GB2374208A - Permanent magnet generator - Google Patents

Permanent magnet generator Download PDF

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Publication number
GB2374208A
GB2374208A GB0121025A GB0121025A GB2374208A GB 2374208 A GB2374208 A GB 2374208A GB 0121025 A GB0121025 A GB 0121025A GB 0121025 A GB0121025 A GB 0121025A GB 2374208 A GB2374208 A GB 2374208A
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United Kingdom
Prior art keywords
magnets
machine
semi
centre
magnetic
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GB0121025A
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GB0121025D0 (en
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Andries Terblanche
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Individual
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Individual
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Publication of GB0121025D0 publication Critical patent/GB0121025D0/en
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Classifications

    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K53/00Alleged dynamo-electric perpetua mobilia

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Spinning Or Twisting Of Yarns (AREA)

Abstract

A generator includes two non-rotating end plates 8 interconnected by five rods 3 and two rotatable discs 10 separated by a buffer 11. Four of the interconnecting rods are located at each corner of the end plates with the fifth acting as a central rotatable shaft. Permanent magnets 14 are positioned on both the end plates and the discs so that the fields oppose each other producing levitation and rotation of the disc, buffer and flange assembly. Copper wire coils 9 are placed within the ring of magnets on the end plates.

Description

PERMANENT MAGNET MACHINE THE INVENTION RELATES TO AN ENERGY CONVERSION MACHINE WHICH HARNESSESS THE POWER OF THE MAGNETIC FIELDS CREATED BETWEEN TWO CIRCLES OF MAGNETS-ONE CIRCLE OF MAGNETS ON A SPINNING DISC AND ANOTHER ON A SEMI-STATIONARY PLATE-AND CONVERTS THIS ENERGY INTO USEABLE ELECTRICITY IT IS CORRECT TO SAY THAT THE ATTRACTION OR REPULSION OF TWO MAGNETIC FIELDS CAUSES RELATIVE MOTION INTRODUCE CURRENT AND MOTION WILL BE GENERATED INTRODUCE MOTION AND CURRENT WILL BE GENERATED TO DATE ONE ACTION OR THE OTHER WAS POSSIBLE YOU EITHER HAD A MOTOR OR GENERATOR OPERATING, BUT NOT AT THE SAME TIME IN THIS MACHINE BOTH ACTIONS ARE PHYSICALLY POSSIBLE AT THE SAME TIME BY USING VERY STRONG MAGNETS IN RELATIVELY LARGE NUMBERS, MOTION IS PRODUCED AND THUS CURRENT IS GENERATED THE RARE EARTH USED IN THE MAGNETS PROVIDES MAGNETIC ENERGY DENSITIES UP TO 10 TIMES GREATER THAN THOSE OF CONVENTIAL METERIALS ALLOWING A MORE COMPACT AND EFFICIENT DESIGN IT ALSO INCORPORATES A DESIGN CONFIGURATION WHICH ALLOWS FOR A VERY HIGH DEGREE OF POWER OUTPUT AND LOW STARTING TORQUE POWER AND MOTION ARE STORED IN THE MAGNETS MAGNETS ARE THE MOTOR THE MAIN OBJECT OF THIS INVENTION IS TO PROVIDE FREE ENERGY (FOR AT LEAST 80 YEARS) TO ANY HOUSEHOLD, FOR USE IN AN ELECTRIC VEHICLE OR FOR GENERAL ENERGY USE IN REMOTE AREAS OF THE WORLD ACCORDING TO THE INVENTION THIS MACHINE WILL OPERATE AND CREATE POWER WITHOUT THE NEED OF ANY FUELS, WATER OR LUBRICATION AND BECAUSE OF THE LAY-OUT OF THE MAGNETS IT HAS NO FRICTION WHATSOEVER IT ALSO NEED NO BRUSHES AND IT OPERATES COLD GROUPS OF MAGNETS ARE EVENLY SPACED AND PLACED IN A CIRCLE ON ONE OF THE SEMI-STATIONARY PLATES WITH THE INSIDE DIAMETER OF THESE MAGNETS MEASURING 40 8S CM (SEE DRAWING 16) OTHER GROUPS OF MAGNETS, ALSO EVENLY SPACED, ARE PLACED IN A CIRLE ON A SPINNING DISC WITH THE OUSIDE DIAMETER OF THESE MAGNETS MEASURING 30 48 CM BY MOVING THE SEMI-STATIONARY PLATE WITH ITS CIRCLE OF MAGNETS CLOSER TO THE DISC WITH ITS MAGNETS THE DISC WILL START SPINNING, THUS CREATING A VERY STRONG MAGNETIC FIELD BETWEEN THESE TWO CIRCLES OF MAGNETS IT MUST BE NOTED THAT BOTH CIRCLES OF MAGNETS EMIT A SIMILAR OPOSING CHARGE THE SPINNING OF THE SPINNING DISC IS THEREFORE CREATED BY THE MUTUAL REJECTION or THE TWO GROUPS OF MAGNETS THIS PROCEDURE IS DUPLICATED IN REVERSE AT THE BOTTOM OF THE MACHINE (WHEREAS THE PREVIOUS MAGNETIC FIELD IS CREATED AT THE TOP HALF THE MACHINE) THUS PRODUCING POSITIVE AND NEGATIVE FIELDS IN THE TWO SEPARATE APPLICATIONS A COPPER WIRED CIRCULAR COIL IS PLACED WITHIN THIS MAGNETIC FIELD TO EXTRACT THE POWER WHICH IN TURN IS CONVERTED INTO ELECTRIC POWER BY APPLYING THE ABOVE CREATION OF POWER (WHICH WILL BE TWO SEPARATE SINGLE CHARGES) BOTH SPINNG DISCS WILL BE CONTAINED WITHIN EACH MAGNETIC FIELD, BEING CONNECTED TO EACH OTHER WITH A BUFFER PIECE OF 12 7 CM THE SPINNING DISCS WILL THEREFORE ALWAYS ROTATE AT THE SAME SPEED AND WILL ALSO ENSURE THAT BOTH MAGNETIC FIELDS REMAIN EQUALLY CONSTANT AT ALL TIMES THE TWO SPINNING DISCS WITH THE BUFFER PIECE AND FLANGES WILL THEREFORE"FLOAT'BETWEEN THE MAGNETIC FIELDS AND WILL ELIMINATE THE NEED FOR ANY SHAFT OR BEARINGS, THUS MAKING IT COMPLETELY FRICTION-FREE THE ONLY FUNCTION OF THE CENTRE SHAFT IS TO STABALIZE THE MACHINE IN CASE OF A SEVERE SHOCK THE LAY-OUT OF THE MAGNETS IS DONE IN SUCH A WAY AS TO CREATE A ONE-DIRECTIONAL FORCE THEREFORE WHILE PRODUCING GREAT POWER FOR SPINNING THE DISC IT ALSO PRODUCES A VERY STRONG TORQUE THE POWER GENERATED BY THIS CONCEPT OF MOVEMENT CAN BE GREATLY INCREASED OR DECREASED BY VARIOUS MEANS INCREASING THE POWER (APART FROM INCREASING THE SIZE OF THE MACHINE) CAN BE ACHIEVED BY MERELY REDUCING THE DISTANCE BETWEEN THE SEMI-STATIONARY PLATE AND THE RELEVANT SPINNING DISC IN THIS MACINE ONLY THE TOP SEMI-STATIONARY PLATE HAS TO BE MOVED BECAUSE WHEN DOING SO IT WILL AUTOMATICALLY MOVE THE COMPLETE CENTRE PIECE WITH THE BOTTOM DISC CLOSER TO THE BOTTOM SEMI-STATIONARY PLATE REDUCING THE POWER (APART FROM DECREASING THE SIZE OF THE MACHINE) CAN BE ACHIEVED BY REVERSING THE ABOVEMENTIONED MANOUVER WITH THE TOP SEMI-STATIONARY PLATE ALL THE MACHINE PARTS MUST BE MADE FROM NON-MAGNETIC MATERIALS SUCH AS
ALUMINIUM, PLASTIC OR STAINLESS STEEL, OR FROM ANY OTHER NON-MAGNETIC MATERIAL A PREFERRED EMBODIMENT OF THE INVENTION WILL NOW BE DESCRIBED WITH REFERENCE TO THE ACCOMPANYING DRAWINGS IN WHICH FIGURE 1/16 SHOWS THE SIDE VIEW OF THE COMPLETE MACHINE (SCALE I 4) FIGURE 2/16 SHOWS THE TWO HOLDING PLATES (SCALE 1 4) FIGURE 3/16 SHOWS THE FIVE RODS (SCAL1 4) FIGURE 4/16 SHOWS THE FOUR SCREWS (SCALE 1 4) FIGURE 5/16 SHOWS THE FOUR RUBBER BUSHES (SCALE 1 4) FIGURE 6/16 SHOWS THE TWO STABALIZING BEARINGS (SCALE 1 4) FIGURE 7/16 SHOWS THE FOUR CLAMPS (SCALE 1 4) FIGURE 8/16 SHOWS THE TWO SEMI-STATIONARY PLATES (SCALE 1 4) FIGURE 9/16 SHOWS THE TWO COPPER-WIRED COILS (SCALE 1 4) FIGURE 10/16 SHOWS THE TWO SPINNING DISCS (SCALE 1 4) FIGURE 11/16 SHOWS THE DIVIDING BUFFER (SCALE 1. 4) FIGURE 12/16 SHOWS THE TWO FLANGES (SCALE 1 4) FIGURE 13/16 SHOWS THE SIX BOLTS AND NUTS (SCALE I 4) FIGURE 14/16 SHOWS THE MAGNETS USED (SCALE TRUE) FIGURE 15/16 SHOWS THE LAY-OUT OF THE MAGNETS ON THE SPINNING DISCS (SCALE I 2) FIGURE 16/16 SHOWS THE LAY-OUT OF THE MAGNETS ON THE SEMI-STATIONARY PLATES (SCALE 1. 2) THE COMPLETE MACHINE (FIGURE I) MEASURES 60 96 CUBIC CM THE TWO HOLDING PLATES (FIGURE 2) EACH MEASURES 60 96 X 60 96 CM X 7 CIM IT HAS FOUR HOLES IN THE CORNERS 2.54 CM FROM THE OUTSIDE EDGE TO ACCOMMODATE THE FOUR SCREWS (SEE FIGURE 4) SECURING IT TO THE FOUR RODS (SEE FIGURE 3) THE FIVE RODS (FIGURE 3) ARE MADE FROM SOLID ALUMINIUM AND MEASURES 60.96 CM LONG AND 3 17 CM IN DIAMETER FOUR OF THE RODS HAVE HOLES IN THE CENTER ON EACH END TO ACCOMMODATE THE SCREWS (SEE FIGURE 4) WHICH SECURES IT TO THE HOLDING PLATES IT ALSO ACCOMODATES THE RUBBER BUSHES (SEE FIGURE 5) WHICH ARE PLACED AT THE BOTTOM OF EACH ROD AS WELL AS THE STAINLESS STEEL CLAMPS (SEE FIGURE 7) THE FIFTH ROD IS TAPERED AT THE ENDS THEREOF TO FIT INTO THE BEARINGS (SEE FIGURE 6) IN THE CENTRE OF THE MACHINE THE FOUR SCREWS (FIGURE 4) MEASURES 3 81 CM LONG AND 63 CM THICK AND ARE MADE FROM NON-MAGNETIC STAINLESS STEEL IT IS USED TO SECURE THE FOUR RODS TO THE HOLDING PLATES THE FOUR BUSHES (FIGURE 5) ARE ROUND AND TUBULAR AND IS MADE FROM EITHER ALUMINIUM OR HARD RUBBER THEY ARE 5 08 CM LONG AND HAS AN INSIDE DIAMETER OF 3.17 CM AND AN OUTSIDE DIAMETER OF 5 71 CM THEY ARE FITTED TO THE BOTTOM OF THE FOUR OUTSIDE RODS AND ACT AS A BUFFER FOR THE BOTTOM SEMI-STATIONARY PLATE TO REST ON THE STABALIZING BEARINGS (FIGURE 6) ARE HOUSING THE TAPERED CENTRE ROD TO PREVENT THE CENTRE PIECE COMPRISING OF THE TWO SPINNING DISCS, THE TWO FLANGES AND THE BUFFER PIECE FROM MOVING OUT OF ITS MAGNETIC FIELD IN CASE OF A SEVERE DISTURBANCE TO THE MACHINE THESE TWO BEARINGS ARE SELF-SEEKING AND ARE LOCATED IN THE CENTRE OF THE TOP AND BOTTOM HOLDING PLATES BECAUSE THE HOLE THROUGH ALL THE PARTS OF THE CENTRE PIECE IS 3 5 CM, THE CENTRE ROD (DIAMETER 3 17 CM) THEREFORE NEVER TOUCHES ANY PART OF THE CENTRE PIECE-THUS CAUSING NO FRICTION WHATSOEVER THE FOUR CLAMPS (FIGURE 7) ARE MADE FROM NON-MAGNETIC STAINLESS STEEL AND HAVE AN INSIDE DIAMETER OF 3 17 CM WHEN TIGHTENED UP AGAINS r EACH OUTSIDE ROD IT PREVENTS THE UPPER SEMI-STATIONARY PLATE FROM MOVING AWAY FROM THE PRE-DETERMINED SETTING AGAINST THE MAGNETIC FORCE CREATED BY THE TWO MAGNETIC FIELDS-ONE FROM THE MAGNETS ON THE SEMI-STATIONARY PLATE AND THE OTHER FROM THE MAGNETS ON THE SPINNING DISC THE TWO SEMI-STATIONARY PLATES (FIGURE 8) MEASURES 60 96 CM X 60 96 CM X 7 CM IT HAS FOUR 3 81 CM HOLES IN EACH CORNER EACH HOLE HAS A NYLON SLEEVE WHICH REDUCES THE DIAMETER OF THE HOLE TO 3 17 CM THIS NYLON SLEEVE ALLOWS THE SEMI-STATIONARY PLATE TO SLIDE UP OR DOWN ON THE CORNER RODS THE SEMI-STATIONARY PLATE ALSO HAS A CIRCULAR OPENING Of 38 1 CM DIAMETER IN THE CENTRE THEREOF IT ALSO ACCOMMODATE THE CIRCLE OF MAGNETS WHICH ARE PLACED 1 27 CM FROM THE INSIDE EDGE OF THE INSIDE OPENING AS WELL AS THE COPPER WIRED COIL (SEE FIGURE 9) WHICH IS PLACED ON THE INSIDE OF THE CIRCLE OF MAGNETS THE TWO COPPER-WIRED COILS (FIGURE 9) ARE CIRCULAR AND THE CENTRE IS MADE FROM A TYPE OF POLYERYSTALINE MATERIAL THE DIAMETER IS 2 54 CM AND THE DIAMETER OF THE CIRCLE IS 40 64 CM OUTSIDE AND 35 56 CM INSIDE THIS CIRCLE IS TIGHTLY WOUND WITH 22 GAUGE VARNISHED COATED COPPER WIRE AND IS SECURED TO THE SEMI-STATIONARY PLATE ON THE INSIDE OF THE CIRCLE OF MAGNETS ON BOTH PLATES WHERE THE TWO ENDS OF THE COPPER WIRE MEET IT IS JOINED TOGETHER AND THESE JOINED PIECES ARE LED OUT OF THE MACHINE WHERE THE POWER WITHIN IT IS CONVERTED INTO ELECTRICITY FROM HERE THE GENERATED ELECTRICITY MUST FIRST FLOW THROUGH SOME SOLID STATE SWITCHING CIRCUITS THE TWO SPINNING DISCS (FIGURE 10) ARE MADE FROM ALUMINIUM AND MEASURES 30 48 CM IN DIAMETER AND 7 CM THICKNESS EACH HAS A CIRCLE OF MAGNETS PLACED ON IT WITH THE OUTSIDE EDGE OF THE MAGNETS 1 27 CM FROM THE EDGE THEY ALSO HAVE SIX EVENLY SPACED HOLES IN A CIRCLE OF 12 7 CM DIA ROUND THE CENTRE WHICH WILL ALLOW THE BOLTS THROUGH SECURING THEM TO THE BUFFER DISC AND ALSO ALLOW THE FLANGES TO BE SECURED TO THEM IT HAS A 3 5 CM HOLE IN THE CENTRE THEREOF THE DIVIDING BUFFER PIECE (FIGURE 11) IS MADE FROM A TYPE OF PLASTIC COMPONENT AND MEASURE 48 26 CM IN DIAMETER AND IS 15 24 CM THICK IT ALSO HAS SIX EVENLY SPACED HOLES IN A CIRCLE 12 7 CM DIA ROUND THE CENTRE TO ACCOMMODATE THE SIX BOLTS WHICH SECUES IT TO THE TWO SPINNING DISCS-ONE ON EITHER SIDE IT HAS A 3 5 CM HOLE IN THE CENTRE THEREOF EACH OF THE TWO IDENTICAL FLANGES (FIGURE 12) IS A SOLID ONE PIECE, TWO TIER CIRCULAR PIECE MADE FROM A VERY DENSE BUT LIGHTWEIGHT MATERIAL THIS COULD BE A TYPE OF PLASTIC POLYPROPOLENE MATERIAL THE OUTER CIRCULAR PART OF THE FLANGE HAS A DIAMTER OF 26.67 CM AND IS 5 07 CM THICK THE INNER CIRCULAR PART OF THE FLANGE HAS A DIAMETER OF 20.32 CM AND IS 2 54 CM THICK IT HAS SIX EVENLY SPACED 95 CM HOLES IN IT THESE HOLES ARE ARRANGED IN A CIRCULAR FASHION WITH EACH HOLE 6 35 CM FROM THE CENTRE OF THE FLANGE THESE HOLES WILL ACCOMMODATE THE SIX BOLTS THAT WILL SECURE THE COMPLETE CENTRE PIECE TOGETHER IT ALSO HAS A 3 5 CM HOLE IN THE CENTRE THEREOF THE SIX BOLTS AND NUTS (FIGURE 13) ARE 34.29 CM LONG AND HAS A DIAMETER OF. 94 CM EACH BOLT HAS A NUT TO SECURE IT AND IS MADE FROM NON-MAGNETIC STAINLESS STEEL THESE BOLTS ARE USED TO SECURE THE COMPLETE CENTRE PIECE COMPRISING OF THE TWO FLANGES, THE TWO SPINNING DISCS AND THE BUFFER PIECE TOGETHER AT ALL TIMES ALL THE MAGNETS (FIGURE 14) USED ARE CLASSIFIED AS NEODYMIUM IRON BORON PERMANENT MAGNETS GRADE 37 AND ALL MAGNETS MEASURE 2 54 CM X 2 54 CM X 1 27 CM SOME MAGNETS ARE CHARGED THROUGH THE 127 THICKNESS AND SOME ARE CHARGED THROUGH THE 2 54 CM LENGTH THEREOF THE LAY-OUT OF THE MAGNETS THE LAY-OUT OF MAGNETS ON THE TWO SPINNING DISCS (FIGURE 15) ARE DONE EXACTLY THE SAME EXCEPT THAT ONE DISC CREATES A POSITIVE AND THE OTHER A NEGATIVE POWER FIELD ON EACH DISC THERE ARE THREEE IDENTICAL EVENLY SPACED GROUPS OF 12 MAGNETS IN EACH GROUP A ON THE SPINNING DISCS (SEE DRAWING 15/16) 1 THE DISCS ARE DEVIDED INTO 3 EQUAL PARTS OF 120 DEGREES EACH 2 THERE ARE 3 GROUPS OF MAGNETS AND EACH GROUP CONSISTS OF 12 MAGNETS OF WHICH 2 MAGNETS ARE CHARGED THROUGH THE 1 27 CM THICKNESS AND 10 MAGNETS WHICH ARE CHARGED THROUGH THE 2 54 CM THEREOF 3 EACH GROUP OF MAGNETS IS PLACED ON A STRAIGHT LINE AND NOT FOLLOWING THE CURVE OF THE DISC 4 THE TWO MAGNETS CHARGED THROUGH THE THICKNESS THEREOF ARE PLACED AT THE BEGINNING AND END OF EACH GROUP OF MAGNETS 5 THE TEN MAGNETS CHARGED THROUGH THE LENGTH THEREOF FORMS THE CENTRE PART OF EACH GROUP AND ARE PLACED IN 5 DOUBLRE ROWS 6 WORKING IN AN ANTI-CLOCKWISE DIRECTION ONE OF THE TWO MAGNETS MENTIONED IN 4 ABOVE ARE PLACED AT AN ANGLE OF 43 DEGREES LEANING ANTI-CLOCKWISE WITH THE BOTTOM LEFT HAND CORNER TOUCHING THE DEVIDING LINE 41 MM FROM THE EDGE OF THE DISC AND THE RIGHT OUTER CORNER 36 MM FROM THE EDGE OF THE DISC, WITH THE POSITIVE PART SHOWING CLOCKWISE 7 NEXT THE FIRST DOUBLE SET OF MAGNETS (MENTIONED IN 5 ABOVE) ARE PLACED FLUSH AGAINST THE FIRST SINGLE MAGNET (SEE 6 ABOVE) WITH THE OUTER MAGNET SHOWING ITS POSITIVE PART TOWARDS THE EDGE OF THE DISC WITH THE RIGHT OUTER CORNER 20 MM FROM THE EDGE OF THE DISC AND THE NEGATIVE PART THEREOF SHOWING TOWARDS THE CENTRE OF THE MACHINE THE INSIDE MAGNET HAS ITS NEGATIVE PART AGAINST THE NEGATIVE PART OF THE OUTSIDE MAGNET AND ITS POSITIVE PART SHOWING TOWARDS THE CENTRE OF THE MACHINE 8 THE OTHER FOUR DOUBLE SETS OF MAGNETS IS PLACED IN THE SAME WAY AS THE SETTING DESCRIBED IN 7 ABOVE WITH A GAP OF 2 MM BETWEEN EACH DOUBLE SET AND THE BOTTOM RIGHT HAND CORNER OF EACH OUTER MAGNET ON THE STRAIGHT LINE AS INDICATED IN DRAWING 15 9 THE SECOND OF THE 2 INDIVIDUAL MAGNETS (SEE 4 ABOVE) IS THE LAST MAGNET TO BE PLACED IN EACH GROUP AND IS PLACED FLUSH AGAINST THE LAST DOUBLE SET OF MAGNETS THE INSIDE 2 54 CM NEGATIVE PART THEREOF COVERS THE 2 54 CM NEGATIVE PART OF THE LAST DOUBLE SET OF MAGNETS AND SHOWS ITS POSITIVE SIDE ANTt-CLCOKWISE THE RIGHT OUTER CORNER IS PLACED 11 MM FROM THE EDGE OF THE DISC 10 BY PLACING THE FIRST AND LAST INDIVIDUAL MAGNETS AS DESCRIBED IN 4 AND 9 ABOVE IT STOPS ANY MAGNETIC"BLEEDING"BETWEEN THE SEPARATE GROUPS OF MAGNETS 11 BY PLACING THE 5 DOUGLE SETS OF MAGNETS AS DESCRIBED IN 7 AND 8 ABOVE, BOTH THE OUTER AND INNER PARTS ARE SHOWING COMPLETE POSITIVE MAGNETIC FIELDS THIS ENSURES THAT A COMPLETE POSITIVE FIELD FACES A COMPLETE POSITIVE FIELD EMITTED FROM THE MAGNETS ON THE SEMI-STATIONARY PLATF AND THAT THE BUILDUP OF THE MAGNETIC FIELD IN THE CENTRE OF THE SPINNING DISC WILL BE POSITIVE THEREFORE PREVENTING ANY"DRAG"FORCE ON THE MAGNETS OF THE SEMI-STATIONARY PLATE B LAYOUT OF THE MAGNETS ON THE SEMI-STATIONARY PLATE (SEE DRAWING 16/16) THERE ARE 8 SECTORS OF 45 DEGREEES EACH MARKED ON THE SEMI-STATIONARY PLATE THERE ARE 8 GROUPS OF 12 MAGNETS EACH THE MAGNETIC MAKE-UP OF ALL THESE MAGNETS ARE THE SAME AS THOSE DESCRIBED IN EACH GROUP OF MAGNETS PLACED ON THE SPINNING DISC 2 AGAIN THESE MAGNETS ARE PLACED ON A STRAIGHT LINE AND NOT FOLLOWING THE CURVE OF THE INSIDE OPENING 3 THE TWO MAGNETS WHICH ARE CHARGED THROUGH THE THICKNESS THEREOF AGAIN IS PLACED AT THE BEGINNING AND END OF EACH GROUP OF MAGNETS ALL THESE MAGNETS ARE SLANTING CLOCKWISE AT THE SAME ANGLE AS THE MAGNETS ON THE SPINNING DISC THE TEN MAGNETS (CHARGED THROUGH THE LENGTH THEREOF) IS AGAIN PLACED IN 5 DOUBLE SETS IN THE CENTRE WITH ALL THE MAGNETS ON THE INSIDE HAVING THEIR POSITIVE MAGNETIC PART FACING INWARDS TOWARDS THE SPINNING DISC AND THE OUTSIDE MAGNETS WITH THEIR POSITIVE PART FACING OUTWARDS AGAIN ALL THE NEGATIVE PARTS ARE TOUCHING EACH OTHER IN THE CENTRE 4 AGAIN WITH THE LAST MAGNET SHOWING POSITIVE TOWARDS THE NEXT GROUP OF MAGNETS AND THE FIRST MAGNET ON THE NEXT GROUP OF MAGNETS SHOWING POSITIVE TOWARDS THE PREVIOUS GROUP OF MAGNETS IT STOPS ANY MAGNETIC"BLEEDING" BETWEEN ANY TWO GROUPS OF MAGNETS 5 WITH THE LAY-OUT OF THE INNER RING OF MAGNETS PLACED AS DESCRIBED IN 3 ABOVE IT MEANS THAT A SINGLE MAGNETIC FIELD (IN THIS CASE POSITIVE) IS FACING THE POSITIVE MAGNETIC CHARGED PART OF THE GROUPS OF MAGNETS ON THE SPINNING DISC THIS ENSURES A VERY STRONG SINGLE MAGNETIC FIELD ON THE SEMI-STATIONARY PLATE DRIVING A SIMILARLY CHARGED MAGNETIC FIELD ON THE SPINNING DISC ALL THE ABOVE IS RELEVANT TO THE TOP SEMI-STATIONARY PLATE AND SPINNING DISC IN THE CASE OF THE BOTTOM SEMI-STATIONARY PLATE AND SPINNING DISC THE LAY-OUTS REMAIN THE SAME EXCEPT THAT THE MAGNETIC FIELDS ARE CHANGED TO CREATE A VERY STRONG NEGATIVE MAGNETIC FIELD (WHEREAS THE TOP WOULD BE THE POSITIVE MAGNETIC POWER APPLICATION) BUILDING OF THE MACHINE WHEN BUILDING THE MACHINE THE TWO BEARINGS (FIGURE 6) IS SECURED TO THE CENTRE OF THE TWO SEMI-STATIONARY PLATES THE FOUR CORNER RODS (FIGURE 3) ARE THEN SECURED ONTO THE CORNERS OF THE PLATES USING THE FOUR SCREWS (FIGURE 4) THE FOUR BUSHES (FIGURE 5) ARE THEN PLACED ON THE RODS AND PUSHED DOWN TO SIT AT THE BOTTOM OF THE RODS THE CIRCLES OF MAGNETS ARE THEN PLACED ON THE TWO SEMI-STATIONARY PLATES (FIGURE 16) THE TWO COPPERWIRED COILS (FIGURE 9) ARE ALSO PLACED ON THE PLATES THE SEMI-STATIONARY PLATE WITH THE INSIDE MAGNETS SHOWING THE NEGATIVE FIELD INWARDS IS THE PUT OVER THE CORNER RODS AND LOWERED DOWN TO REST ON THE FOUR BUSHES THE CIRCLES OF MAGNETS ARE THEN PLACED ON THE TWO SPINNING DISCS (DRAWING 15) THE COMPLETE INNER SPINNING SECTOR IS THEN PREPARED BY SECURING THE TWO SPINNING DISCS, THE TWO FLANGES AND THE CENTRE BUFFER DISC TOGETHER WITH THE SIX BOLTS AND NUTS (FIGURE 13) PLACE THE CENTRE ROD INTO THE BOTTOM BEARING AND PLACE THE INNER SPINNING SECTOR OVER THE ROD DOWN TO THE BOTTOM SEMI-STATIONARY PLATE PLACE THE TOP SEMI-STATIONARY PLATE ONTO THE FOUR CORNER RODS AND PLACE THE TOP OF THE CENTRE ROD INTO THE TOP BEARING WHICH IS PLACED IN THE CENTRE OF THE TOP HOLDING PLATE SECURE THE FOUR CORNER RODS TO THE TOP HOLDING PLATE WITH THE SCREWS LOWER THE TOP SEMI-STATIONARY PLATE DOWN TOWARDS THE TOP SPINNING DISC TILL THE REQUIRED REVOLUTIONS ARE ATTAINED AND THEN SECURE THE POSITION OF THIS PLATE BY PLACING THE FOUR CLAMPS (FIGURE 7) ONTO THE FOUR CORNER RODS-ON TOP OF THE SEMI-STATIONARY PLATE-AND SCREW IT TIGHTLY TO THE RODS INSTEAD OF SETTING THE PLATE AT A CERTAIN REVOLUTIONS MARK IT CAN ALTERNATIVELY BE SET WHEN A REQUIRED POWER OUTPUT IS REACHED

Claims (11)

  1. CLAIMS THIS SPPMM MACHINE OPERATES WITHOUT THE NEED FOR FUEL, OIL, LUBRICATION OR WATER WHATSOEVER IT ALSO DO NOT NEED BRUSHES AND OPERATES WITHOUT ANY FRICTION IT CONVERTS MAGNETIC POWER INTO USEABLE ENERGY IN TWO SEPARATE APPLICATIONS ONE POSITIVE AND ONE NEGATIVE THE LAY-OUT OF THE MAGNETS OF EACH GROUP OF MAGNETS ON BOTH THE SPINNING DISCS AND THE TWO SEMI-STATIONARY PLATES ARE DONE IN SUCH A WAY THAT1 THERE ARE NO MAGNETIC "BLEEDING" BETWEEN THE GROUPS OF MAGNETS
  2. 2 THE MAGNETIC BUILD-UP IN THE CENTRE OF THE DISCS IS SIMILAR TO THE MAGNETIC CHARGE OF THE MAGNETS ON THE SEMI-STATIONARY PLATES FACING IT, THUS NO MAGNETIC DRAG (CAUSED BY OPOSING MAGNETIC FIELDS)
  3. 3 THE MAGNETIC CHARGE OF ALL THE MAGNETS ON THE DISC AND SEMI-STATIONARY PLATE FACING EACH OTHER ARE OF A SIMILAR CHARGE THUS ALSO PREVENTING ANY DRAG BECAUSE OF THE TWO SEPARATE POWER APPLICATIONS, THE CENTRE PIECE WHICH INCLUDES THE TWO SPINNING DISCS IS CAPTURED BETWEEN THE MAGNETIC FIELDS AND SPINS WHILE FLOATING ON THE CUSHIONS OF MAGNETIC FIELDS AND PERFORMS WITHOUT ANY FRICTION THE COPPER-WOUND COILS ARE PLACED SO THAT IT REMAINS CONSTANTLY IN THE CREATED MAGNETIC FIELDS-BOTH POSITIVE AND NEGATIVE THERE IS NO NEED FOR ANY BRUSHES OR EXTENSIVE COPPER WIRING BECAUSE OF INSTANTANIOUS POWER SATURATION AT ALL TIMES Amendments to the claims have been filed as follows 1 A MACHINE INCLUDING TWO PLATES (A TOP PLATE AND A BASE PLATE) HELD TOGETHER BY FIVE RODS (ONE IN EACH CORNER OF THE FOUR CORNERS AND ONE IN THE CENTRE OF THE PLATES) 2 A MACHINE AS CLAIMED IN CLAIM ! WITH TWO SEMI-STATIONARY PLATES WITH A HOLE IN THE MIDDLE THEREOF AND FOUR HOLES IN THE FOUR CORNERS THEREOF (WITH NYLON SLEEVES) WHICH ALLOWS THESE PLATES TO MOVE UP OR DOWN ON THE FOUR CORNER RODS 3 A MACHINE AS CLAIMED IN I AND 2 ABOVE WITH TWO SPINNING DISCS WITH A FLANGE ON EACH DISC AND A BUFFER PIECE BETWEEN THE TWO DISCS
  4. 4 A MACHINE AS CLAIMED ABOVE WITH GROUPS OF MAGNETS PLACED ON BOTH THE TWO SEMI-STATIONARY PLATES AND THE TWO SPINNING DISCS THE MAGNETS ON THE UPPER SEMI-STATIONARY PLATE AND THE UPPER SPINNING DISC ARE PLACED WITH THE POSITIVE PARTS OF THE GROUPS OF MAGNETS FACING EACH OTHERAND THE MAGNETS ON THE LOWER SEMI-STATIONARY PLATE AND THE LOWER SPINNING DISC PLACED WITH THE NEGATIVE PARTS OF THE GROUPS OF MAGNETS FACING EACH OTHER THE MACHINE THUS CREATES TWO MAGNETIC FIELDS (ONE POSITIVE FIELD AND ONE NEGATIVE FIELD) IN TWO SEPARATE APPLICATIONS
  5. 5 A MACHINE WHERE THE CENTRE PIECE (COMPRISING OF THE TWO SPINNING DISCS WITH
    ITS FLANGES AND THE CENTRE BUFFER PIECE) HAS A HOLE IN THE CENTRE THEREOF SLIGHTLY BIGGER THAN THE DIAMETER OF THE ROD CONNECTING THE TWO OUTSIDE HOLDING PLATES-THUS CREATING A COMPLETE CENTRE PIECE FLOATING BETWEEN THE TWO MAGNETIC FIELDS EMITTED BETWEEN THE TWO SEMI-STATIONARY PLATES AND THE TWO SPINNING DISCS THIS CENTRE PIECE WILL THEREFORE SPIN WITHOUT ANY FRICTION WHATSOEVER
  6. 6 A MACHINE THAT OPERATES WITHOUT ANY FRICTION THEREFORE ELIMINATING THE NEED OF ANY WATER OR LUBRICATION
  7. 7 A MACHINE WHERE THE GROUPS OF MAGNETS ON THE SEMI-STATIONARY PLATES ACTS AS THE POWER SOURCE AND THEREFORE ELIMINATES THE NEED FOR ANY OUTSIDE POWER SOURCE
  8. 8 A MACHINE WHICH USES MAGNETS WHICH ARE CLASSIFIED BY THE RELEVANT MANUFACTUERS TO LOOSE ONLY 5% OF ITS POWER IN 80 YEARS
  9. 9 A MACHINE WITH TWO COPPER-WOUND COILS WHICH ARE PLACED IN SUCH A MANNER AS TO REMAIN IN THE MAGNETIC FIELDS AT ALL TIMES
  10. 10 A MACHINE WITHOUT THE NEED FOR ANY BRUSHES OR EXTENSIVE COPPER WIRING BECAUSE OF INSTANTANEOUS POWER SATURATION AT ALL TIMES.
  11. 11 A MACHINE SUBSTANTIALLY AS HEREIN DESCRIBED AND ILLUSTRATED IN THE ACCOMPANING DRAWINGS
GB0121025A 2000-09-01 2001-08-30 Permanent magnet generator Withdrawn GB2374208A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
GB0021503A GB0021503D0 (en) 2000-09-01 2000-09-01 Permanent Magnet machine

Publications (2)

Publication Number Publication Date
GB0121025D0 GB0121025D0 (en) 2001-10-24
GB2374208A true GB2374208A (en) 2002-10-09

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Application Number Title Priority Date Filing Date
GB0021503A Ceased GB0021503D0 (en) 2000-09-01 2000-09-01 Permanent Magnet machine
GB0121025A Withdrawn GB2374208A (en) 2000-09-01 2001-08-30 Permanent magnet generator

Family Applications Before (1)

Application Number Title Priority Date Filing Date
GB0021503A Ceased GB0021503D0 (en) 2000-09-01 2000-09-01 Permanent Magnet machine

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GB (2) GB0021503D0 (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB2412013A (en) * 2004-02-24 2005-09-14 Martin Lister Magnetic force operated generator
GB2415546A (en) * 2004-06-22 2005-12-28 Martin Lister Electric torch and generator

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB2111318A (en) * 1981-09-05 1983-06-29 Norman Watkins Magnetic engine
JPS62201056A (en) * 1986-02-25 1987-09-04 Moriji Yanagiya Magnetic prime mover
JPH01170360A (en) * 1987-12-23 1989-07-05 Yohee Kitayoshi Driving device
JPH05137315A (en) * 1991-11-13 1993-06-01 Yohee Kitayoshi Torque generator
JPH0731128A (en) * 1993-07-12 1995-01-31 Kozo Matsuki Magnetic power unit
JPH099658A (en) * 1995-06-16 1997-01-10 Kosumosu Energ Japan:Kk Torque generating equipment using magnetic force
JPH1014212A (en) * 1996-06-27 1998-01-16 Tokuji Haruyama Permanent magnet prime mover

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB2111318A (en) * 1981-09-05 1983-06-29 Norman Watkins Magnetic engine
JPS62201056A (en) * 1986-02-25 1987-09-04 Moriji Yanagiya Magnetic prime mover
JPH01170360A (en) * 1987-12-23 1989-07-05 Yohee Kitayoshi Driving device
JPH05137315A (en) * 1991-11-13 1993-06-01 Yohee Kitayoshi Torque generator
JPH0731128A (en) * 1993-07-12 1995-01-31 Kozo Matsuki Magnetic power unit
JPH099658A (en) * 1995-06-16 1997-01-10 Kosumosu Energ Japan:Kk Torque generating equipment using magnetic force
JPH1014212A (en) * 1996-06-27 1998-01-16 Tokuji Haruyama Permanent magnet prime mover

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB2412013A (en) * 2004-02-24 2005-09-14 Martin Lister Magnetic force operated generator
GB2415546A (en) * 2004-06-22 2005-12-28 Martin Lister Electric torch and generator

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Publication number Publication date
GB0121025D0 (en) 2001-10-24
GB0021503D0 (en) 2000-10-18

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