https://overunity-electricity.blogspot.com/2022/08/john-ecklins-magnetic-shielding.html?m=0
John Ecklin's Magnetic Generator Comments
This is a generator that uses the power of a permanent fan. It is quite similar to Wesley W. Gary's generator in that it uses the neutral region of the magnetic field. Learn more: Magneto Electric Machines by Wesley W. Gary
The motor system generates resonance thanks to the harmonic oscillation of the spring. This is a device that demonstrates mathematical and intellectual thinking in classical objects. But it should be clear that classical physics is part of Ether's Aspiration, it can be said that this science is Metaphysics, a science that has been fragmented, and is considered a lost science. With Ether science, Nikola Tesla created the 20th century by laying the groundwork for many of today's electronic technologies. In particular, with Ether science, the creation of free energy generators has many special ways. Harnessing Back EMF (returning electromagnetic field) is one way:
๐ Top Magnetic Generator
Free Energy Magnetic Generator and synthesizes many other technologies imbued with Nikola Tesla's technological identity
✔ Nikola Tesla’s method of magnifying electric power by neutralizing the magnetic counter-forces in an electric generator
✔ Combination of induction motor and alternator
✔ Combine generators with induction motors - self-powered generators with rotary motion
✔ Various methods of generating high power immobile generators
✔ Or maybe called Overunity for the system. Mother Nature doesn't care about people calling or naming phenomena. Overunity/Free Energy, Zero Point Energy (ZPE) are just a few different words
Magnetic-Shielding Generator Plan by John Ecklin
John W. Ecklin was granted US Patent Number 3,879,622 on 29th March 1974. The patent is for a
magnet/electric motor generator which produces an output greater than the input necessary to run it. There are
two styles of operation. The main illustration for the first is:
Here, the (clever) idea is to use a small low-power motor to rotate a magnetic shield to mask the pull of two
magnets. This causes a fluctuating magnet field which is used to rotate a generator drive.
In the diagram above, the motor at point ‘A’ rotates the shaft and shielding strips at point ‘B”. These rectangular
mu-metal strips form a very conductive path for the magnetic lines of force when they are lined up with the ends of
the magnets and they effectively shut off the magnet pull in the area of point ‘C’. At point ‘C’, the spring-loaded
traveller is pulled to the left when the right-hand magnet is shielded and the left hand magnet is not shielded.
When the motor shaft rotates further, the traveller is pulled to the right when the left-hand magnet is shielded and
the right hand magnet is not shielded. This oscillation is passed by mechanical linkage to point ‘D’ where it is
used to rotate a shaft used to power a generator.
As the effort needed to rotate the magnetic shield is relatively low, it is claimed that the output exceeds the input
and so can be used to power the motor which rotates the magnetic shield.
The second method for exploiting the idea is shown in the patent as:
Here, the same shielding idea is utilised to produce a reciprocating movement which is then converted to two
rotary motions to drive two generators. The pair of magnets ‘A’ are placed in a housing and pressed towards
each other by two springs. When the springs are fully extended, they are just clear of the magnetic shield ‘B’.
When a small electric motor (not shown in the diagram) moves the magnetic shield out of the way, the two
magnets are strongly repelled from each other as their North poles are close together.
This compresses the
springs and through the linkages at ‘C’ they turn two shafts to generate output power.
A modification of this idea is the Ecklin-Brown Generator. In this arrangement, the movable magnetic shielding
arrangement provides a direct electrical output rather than a mechanical movement:
Here, the same motor and rotating magnetic shield arrangement is used, but the magnetic lines of force are
blocked from flowing through a central I-piece. This I-piece is made of laminated iron slivers and has a pickup coil
or coils wound around it.
The device operates as follows:
In the position shown on the left, the magnetic lines of force flow downwards through the pickup coils. When the
motor shaft has rotated a further ninety degrees, the situation on the right occurs and there, the magnetic lines of
force flow upwards through the pickup coils. This is shown by the blue arrows in the diagram. This reversal of
magnetic flux takes place four times for every rotation of the motor shaft.
While the Ecklin-Brown design assumes that an electric motor is used to rotate the mu-metal shield, there does
not seem to be any reason why the rotation should not be done with a permanent magnet motor.
Toroidal shapes are clearly important in many devices which pull in additional energy from the environment.
However, the Ecklin-Brown generator looks a little complicated for home construction, the principle can be used
with a much more simple style of construction where the cores of the output coils are straight bars of suitable
material such as ‘soft’ iron or perhaps the more readily available masonry anchors:
If using the masonry anchors, be sure to cut the conical end off as it alters the magnetic effect in an undesirable
way. Using a hand hacksaw and a vise, cutting the end off is a very easy thing to do and that allows an ordinary
helical coil to be wound either directly on the shaft or on a simple bobbin which slides on to the shaft. With any
such coil, the voltage produced increases as the number of turns in the coil increases. The maximum current
draw depends on the thickness of the wire as the thicker the wire, the greater the current which it can carry
without overheating.
We can use an ordinary magnet or set of magnets at each end of the straight core to cause a strong magnetic
field to flow through the core of our coil. As the motor spins the two screening arms they pass alternately between
the magnet at one end of the core and then the magnet at the other end of the core, creating a fluctuating
magnetic field passing through the coil.
The drawing shows just one output coil, but there could be two coils:
Or there could be four coils:
The coils can be connected in parallel to increase the output current, or they can be connected in series (in a
chain configuration) to increase the output voltage. While the drawings show the shields connected directly to the
motor drive shaft (a short length of plastic sleeving from a piece of wire would probably be used to help with
alignment of the motor shaft and the shielding axle) there is no reason why the shielding should not be on a
separate axle mounted in bearings and driven by a belt and pulley wheel arrangement.
With a separate shielding axle, allows a long, stiff axle to be used and that allows there to be additional coils and
magnets. The result could be like this: