BR132012014553E2 - Earth's electron pickup - Google Patents

Abstract

Electron pickup from the earth. The invention relates to an electromagnetic device comprising two coils (1 and 2) interconnected by conductive member (10) interconnected to the ground loop for the technical purpose of capturing earth electrons (earth energy) for generating electric current or heat generation and can be used for various technical-electrical purposes in electrical machines. By "electric machines" is meant electric, electro-electronic, static machines such as transformers and reactors as well as rotating electric machines such as synchronous machines, as well as double-feed machines, and application of synchronous cascade current rectifiers. , external pole machines, synchronous flow machines, alternating current machines or direct current, single phase, two phase or three phase machines for consumption or generation of electricity, in low, medium or high voltage.

Description

Certificate of Addition of Invention for “EARTH ELECTRONIC CAPTURE” PI PI 10 Certificate of Invention of Invention 2012, 000838 6, deposited on 13/01/2012 This Certificate of Addition refers to the improvement of the invention described in said PI BR 10 2012 000838 6 instantaneous electron capture power generation device comprising a coil (1) interconnected with another coil (2) or the electromagnet (s) and one or more conductive link (s) ( (8) (9), which in turn shall be interconnected to the grounding loop by the grounding conductor member (10). The first improvement concerns grounding that may be replaced by an isolated core or any other type of conductive element that performs the grounding function or any other negatively charged body that releases electrons. If the grounding loop is replaced by any other type of conductive element that performs the function of grounding, the neutral may replace the grounding or interconnect with it when the conductor is negatively charged for the collection and generation of electric current or for low, medium or high temperature heat generation. The second improvement relates to another form of connection which consists of directing the return of the consumed energy consumption of the load to the grounding grid that is interconnected to the generating source, captor, which can thus be reused by feeding another series load again. with ground as neutral, and the conductive member (10) connecting the grounding loop to the sensor can be interconnected to the load output and used with a function other than ground, the neutral function. Neutral may replace grounding when the conductive member (10) is negatively charged. When the conductive member (10) is positive - this is because the grounding conductive member (10) is disconnected by interrupting the supply of electrons - by connecting a series charge, the coils (1 and 2) and the conductive member part (10) which are interconnected to the coils (1 and 2) become positive, thus any load can be connected using the positive grounded or neutral side. The third improvement concerns the connection of the pickup coil (s) (1 and 2) to the grounding loop, which must be made with bare or insulated copper conductor member (10) or any other type of metal. suitable to be connected with the interconnecting conductor link (s) (8 and 9) of the coil (s) (1 and 2) preferably positioning close to any coil, improving the connection of the conductor member (10) interconnecting with the coil (1 or 2) to the grounding loop that can be made, without the use of the knot, by approaching or by direct or through connection, connectors, terminals, busbars or any other type of connection method. The fourth improvement relates to another form of connection that constitutes the coil conductor link (s) (8 and 9) of the coil (s) (1 and 2) that can be biased with voltage. different or equal to the voltage of the coil (s) (1 and 2) or to the same voltage as the coil (s) (1 and 2) or to the conductor link (s) (8 and 9) of the coil (s) (1 and 2) may be powered, polarized with the voltage of another power supply, and that voltage may be less than or greater than the voltage of the () s) (1 and 2) in direct current with alternating CDV, CCV / CAV, alternating with continuous CAV / CDV, CCV, alternating current with alternating CAV / CAV or direct current with continuous CDV, CCV / CDV, CCV, in any voltage from 0.10 V to thousands of hundreds of KV or more than 1000 MV and may be higher or lower than these voltages. The fifth improvement concerns the constructive part of the pickup that may use superconducting materials for the best electron capture performance, superconducting coil (s) (1 and 2) with superconducting electromagnets, or / with superconducting inducers, or / with superconducting magnets , superconducting wires and cables on the interconnecting conductor link (s) (8 and 9) of the coil (s) (1 and 2). The sixth improvement refers to the protection of the captor, which must be protected, installed inside closed or open box or without box, and can be any type and shape of enclosure (box) of any kind of protective material, always complying with the norms. Techniques refer to the degree of protection of electrical equipment, depending on the environment and the supply and pickup voltage to be used for use in aerial, ground, underground, submerged installations for indoor or outdoor use.

While the present Certificate of Addition has been described with reference to the preferred embodiment and practical applications thereof, it is apparent to those skilled in the art that a variety of modifications and changes may be made without departing from the scope of the present invention which is intended to be defined by the appended claims.

It will be understood that each of the elements described above, or two or more together may also find a useful application in other types of methods and effects which differ from the type described above.

Claims (9)

1) “EARTH ELECTRONIC CAPTOR” refers to an electrical device, characterized by being an electromagnetic instantaneous electron capture power generation device comprising at least one coil (1) interconnected with at least one other coil (2). ) or the electromagnet (s) or inductors and at least one interconnecting conductor link (8) and (9), which in turn should be close to the electromagnetic field produced by the coils (1) and (2) the conductive member of the grounding mesh (10), with the technical objectives of capturing electrons from the earth to capture electric current 2) “EARTH ELECTRONIC CAPTOR” refers to an electromagnetic instantaneous electron capture energy generation device comprising at least one coil (1) interconnected with at least one other coil (2) or the electromagnet (s). ), and at least one interconnecting conductor link (8) and (9), which in turn should be close to the electromagnetic field produced by coils (1) and (2) to the grounding conductor member (10), FEATURED In order to generate and transmit heat through the interconnecting link (8) and (9), the amount of conductor turns, interconnecting link in the coils (8) and (9) must be increased, and adjusted to the thermal insulation of the shields. electrical circuit components to generate the desired temperature. 3) “EARTH ELECTRONIC CAPTOR” according to claims 1 and 2, characterized in that the grounding may be replaced by an insulated core or any other type of conductive element that performs the grounding function or any other body that is negatively charged that releases electrons. 4) “EARTH ELECTRONIC CAPTOR” according to claim 1 CHARACTERIZED for directing the return of the consumed energy consumption of the load to the grounding grid that is interconnected to the generating source, captor, which can be reused by feeding another load in series. with ground as neutral, and the conductive member (10) that is connecting the grounding loop to the sensor can be interconnected to the load output and used with one more function than ground, the neutral function, the neutral can replace the grounding when the conductive member (10) is negatively charged. 5) “EARTH ELECTRONIC CAPTOR” according to claims 1 and 2 CHARACTERIZED because the connections of the sensor coils (1 and 2) to the ground loop must be made with bare or insulated copper conductor member (10) or any other suitable type of metal, which should be connected with the conducting link (8 and 9) of the coils interconnection (1 and 2), preferably positioning close to the coil (1 or 2), improving the conductive member connection (10) interconnecting the coil (s) (1 and 2) and the grounding loop that can be made, without the use of the node, by approach or by direct connection, with solder, connectors, terminals, busbars or any other type of connection method. 6) "EARTH ELECTRONIC CAPTOR" according to claims 1 and 2, characterized by another form of connection which constitutes the interconnecting conductor (s) (8) of the coil (s). (1) and (2) may be biased with voltage equal to or equal to the voltage of the coils (1 and 2) or with the same voltage as the coils (1 and 2) or the link (s) ( (s) (8) and (9) interconnecting conductors of coils (1 and 2) may be fed, polarized with the voltage of another power supply, and that voltage may be less than or greater than the voltage of coils (1 and 2). ) DC alternating current with CDV, CCV / CAV, alternating with continuous CAV / CDV, CCV, alternating current with alternating CAV / CAV, or direct current with alternating CDV, CCV / CDV, CCV at any voltage of 0.10 V to thousands of hundreds of KV or more than 1000 MV and may be higher or lower than these voltages. 7) "EARTH ELECTRONIC CAPTOR" according to claims 1 and 2. CHARACTERIZED for using superconducting material for the best electron capture performance, superconducting coil (s) (1 and 2) with superconducting electromagnets, or / with inductors. superconducting, or / with superconducting magnets, wires and superconducting cables on the interconnecting conductor link (s) (8 and 9) of the coil (s) (1 and 2). 8) “EARTH ELECTRONIC CAPTOR” according to claims 1 and 2, characterized in that it is protected, installed in a closed or open box or without box, and can be any type and shape of enclosure of any kind of material. protection, always complying with the technical norms that refer to the degree of protection of the electrical equipment, according to the environment and the supply and capture voltage to be used for use in aerial, underground, underground, submerged indoors or outdoors. 9) "EARTH ELECTRONIC CAPTOR" according to claims 1 and 2. CHARACTERIZED by the fact that when the conductive member (10) is positive - this is because the conductive member (10) is disconnected by interrupting the supply of electrons - through When a load is connected in series, the coils (1 and 2) and the conductor member part (10) which are interconnected with the coils (1 and 2) become positive, so that any load can be connected using the positive grounded part. or neutral.