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THE IZUOGU MACHINE. PROJECT 1013
HOW TO BUILD THE PERPETUAL MOTION MACHINE, OTHERWISE CALLED THE SELF-SUSTAINING EMAGNETODYNAMICS MACHINE.
INTRODUCTION:
It will be necessary for the reader to gain a good theoretical knowledge of the subject of Emagnetodynamics before embarking on the experiment to build the self-sustaining machine.
It is therefore strongly recommended that reader thoroughly study the publication-THE THEORY OF EMAGNETODYNAMICS which can be purchased from our website www.emagnetodynamics.com
A good knowledge of the theory of Emagnetodynamics will greatly assist the reader in building a prototype machine.
ASSUMPTION:
It is assumed that reader is a person who is skilled in the engineering profession, a skilled technologist or technician and having years of practical experience in the profession.
It is also assumed that reader owns or has access to a fairly well equipped mechanical engineering workshop with the usual tools for work such as big lathe machines, milling machines, drilling machines and accurate measuring instruments.
MAJOR PARTS OF MACHINE. The major parts of this machine will now be described and the reader is advised to build them unit by unit and then assemble.
As can be seen from the drawings, fig 1 is the rotor fly wheel with pasted soft iron core which serves as machines composite magnetic pole.
The flywheel is made of plywood, aluminium or any non magnetic material preferably of light weight.
Typical size is 1 meter in diameter and a thickness of 20mm.
It has a hole of 40mm at its centre through which the rotor spindle is inserted and the two units are fixed to each other by three bolts whose holes are shown.
A diameter of the flywheel, ab, is shown. At the point b the soft iron core, which forms the composite pole, is fixed so its lead tip, for a clockwise rotation, hits the point b.
As stated, it is made of soft iron core and a typicall thickness is 3mm with length appropriate at 45mm.Its width is 20mm to flush with the circumference of the flywheel.
The composite pole is firmly fixed to the flywheel and secured with bolts.
This can be made of brass,copper,stainless steel or mild steel.It is machined out as shown in the figure with attachments for the flywheel,the ball bearings at both ends and the distributor and electrodes for controlling the machine motion.
A is the attachment for flywheel,while B is flywheel sitting.C is for pasting the distributor conductors as well as the distributor base.E and G provide attachment for the ball bearings while the extension of G goes to attach to the feed back generator which provides power to run the release coil as well as power external load.
The electrical connections to the electrodes and distributor are shown in fig 7.
This shows the machine distributor and electrodes in greater details. The distributor base is like a slip ring commutator of a conventional electric motor and is made of copper plate of thickness 0.5mm and width 10mm.The release coil, RC, is an inductance, and electromagnet of 400 turns of insulated copper wire, of diameter 1mm,It is fixed to the vane as shown in fig 2.
This is the stator magazine or holder, much like the magazine of a self-loading automatic rifle.
It is made of tough hard wood or non magnet metal such as Aluminium. Its internal diameter is so chosen that there exists and air gap of roughly 1mm between it and the flywheel circumference.
The stator holder contains slots of 20mmx20mmx12.3mm so as to hold the stator magnet which is a neodymium magnet of dimensions 20x20x12mm.
There are as many slots as can be taken on the semicircle formed by the stator holder, keeping a magnet to magnet distance of roughly 5mm.
The stator holder has slots s1 and s2 which are used to fix it to the machine framework as shown in fig 6.
The stator magnets, shown in fig 8 are fitted firmly onto the stator holder in such a way that their north poles all point towards the center of the stator holder. This is to make them form an array of like poles so the first and second laws of Emagnetodynamics, as described in the THEORY OF EMAGNETODYNAMICS, can apply to produce motion.
This figure shows the machine fully built up and mounted on its framework. The framework itself is made up of non magnetic metal bars so fitted that they all form a compact device that is strong and rugged. This is important to withstand the vibrations of machine rotation.
If necessary the four legs of the machine are shackled to the ground or strong table top when machine is to be tested.
The rotor spindle carries the alternator of a typical electrical generating set which was previously run by a gas-guzzling INTERNAL COMBUSTION ENGINE. The rating of this alternator should be in the range of 750 w to 950W.
The correct electrical connections are vital to the working of the machine. If desirable,a lead acid accumulator of 6 volts can be connected in parallels with the feed back d.c. generator but with diodes used to ensure the output of the accumulator does not run the generator as a motor. The battery is then used to start the machine and as soon as the machine spins the generator output takes over from the battery which is then disconnected from the circuit.
An alternative is to avoid the battery completely and simply manually wind the rotor spindle with a rope and the machine will generate its own power to start itself.
For the laws of Emagnetodynamics to be obeyed the magnetization direction of the stator magnet is very important. The magnets must be very powerful to start with, and then must be magnetized in such a way that one half is totally north pole, while the other half length is totally south pole and never a combination of the two.
Magnet made of Neodymium N48 or N52 is adequate for this experiment. Again, depending on the size of rotor of a machine, it is important to maximize the shortness of the airgap between stator and rotor by ensuring that the north pole surface has a curvature equal to the curvature of the flywheel circumference.
MACHINE OPERATION.
In installing the composite pole of the machine on the circumference of the flywheel, synchronization of timing is very important for machine operation.
FIRING TIME. The release coil RC must be energized at the appropriate time for it to free the vane from the grip of the last stator magnet .If this is not accurately determined, the machine will not work.
For a flywheel rotating in the clockwise direction as shown in fig 1, the correct energisation time will be that instant when the trail tip of the vane is about to hit the magnetic axis of the last stator magnet. This usually coincides with that point at which only about 30% of the circular length of the vane remains within the body of the last stator magnet.
MACHINE PLUMBLINES.
These are lines on the rotor and machine stator frames, which must align and be rectilinear at the point when release coil is fired. The plumblines therefore coincide with the rotor “IMPEND” position.
In practice,coil is made to fire just before the plumblines align in order not to run the risk of stalling the machine because of non firing of the coil in good time. This is especially so when the coil is being energized by pulse of high current.
If the reader has followed carefully ,the procedure for doing up the different parts, then there is no reason why the machine will not spin at speeds of over 1500 rpm.
The distributor width determines the speed at which machine will spin. The wider the distributor, the more the spin speed. For our machine, a distributor width of 20mm will just be fine.
CAUTION:
The reader is reminded that he is building a magnet machine and so all magnetic materials around the machine must be removed to avoid distorting the magnetic fluxes working the system.
If you have any questions or have difficulty getting your system to work or to buy the materials you need, feel free to contact the author and his associates will promptly come to your aid at no costs, whatsoever.
You can write us at [email protected]
Or P.O. Box 9602 Abuja, Nigeria.
ALL RIGHTS RESERVED. The Emagnetodynamics machine is a patented product and all rights relating to its construction, literature, distribution, etc are privileged. Accordingly a decision to reproduce material must be with prior knowledge and written approval of the owners of the intellectual property in every country. Requests can be addressed to :
THE MANAGING DIRECTOR/CHIEF EXECUTIVE OFFICER
IZUOGU MOTORS LTD
87, FOURTH AVENUE,
GWARIMPA,
P.O.BOX 9602
ABUJA NIGERIA.
www.emagnetodynamics.com
Email:[email protected]
