GB2462479A - Magnetic push pull motor - Google Patents

Abstract

A motor which involves controlling the movements of each magnet which is attracted and then repelled. Each rotor magnet is fixed on the ends of a bar attached to the rotor shaft and its movable stator mounted partner arm. There are many ends on the rotary bar and one end on each partner arm. As the rotary magnet travels towards the partner, the partner arm's counterspring (N sheet 4) is compressed against the attraction between the partner and the rotary magnet, which is released when the rotary magnet passes by, helping to free the partner from the attracting field of the relevant rotor magnet. Countersprings also stop partners from colliding. Counterlinks interconnect the arms of stages 1 and 2 for returning each repelled partner (arm) in order to enter the next rotary magnet's field, the arms of the respective stages being oppositely directed. By releasing and repelling, enough energy from outside forces is redirected via the shaft to supply an output.

Description

MAGNETIC PULL PUSH MOTOR

This invention relates to motion by using the push pull method, i.e. by the usage of the magnetic Duofieldls of permanent magnets/s fixed on each of the ends of a Rotary Bar which in alternative sections pair up its/their Partner. This is another permanent magnet fixed to the end of a partner arm, known as the Partner, which is attracted to (pulled to) and motionally repelled from (pushed from) its Duofield i.e. which is between the Partner and the Rotary Bar's magnet thus causing motion y for a short distance.

This repelling, being an outside force against attraction, causes another magnet in a second section to repel (push) its Rotary Bar's magnet to extend that short disthnce by travelling fIrth in the s-ne direction. This pushing is worked by.

positioning and fixing all magnets on Repelling Arms in every second section, so that like poles repel when acted upon. Thus, this machine shall be called:-The Magnetic Pull Push Motor.

By adding extra Partners (with Countersprings) which return to an outer concentric circumference then, in turn, becomes the Partner of the magnetic Duofield with one of the Rotary Bar magnets whose moving paths form the inner concentric eircuthferefiee, i.e. two nearby coneetnrie circles. N.B. the Repelling Arms with their magnets to follow suit, because each arm is fixed on the same pivot rod as its Partner Arm.

The inner circle being the MOVING path of the rotary bar magnets. The outer circle being the STOP position of the Partners.

Duofield:-is where only two magnetic fields are combined together with NO interference from any other magnetic Duofield or magnet. Should the two magnets touch each other then they become as one magnetic field i;e; a strong closed system N.B. There is ALWAYS A SPACE between the two magnets causing the Doufleld.

The COUNTERSPRINO or Lug Is an addition which creates a tension against the _-Partner arm's attractive motion as the Rotary Bar's magnet travel towards the Partner partner arm's magnet).

The tension to be created is when the rotary bar's magnet and the partner are nearing and includIng their closest attractive positions to each other, i.e.

THE COUNTERSPRING COLLECTS AND STORES THE REACTIVE FORCES

IN THE TENSION CAUSED AGAINST TIlE A1TRACTIONAL FORCES BETWEEN THE TWO MAGNETS IN TIlE STRONGEST PART OF THE DOUFIELD. AS THIS FORCE IS RELEASED, IT IS USED IN THE SECOND

SECTION TO HELP REPEL THE ROTARY BAR FORWARD FURTHER AFTER

THAT SHORT DISTANCE IN MOTION CAUSED BY THOSE A1TRACTIONAL FORCES OF TIlE TWO MAGNETS IN WE DUOFJELD OF THE PREVIOUS SECTION.

This counterspring will also stop the partner from going inside the outer concentric circle (as stated later). It will also stop the Repelling arm from going too far outside the edge of the Section ring.

I

When the ROthy B travels by, the Partner also repels away with the aid of the counterspring AND other forces (mentioned later). Then, those expelled forces from the Partner arm on one sectIon, will travel'to the Repellence Arm on the second section,where its repelling magnet will help to push the Rotary Bar forward.

IMPORTANT: the counterspring has a dual purpose.

1) To collect and store some or most of the reactional force for helping to repel its Partner arm with excess force when opening the Duofield.

N.B.TheniagnetthePartnermobelpstorepelitsann,astheRotaiy Arm travels by because, both the Rotary magnet and the Partner magnet become positioned as like poles for repelling at this point.

2) To stop each Partner (arm) on the outer concentric circle.

(The kepelling Ann returns the Partner arm to the outer concentric circle with minimum friction or force) N.B. The earth's escape velocity is approximately 25OOO M.PJi reducing according to the strength of its gravitational field and the direction and distance required by Its moving partner (space vehicle).

The magnetic escape velocity (MEV)* although much less,depends on the strength oF the magnetic field and the direction and listane required by itS moving parthet (the rotary bar). Because of this, it is impossible for the rotary bar to rotate at an excessIve speed. Thus, it Is easIer to control or stop it.

*V: A speed and distance where the force fields no longer help the rotary bar whilst in motion. The force fields only react when the speed is less than the MEV.

In other words, the option of creating more force is lost when the Rotary Bar is moving at or above the MIEV rate.

With this Magnetic Pull Push Motor, the OUTPUT is only from the Rotary spindle (Shaft).

According to this invention, the result would be extremely usefttl in that it would help to clean up the atmosphere and commercially provide a greater, safer and continuous output of energy without any fossilised or radio-active pollution. There will be magnetic pollution' but this can be screened by ferrous means There may be latent or static electricity but can be eatthed.

Theeurthhasitsownattractionalforcefieldbutitistoolargetomakeuseof its Duofield with the moon. (Although the sun has a force on both the earth and the moon, this force is too weak to affect the Do1leld between the earth and moon).

But, man's use of MAGNETIC forces for kinetic energy, CAN be obtained INSIDE the earth's closed system. This is beause for a SHORT DISTANCE the attraction of a permanent magnet, including the weight ratio to its magnetic Partner, is STRONGER than gravity in that same SHORT DISTANCE.

When dealing with magnetic forces within the earth's closed system; ) 1) We must use light, non-magnetic materials, e.g. Aluminium, plastic etc. (Excludingthe permanent magnets). Also when using pivots, (non-magnetic} try to balance everything out because of gravity.

2) Use alternate sections. For Pitner Ctions, Each of the n iets to be fixed on each lever so that they can be CONTROLLED in such a way that only ONE magnet's force is able to pair up as a Duofield with another magnet's force in a moment of time, i.e. this procedure. in a Duofieldis to happen in Recurring moments of time, alternating with the Repelling magnetic forces' movements in the Repelling Arms sections.

3) NO magnetic forces from Duofields or other magnets are to interfere with other Duofielda or magnetic fields at any time unless required for the accepted movement in the recurring moments of time.

N.B. An opposing force, created mechanically by a magnetic force from a Doufield, is NOT a magnetic force because it is well outside its Parent force's Doulfield.. Thus it is an OUTSIDE force. (see example on top of page 1 in drawings section).

Because of the short distance of the attractive forces within magnetic fields, it is easy for a force from a Duofield to cause a force OUTSIDE its own Duofield by mechanical means i.e. by lever and pivot. This OUTSIDE force is of EQUAL STRENGTH with its INSIDE force, (Parent force). This Parent force starts with a weak force and increases to a stronger force by attraction, the outside force OPPOSES that attraction mechanically and ecually, where ttsed.

Thus, this outside opposing force can be used mechanically, at any viable distance away its Parent force, without loss of equal strength. Therefore, this outsIde force can be made to Enter another DUOFIELD to help OPEN the closed system. of this now OVERBALANCED DUOFIELD, i.e. the outside force, when entering this Duofield, overbalanees the holding' forces within the Duofield, thus breaking it open.

(Similar to, but in a weaker and by far a safer way than splitting the atom, i.e. Nuclear Fission). See part of Newtoifs Law on 4dist ce and a action in the next paragraph also, Examples in the top half of page 1 in the Drawings Section.

Part of Newton's Law on Attraction and Distance'; but by doubling the distance between the particles, the force of attraction is reduced to a quarter'.

With the Magnetic Pull Push Motor, we must take into consideration not to duplicate the Duofield forces between a Rotary magnet and Partner with another Rotary magnet and Partner as the machine is liable to stop.

Therefore, we should use two magnets in each of the two Partner Ann Sections of the Rotary Bar so that two of those are in line at end of each of two levers at zero degrees but parallel to its shaft; the other two magnets to be in line at the other end of two more levers offset at l92.57# degrees but parallel to its shaft; and fourteen magnets, seven of which are in each of the two partner arm section rings.

The Repellence sections are similar except that the Repelling arms are facing the opposite way because their magnets push the Rotary Bar round whereas, the Partners on the Partner anns attract (pull) the Rotary Bar round. Therefore the two magnets on the Rotary Bar ShOULd be in line at the end of two levers at 45 degrees but parallel to j its shaft; the other two magnets on the end in line at 237.857+ degrees etc. N.B. The degrees can be altered to suit the best position for repelling. "I

Providing that seven Patther arms are equally spaced at 51+ degi apart On each of the two Partner section rings and those two rings are offset at 25.714 degrees to each other; NO complete Duofield movement of a magnet and partner would be duplicated AT THE SAME TIME during one complete revolution of the Rotary Bar.

The Repellence section rings as for above, including the degrees, but each of the Repelling Arms would be fixed on the same long' pivot rod which is fixed to one of the Partner Arms in the partner arm section. The Repelling arm, although fixed to this pivot, would be facing the opposite way to the partner arm; (The pivot is fixed to minimum friction bearings on the rings).

Each section to be in line but, to be separated well away from each other at a reasonable distance to avoid any magnetic interference.

N.B. Each Rotary Bar magnet has seven indIvidual partner movements in each of the two Partner Arm sections thus making twenty eight [)uofleld movements, Each of the remaining Rotary Bat magnets have Seven individual Repelling movements in each of the two Repellence sections thus making twenty eight repelling movements. The individual Duofield and the Repeffing movements act alternately, Therefore, with the four sections, we would. have fifty six Duotield and Repelling movements between them, each INDIVIDUAL one alternately in a RECURRING moment of tithe.

By ensuring that the sections are separated well apart, so that no Duoflelds or magnets interfere with any other magnetic movements except for that one Duofleld which includes its attractive movement and its breaking open of the same Duofield in a moment of time, it can be seen' the attractive weaker forces on the second and perhaps the third Duofleld create outside opposing forces when travelling' via the shaft. Besides the Counterspring and certain repelling forces, t;cse are other outside weaker forces which also help to break open the Duofleld, All Partner magnets are to be fixed on their levers so that they can create; the Duofleld and help to Repel (break open) the Duofleld when required.

All repelling magnets are to be fixed so that they repel only when required.

The motion, being similar to that of an electric motor, requires the frame to be similar i.e. round. The machine requires the frame to be fiat or fixed because of gravitation, therefore, the first machine will have a round inner frame fixed to a square outer frame.

The previ ous writings and drawings together with the following detailed drawings and explanations will make up a specific embodiment of the invention.

Page 1/7 Top half of p e contains: Examples of outside forces, as previously stated. Lower half contains -A section of a two levered' rotary bar on part of a shaft (spindle).

A:-Permanent magnet (fixed on lever C').

1 B:-Spacer (for distancing discs along the shaft).

C:-Levers on discs (E). One offset 192.857 degrees.

D:-Spindle or Shaft. (part of).

Page 2 +3/7 ShOws the rotary bar in pieces (for repair) a1O the shall E:-Disc with toothed hole. All 4 discs suitable for Partner Or illence levers.

F:-End of shaft to take output pulley-of gearwheel.

G:-Where the shaft is fixed to minimum friction bearing.

set in Outer Frame Page 417 Shows the partner arm, meludingN:-its çounterspring.

AA:-Partner (magnet) fixed on one end of partner arm.

S:-Long Pivot equal to the length of two sections.

1. Partner Section. 2. Repellence Section.

PJ-Pivot fixed through the Partner Ann (which iS in the Partner Arm Section.

MF-End of pivot (J) which is goes into a tttinhnuin friction bearing set in section ring.

JR:-Pivot continues into repellence section, see 5/7.

Page 5/7 Shows Repelling Arm with magnet AX:-Magnet, positioned and fixed to Arm so that it REPELS (pushes) the rota!y bar when required.

JX:-Pivot is fixed through the Repelling Arm (which is in the Repellence Section).

N.B. The angle of the Repelling Arm in this section, with the Partner Arm in its section, varies according to the distance that the Partner Arm has repelled. Fix angle when checked.

MF:-Pivot goes into minimum friction bearing set in the sectiOn ring.

RJ:-Pivot continues into Partner Arm Section. see 4/7.

Page 6/7 Shows No. 1, The Partner Ann Section.

T:-The machine stop lever.

also shows No.2, The Repellence Section which works in conjunction with the Partner Arm section i.e. as the Partner Arm repels, it operates the Repelling Arm which is cojoined via the long pivot rod between the Partner Arm and the Repelling Arm. The Repelling magnet, in turn, pushes the Rotaiy Bar forward, then itlf repe Is back thus retwnirig the Partner to the outer concentric circle with minimum friction.

Page 7/7 The Magnetic Pull Push Motor shows four sections Nos 1 &2 sections, the partner arms in No. I section works in conjunction with the repelling arms in No.2 section and vice versa. Also Nos, 3&4 sections as Nos. 1&2 sections, See pages 4/7 -6/7 for details.

FR:-Frame Rods. (Length to suit).

0:-Output. (pulley Or gearwheel) on Shaft.

Countersprings or Lug in Partner Sections only, vaguely seen but can be of any design so long as there is a counter tension.

It is preferred if they were made of non-magnetic materials.

In fact, apart from the magnets, all materials should be no11magnetic.

N.h. In this case only, the partner arms are pivoted in such a way that twentyeight action/repelled movements are equally spaced in the Partner Sections and twentytight repelling movements are equally spaced in the Repellance Sections so that there are fiftysix Attraction and Repelling alternating movements recurring in each moment of time during one complete revolution of the Rotaiy Bar.

(11112 movements; then twice the sections, levers and magnets etc; but offset to suit, would have MTJCH MORE than twice the output).

Claims (4)

1. CLAIMS1. A magnetic field motor comprising of permanent magnets, each FIXED to a DISTANT lever on a multiple levered rotary bar for controlling the path of motion of each magnet in a required direction when attracted to a partner (magnet) fixed to a movable partner arm, the attracted motion of which is opposed by a compressed counterspring. The rotary magnet and partner, only when attracted to each other, is to be called a magnetic duofield.
2. 2. As in claim 1; the developing and controlling of an opposing force from a Magnetic Duofield, which in turn, becomes an outside force when entering a distant magnetic duofield thus overbalancing its forces and with the help of the counterspring, breaks open this distant duofield thus releasing and repelling the partner (arm) away with speed.
3. 3. As in claims 1 and 2; the Controlling and Redirecting energy, from the repelling partner (ann) inwards, i.e. towards the shaft in order that most of the output supply is from the shall.
4. 4. As in any of the preceding claims; the DISTANCING of the magnets on one or various levels, in order that their magnetic fields do not interfere with the wrong magnetic fields or any magnetic duofieki or vice versa at any moment of time. As DISTANCE is a SHIELD against the interference of one magnetic field towards others and/or vice versa; any Distance (Shield) used for this purpose.