Electric energy generation system with feedbackWO 2013104043 A1AbstractThe present invention relates to electric energy generation equipment comprising a basic circuit formed by a rectifier (10), for example, an AC/DC converter connected in series to an inverter (12), for example, a DC/AC converter, and a bank of batteries (13) connected in series between the rectifier (10) and the inverter (12). An electron capturing element (14), which can be either a free space electron capturing element or, alternatively, an earth electron capturing element, is connected in series to the basic circuit formed by the rectifier (10), the inverter (12) and the battery assembly (13). The bank of batteries (13) powers the basic circuit because it is connected to the system. Consequently, the inverter (12) converts direct current into alternating current and supplies this current to the electron capturing element (14). After receiving the electric current from the inverter (12), the electron capturing element (14) starts capturing electrons from the alternating current and powering the rectifier (10), which converts the alternating current into a direct current in order to recharge the bank of batteries (13) and power the inverter (12) which powers the electron capturing element, closing the feedback loop, and also providing electric energy for consumption by external loads.Description translated from Portuguese (Portugal)Descriptive Report of Patent for "SYSTEMSelf powered FOR ELECTRICITY GENERATION ".Technical FieldThe present invention relates to a device for generating electricity, in particular a self-powered equipment for generating electricity.Description of the Related ArtNumerous projects are the mechanisms for the generation of electricity based on electromagnetism, but they are all fundamentally related to the use of electromechanical devices and magnets, which, by their technical limitations of generating capacity and ecological implications, unfeasible using scale economic projects hitherto known.Obietivos the InventionThe present invention aims to contribute to the generation of sustainable energy, proposing a device capable of producing abundant electricity from a power consumption smallest initially provided by energy storage (battery bank), and later by the equipment itself, that generates electricity for consumption and external loads for your auto feed.The above objective and other objectives are achieved by the present invention through an apparatus that includes a basic circuit of a typical uninterruptible power supply of energy, known as the UPS device formed by a rectifier (AC DC converter) connected to a device inverter (inverter DC / AC) and connected to them, energy storage devices (battery bank); taking on this basic circuit one trap electrons from space (equipment as defined in Brazilian patent application No. BR1020120008378 of 13.01.2012) or, alternatively, a trap electrons earth (equipment as defined in Brazilian patent application No. BR1020120008386 of 13.01.2012) that the device receiving power inverter (inverter DC / AC), will generate electricity and power the device rectifier (AC / DC converter) that will power the device inverter (inverter DC / AC), which will keep feeding the trap electrons, ending the cycle of self-feeding, and also providing electricity to consumption of external loads.The self-powered system for generating electricity from the present invention can be fixed or mobile. It is fixed when using electron captors earth, connected to ground grid. He is mobile when using electron captors free space that capture electrons through their isolated nuclei.The self-powered system for generating electricity from the present invention can have a variety of modalities constructive - but all within the same inventive concept - since there are a variety of combinations made with the basic components (rectifier, inverter and batteries), the systems Uninterruptible power supply known as UPS, which may be used in constructing the apparatus of the present invention. Constructive modalities include single phase, two phase or three phase, any voltage and power.Brief Description of the DrawingsThe present invention will be hereinafter described with the aid of drawings, but which are not absolutely limiting where it can be observed other details and advantages of the present invention.The figures show:Figure 1 - shows a basic circuit system for self-powered electricity generation of the present invention;Figure 2 - shows a first embodiment of the constructive system for self-powered electricity generation of the present invention;Figure 3 - shows a second embodiment of constructive self-powered system for generating electricity from the invention of the present invention;Figure 4 - shows a third embodiment of the constructive system for self-powered electricity generation of the present invention; Figure 5 - shows a fourth modality of constructive self-powered system for generating electricity from the present invention;Figure 6 - shows a fifth embodiment of constructive self-powered system for generating electricity from the present invention.Detailed Description of the InventionThere are different ways of closing self-feeding cycle depending on the circuit structure. Such constructive arrangements are shown in figures 2 to 6, wherein the structure is maintained main circuit, which is an open and closed circuit generating electricity instantaneously.As shown in Figure 1, the self-powered system for generating electricity comprises a basic circuit consisting of a rectifier (AC DC converter) 10 which is connected in series with an inverter (DC / AC) 12 3 a bank of batteries that are connected in series between the rectifier 10 and the inverter 12. A trap electrons 14 - which can be a trap electrons from space (equipment as defined in Brazilian patent application No. BR1020120008378, from 13.01.2012) or, alternatively, a trap electrons earth (equipment defined in the patent Brazilian No. BR1020120008386 of 13.1.2012) - is connected in series to the basic circuit formed by the rectifier 10, the inverter 12 and the battery pack 13.When turned on the system, the battery bank 13 provides power to the basic circuit. Consequently, the inverter 12 converts direct current into alternating current and provides such a current to trap electrons 1. The trap electrons 14, after receiving electric current from the inverter 12, passes to capture electrons in alternating current and feed the rectifier 10 which converts alternating current into direct current to recharge the battery bank 13 and feed the inverter 12, which will keep feeding the trap electrons, ending the cycle of self-feeding, and also providing electricity for consumption of external loads.Thus particular, the rectifier 10 and the inverter 12, which initially received electrical current from the battery bank 13, started to use the current generated by the sensor of electrons. Thus, the supply of power from the battery bank 13 is switched to the power supply from the electron sensor 14, that is, the electron sensor 14 is supplying power, the feeding system itself, and providing in output port 18, electricity consumption for external loads.As can be seen in Figure 2, another embodiment of the system for self-powered electric power generation equipment comprising a circuit that includes a base of a typical uninterruptible power supply of energy, known as UPS formed by a battery charger (AC converter CC ) 21 connected to a drive device (inverter DC / AC) 23 and attached to them, devices accumulator (battery bank) 22 - this being the basic circuit together with other devices and connected to a trap electrons space 27 free (equipment as defined in Brazilian patent application No. BR1020120008378 of 13.01.2012) or, alternatively, a trap electrons land 27 (equipment as defined in Brazilian patent application No. BR1020120008386 of 13.01.2012), comprising Thus, the battery charger (AC converter CC) 21 is connected in series with the bank of batteries 22 connected in series with the inverter 23, which is connected in series with the phase transfer switch 24.1 at the connection point, which is connected at the connection point 24.1 the point 24.3 the connection itself phase transfer switch 24, connected in series to trap electrons 27 electrons, in parallel with the battery charger (AC / DC converter) 21, and this is parallel to the surge suppressor 25 defusing to the bonding points 24.1 and 24.3 of phase transfer switch 24 to connect the bonding points 24.3 and 24.2, and the connection point 24.2 is connected in series with the filter 26, which is in series with the surge suppressor 25, which is in parallel to the battery charger (AC / DC converter) 21, the battery bank 22, the inverter 23 and the connection point 24.1, which are in series with the transfer switch phase 24, which is in series with the connection point 24.3 and the electron trap electrons 27 which is in series with the output phase 28. In a constructive alternative for use in emergency situations where the system is no longer self-powered, the system may comprise a power input of an external power source, the interconnection point 29 to provide power to surge suppressor 25, which provides power to feed exit point 28 to feed external loads.The bank of 22 batteries supply power to the inverter 23 and inverter 23 converts the DC current into alternating current, which goes to feed the transfer switch 24. The transfer switch (24) is connected to the filter 26 and the sensor 27 electrons.After being fed, the sensor 27 is electron capture electrons in alternating current and feed the battery charger (AC / DC converter) 21, the filter 26 which is connected to the surge suppressor 25, which is connected to the transfer switch 24, which feeds the sensor 27, which feeds the battery charger (AC DC converter) 21, which is feeding the batteries and switching occurs by the transfer switch 24 when the surge suppressor 25 is powered, disarms the transfer switch 24 cutting off the supply of power from the batteries to the input of the supply of electric current electron sensor 27.When the electron sensor 27 is turned off, the transfer switch 24 back to the initial situation (point 24.1 and 24.3 on the point system to function as self-feeding.The electron sensor 27 provides power to the transfer switch 24 without interruption of power because the transfer switch 24 has been switched by the surge suppressor 25 which provides power supply for the system itself, that is, closing the cycle of self-feeding and supplying energy to the point of exit 28, which feeds the external loads.As shown in Figure 3, another embodiment of the self-powered system for generating electricity comprises a device that includes a basic circuit of a typical uninterruptible power supply energy, known as UPS, consisting of a battery charger (AC / DC converter ) 31 connected to a drive device (inverter DC / AC) 35 and attached to them, devices accumulator (battery bank) 32, and this basic circuit together with other devices and connected to a trap electrons space 37 free (equipment as defined in Brazilian patent application No. BR1020120008378 of 13.01.2012 or, alternatively, a trap electrons land 37 (equipment as defined in Brazilian patent application No. BR1020120008386 of 13.01.2012) comprising thus a bank of batteries 32 connected in series with the DC / DC converter 33, which is connected in series with the phase transfer switch 34 34.1 connection point which is connected in series to the connection point 34.3, which is in series with the inverter 35, which is connected in series with the sensor of 37 electrons, and 38 three-phase output, which is in parallel with the battery charger (AC / DC converter) 31, the rectifier 36 is in parallel to the battery charger ( AC / DC converter) 31 and in series with the phase transfer switch 34, the connection point 34.2, which is in series with the connection point 34.3, in parallel with 34.1 connection point, the connection point 34.3 is in series with the inverter DC / AC 35, which is connected in series with the sensor of 37 electrons, which is in parallel to the battery charger (AC / DC converter) 31, the battery bank 32, the standby DC converter / CC 33 and the point of attachment to 34.1.In a constructive alternative for use in emergency situations where the system is no longer self-powered, the system may comprise a power input of an external power source, the interconnection point 39 connected to the rectifier 36 which provide electrical power to the transfer switch three phase 34, the inverter DC / AC 35, which is providing electricity at exit 38, which is also the power point of the external load.The battery bank 32 provides power to the DC / DC converter 33, to feed the transfer switch 34.At this time, the transfer switch 34 does not switch because current receiving points 34.1 and 34.2 and simultaneously transferred to the electric current feeding point 34.3 inverter DC / AC 35, which when fed, converts the DC current in stream alternating, and provides AC for trap electrons 37.The rectifier 36 supplies power to the transfer switch 34 and the transfer switch 34 receives power from the batteries and inverter 33 that feeds the inverter DC / AC 35. At this time, the inverter DC / AC 35 goes to feed the sensor of 37 electrons, leaving the supply of energy from the batteries to the power supply for sensor, which shall provide power feeding the system itself.Thus, the sensor 37 starts to capture electrons in alternating current and passes to feed the battery charger (AC / DC converter) 31. The battery charger (AC / DC converter) 31 continues to supply power to the inverter (33), continuing the flow of energyAs can be seen in Figure 4, another embodiment of the system for self-powered electricity generation equipment that comprises a basic circuit of a typical uninterruptible power supply energy, known as UPS, consisting of a battery charger (AC / DC converter ) (A) connected to a drive device (inverter DC / AC) 42 and attached to them, devices accumulator (battery bank) 41, and this basic circuit together with other devices and connected to an electron captor free space 44 (equipment as defined in Brazilian patent application No. BR1020120008378 of 13.01.2012) or, alternatively, a trap electrons land 44 (equipment as defined in Brazilian patent application No. BR1020120008386 of 13.01.2012) comprising Thus, a battery charger (A) connected to a battery bank 41, which is connected in series with inverter 42 at point (B) which is in series to the point (C) of inverter 42 which is in series with the electron sensor 44, which is in series with the phase transfer switch 43 via the output connection point 45 three-phase load, the phase transfer switch 43 is in series with inverter 42 which is connected in series the (AC / DC converter) in paragraph (A) the battery bank 41.In a constructive alternative for use in emergency situations, in which the system ceases to be self-powered, the system may include a power input of an external power source, the interconnection point 46, and providing electricity output 45, which is also the feeding point of the external loads.The battery bank 41 provides power to the inverter 42 which converts the direct current into alternating current and feeds the sensor of 44 electrons.The transfer switch closes when the batteries need recharging.The sensor 44 captures electrons with alternating current, which feeds the transfer switch in one of his 43 points output load receiving alternating current, which becomes the input power. The transfer switch 43 feeds the inverter 42 and inverter 42 feeds the batteries, charging them and closing the cycle of self-feeding and providing power at the output 45, which is in series with the power input, which is also the power point of external loads.As can be seen in Figure 5, another embodiment of the system for self-powered electric power generation equipment comprising a circuit that includes a base of a typical uninterruptible power supply of energy, known as UPS, comprising a battery charger (AC converter / CC) 51 connected to a drive device (inverter DC / AC) 53 and attached to them, devices accumulator (battery bank) 52, and this basic circuit together with other devices and connected to an electron captor free space 56 (equipment as defined in Brazilian patent application No. BR1020120008378 of 13.01.2012) or, alternatively, a trap electrons land 56 (equipment as defined in Brazilian patent application No. BR1020120008386 of 13.01.2012) comprising Thus, a battery charger 51 which is connected in series with a battery bank 52, which is connected in series with the inverter 53, which is connected in series with the transformer 55 at its point C, which is in series with its point (B) which is in series with the electron sensor 56, which is in series with the battery charger 51 which is connected at the exit point load 58, with the entry point 59, which is in series with the phase transfer switch 54 in section 54.1, which is closed with 54.3 connection point, which is in series with the point (A) of the transformer 55 which exits at point (B), the points (A) and 54.3 as well as the parallel points 54.1 and 54.2, are all parallel to the battery 51, the battery bank 52, the inverter 53 and to the point (C) of the transformer 55.In a constructive alternative for use in emergency situations, in which the system ceases to be self-powered, the system may include a power input of an external power source, the interconnection point 59, that this interconnected key transfer 54 which delivers power on the output 58, which is the feeding point of the external loads.The battery bank 52 which provides power to the inverter 53, which converts the direct current into alternating current, feeding point (C) of the transformer, which comes out in paragraph (B) and paragraph (A) of the transformer.Paragraph (B) of the transformer feeds the trap that captures electrons 56 electrons in alternating current and feeds the battery charger 51, which feeds the battery bank 52.The battery charger 51 is connected in parallel with the transfer switch 54 via connection points 54.1 and 54.3, feeding point (A) of the transformer, which comes out in Section B. The point (A) of the transformer and the key transfer points 54.3 and 54.1 are in parallel to the battery charger 51, the battery 52 and the inverter 53 and to the point (C) of the transformer 55.The transfer switch 54, with the absence of electric current had always been linked in Section 54.2 and 54.3, when the transfer switch 54 is supplied with electric current, ever occurred to switching off the point with 54.2 and connecting the connection point that is 54.1 closed the connection point 54.3.The battery bank 52 only provides power to the inverter 53 when the transfer switch 54 is turned point point 54.3 to 54.2, that is, when the transfer switch 54 is not energized. The inverter 53, to receive electrical current from the batteries 52, transforms into alternating current that passes through the transformer 55 point (C) to the point (B), feeding the sensor of 56 electrons, capturing, generating alternating electric current that leaves the exit point 58 to the load input point 59. The entry point 59 is in series with the battery charger 51, and entry point 59 that provides the electrical current transfer switch 54 that switches the point 54.1 with 54.3 point, with this switching power supply leaves the assembly batteries, to supply energy electron sensor 56, which goes to supply power feeding system itself, closing the self-feeding cycle, which provides power at the output 58, which is the feeding point of the external loads.As can be seen in Figure 6, another embodiment constructive system for self-powered electric power generation equipment comprising a circuit that includes a base of a typical uninterruptible power supply of energy, known as the UPS device formed by a rectifier (AC converter / CC) 61 connected to a drive device (inverter DC / AC) 63 and attached to them, devices accumulator (battery bank 62, and this basic circuit together with other devices and connected to a trap electrons space 64 (equipment as defined in Brazilian patent application No. BR1020120008378 of 13.01.2012), or, alternatively, a trap electrons earth 64 (equipment as defined in Brazilian patent application No. BR1020120008386 of 13.01.2012) comprising Thus, delta converter (AC / DC) 61, which is connected in series to a battery bank 62, which is connected in series with the inverter (DC / AC) 63, which is in series with the electron sensor 64 which is connected in series with the delta converter (DC / DC) 61 whose part (AC) is in series with the alternating current (AC) inverter 63 via a connection point 65 which is in parallel with part (DC) converter delta 61 with the battery bank 62 and Part (DC) inverter 63. In a constructive alternative for use in emergency situations, in which the system ceases to be self-powered The system may comprise a power input of an external power source, the interconnection point 66 connected to the delta converter 61, the output 67 supplying power, which is the feeding point loads.The battery bank 62 provides power to the inverter 63, which converts the direct current into alternating current, powering the sensor of 64 electrons. The sensor 64 starts to capture electrons in alternating current feeding the delta converter 61 via an exit point load 67.The part of the alternating three-phase delta converter 61 is fed with an alternating drive part 63 through connection point 65, which is connected in parallel to the delta continuous DC converter 61, which feeds the battery bank 62 and with the continuous portion the inverter 63, closing the cycle of self-feeding and supplying power at the output 67, which is the feeding point loads.Having described examples of preferred embodiments, it should be understood that the scope of the present invention encompasses other possible form of construction equipment using the electron sensors connected to a basic circuit of a typical uninterruptible power supply of energy, known as UPS, comprising a device rectifier (AC / DC converter) 10, connected to one inverter (inverter DC / AC) 12, and attached to them, energy storage devices (battery bank). Claims translated from Portuguese (Portugal) CLAIMS 1 "self powered SYSTEM FOR ELECTRICITY GENERATION" characterized by a device that includes a basic circuit of a typical uninterruptible power supply energy, known as UPS, formed by a device rectifier (AC / DC converter) (10), connected to a device inverter (inverter DC / AC) (12) and connected to them, energy storage devices (battery bank) (13) - typical circuit of an uninterruptible power supply energy, known as UPS - having switched this basic circuit one trap electrons from space (1) (equipment as defined in Brazilian patent application No. BR1020120008378 of 13.01.2012), or, alternatively, a trap electrons of the earth (14) (defined in the application equipment Brazilian Patent No. BR1020120008386 of 13.01.2012), which receive electrical energy from the basic circuit will generate electric power and feed the basic circuit that will keep feeding the trap electrons (14), closing the cycle of self-feeding and also available at the output port (18), electricity consumption for external loads. 2. System for self-powered electricity generation characterized by a device that includes a basic circuit of a typical uninterruptible power supply energy, known as UPS, consisting of a battery charger (AC DC converter) (21), connected to one inverter (inverter DC / AC) (23) and attached to them, devices accumulator (battery bank) (22), and this basic circuit together with other devices and connected to a trap electrons in the free space (27) comprising thus the battery charger (AC / DC converter) (21) is connected in series to the battery bank (22) connected in series with the inverter (23), which is connected in series with the transfer switch phase at the connection point (24.1) which is connected to the connection point (24.1) at a connection point (24.3) of the proper phase transfer switch (24) connected in series to trap electrons (27) in parallel with battery charger (AC / DC converter) (21), and this is in parallel to the surge suppressor (25), to disarm the connection points (24.1) and (24.3) of the three-phase transfer switch (24) and connecting the bonding points (24.3) and (24.2), and the connection point (24.2) is connected in series with the filter (26) which is in series with the surge suppressor (25) which is parallel the battery charger (AC / DC converter) (21), the battery bank (22), the inverter (23) and the connection point (24.1), which are in series with the phase transfer switch (24), which is in series with the connection point (24.3) and the electron sensor (27) which is in series with the output phase (28), will generate electricity and feed the basic circuit, which will keep the power trap electrons (27), closing the cycle of self-feeding, and also available at the output port (28), electricity consumption for external loads. 3. System for self-powered electricity generation characterized by a device that includes a basic circuit of a typical uninterruptible power supply energy, known as UPS, consisting of a battery charger (AC / DC converter) (31), connected to a device the inverter (inverter DC / AC) (35) and attached to them, devices accumulator (battery bank) (32), and this basic circuit together with other devices and connected to a trap electrons in the free space (37 ) comprising thus a battery bank (32) connected in series with the standby converter DC / DC (33) which is connected in series with the phase transfer switch (34) at the connection point (34) .1 which is connected in series to the connection point (34.3) which is in series with the inverter (35), which is connected in series with the electron sensor (37) and three phase output (38) which is parallel with battery charger (AC / DC converter) (31), the rectifier (36) is in parallel to the battery charger (AC / DC converter) (31), and in series with the phase transfer switch (34), the connection point (34.2) which is in series with the connection point (34.3) and parallel to the connection point (34.1), the connection point (34.3) is in series with the inverter DC / AC ( 35), which is connected in series with the sensor of electrons (37), which is in parallel to the battery charger (AC / DC converter) (31), the battery bank (32), the tri standby converter DC / DC (33) and the connection point (34.1), will generate electricity and feed the basic circuit that will keep feeding the trap electrons (37), closing the cycle of self-feeding, and also available at the output port (38), electric power consumption for external loads. 4. Self-powered system for generating electrical energy characterized by a device that includes a basic circuit of a typical uninterruptible power supply energy, known as UPS, consisting of a battery charger (AC / DC converter) (A), connected to a device Inverter (inverter DC / AC) (42) and connected to them, energy storage devices (battery bank) (41), and this basic circuit plus other devices and connected to a trap electrons from space (44 ), comprising thus a battery charger (A) connected to a battery bank (41) which is connected in series with the inverter (42) in section (B), which is in series to the point (C) of the inverter (42), which is in series with the electron sensor (44) which is in series with the phase transfer switch (43) through the connection point of the output phase of the load (45), the transfer switch triphasic (43) is in series with the inverter (42), which is connected in series with (AC / DC converter) in paragraph (A) the battery bank (41), will generate electricity and feed the basic circuit, which will keep feeding the trap electrons (44), closing the cycle of self-feeding, and also available at the output port (45), electricity consumption for external loads. 5. System for self-powered electricity generation characterized by a device that includes a basic circuit of a typical uninterruptible power supply energy, known as UPS, consisting of a battery charger (AC / DC converter) (51), connected to a device Inverter (inverter DC / AC) (53) and connected to them, energy storage devices (battery bank) (52), and this basic circuit plus other devices and connected to a trap electrons from space (56 ) comprising thus a battery charger (51) which is connected in series with a battery bank (52) which is connected in series with the inverter (53) which is connected in series with the transformer (55) at its point (C), which is in series with its point (B) which is in series with the electron sensor (56) which is in series with the battery charger (51), which is connected at the point of output load (58), the entry point (59) which is in series with the phase transfer switch (54) at point (54.1) which is closed with the connection point (54.3) which is series with the point (A) of the transformer (55) out under point (B), the points (A) and (54.3) as well as parallel points (54.1) and (54.2) are all parallel to the loader battery (51), the battery bank (52), the inverter (53) and point (C) of the transformer (55), will generate electricity and feed the basic circuit that will keep feeding the trap electrons ( 56), closing the cycle of self-feeding, and also available at the output port (58), electricity consumption for external loads. 6. System for self-powered electricity generation characterized by a device that includes a basic circuit of a typical uninterruptible power supply energy, known as UPS, formed by a device rectifier (AC / DC converter) (61), connected to one inverter (inverter DC / AC) (63) and attached to them, devices accumulator (battery bank) (62), and this basic circuit together with other devices and connected to a trap electrons in the free space (64) comprising thus a delta converter (AC DC), (61) which is connected in series to a battery bank (62) which is connected in series with the inverter (DC / AC) (63), which is series with the electron sensor (64) which is connected in series with the delta converter (AC / DC) (61) whose part (AC) is in series with the alternating current (AC) inverter (63), through a connection point (65), which is in parallel with the part (DC) converter delta (61), with the battery bank (62) and the part (DC) inverter (63), will generate electricity and feed the basic circuit that will keep feeding the trap electrons (64), closing the cycle of self-feeding, and also available at the output port (67), electricity consumption for external loads. 7. System for self-powered electricity generation according to any one of claims 1 to 6, characterized by the fact that it is configured for use with DC - DC. 8. Self-powered system for generating electricity, according to any of claims 1-6, characterized in that it is configured for use with AC - CA. 9. Self-powered system for generating electricity, according to any of claims 1-6, characterized in that it is configured for use in electrical networks of low, medium and high voltages. 10. System for self-powered electricity generation according to any one of claims 1 to 6, characterized by the fact that it is configured for use on electrical monophasic, biphasic, triphasic or at any power. 11. System according to any one of claims 1 to 6, characterized by the fact that the sensor used is the electron trap electrons in the free space. 12. System according to any one of claims 1 to 6, characterized by the fact that the sensor used is the electron trap electrons land.