CA2172240A1 - Apparatus for release of magnetostatic energy of permanent magnets using a generator without moving parts in order to gain electric power - Google Patents

Abstract

An apparatus, in the form of a generator with no moving parts for the direct conversion of magnetostatic energy of pelmanent magnets for the production of electricity.

Description

~172~

Name of apphcant: Arp~d B O D A Y

Date of Hungarian application: ~lare 2t, 1995.
Number of Hun~,arian application: P9500820 Date of Canadian application: 1996 The subject of the invention is the MAGNETO-D'~ NAMIC GENE~RATOR, which is an invention resulting from my scientific research.
The magneto-statie energy of permanent magnets can be direetly eonverted into eleetrie power by means of synchronised control, without the use of moving parts and without environmental pollution.
The production of electric power takes place as a result of synchronised eontrol, by drawing from the iilexhaustible masmetic energy sources, without depleting the same. A setf-magnetising electro magnetic field is applied to compensate for the loss of energy density of the inner energy source as a consequence of the control.
As a result electrical energy is gained from the output winding (T) ofthe apparatus.
6 Claims'' Drawlng Figures 2,l722~a I . Subiect of the ~ .e..~ A scienliricàll~ .ei'ealched and dcveloped aparatus for the generation of electrical energy from the ~ ;c energy field of pe~ le.lt magnets.

. , -DII: This equipment does not include any moving parts. By means of electronic control, magnetic fields that exist around permanent magnets and electromagnets are designed to release the static energy- of these fields with conversion directly into electric power.

Br ~ ~undofthe ~e.ll;on:

- Since the time when mankind first became familiar with natural stone magnets and 10. 1~cog~ ed the phenomenae of repulsion and attraction of these natural pe.Illali~,nt magnets, the scientific world has been co lt Ir'ly inve;,ligalL~g the pc :b;' - of harvesting this static energy and converting a directly into electricity.

These investingations have been enc~u~aged by many well known facts. Laboratory measurements conducted in a vacuum have shown that a magnetic field energy density a hundred thousand times greater can be achieved then that of the field attainable in a normal environment.

Research has also proven that it Is possible to freeze the energy density pell~ c.llly into the material of r~ nlf~rt~lred p~;llll~lelll magnets with the help of up-to-date christallization. thechnolo8Y.

20. The half-life period of the energy field of pe~llldllent magnets is 1111 years under norrnal conJilions. Laboratory measurements indicate that by ~ ,n~ "1 the density can be reset back to the original "reversible p~ eab,l;ly'' potential level.

~, ~1722~10 The energy stored in the magnet as well as field generated by the same remain u..~ ng~ d - as a result of the inner ele~ ulll~n~ hc proeesses. The only eondition to be met is that the processes should not cause a level of field strength intensity which could i.,~,~e.~ibl~
change the operating point of the p- Imall. "l magnet.
As a conq~qnrnce of the above, the pe,mancnl magnet is seen as an energy source and must be consldered inexhaustible.

Basic magnetic theory 30. It is a commonly known fact that the direction and path of magnetic lines of force of a PGIIII~Gnl magnet ean be infllr~nl~ed with the help of a rel~ .a~ ;c material, or another p.,lmallc,ll magnet or an eIC~ placed into the magnetic field.
Electric current flow in a conductor in the form of a coil around an iron eore will generate an clccl~u~uagnetic field about that core.
Through scientific research and thorough investigation of the above phe ~o",. .~g my father and I have discovered a way to demonstrate con~ilu~i~cl~ the feasibility of direct harvesting ol magnetic energy hitherto for not possible.
~ "Magneto-dynamic free energy", is an inexhaustible source of a c.lvholln.G..I~lly-friendly energy for the future, replacing the 40. i~ rr.cl. l.l and envi~ OIII..GnlaI1Y ds~n~ging thermocaloric energy produ.,lion of the present.

of recent practices According to the current practice, to achieve a change in polarity, the poles of an electro magnet are alternately subject to de - and l~I.Agn~ ;OI1~ by means of a continuous sine wave - or zero crossing unit jump function current applied to the windings.
This repeated change of polarity taking place in the magnetic material created a continuous ~.

21~2~0 agitation within the molecular structure of the metal. This constant collapse and r~' ' ' Ig of the poles in each direction, which is the source of magneto-dynamic energy, comes at a high price.
As a result of these periodical pole changes, more energy input is required than converted 50. dynamic energy is released. According to the principle of the COI 3e. ~d1-ion of energy, the energy losses due to heating and magnetic I el.lcldnce of the material results in a ~:gJ1;r,C~ .I
decrease in energy released during this process.

Novelty This new approach makes for a PGIIIIaIIenl magnet - PM - to oscillate or vibrate to and fro from a static state to a dynamic state colllill.~osl~ releasing ~ :: dynamic energy in - - such a way that periodic pole changes and the inherent losses are voided.
As a consequence of my invention, nothing changes in the material of the p.. ~o ~1 magnet during the release of magneto-dynamic energy. There are no traditional energy losses due to heating or magnetic reluctance.
60. Hence, the control of the magnetic lines of force will c,-~li....o~ and autr~
r~ ~ the permanent magnets over and over again ' - _ 1~, with full control -~ . of the multiple magnetic circle (to mq~eh~e the magnet onto BHma~. value).

Theory of cp ~ '~n:

The device coll~llu.,l~d of - PM - permanent magnets and - T -, - Vt -, - Vcs -cle~,llo",agllel~ is designed in such a way, that by col~ Jl'..lg the magnetic flux biased by -PM - permanent magnets through collllolled - Vt - clc~llvn-agnet~ a change in the magnetic induction will take place. Thus the os~iillalion of the system will occur. Magnetic induction or magnetic flux originated by the pell"~en~ magnets will have the sarne direction as ~he electromtgnetic induction produced due to control ~22~0 70. Energy ouput fed back into the system and used for the control will add to the magnetic energy of the irmer energy sources (that is of the - PM - p~ magnet) built into the system.
Since pellllan~,nl magnets are considc.ed ' 1l ble energy sources, this device can be conside,~d a controlled inexh~ tihle energy source. The system is co"ll"lse1 of two identical Magneto Dynamic units linked to one another.
The ~c.lelnlola (later referred to as MDG) are linked via a complex i"lel~onneclioll between the windings and inner curent sources within the device structure. This kind of briding allows for full control so the permmanent magnets can be utilized without losses or material property changes. This combination of shared (mutual) inductivities conforms to 80. the equation L= Ll+ L2 + K2 + 2M. Each unit consiets of the following parts~
magnetic bridge built of mild magnetic material and serving to conduct the flux of - PM -pe""anG,Il magnets. The magnetic bridge ,nco,~o, ele~t,o,. ~en t;c winding needed for - Vt - control of the MDG, - T - energy ouput and - Vcs - int~;lcolme lioll. The electronic circuits used for the operation of the device are not conâldGiGd part of the invention. -3 - control electronics consists of state of the art il~tegl~ted circuits and field effect lldnsialola. Power rectifiers - 7 -, - 8 -, are used to i"~,.comlc~l and act as feedback loops for the generators.

Claims (6)

1. That each and every magneto-dynamic generator - MDG - characteristically, is able to realize the circuit potential of magneto-dynamic energy without the use of moving parts, to directly produce electricity by using controlled multiple magnetic circuits, designated in the drawings by - MH -, - Vt -, - Ves -, - T -.

2. The device defined in claim No. 1 characteristically contains at least two magnetic circuits, one of which incorporates a permanent magnet - PM - as a magnetic element.

3. The device defined in claim No.1 characteristically incorporates at least two elements comprising magnetic bridges.

4. The device defined in claims No.1 and 2. characteristically employs magnetic circuits incorporating inductances - Vt - for control, - T - for energy output and - Ves - for feedback.

5. The device defined in claim No. 1 characteristically by means of electronic control circuits -3 - and synchronization of multiple magnetic circuits is capables of producing electrical energy without the use of moving parts.

6. The device defined in claim No.1 characteristically is able to components for losses of energy density and qualify as a self-magnetising circuit, created as a result of the effects of the control circuits.