shaft it is clear that in this case, the end sections of each shaft of stator ferromagnets are pivotally mounted in the support trunnions of the stator housing, and the stator housing is structurally connected inseparably rigidly to the bed, and then to the foundation, as a result, it is such a structural and technical solution to the problem expressed in one-piece rigid emphasis and then rigidly absorbing the magnetic moment of the magnetic pole of the stator ferromagnets and ensures the inertial rotational motion of the rotor by the mutual repulsion method of the same name with magnetic poles having an infinite degree of freedom of rotational motion in the vertical plane, while collectors are structurally integrated with the rotor at one end of each stator shaft, and fixed brushes adjoin the collector, which slide along the conductive plates connected to the stator winding and which are then connected in total to a single grid with the rotor and output to the load circuit, while on the other end of each shaft of the stator ferromagnets there are many rigidly driven adaptations of the mechanism for transmitting rotational motion from the rotor shaft to each stator ferromagnet shaft, for example gear, or chain, or belt, moreover, the diameters of the driving and driven devices, for example gears, are made in such a ratio that their angular velocities were able to provide simultaneous rapprochement by the same poles of the same name over a minimum short distance, in order to ensure maximum interaction of the magnetic moments of the magnetic uss of the working fluid, in particular, to ensure stable synchronous rotational motion of the working fluid of the magnetogenerator, while the working fluid of the magnetogenerator, specifically, the rotor and stator provided with a female conductive winding, can operate both in the generator mode and in the engine mode, moreover, when the working fluid of the magnetogenerator, specifically the rotor, and the stator are not equipped with a female conductive winding, it can only work in motor mode and may be called a magnetomotor.