Global Agri jobs: MAGNETIC CURRENT GENERATOR for LIGHT BOX

Magnetic Generator

MAGNETIC CURRENT GENERATOR for LIGHT BOX

http://www.magneticenergy.org.uk/Magnetic%20Generator/Magnetic%20Generator.htm

Free energy device produces magnetic current for lighting magnetic light devices
Suggested use - will light six light boxes in homes, businesses, greenhouses, etc.
Generator will recycle energy safely to repair environment
Generator does not create pollution, so it will help repair the environment
Requires Manganese Silicate (Rhodonite) inside the unit
Requires mechanical startup
Consists of two rotors turning opposite directions simultaneously

We are providing this free information out of love to help repair our planet. Please help us in educating people about magnetic energy.

This generator utilizes power by directly capitalizing on the natural resource of magnetism. This generator demonstrates that every element has a unique range of vibrations that can be harnessed to give magnetic current a distinct polarity. This unit uses Manganese Silicate (Rhodonite) to produce a flowing magnetic current that produces light in the Magnetic Light Box. People will probably substitute many different elements in this unit to see how they effect the magnetic current being produced. Countless devices will emerge that run on magnetic current, replacing and enhancing devices people currently use. Magnetic current is infinitely more versatile than electricity, and it does not damage living things or the environment like electricity. Regardless of the amount of magnetic current generated, it does not produce pollution and it will always safely recycle itself back into the earth's energy field after it is used.

The motor works as follows:

Figure 1 shows an outer rotor rotated by a brass shaft at 5,610 RPM, which causes the winding assembly to pass between permanent magnets. When this outer rotor is rotating, a second inner rotor is rotated opposite the first rotor. This action then causes the outer rotor to continue to rotate at 5,600 RPM with the inner rotor also continuing to rotate at 2,200 RPM. Magnetic flowing energy is then removed at the six energy removal locations as the unit rotates 24 hours per day at a rate in excess of the equivalent of a one horsepower standard electrical generator. The driving force that actually rotates these rotors is a perfect harmony of attract polarities which create a release timing caused by the interaction of both rotors.

PARTS LIST FOR THE MAGNETIC CURRENT GENERATOR:

Vertical brass outer wall measuring 14-3/4"OD, 13-5/8" ID and 13-5/8" High with appropriate shaping
Generator brass base plate, 14-3/4" dia., by 1" thick, shaped as shown.
Two heaving duty ball bearings that do not adhere to a magnet, 1-3/4" ID by 3-7/8" OD, Bearing #.5625 with shields.
Center brass shaft, 17-1/2" long machined to sizes on print.
Aluminum rotating base plate, 1" thick by 14" OD, shaped as shown on print. This plate is screwed to the center shaft Part #4, with a 2-1/2" wide left-hand thread.
Delrin rotating plate secured to part #5 measuring 2-1/4" thick, 14" OD, 1-3/4" ID Note: We highly recommend using one solid piece of Rhodonite which is obtainable in some mines; we will supply the necessary drawings if you are able to obtain the Rhodonite.
Machined slot 7/8 " wide by 1" deep in spiral configuration with a dividing wall 1/32" thick
Are 244 rods pressed into holes, Part #7. These rods measure 7/32" dia. by 10-1/4" long, and made of hardened metal alloy composition of Magnesium, Aluminum, Titanium, Chromium,etc. We will supply a sample if requested.
165 Rhodonite rods measuring 1" long by 7/8" diameter placed in slot #7
Are 244 drilled and tapped 6/32-screw holes located on the top of each rod Part #8.
One top rod stabilizer cap made of Delrin with 244 holes measuring 7/32" dia. This cap measures 3/8" thick, 10-7/8" ID, 12-7/8" OD. This cap is slid onto the 244 rods exposing the drilled and tapped 6/32 holes.
Are 122 nickel connection bars measuring 3/4" long, 7/32" wide by 1/8" thick. Each bar has two 6/32 holes drilled on a 1/2" centerline to allow 6/32 screws to connect an inner rod to an outer rod.
Copper plates which form the core of the generator winding measure 4-7/8" x 7-3/4" x .010" made of thick rigid copper plate. These plates are to be overlapped by 1/4" then fastened together with nylon 6/32 flat head screws, then rolled into a circle of 11-3/4" ID by 7-3/4" high.
Generator winding - Plates #13 are then disassembled and each plate is flattened where it is held in a winding fixture at the 1/4" overlap portion. Then the plates are wound with six even layers of #27 insulation copper wire wrapped around forming a coil, 4-3/8" wide by 8" high. After wrapping the coil should have approximately 2,400 turns.
Coil forming - The coil is then put into a bending fixture to reform the coil to its original curved shape where liquid acrylic is used to solidify the coil to prevent it from changing its curved shape.
Coil assembly - when all 8 coils are held to each other by overlapping the copper ends, then screwing them together, this assembled coil is next placed between the rods Parts #8. Next, Part #11 is put over the rods and Parts #12 are firmly secured to the rods.
A brass top ring, 9" ID by 15-1/4" OD by 1" thick with downward lip of 3/8"
Eight outer iron/boron/neodymium magnets, 8-3/8" long, 3/4" thick (by approximately 2-3/4" wide cut to 23-degree angle. Outer radius 7-3/16", Inner radius 6-5/16".
Inner brass tube made of 83% copper, 3% zinc, 2% tin and 7% lead, measuring 10" OD, 8-29/32" ID and 8-5/8" high.
Eight inner magnets made of Iron/boron/neodymium, 8-3/8" long, 7/8" thick by approximately 2-1/4" wide, cut to 23-degree angle. Outer radius is 5-1/2" and inner radius is 4-5/8".
Four graphite electrodes, 2" long, 3/4" wide by 1/4" thick.
Insulated wire that connects Part 21 to a connection below part #5, the Delrin base plate.
Four copper plates 2" long, 3/4" wide by 1/4" thick secured to Part #5.
Four graphite plates, 2" long, 3/4" wide by 1/4" thick, secured to Part #2 Brass base plate.
Four Mica plates, 1/8" thick by 2" long by 3/4" wide to insulate part 24 from part #2.
Four coaxial cable wires secured to part #24, graphite plates.
Nylon ring, 1-1/4" high with an 8-1/2" ID, 9-1/4" OD with six slotted holes.
Six nylon screws to hold Part #27 to Part #19.
Six carbon brushes secured to Part 19 with nylon ring #27 between. These brushes are spaced 60 degrees apart. Each brush measures 1-7/16" high with screws #28 to hold this part and nylon ring to Part #19 inner brass tube.
Sixteen copper bars, 15/16" wide forming a ring 6-13/16" ID by 8-5/8" OD. These copper bars have 1/16" thick Mica between them. The wires from the 8 wound coils get connected to each of these bars (see print bar connection).
A 3/8" deep slot cut into part #5 to hold part #30. This slot is cut360 degrees around 15/16" wide to hold the copper bars in one complete circle with the use of recessed brass flat head screws.
Aluminum casting 7-3/4" high by 8-7/8" OD with a 1-3/8" base.
Two bearings made of magnet material measuring 1-3/8" OD, 1/4" wall, wall thickness 3/4" long secured to Part #32.
Two bearings made of magnet material, which repels to parts #33, measuring 1" long, 3/4" ID and secured to shaft. These magnet bearings repel to Part #33.
Brass-collar 3/8" thick, 3/4" ID, 1-1/4" OD, set-screwed to Shaft #4.
Six copper bars bolted to Part #32spaced 60 degrees apart. These bars form an ID of 6-13/16" ID by 8-5/8" OD by 1/4" thick.
Mica ring 1/16" thick between bars #36 and part #32.
Nylon screws to old bars #36 to Part #32.
Nylon tube, 6-3/4" OD, 1/8" wall thickness, 3-5/8" long.
Are 133 plastic magnets, .012" thick, 8-3/4" OD, 6-3/4" ID.
Are 132 flat rows of #27 wire, 60 turns per row.
Non-metal holding cap secured to Part #32, Aluminum Casting.
Six copper contacts bolted to Part #36 held with brass screws.
Brass brush holder held to Part #19.
Six boron carbide contacts spaced 60 degrees apart forming a circle 6-5/8" ID, 8=1/2" OD, 1/4" thick.
Six pieces of 1/16" thick Mica placed between Part #45 and brush holder #44.
Nylon screws to hold contacts #45 to brush holder #44.
Six coaxial cable wires secured to each boron carbide contact #45.
A 1/2" thick clear acrylic top plate with a 2" ID and 9" OD. This plate is a snug fit to part #19, the inner brass tube and it rests on the top of Part #44. This cover serves as a safety device to keep objects from falling into a running unit. ALSO - the cover helps to contain charged MAGNETIC AIR, which aids in the total magnetic current charging process.
One rope pulley secured to Part #32 aluminum Casting. When the lower shaft is at full speed, pull a rope to rotate this pulley. The part #32 must be rotated counter clockwise (backwards). It will then accelerate up to a speed range of around 2200 Rpm's depending on the load.
Are 8 grooves cut into the top surface of Part 35. These grooves are to circuit wires from the 8 generator coils Part #14 over to the 16 copper bars Part #30.
Are 24 pieces of .092" thick plastic magnets 8-1/4" long by 5/16" wide. There are 4 locations of 24 pieces per location. The locations are between the North and South magnets.
Eight rectangular slots cut into Part #19, the inner brass tube. These slots measure 4-1/2" high, 1-1/2" wide cut through the 1/4" thickness of Part #19.
A hardened non-metal tube to support ball bearings #3. This tube is pressed into base plate #2. This tube serves to insulate the center shaft from the base plate, which then prevents an unwanted energy draw to the unit.
Are Four graphite brushes, 1/2" wide, 1/4" thick, 2" long, held to the top of Part #5, the Delrin base plate.
Four copper brushes, 1/2" wide, 1/4" thick, 2" long, held to the bottom surface of Part #5, Delrin base. Four wires are used to connect each graphite brush #55 to one of these copper brushes.
Four graphite brushes 1/2" wide, 1/4" thick, 2" long held to the brass base, Part #2
Four 1/8" thick Mica plates between Parts #57 and #2.
Four coaxial cable wires, one wire to each Part #57.
One piece of armature banding tape, 1" wide, .010" thick, secured into a .010" deep indent portion of outer rods #8. This band is located at a centerline 4-1/2" above base plate #5. As the other generator rotates at 5,600 Rpm, this band serves to prevent the outer rods from expanding outward from centrifugal force.
Two circular 3/8" dia. carbon brushes, 3/4" long. These brushes are lightly spring held to the top surface of Parts #12. Thus the top surface of Parts #12 need to be machined to allow the brushes to slide as needed.
Are two brush insulation jackets with springs to hold Part #61. These brush holders are secured into Part #17, the brass top ring. These jackets are located 180 degrees apart, centered between the magnets that have the same polarities (two north inward faces together and 180 degrees across, two south inward faces together. These brushes remove magnetic charges from the rods for every 180 degrees of rod travel. This removed energy is used as needed.
Are two insulated coaxial cable wires that go to a device needing magnetic current.

Explanation as to how the interaction of both rotors takes place:

On the inner rotor which rotates backward, there are 132 flat rows of #27 insulated motor wire with 60 turns per row. Between each flat row is a spacer made of .012" thick plastic magnet material.

These 132 flat rows of wire are wound as six separate circuits with one end of each circuit connected to one copper bar Part #36. The other end of each circuit is connected to one copper bar of Part #43.

Each of the six separate circuits has 22 rows of wires. All of the wires from any given circuit are wound in the same direction, thus three circuits are wound clockwise and three are wound backwards or counter clockwise. Next, after five more layers are added to this first coil, then this seventh layer (from circuit #1) again gets wound clockwise. Circuit #2 again gets wound counter clockwise and this pattern continues for all six separate circuits.

As these 132 flat rows of #27 wire get pulsed 'ON', half of them setup a pulse of one kind of polarity and half of the opposite polarity. When magnetic energy is allowed to be circuited from the six boron carbide contacts, a current flow through these coils causes a slight SPEED change to this inner rotor. The inner rotor has a 2-3/4" to 1 speed ratio; however, this speed will vary due to the load from a high of 2500 RPM to a low of 2200 RPM. As these two armatures rotate, they create a certain VORTEX condition that draws energy into the generator. At the high of 2500 RPM, each set of the six circuits get turned 'ON' a total of six times per complete turn, because of crossing over the six carbon brushes Part #29. Thus we have six circuits activated six different times for ONE complete rotation which equals 36 x 2500 RPM or 90,000 pulses per minute.

These charges become amplified by the 133 plastic magnets and cause a certain magnetic pulse rate to influence the inner 8 permanent magnets. This action is an influencing factor, which causes the start-up shaft speed of 5,600 RPM to be maintained.

Explanation of Parts #52:

Note that these plastic magnets are located between North and South magnets. This particular placement causes the fields of the outer permanent magnets to become extended, and in the process, these plastic magnets become charged, somewhat like magnetic capacitors. The magnetic pulse sequence that occurs within the framework of the 8 coils, Part #16 has a very definite purpose. This action has to do with the amount of driving power achieved. The polarity of the plastic magnets is such that the 2 permanent magnets (one on each side) are BOTH attracting these 24 pieces of plastic magnets.

This action SETS UP A MOVING MAGNETIC CHARGE that travels in the direction of rotation. This moving magnetic charge also contributes to the rotation by ATTRACTING and RELEASING the rods that pass directly in front of these plastic magnets.

When we speak of a MAGNETIC generator, do not equate this unit to an ELECTRICAL generator. Remember this very important principle, that 'MAGNETISM CAN MANIFEST WITH A PULSE-RATE,' which gives it directed harmonic power to perform multiple tasks.

The various magnetic currents within this generator flow to their destinations because they are attracted there. Each part of the unit contributes to the formation of a unique magnetic current polarity that performs specific functions without interrupting the other polarities. These many different currents can work side by side in harmony much like a healthy human body that has many different processes constantly working for specific purposes.

There is a continuous transmutation process taking place whereby magnetic energy continually generates an energy that manifests a MEASURABLE current. This measurable magnetic current is caused to happen through the use of PARTICULAR pulsing action. This pulsing action is established by ALTERNATING the magnetic attract of the magnets. To establish the actual pulse frequency of this unit we simply COUNT the polarity changes per minute.

As the eight generator coils take their circular travel path, one would suppose that as these coils pass through powerful sets of permanent magnets, surely this activity would generator SPARK. This does not happen because electricity is the BY-PRODUCT of a troubled magnetic field and the movement of these coils DOES NOT trouble the fields of these magnets.

The INNER rotor CHANGES the magnetic pulse-rates of the permanent magnets, a magnetic action that prevents an elastic HOLDBACK to the coils. The generating of electricity DEPENDS UPON a resistance FACTOR. Thus, without resistance, or the TROUBLING of the magnetic fields electricity will NOT be produced. This unit should be POSITIVE PROOF that an electron is simply a grouping of magnetic molecular structures that were caused to gather because of the TROUBLING of a magnetic field.

The 244 rods that are located at the outside and inside surfaces of the eight generator coils contribute to the changes in the magnets' pulse rates. These rods are CAUSED to partly REDIRECT the attracting action between the NORTH/SOUTH fields of the permanent magnets. This redirecting of the lines of force also AIDS in preventing an elastic holdback condition to the coils. To explain, when a rod starts to arrive in front of, let us say, a NORTH magnet, this rod instantly grabs (or acquires) this same north charge. This charge is then ATTRACTED upward to the connecting bar that has secured to it a rod that is passing in front of a SOUTH magnet. The magnetic fields are caused to be STRETCHED upward instead of needing to ONLY penetrate directly through the copper coils.

This action becomes responsible for breaking a massive number of 'lines of magnetic force,' as the attracting magnets send their force fields BETWEEN the rods, to then penetrate the coils. This activity creates TWO separate magnetic pulse-rates, one group of pulsing is UP and DOWN (as well as down and up) while the second set of pulse-rates pass directly through the coils. All of these pulsing actions COMBINE with a certain blending of magnetic circuitry that then flows as MAGNETIC CURRENT to the light box.

Another action that aids in preventing a HOLDBACK condition (of the coils) is the magnetic charging of the rods. When any given rod travels past a magnet FACE, it picks up a LIKE charge that is carried PAST this magnet. This charge is an ATTRACT polarity to the magnet it is approaching and thus gets PULLED in the direction of rotation. This is a NEEDED rod charging action because it aids in maintaining the speed of this outer rotor. These charged rods will only maintain this driving activity for 360 degrees if the rods are cleaned of this magnetic current. The two brushes that contact the Nickel connection bars accomplish this cleaning, or charge removal action. This removal process produces USEFUL magnetic current. However, if this energy did not get circuited away from these rods, it would result in MAGNETIC FLOW stoppage as the magnetic molecular structures transmute into a GROUPING PROCESS identified as ELECTRONS. This energy would then manifest with a discharge of SPARK to the permanent magnets.

The design of this generator is arranged to NOT produce spark in that spark argues, short-circuits, etc. Magnetism manifests as a FORM of light inside the generator, light that is not electrical in nature. ALL light can be categorized as being a light FORM of magnetic energy.

PULSE RATE FOR THIS UNIT WHICH IS PARTLY SUPPLIED BY THE 244 RODS.

As each rod travels a 360-degree rotation it will completely change polarities at six different locations. One might suppose that since there are eight sets of permanent magnets, surely the rods would change their charge every time they travel between each of these magnet sets. However, there are two of these magnet sets that DO NOT change polarities. This arrangement (of the magnets) creates two massive magnetic fields located 180 degrees across from each other. Thus, this unit has a magnet arrangement whereby eight sets of magnets respond as only SIX sets of magnets. This arrangement of magnets builds the DESIRED pulse-rate for the rods. The pulse counting of the rods is found as we take 244 rods times six pulses equals 1,464 rod pulses PER ROTATION. Next, we take these 1,464 pulses times the rotations of 5600 RPM and arrive at 8,198,400 pulses to the rods per minute.

The rods' pulses are LONG, up and down pulses, that cause a certain kind of WAVE FRONT COLLISION to the lines of magnetic force that pass BETWEEN these rods. This action IMPACTS the eight generating coils with an INDUCTION charge that SETS POLARITIES inside the coils. Every time the magnet polarities are changed on each side of the copper core (of the coils), this copper grabs the induction charge of magnetism to then get circuited into the eight coils of wire. Because magnetism can travel without speed restrictions, these events happen instantaneously.

CHARGING OF THE EIGHT GENERATOR COILS

Each of the eight generating coils gets charged every time it passes between a set of permanent magnets. Thus, each coil is charged eight times PER ROTATION. However, the coil's FULL POWER GENERATING ACTION is in-tune with the timing of when the coil is caused to complete a FLOW CIRCUIT. This flow sequence is best reviewed as we study the actions of the six carbon brushes (part #29). Each of the eight coils has two wires. These sixteen wires get connected to sixteen copper bars (one wire per bar). The six carbon brushes always pulse to FOUR coils activated as 'ON' while FOUR coils are being OFF. Next, during a rotational travel distance of 15 degrees, for the coil assembly, all of the ON coils get circuited to being 'OFF' coils while all the OFF coils are then ON coils. To expand on this pulse counting we find 24 coil polarity changes happen in just 360 degrees of travel (one rotation). Next, to arrive at the coils pulse-rate, that is set by the six carbon brushes, we take 24 pulses per rotation times 5600 RPM to then equal 134,400 coil pulses per minute.

Of importance is that EACH coil is charged eight times per rotation. There are 64 coil CHARGE pulses in 360 degrees. Next, take 64 coil charges times 5600 RPM and arrive at 358,400 CHARGES per minute. Thus, each coil is being charged more than twice as much as the coil CIRCUIT REMOVAL action is. This DELAY of energy removal causes the charge, in the coils, to build-up to a charging volume whereby it JUMPS a (very close) SPACE GAP between the sixteen copper bars and the six carbon brushes.

There is a strong attract field between the eight generator coils and the six carbon brushes. The inner counter-rotating rotor contributes to the attract force of the generated magnetic current of the eight coils. The ACTIVITY of the inner counter-rotating rotor requires a deeper understanding if we are to focus on HOW magnetic current is generated.

To begin this investigation of the inner rotor, we first review the motor JUST BEFORE the inner rotor is installed. We note the eight powerful magnets are arranged in a close circle, where EACH magnet is caused to have its field COMPRESSED. We could equate this action to each magnet as having its field squashed, likened to compressible spur gears. This arrangement results in each magnet DEMANDING its share of the center space.

Next, the inner rotor is inserted and all of these compressed fields REDIRECT into the plastic washer shaped magnets. These plastic magnets are then TOTALLY CHANGED in magnetic strength as they ACQUIRE these fields from the permanent magnets. This activity CAUSES the permanent magnets to change their pulse rate. Then as the outer rotor is driven, these inner magnetic fields rotate backwards. Magnetism always operates in two directions simultaneously; this is a natural phenomenon. These rotors demonstrate this phenomenon because the energy of the permanent magnets saturates the plastic magnets which willingly take on a new polarity similar to the permanent magnets. The plastic magnets are the manifestation of the naturally occurring reverse fields of the permanent magnets. When the inner rotor is given a pull-start BACKWARDS, it then quickly accelerates up to the speed of 2200 RPM. This rotating action sets in motion a PULSE CHANGE to the OUTER permanent magnet fields.

The polarities of the inner and outer magnets blend to create a locking harmonic resonance that is stable. This activity results in both rotors continuing to rotate, backward of each other.

PULSE ACTION OF THE PLASTIC WASHER MAGNETS.

Now we will focus on how the plastic washer magnets are caused to pulse. Every plastic magnet has a coil of wire located on each side. These flat coils of wire are used to circuit magnetic current from the eight large generator coils to the six output brushes. The magnetic current, stored in the carbon ring, is NEUTRAL, that is to say, it will attract to whatever polarity it is offered. The plastic washer magnets have a set-charge ON EACH SIDE, let us say NORTH on one side and SOUTH on the other. As the neutral magnetic current from the carbon ring is attracted into the flat coils that are on (for example) the NORTH sides of the plastic magnets, this incoming energy grabs this north polarity of the plastic magnet because the incoming energy traveled through only the north coil of the plastic magnets. This action creates momentary NORTH poles that manifest from the bottom to the top of the plastic magnets.

Then, the South coils around the plastic magnets get pulsed with neutral magnetic current from the carbon ring. This action creates SOUTH poles that now manifest from the bottom to the top of the plastic magnets. This action of polarity switching continues as it responds to the permanent magnets inner fields causing continuous rotations.

PULSING TO THE BOTTOM SURFACE OF PERMANENT MAGNETS.

These magnets need to be fed RETURN magnetic energy from the load in order to remain fully charged. There is a vastly different magnetic pulse-rate that impacts the carbon brushes. These carbon brushes pass 'very close' to the bottom surfaces of the sixteen permanent magnets. To focus on the pulse number we note that as ONE carbon brush travels under one magnet, the brush is charged half north and half south. This is because this bottom surface of the magnet shares lines of force with both polarities, then when the brush travels to the next magnet; this charge is SWITCHED from one side of the brush to the other side of the SAME brush. There are eight carbon brushes that travel under the sixteen magnets (eight at the inner magnets and eight at the outer magnets). This particular location of the magnets has the flux lines VERY compacted into zones where half of this surface is one polarity and half the opposite polarity. As these brushes CRASH THROUGH these flux lines, they CAUSE a MAGNETIC VIBRATION to the magnet's magnetic energy waves. This activity helps to FORM new magnetic pulse-rates to the magnets, which impact the total generating process.

To find the pulse rate to these eight carbon brushes, which are all connected to one contact wire; we count the pulse rates for a single 360-degree rotation. We total the sixteen magnets times 8 carbon brushes to equal 128 pulses per rotation. Next, 128 pulses times 5600 RPM equals 716,800 pulse charges per minute. This magnetic current then travels along a copper-coated steel wire (coaxial cable) as it INTERACTS between the light box and the magnets' return location.

Thus, while all magnets have a draw factor to the atmosphere, it is a necessary part of a magnetic flow to return magnetic current back to the magnets to then be recycled.

FINAL COMMENT

Our current method of generating electricity to power lights, appliances, etc. is slowing destroying our planet. Electromagnetic pollution and chemical pollution must be stopped, and our method of generating electricity must be replaced. All conventional devices can be replaced with magnetically driven devices that will have far superior performance. Scientists will soon come to realize that electricity is causing our ozone layer to deteriorate. The ozone layer and the ionosphere are powerful energy fields that are magnetic in nature. The energy from the ionosphere enables all technology to operate, but when motors and generators are not designed properly they do not recycle their energy back into the earth's energy system. Our current technology is stripping the ionosphere of it's energy without properly recycling it. The need for new magnetic technology is becoming critical. This Magnetic Current Generator is one example of a device that can better our lives and help our planet by giving us free energy without pollution.

The functioning of this generator violates many current scientific principles. Most scientists assume that current theories, rules, and laws are true, and so they do not seek to develop technology that may violate accepted truths. Our current technology is a product of accepted scientific principles. Our current technology is killing us. We must begin to explore new principles and new technology to ensure our survival. For the sake of our survival we urge you to begin to think "outside of the box", the current scientific paradigm that is leading us into destruction. Our destructive technology was all developed out of fear; fear of not having enough money, fear of dying, fear of losing control...it is time to start creating devices and machines out of love! Please share this information with others.

The Mini-Romag Generator

Design and Drawings by Jean-Louis Naudin
Courtesy of Kevin O. from "Magnetic Energy"
created on 03-19-99 - JLN Labs - last update on 11-15-99

The Mini Romag generator from Magnetic Energy uses the principle of moving magnetic flow named "the magnetic current" for generating electrical power. According to Magnetic Energy this generator is able to produce 3.5 volts, 7A DC ( about 24 Watts ) of free electricity while its generate sufficient power to sustain itself...

This generator need to be started by an external motor during about 42 seconds at 2100 RPM. After this charging process, when the energy flow is established in the Romag generator, the motor can be removed and free electrical energy can be used.

This Romag generator is a new revolutionary concept which generates electrical energy without using the first flow of current generated by magnetism, it uses only the untapped natural ressource of the magnetism...

The original hand sketch and all details can be found on the Magnetic Energy web site

HOW THE UNIT WORKS :

The here disclosed 3½ volt, 7 amperage magnet motor/generator must be charged up by driving the main shaft at 2100 RPM for 42 seconds. This charging process manifests as magnetic energy within the six coils of copper wire, the copper tube supporting these coils and the copper coated steel wires wrapped around the magnets. This charging is accomplished while the six coil connection wires, Part #22, are making contact and setting up their alternating magnetic poles. After the 42 second charging time one of these coil connection wires must be opened and this circuit again completed through an energy draw at what could be called 7 amps. See load Part #23. As current is drawn from the six coils, this draw sets up magnetic poles which are a response between the rotor magnets and the coils. This response then causes the main shaft to be rotated by the 12 permanent magnets as they attract and build a release field. Then the driver unit (hand crank) is disconnected allowing the unit to rotate with the load being the activating driving force.

The fields of the magnets must be maintained during their spin movement. These magnetic fields which are encapsulated are achieved by the wiring system. The attract/release of the magnets is a function of several factors. First, the magnets attract field between north and south is completed by taking a crossing path of attract (top of one row to bottom of next, etc.). This action has the effect of fields blending into fields, and a hold—back attract does not happen. Each time a magnet set passes a coil an interchange of like energy between the coils around the magnets and the generating coils sets—up neutral polarities which are ‘release fields’ and prevents a hold—back attract.

One important magnetic assembly is the circuitry which allows this interchange of energy. This is a recycling of a stabilized magnetic/electro energy not electro/magnetic because the field of force is not a case of electrical input, an input that created the magnetic energy, but rather a build—up of magnetic energy which caused an energy thrust.

In further defining the workings of this unit it is important to understand that although electrical and magnetic (energy) work with similar attitudes, the manner in which they work sets—up a differing energy effect. One of these effects is that magnetic structures want to share their f1ow, compatible to the Universal Force, while electrical flow argues, (short circuits, sparks, etc.). Because of this fact the working responses (within the unit) take place, how they are needed, and when they are needed which results in a functioning unit. There is a continuous transmutation process taking place whereby magnetic energy continually generates an energy that manifests a measurable current.

PARTS LIST AND CONSTRUCTION DETAILS

When building your first unit we suggest using the stated materials.

1) Aluminum Base Plate

2) Sleave Bearing, 1" long, ½" inside diameter, oil impregnated brass.

3) 4" long by ½" diameter Brass Shaft

4) Brass 2" diameter Rotor, 1—3/4" long

5) Six rotor slots, each 1—3/4" long by .260 deep by 23/32" wide. These slots are spaced exactly 60 degrees apart.

6) One slot cut in center of Brass Rotor, 360 degrees around, ¼" wide by 5/16" deep.

7) 12 slots (formed from the six slots as the 360 degree cut is made). Each slot is lined with .010 thick mica insulation.

8) A total of 228 pieces of U—shaped .040 thick copper coated steel wires. Each slot (Part #7) has 19 pieces of these wires fitted into the Mica, thus these wires do not contact the Brass rotor. The lead edge of these wires is flush with the Rotor’s outer surface and the trail edge protrudes 1/8" above the Rotor’s outer diameter.

9) Eleven complete turns of .032 thick copper coated steel wire. These 11 turns or ‘wraps’ accumulate to 3/8" wide and the same pattern is placed around all 12 magnets. When placed into the bent wires #8, they are a snug fit making firm contact.

10) Are 12 pieces of .005" thick mylar insulation inserted into the cores of the wires #9.

11) 12 permanent magnets, insulated with the mylar, to not contact wires # 9. These magnets measure 3/4" long, 5/8" wide, 3/8" thick and are made of a special composition and strength. Alnico 4, M—60; 12 AL, 28 Ni, 5 Co, bal Fe, Isotropic permanent magnet material cooled in magnetic field, Cast 9100 TS. 450 Brin, 2.2 Peak energy product. When inserted in the rotor the outer faces of these 12 magnets are not to be machined to a radius. The center of these magnets pass the center of the coils with 3/32" clearance. The edges, where the wires are wrapped, pass 1/32" away from the coils. This ‘changing magnet spacing’ aids in not only the release cycle but also contributes to rotational movement. (Sharp magnet edges which are facing the coils are to be sanded to a small smooth radius.)

12) Magnet polarity placement into Rotor.

13) Connection pattern for wires wrapped around magnets. The 12 wire wraps are divided into two sections, upper and lower of six each. There are no connections between these sections. The magnetic flow direction between the upper 6 wraps and the lower 6 wraps is attained by the ‘flow direction’ as shown in Figure 5. Viewing Figure 6 shows the wires wrapped around the magnet starting at the top ‘north’ half and then after 11 complete turns the wire exits at the lower ‘south’ half. As this wire then goes to the next magnet it arrives at an attract wire which is its ‘north’ side. Thus all wires get interconnected from south to north magnet half or north to south magnet half. The actual connections should be crimped copper clips not solder with insulation tubing to prevent contact to the Rotor body.

14) A .030 thick copper tube (stiff material) 2" long by 2½" inside diameter.

15) Are six slots cut at the top of tube #14. These slots are 5/8" wide by 1/32" deep spaced at 60 degrees apart.

16) Are six slots cut at the bottom of tube #14. These slots are 5/8" wide by 5/16" deep and in line with the upper slots #15.

17) Six copper tube mounting points.

18) Acrylic ring to hold Part #14, measuring 3—3/4" O.D., 2¼" I.D., 3/8" thick bolted directly to Part #1. This ring has a .030 wide groove cut ¼"deep to allow the six copper tube mounting points, Part #17, to be inserted.

19) A .002" thick plastic insulation paper to be placed around the inside and outside of Part #14.

20) Are six coils of insulated copper wire, each coil having 72 turns of .014 thick wire. Each coil is wound with two layers, the bottom layer to completely fill the 5/8" wide slot with 45 turns and the top layer to span 5/16" wide with 27 turns. To be sure each coil has the exact wire length or 72 turns, a sample length wire is wrapped then unwound to serve as a template for six lengths. A suggested coil winding method is to fill a small spool with one length then by holding the copper tube at the lower extension, then start at the plus wire in Figure 2 and temporarily secure this wire to the outer surface of the tube. Next, place the pre—measured spool of wire inside the tube, wrapping down and around the outside advancing clockwise until the 5/8" slot is filled with 45 turns. Then, return this wire back across the top of the coil for 15/32" and winding in the same direction again advance clock—wise placing the second layer spanned for 5/16" with 27 turns. This method should have the second layer perfectly centered above the first layer. After winding this coil, repeat the process by again filling the small spool with another length of pre—measured wire. A very important magnetic response happens as all six coils have their second layers spaced as disclosed.

21) This number identifies the top view of the second layer.

22) Connection pattern for six coils. When the unit is driven at start—up (hand crank) for 42 seconds at 2100 RPM, all six jumper wires must be together which means the plus wire goes to the minus wire connected by the start switch. After 42 seconds the load is added to the circuit and the start switch is opened. To double check your connections between the coils, note that the finish wire of coil #1 goes to the finish wire of coil #2, which is top layer to top layer. This pattern then has start of coil 2 (bottom layer) going to start of coil 3 (also bottom layer). When the copper tube with the coils is placed around the rotor, the distance from any magnet to any coil must be identical. If it measures different, acrylic holding shapes can be bolted to the aluminum base, protruding upward, and thus push the copper tube in the direction needed to maintain the spacing as stated.

23) Wires to load.

24) Wires to start switch.

25) Rotational direction which is clock—wise when viewing from top down.

26) Acrylic dome for protection against elements.

27) Coating of clear acrylic to solidify rotor. Do not use standard motor varnish. Pre-heat the rotor and then dip it into heated liquid acrylic. After removal from dip tank, hand rotate until the acrylic hardens, then balance rotor. For balancing procedure, either add brass weights or remove brass as needed by drilling small holes into rotor on its heavy side.

28) Insulation tubing on all connections.

29) Shaft for start purposes and speed testing (if desired).

This concludes the parts list for the Mini-Romag.

This simple unit demonstrates profound concepts and has a surprising number of applications. Remember, it must have a load to work, something that attracts magnetic energy. Build this unit and explore new possibilities with us.

All these informations has been shared freely with courtesy of Magnetic Energy, special thanks to them for sharing their wonderful and advanced technology...

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