FR2950468A1 - Device i.e. magneto-electric micro-generator, for producing electric current to charge battery of electric car, has non-magnetic disk interposed between poles of magnet to vary flux of magnetic field and create electromotive force in coil - Google Patents

Abstract

The device has a fixed permanent magnet (1) generating a magnetic field (beta), and a fixed electric coil placed on a fixed metal core (7), where the metal core is placed opposite to poles of the permanent magnet. A non-magnetic disk (5) is interposed between the poles of the magnet to vary flux of the magnetic field of the magnet at each of passages during rotation of the disk by a motor (3) and to create electromotive force in the coil. The non-magnetic disk is formed from enameled copper wires.

Description

The present invention relates to a device for producing an electric current using as a source geMrtt the magnetic field of fixed permanent magnets, as well as electric coils also fixed placed on metal cores disposed opposite poles magnets Pommai Non-magnetic elements design specific, integrated tt a disk and amaque, rotated by an electric motor are interposed between the metal cores of the electric coils and the North or South poles of permanent lovers in order to vary, failing to cancel, the value of the flux of the field iq e between said permanent magnets and the metal cores of the coils 10 el + disposed opposite. The idea is based on the principle of the demonstration of the neck, the existence is shown by means of a magnetic disc, made of copper, of Foucault, which oscillates between the poles of an element in the wires. elec CAR of the said in mrets). This perpendicularly the downward direction, by the field np zp created between the poles of two q North and Si n aisy field (B) - traves to me by the way of the lesligi of pennawnts magnets. of the magnetic field, is carrying electrons with it, which means that the force which opposes the flux flux induced in the material, and e and vi inv fco 30 ifs which moves in the flux fco r, if there is, there is a hale when the conductor is perpendicular This force of a ci Li him Qu, u 2 It is expressed according to the formula (F Newton. B) for the intensity of the mastic flow in Tesla (L) for the length of the Iigue (I) in amperes for the current which

the conductor is positioned parallel to the lines of the magnetic flux the force) is zero. It is deduced from this that a magnetic element which is seen from a coil, consisting of turns of conducting wires, and the south of a permanent magnet which faces it, may consist of a metallic element, bronze , brass, aluminum or any other magnetic element, in the form of a disk or the like, but in this case the eddy currents that will be born there would slow the rotation of this element, whose role would be to vary the said flow Magnetic between the pole of the permanent magnet, and the pole of the coil We have seen that it must move R opposed to the bed of one for no f.em is induced, which would violate to opts them. iqi To do this elé 20 amagnetic (copper or) i

that there is no need to be made up of a thousand tons, so that one year your sons are born. The device, possible. to make permanent magnets. having a

r + elartivl that it is permanent field voltage), and there is no displacement of turns; in the magnetic field, but simply from the permanent magnet, because of the interposition between the latter and the coil, of a specific magnetic element. element is to vary the level of the magnetic field of a screen between the core 3 of the coil, and the pole of the magnet perxnaneut (because anne connn to the material, so far, able to completely block a magnetic field) . The disk, or gnetic area, has specific features. Of diameter or dimension slightly greater than the pole of far t and the league of the reel. Ge disks, or magnetic sectors., Helps you with thousands of threads, through the enamelled copper wire used for making them interdependent with each other. Whys are said to be xy fiberglass or Kevlar, but not in millimeters. poles of the circuit or the nonmagnetic element that will allow a variation of the sometimes a

E = rnp and

20 moved

t to the vectors ux by the magnet struggle. This fried does not oppose the displa wants final goal being to produce more. ie that it is necessary to supply the motor which drives the diifamagnetic which makes it possible to vary the flux of the isolated field

of some of an insulation, 25 e of ex ls. Fig 1- Representation., Electromagnet or permanent magnet (1). The gyrine power to the motor (3) to accomplish the next lant (fr) will have to increase due to induced currents (i) which will be born dice. that the disk where there is. field. magnetic .. (fi) which creates a pair of 'A', whereas when it is in the axis of the magnetic field zone (), the equipotentials are concentric circles the lines of praying can not close, it n There is no induced current (O. in Figure 1, except that the disc r (3) of the hole Fig 3, Identiqw to the threads 1 and 2, except that édietic doctor (4), center, also mals split, so the innssance asked for the following displacement (fr), because the reverse ion lines, 20 disc (4) turns leap league (2) rctt denying (r) of arip perpendicular to this wheel this causes l induced M appearance in said zone since the driver moves carrying let: holes (+ e) with him Pt 3- The figure represents the Cheultttion of notes that this current flows upward my magnetic. It operates on currents in the following way:

that the force is matir (F) on a conductor (0 when the latter is perpendicular positions iquc (/ i) This electromagnetic force is (l4 li for F currents of Fo a s poles a laquell 10 15 (4) is The force F is nil, according to (fr), and is then molar to the value of the force F is zero. Istraes of the flux of the bottom of the field of the magmatic field, more than the latter, and that it moves the conductor equal to the lines of the chi, which is perpendicular to them. Wire 10. This figure is di flow and

go the leche (d) i go from t (A) to point (a) a i i e e leads current (i) which each stuck to others. Plus the millimeter wire. and the more the e (8)) is a few hundredths of xle, has and is n of a dis By the neighbor fact, makes it that () which u of the threads of the displacement following the 9, is the seat of aune Le.rn du

When isolated from the fl ow of the fl ow (cl), the fd 25 is the interposition of this set of elements of yarn Fig 11- When the magnetic disc (5) (consisting of elements 10, according to the arrow (d) will be * the position (5a) the coil (6) on it a ma (will only receive the G) and the c Ya (8) fig 6 Y ccucc of a

F 12- Sc. Representation of a set comprising a permanent magnet (1) integral with a magnetic circuit (7). In front of the North Pole of the permanent magnet (1): ' the north pole of the magnet permarmtt (1) and the magnet (7) of the coil (6) has an air gap allowing the passage of magnetic disk (5) a few tenths of millimeters between the disk (5) and the North poles (1) and (7) allow the free rotation of the disc (5) along the arrow (r). (3) which reduces the age of the aerodynamic disk (5) at a given speed between the poles of the gap. Magnetic circuit (7) ensuring the continuity between the north pole of the permanent magnet (1) and the neallic core of the coil (6). The magnetic flux (according to the disk am `that (S) consists of thousands dis + awune force

or r "(7) of the E tt + / M c lava tic n function of A (D Flg 13- View in cppe of a tif idewmti ~ 20 opposite .These devices can be multipi engine (3) It rotates (r) an axna disk (5) with a thickness of 4 enameled copper glued together as described in Figure 0.1. Marn enters the North Pole of magnets (1) and the ine (6). 14 (10), pole (6), I (7), each pole + 25 (6) and (5) 1 + 1 'single hole, therefore air, the field (fi) these, and is (6) the sp is a function of the formula E =, 6 (bt) (t) being constant, the only variable to vary ltt, such as 14- Representation of a set of 3 bc nes (6 ), 3 circuits (7), an insulating disc (9) supporting (5) are, during the rc 1), es (5). 7 the poles of the permanent magnets (1) and the magnetic poles of the coils (6) the magnetic drop of the permanent magnets (1) is reduced from (0) to (f ') as indicated on induced current in the coils (6) varies according to F, = AO / t. The number of el (6) and permanent magnets (1) insulating disks (9) and magnetic disks (5) is not limited, both in the circumference and stacking of multi-element assemblies. niielle in section of an embodiment comprising a set of 2 bearings, an insulating support disc made of epoxy resin and kevl to guide the atriagnetic discs (5) which circulate in an air gap to a few tenths of a millimeter from the poles of the permanent magnets ( 1) and the magnetic circuit formed of various elements (7) on which coils (6) are arranged in opposition to the axis of the magnetic support circuit of the magnet (1) for reasons of arrangement and so that the coils (6) are on the outside diameter To ensure maximum cor- ntration and channeling of the magnetic flux (fi) of a sheet of L

Thread v uii a face and almost face 17- In the previous device of fig 16 he saw one of the discs previously cited (5) 25 lament interpose between these points and the wax uit magnetic (7) of coils (6). As in the previous devices only the magnetic parts (5) disks, here sectors, biles. the permanent magnets (1) as well as the bob ne (magnetic (7) remain fixed.The magnetic sectors that replace the disks () ter using thousands of glued enamelled copper wires 30 does not have the 8- Identical of 30 ° and the flux or amastic discs (5) by the 8 arnagnetic sectors (5) the bob "(6) are increased by the variation of the Au i of 30 ° of the magnetic sectors (5) the 'iv tut he there is nothing to which varies ~ Even if it is also possible

As a non-exhaustive example, it is possible; magnetoelectric power of a few watts to several thousand watts, the dimensions feel in relation to the powers produced. The disposable electricity. It is like any other generator 10 or reciprocating equivalent to that of an astronomical generator to use = queutent queutent the magnetic energy of a magnet a quantity of energy entrà.nement of the magnetic device, na to

Claims (4)

REVENDICATIONS1. Apparatus for producing an electric current by using the field m gigtw of fixed permanent magnets (1), and also (6) also fixed, placed on metal cores (7) arranged opposite the magnets a variation of the magnetic field by interposing between the magnetic poles (1) coils (6) of a non-magnetic element without a lt being 2. Device according to the uniform agnetic method (, the interposition of a fixed magnets disc (1), 3. Selo device or sectors arnagntiq fabrics glass or kevLv resin (1) and metal core (7) of the coil (6). 4. Device I cc erisencequelefluxduc permanent fixed (1), or attenuated by xy and 6. that the discs or disks of a disqe consists of a ci of a + 2 beds iq 2 copper enameled l winding products that in order to avoid gluing (8) 20 magnetic (,) to avoid t ïq it 6 1 characterized in that the elements of thousands of micro son of (8) are integrated in a support ta as resin Y v same nombee as the magnets permanent (1), the cores (6), and are offset from each other by an angle perme specific magnetic elements (5) of power, e a moment to position the magnetic field "has between the pole of the permanent magnets (1) cores (7) of the coils (6), so that the magnetic flux (é) of the magnets an electromotive force (fe.m) in magnetic of the magnetlQ attenuated the interposition of the magnetogram element and ggful (5) * position in the gap between the pole of the permanent magnet (1) bine (6) of creating magnets per manents (l) which becomes (fi ') l permanent ix (6) with their metal cores (7). 7 Device according to the set of claims characterized in that a netiquoe screen rises for: permanent magnet (l) provided disposed around the permanent magnets (1) the set is stored in a cylinder of ferrite to avoid the dispersion of the magnetic fluxes (fi) to the maximum. 8. The device according to claim 1, which is in accordance with the provisions of physicist K, Ilalbach Laws, which permits the creation of a kind of monosuclear magnetization, while the one face can be practically multiplied on the other ale following the ifs. 16 and which arranged sposition such on the i 7) pie and increase the field on 3 points e 1200. ltfs; qr tp 'terpos between the metal core' (7) of babi (6) 18) so that the flint ma that vtwie of (fi ') to QI) allowing eréation of a em em following Ed -lât knowing only 4) is variable even though it is possible to