Embed Size (px)
DESCRIPTION
a
Citation preview
Equipment for condensing electric current and equipment for transmitting electric current through air
WO 2013104039 A1AbstractThe present invention relates to electromagnetic equipment that comprises, concentrically arranged, a metallic disk, preferably a metallic disk (6), and at least one first magnetic or electromagnetic field generator (9.1) (magnet) attached to the shaft (4), near the disk (6), a second magnetic or electromagnetic field generator (9.2) (magnet) being located at the end of said shaft (4) and attached to a base (10), but not to the shaft (4), near the magnetic or electromagnetic field generator (9.1) (magnet) attached to the shaft (4), with the poles facing the poles of the latter. At least two electromagnetic field generators (12) and (14) are arranged next to the shaft (4) with part of the metallic disk (6) therebetween, the power source and the external loads (17) being connected to said devices, of which at least one is an inducer, and both of which are arranged near the magnetic or electromagnetic field generators (9.1) and (9.2) (magnets), aligned with the shaft (4) in such a way that the magnetic and electromagnetic fields thereof interact with the rotating shaft (4). The invention has various uses, including the generation of electric voltage and the condensation of consumed reactive power, in order to transform this reactive power into useful electric power. Another function is the generation of electric voltage and the transmission of electric current through air.
Description translated from Portuguese (Portugal)
Descriptive Report of Patent for "COMPACTION EQUIPMENT OF ELECTRIC CURRENT AND EQUIPMENT FOR SPREAD OF ELECTRICITY IN THE AIR".
The present invention relates to a device for generating electromagnetic energy. More specifically equipment capable of producing electricity using the return current consumption, and propagate the electric current in the air.
Description of the Related Art
Numerous projects are the mechanisms for the generation of electricity based on electromagnetism, but the projects have hitherto known technical limitations of generating capacity and ecological implications, that prevent use in economic scale.
Obietivos the Invention
The proposed compaction equipment of electric current, comprising a device that includes a shaft concentrically incorporating a hard metal, preferably an aluminum disk, and also fixed to the shaft near the disk at least one magnetic field generating device (magnet) or electromagnetic, with the end of the shaft but not attached to it at least one other magnetic field generating device (magnet) or electromagnetic fixed to a base, getting close to the magnetic field generating device (magnet) or Electromagnetic fixed to the shaft, arranged with their poles in comparison with that, and disposed adjacent to the axle, being part of the aluminum disc between them, at least two devices for producing electromagnetic field - which are connected to the power source and the loads External - and at least one an inductor, both disposed near the magnetic field generating devices (magnets) or electromagnetic axis aligned so that their magnetic and electromagnetic fields interacting up with the movement of the shaft.
The device object of the present invention operates as follows for the compressi
on of electric current: devices that generate electromagnetic fields are powered by an external power source such as a dealership. Thus, the shaft is rotated through electromagnetic induction and electric current received by the load inductor.
The inductor, upon receiving the return current, causes confrontation and interaction of electromagnetic fields generated by devices that generate electromagnetic fields with magnetic fields of the magnets, then rotation occurs when the metal disc which rotates the shaft and the magnet fixed to it along with its magnetic field. Thus, no generation of tension and compression of return of the electric current to feed back a new load.
It is further proposed an apparatus for spread of electric current in the air, comprising a device that includes a device driving force to rotate a shaft which incorporates a disc concentrically metal, preferably an aluminum disk, and also fixed to the shaft near the disk at least one magnetic field generating device (magnet) or electromagnetic, with the end of the shaft but not attached to it at least one other magnetic field generating device (magnet) or electromagnetic fixed to a base, being near the magnetic field generating device (magnet) or Electromagnetic fixed to the shaft, arranged with their poles in confrontation with that, and arranged adjacent to the shaft, leaving part of the aluminum disk between them, at least two devices that generate electromagnetic fields - which are connected to the power supply and the external load - and at least one of an inductor, both disposed near the magnetic field generating devices (magnets) or electromagnetic axis aligned so that their magnetic and electromagnetic fields interacting up, with the shaft.
The device object of the present invention operates as follows for the propagation of electric current in the air: a driving force rotates the shaft, rotating metal disc and along with it the magnet that is attached to the shaft, comparing with the magnetic field of the magnet that is fixed to the base. Thus, the magnetic fields of the magnets interact with the electromagnetic field of the external load. With this interaction of fields in rotation, the inductor starts to generate voltage that will provide the potential difference (ddp) when closing the circuit with the neutral or ground, can be used the neutral or ground feeding the external load. Thus, the electric current through the interaction of magnetic fields and electromagnetic spreads in the air.
The present invention provides an apparatus for generating electrical voltage which generates energy by reusing the current drawn from sources consumers. Thus, the device does not harm the environment when used as force generating their own electricity, having a negligible consumption in relation to the current generated.
The voltage generating equipment is compact and inexpensive, and can be used in various types of machinery, equipment or application areas that require electricity to operate.
Brief Description of the Drawings
The 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 - illustrates the voltage generation device of the present invention;
Figure 2 - shows the set of induced voltage generation device of the present invention, and
Figure 3 - shows the effect of the circulating current in the air and the circuit device of the present invention.
Figure 4 - Diagram of the electrical circuit of the equipment for power generation and compression of electrical current.
Figure 5 - Diagram of the electrical circuit of the equipment for power generation and propagation of electrical current air.
Detailed Description of the Invention Figure 1 shows a device for generating electricity can compress electrical current and propagate electrical current in the air. The equipment comprises a driving force, in this example, a first electric motor fixed to a central shaft 4 by a coupling pin 3 and 2.1. The pin 2.1 centralizes the axis of the motor 1 with a drive shaft 6 which is used to rotate the shaft 4 through an electromagnetic field.
2.2 a pin centers at least two magnetic field generating devices, in this case, magnets 9.1, 9.2 Central 4 to the shaft and a coupling metal couples the motor shaft to the shaft of the first disk 4.
The central axis 4 is connected to a metal fixing sleeve which fixes the disk 5 and a holder 6 and at a higher bottom bracket clamping 8 which are used to fasten the magnets 9.1, 9.2.
2.2 The pin is fixed to a base 10 and centralize the magnets 9.1 and 9.2, forming a magnetic field that repels, since the magnets 9.1, 9.2 are positioned with equal signs north pole, north pole or south south.
The device further comprises electromagnetic field generating device, in this case an inductor 12 coupled to a support holder 10 and the other electromagnetic field generator device, in this case a coil 14. The support bracket 10 is connected to the coil 14 through a medium iron "U" type 13 that centralizes disk space 6 between the inductor 12 and the coil 14.
Although coils are shown, magnets and inductors in the present exemplary embodiment may be used other types of devices that generate electromagnetic fields, such as at least one electromagnetic coil or magnet or electromagnetic induction, of any type and shape, including any combination and in amounts for each application equipment.
The inductor 12 receives current from a power source 17, which can be any electrical circuit or electrical machine that generates or consumes electricity in performing work.
The coil 14 and the inductor 12 comprising at least one core of any geometric shape. The core may be, for example, silicon iron. The core is formed by more than a number of members, which together form one or more core windows.
The coil 14 may have a rounded shape, square columns with or without column. The coil 14 rounded shape should be fully insulated with insulating material as its phase: single phase, two phase or three phase.
So exemplary coil 14 square with central columns, the columns should be insulated with insulating material as its phases: single phase, two phase or three phase. Already in the first coil without square column, the coil must be fully insulated with insulating material as its phases: single phase, two phase or three phase.
One form of primary coil winding 14 is made with members of enamelled copper con
ductors and cross-section is defined as the iron used and the desired voltage coil 14.
The power generator may be from 1 to 1000 KVA MVA may be lower or higher than this, being of the type single phase, biphasic, or triphasic.
In a preferred embodiment, the coil comprises a core 14 formed of laminated sheets oriented silicon iron. The core is formed by a number of members which together form one or more core windows.
The inductor 12 also provides any shape such as round, square, with or without columns.
In a preferred embodiment, as can be seen in figure 2, the inductor 12 comprises two columns with iron tablets, one above the other forming a shape like "U". Columns are fully insulated conductor and a member 30 is wrapped in columns concentrically, involving the columns of the inductor 12.
The driving member 30 is closed shorted ends, forming an artificial load. The number of turns and the cross section are calculated and sized according to the power of the inductor (12).
Upon closing of the artificial load, the member (30) should be insulated to not have contact points 21 and 22. A second conductive member is wound concentrically in the columns of the inductor 12 and the sizing and number of turns are calculated according to the electric current reception desk where the term corresponding to paragraphs 21 and 22 of the ends of the conductive member 30 receiving current loads external.
The captors of electrons from the earth and the captors of electrons from space perform the function of capturing power generation. The captors of electrons from space are described in the patent application n ° BR1020120008378 Brazilian, from 13.01.2012. The sensor refers to an electromagnetic device for generating electric current through the capture of free electrons. The electron earth sensors are described in Brazilian patent application No. BR1020120008386 of 13.01.2012, which relates to a device for generating electromagnetic energy.
Compression of current consumed:
The term "electrical current consumed" refers to the return current from the power factor of any energy source that produced 17 working consumption.
For the compression of electric current, the inductor 12 and the coil 14 is powered by an external power source such as the concessionaire. Thus, do not use the electric bike 1 to rotate the shaft 4, the shaft 4 is rotated by electromagnetic induction and the electric current of the loads received by the inductor 12.
When generating tension and compress electric current, voltage feeding the coils 14 and 12 inducers of equipment, there is only the generation of tension and compression of the electrical current return for moving the shaft that can be of any equipment that generates or consumes electrical current, which process the return current in power to be reused.
It should be connected to the point (A) of the coil 14 to point 21 of inductor 12 which is connected to the stage, and the point (B) of the coil 14 is connected to the neutral and may also be powered by the power supply neutral to be compacted 17.
The inductor 12 to receive electrical current from the power source to be compacted at point 21 (which is the phase inductor 12 which is connected to the point
(1a) of the coil 14 generates the return current will come out in packed form of the power point 22 of the inductor 12 can connect any external load 17 of the point 22 which is the output stage of the inductor 12 to the point (B) of the neutral coil consumption according to their potency compressed by physical effect and the current flow 7. With this form of connection to the electric current is compressed.
As can be seen in Figure 3, the generation of the electromagnetic field has the opposite effect 7. The saw is compact as the rotation axis 4, which rotates through electromagnetic induction generated by the current. The chain is compressed in the form of power to be used again, regardless of the voltage and the frequency of rotation of the shaft 4 will be transferred because the voltage and frequency of the power coil 14 and the inductor 12 to the current that has been compressed for reuse in power again working.
By feeding coil circuit 14 and the inductor 12, an electromagnetic field is generated, where the phase must be connected in point 21 of inductor 12 which is connected to the point A of the coil 14, the load neutral is connected to point B the coil 14, the load 17 to be compressed must be connected at point 22 and the inductor coil to point B 14.
Thus, the load 17 is connected and comes to return current load 17 and the actual current will return to point 22 which point is the initial power output.
The inductor 12, to receive the return current in paragraph 22, the physical effect happens 7 that will confront the electromagnetic field generated by the inductor 14 and the coil 12, and the magnetic field of the magnets 9.1 and 9.2. Through the interaction of electromagnetic fields and magnetic rotation occurs 6 disc, which rotates the shaft 4 and the magnet 9.1 along with its magnetic field. Thus, the feed stream is compressed again for a new charge 17.
The power source 17 may be any machine that generates or consumes electric current, ie, is a device that consumes power for its operation, resulting in return of the electric current to be compacted, or any machine that generates electrical current through the capture and movement of electrons, providing electrical current to be compacted.
Thus, the device recycles the current consumption of any equipment or machine, making the current consumption power be reused without having to return to the point of consumption external supply, ie the initial source.
The higher the speed, the greater the compression chain and the greater the compaction of the current, the greater the power.
It is noteworthy that the devices generate electromagnetic fields 0:14 are powered by a power source, as the circuit shown in Figure 4, to generate tension and compression electrical current.
Spread of current in the air:
The equipment can also be used to spread current in the air. For the spread of the air current, the inductor 12 and the coil 14 are not fed with energy from an external source, only the electric motor 1 is powered to move the shaft 4, which by the rotation generates tension in paragraphs 21 and 22 of inductor 12, and at the same time, the electric current propagates in air.
The equipment operates at a constant speed synchronized with low or high speed, generating alternating electrical voltage and frequency applied to the terminals of an inductor 12 due to the same rotation between the revolving field magnet field of 9.1 with electrical current backfire 7 shown in Figure 3 and the magneti
c field produced by the magnets which is fixed to 9.2 0 basis.
The propagation of the air current is directly proportional to the rotation axis, the greater the rotation, the higher the voltage generation inductor 12 and the current propagation in air.
The manner of connection for the generation and propagation of stress in the air stream through the shaft 4 by rotating the disk 6 by any mechanism at a constant speed synchronized with either low or high rotation frequency, and generates an alternating voltage applied to the terminals points 21 and 22 of inductor 12 wherein the entry point 21 and 22 of the external current becomes thus output terminals for powering loads.
Point 21 and point 22 will come out of the inductor 12 and the voltage frequency generated according to rotation, or due to the similar movement of rotation between the rotating field and the magnetic field produced by the magnets 9.1 and 9.2, and the coil 14 and the inductor 12 are not fed and are close to the magnets 9.1 and 9.2. Thus, the voltage is generated in the inductor 12 in paragraphs 21 and 22 of which will leave the stage. The neutral is connected to ground, and when the neutral phase generation will leave the closing of the three coils 14 star.
The electromagnetic field of magnets 9.1 and 9.2, as the rotation shaft 4 with the electromagnetic field produced between the magnets 9. and 9.2 and the inductor 12, expands the electric current through the electromagnetic field of magnets 9.1 and 9.2, where 9.1 is the magnet rotating with the shaft 4 and 6 with the disc, through the rotation of the electromagnetic field. As the phase lag is 360 degrees p to each other, with the rotating electromagnetic field on 360 °, the phases cancel each other, and the chain expands in the free space in the air.
The engine or any other mechanism which can rotate the shaft 4 at a constant rotation, rotates the magnet 9.1 which is connected to the shaft 4 with the magnetic field of the magnet 9 1 who is confronted with the magnetic field of the magnet 9.2, which is fixed to the base 10.
Thus, the magnetic fields of the magnets 9.1 and 9.2 interact with the electromagnetic load 17, which may be the trap electrons. With this interaction of the rotating field, the inductor 12 starts to generate voltage in paragraphs 21 and 22 that will provide the potential difference (ddp) when closing the circuit with the neutral or ground, you can use the neutral or earth that feeds external load.
Thus, the electric current through the interaction of magnetic fields and electromagnetic spreads in the air.
The equipment can be used with any type of electric motor: single phase, two phase or three phase AC or DC at any voltage or combustion engine, or any other type of mechanism that can rotate the shaft of the generator operating in a constant speed synchronized with rotation generating low or high frequency alternating electric voltage and applied to the terminals of the inductor 12 due to the similar movement of rotation between the rotating field and the magnetic field produced by the magnets 9.1, 9.2.
Note that the electromagnetic field generating devices are 24:14 to feeding of loads, the electrical circuit as illustrated in Figure 5 for voltage generation and propagation of electric current in the air.
Although the present invention has been described with reference to preferred embodiment and practical application thereof, it is apparent to those skilled in the art that a variety of types, formats, templates, gender, modifications and ch
anges that may be made or used without departing from the scope of the 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 equipment and effects that differ from the type described above.
Claims translated from Portuguese (Portugal)
CLAIMS 1 "compaction equipment ELECTRIC CURRENT" comprising a device characterized by including a shaft (4) concentrically incorporating a hard metal (6), and also fixed to the shaft (4), near the disc (6), and least a first magnetic field generating device (magnet) or electromagnetic (9 1), with the end of the shaft (4), but not attached to it, at least one second magnetic field generating device (magnet) or electromagnetic (9.2) , attached to a base (10), getting close to the magnetic field generating device (magnet) or electromagnetic (9.2) fixed to the shaft (4), arranged with their poles in confrontation with that, and arranged adjacent to the axis (4 ), being part of the metal disk (6) including at least two electromagnetic field generating devices (12) and (14), which are connected to the power supply and the external load (7), at least one a inductor, both disposed near the magnetic field generating devices (magnets) or electromagnetic (9.1) and (9.2) aligned with the axis (4) so ??that their magnetic and electromagnetic fields interacting with the shaft (4) in rotation. 2. Compaction equipment according to claim 1, characterized in that the metal disk (6) is preferably of aluminum. 3. Compaction equipment according to claim 1, characterized in that it is configured for use in networks etétricas of low, medium and high voltages. 4. Compaction equipment, according to claims 1 and 3, characterized by the fact that it is configured for use on electrical monophasic, biphasic or triphasic, any powers. 5. Compaction equipment according to claims 1, 3 and 4, characterized by the fact that the electromagnetic field generating devices (12) and (14) are powered by a power source for generating voltage and compact electrical current. 6 "SPREAD APPARATUS FOR ELECTRIC CURRENT ON AIR" characterized by including a device for driving power (1) for rotating a shaft (4) concentrically incorporating a hard metal, preferably a hard metal (6), and also fixed to shaft (4) close to the disc (6), at least a first magnetic field generating device (magnet) or electromagnetic (9.1) and the end of the shaft (4), but not attached to it at least a second device magnetic field generator (magnet) or electromagnetic (9.2), attached to a base (10), getting close to the magnetic field generating device (magnet) or electromagnetic (9.2) fixed to the shaft (4), arranged with their poles in confrontation with that, and disposed adjacent to the axis (4), being part of the metal disk (6) including at least two electromagnetic field generating devices (12) and (14), which are connected to the power source and external loads (17), at least one of an inductor, both disposed near the magnetic field generating devices (magnets) or electromagnetic (9.1) and (9.2) aligned with the axis (4) so ??that their magnetic and electromagnetic fields interact with the shaft (4) in rotation. 7. Equipment spread according to claim 6, characterized in that the metal disk (6) is preferably of aluminum. 8. Equipment spread, according to claim 6, characterized in that it is configured for use in electrical networks of low, medium and high voltages. 9. Equipment propagation according to claims 6 and 8, characterized in that it is configured for use on electrical monophasic, biphasic or triphasic, any powers. 10. Equipment propagation according to claims 6, 8 and 9, characterized by the fact that the electromagnetic field generating devices (12) and (14) are feed
ing points of loads, to generate and propagate the electric current voltage in air.
