
rexresearch.com
Dan
DAVIDSON
Shape Power
Shape
Power -- A Treatise On How Form Converts Universal Aether
Into Electromagnetic & Gravitic Forces
by
Dan A Davidson
[ PDF , 161 pp ]

Free Energy, Gravity, and the
Aether
Dan Davidson
[ PDF
]
The
Theta Device and Other Free Energy Patents
Dan Davidson
[ PDF ]
http://www.vanguardsciences.biz/dvds.htm
Lecture and/or workshop DVD - Theory, demonstration and
discussion of Dan's gravity wave detector research and his
discoveries with shape power along with the correlations to
quantum nanostructures.
https://www.youtube.com/watch?v=I9fdHWs_xGM
Shape
Power and Gravity Resonance Phenomena - by Dan A. Davidson
https://www.youtube.com/watch?v=Kk-51e3l41I
Dan
Davidson Shape as Universal Resonance Part 1
This presentation will
briefly summarize the Shape Power phenomenon whereby physical
shapes convert the ether to other forces as discovered by Mr.
Davidson, followed by research findings of a universal resonance
principal where shape, mass, frequency, and other quantities fit
into a natural, universal order of creation.
https://www.youtube.com/watch?v=LxrbfMIYfWU
Dan
Davidson Shape as Universal Resonance Part 2
https://www.youtube.com/watch?v=W57lIGGbj9w
Dan
Davidson Shape as Universal Resonance Part 3
https://www.youtube.com/watch?v=PcLIx1333fg
Dan
Davidson Shape as Universal Resonance Part 4
https://www.youtube.com/watch?v=2LZp-7YsLqo
Dan
Davidson Shape as Universal Resonance Part 5
https://www.youtube.com/watch?v=ZS6LnxC68_8
Dan
Davidson Shape as Universal Resonance Part 6
https://www.youtube.com/watch?v=I_GSS5UkJxU
Dan
Davidson Shape as Universal Resonance Part 7
http://genvideos.us/Gary-Magnetic-Effect-Dan-Davidson%28n3f8v9bjx7g%29
Gary
Magnetic Effect -- Dan Davidson (n3f8v9bjx7g) [ MP3 / MP4 ]
US5568005
Acoustic-magnetic
power generator
Inventor(s): DAVIDSON DAN, et al.
The Acoustic Magnetic Field Power Generator uses an acoustic
signal focused into a permanent magnet to stimulate the nuclear
structure of the magnet to cause the magnetic field of the
permanent magnet to move or oscillate. This effect can be used
to tap power from the oscillating magnetic field by putting a
coil of wire in the oscillating field. When an alternating
current signal generator is connected simultaneously to an
acoustic transducer and a stimulating coil; whereby, both the
acoustic transducer and the stimulating coil are located within
the magnetic field of the magnet, the acoustic signal enhances
the stimulating effect to the permanent magnet transformer. The
acoustic transducer can be any acoustic generation device such
as a piezoelectric, magnetostictive, or other acoustic
transducer. The combined effect of the acoustic signal and the
stimulating coil increases the efficiency of permanent magnet
induction transformers.
BACKGROUND
OF THE INVENTION
The present invention relates to a solid state electrical
generator having no moving parts in its structure. More
particularly, the invention makes use of a new method of
stimulating the nuclear material of a permanent magnet so that
the electronic structure of the atom will vibrate and thus cause
the magnetic field of the permanent magnet to oscillate. It is a
well-known fact that an oscillating magnetic field will induce
electrical current in a coil and was originally discovered by
Michael Faraday in the last century. What is new in this
invention is the discovery of the ability of an acoustic field
to stimulate the nuclear structure of a material to cause the
electrons to wobble under the influence of the acoustic field.
If the material is magnetic or temporarily magnetized by an
external magnetic field then the magnetic field will vibrate
under the stimulus of the acoustic field. If this effect is
combined with a coil which is simultaneously stimulating the
magnet then the efficiency of stimulating the permanent magnet's
field is enhanced. If a pickup coil is placed in the oscillating
magnetic field so as to create an induction transformer then the
combination of the acoustic and magnetic stimulation will
enhance the efficiency of the induction transformer.
The most relevant prior art known to the inventor comprises U.S.
Pat. No. 4,904,926 (1990) to Mario Pasichinsky, entitled Magnet
Motion Electrical Generator; and U.S. Pat. No. 4,077,001 (1978)
to Frank Richardson, entitled Electromagnetic Converter With
Stationary Variable-Reluctance Members; and U.S. Pat. No.
4,006,401 (1977) to de Rivas, entitled Electromagnetic
Generator.
The above references to Pasichinsky, Richardson, and de Rivas
all use inductive methods to stimulate the motion of a permanent
magnetic field. In the de Rivas invention, the Electromagnetic
Generator, the flux of the permanent magnet is "alternate(d) by
switching" using inductive coupling. In the Richardson
disclosure an "energy conversion system" the flux of the
permanent magnet is also "shifted" by inductive means. In the
Pasichinsky disclosure, alternating magnetic coils induce flux
changes in a closed magnetic circuit and output coils attached
to the circuit are induced by the changing flux to produce a
magnetic field. All of these devices are essentially variations
of transformer design with permanent magnets as part of the
transformer cores and all use magnetic induction. The
transformer aspect of these references is the use of permanent
magnets as the transformer core with coils wrapped around the
magnetic core which are energized to produce oscillation or
movement of the permanent magnet's field. The above references
are herein called under a class name herein referred to as
"permanent magnet transformers".
Other prior art relevant to the invention are U.S. Pat. No.
2,101,272 (1937) to H. J. Scott, entitled Combined
Magnetostriction and Piezoelectric Selective Device; and U.S.
Pat. No. 2,636,135 (1953) to R. L. Peek, Jr. entitled Stress
Coupled Core and Crystal Transformer, and U.S. Pat. No.
2,834,943 (1958) to R. O. Grisdale, etal entitled Mechanically
Coupled Electromechanical and Magnetomechanical Transducers, and
U.S. Pat. No. 3,246,287 (1966) to H. F. Benson entitled
Piezoelectric Transformer, and U.S. Pat. No. 3,261,339 (1966) to
H. P. Quinn entitled Magnetostrictive Transformer, and U.S. Pat.
No. 3,274,406 (1966) to H. S. Sommers, Jr. entitled Acoustic
Electromagnetic Device, and U.S. Pat. No. 3,309,628 (1967) to F.
A. Olson entitled YIG Variable Acoustic Delay Line, and U.S.
Pat. No. 3,457,463 (1969) to L. Balamuth entitled Method and
Apparatus for Generating Electric Currents of Small Magnitude,
and U.S. Pat. No. 4,443,731 (1984) to Butler et al. entitled
Hybrid Piezoelectric and Magnetostrictive Acoustic Wave
Transducer, and U.S. Pat. No. 4,552,071 (1985) to R. B. Thompson
entitled Method and Apparatus for Measuring Stress.
The above cited reference to Peek takes advantage of the
difference in operation of piezoelectric and magnetostrictive
crystals to produce a response in one when stimulated by the
other. The Peek patent does not use an acoustic wave to
stimulate a permanent magnet as in the present invention.
The above cited reference to Sommers is a transducer which uses
a conductive bar or tube, which supports relatively slow helicon
waves, placed next to a piezoelectric or magnetostrictive
crystal. The transducer is designed in such a way to either
enhance the acoustic wave or the electric wave by interaction of
the two materials. The Sommers patent does not use an acoustic
wave to stimulate a permanent magnet as in the present invention
to enhance to oscillation of the magnetic field.
The above cited reference to Balmuth uses mechanically resonant
reeds, rods, or chambers that are coupled to transducers that
are piezoelectric, magnetostrictive, or transistorized. The
electrical output of the transducers stimulate an electrical
circuit when the resonator receives acoustic energy and again
does not use an acoustic wave to stimulate a permanent magnet as
in the present invention to enhance to oscillation of the
magnetic field.
The above cited reference to Olson uses an acoustically
responsive material such as a piezoelectric or a
magnetostrictive to act as a delay line for microwave signals
and again does not use an acoustic wave to stimulate a permanent
magnet as in the present invention to enhance to oscillation of
the magnetic field.
The above cited references to Benson, Quinn, Grisdale, Scott,
and Butler are all concerned with acoustic transducers which
convert acoustic pressure to an electrical signal or vice versa
using only the piezoelectric and/or the magnetostrictive effect.
The Benson patent is an underwater acoustic transformer which
converts acoustic waves hitting a transducer into an
electromagnetic field which excites a transformer. The Quinn
patent uses a magnetostrictive effect to stimulate piezoelectric
crystals to output a high voltage which is a reverse of the
Benson patent. The Grisdale patent uses mechanically stacked
piezoelectric or magnetostrictive crystals to produce a more
efficient mechanical gyrator. The Scott patent uses and
electrical oscillator to stimulate magnetostrictive rods which
put pressure on piezoelectric crystals to output a high voltage
from the piezoelectric crystals. The Butler patent uses a
combined effect of piezoelectric and magnetostrictive crystals
to produce an enhanced acoustic energy detector.
The above cited reference to Thompson uses a permanent magnetic
transducer to induce eddy currents in metal which is in the
field of the transducer or uses moving eddy currents in a piece
of metal to stimulate a magnetic field. The induction of the
eddy currents is the result of an oscillating magnetic field
generated in the transducer.
None of the above cited references use an acoustic wave to
stimulate the atoms of a permanent magnet and hence are not
related to this invention.
SUMMARY OF
THE INVENTION
An object of this invention is to provide a power generator
invention with no moving parts therein.
Another object of this invention is to use an acoustic field to
stimulate the nuclear level of the magnetic material and provide
a method of oscillating the magnetic field of permanent magnets.
Another object of this invention is to provide a simple method
of generating electrical energy by including a piezoelectric
transducer which is used to vibrate the magnetic field of a
permanent magnet. When the nucleus the atom is vibrated by the
piezoelectric, it in turn, vibrates the electronic structure of
all the atoms. Since the electronic structure is the basis of
the magnetic field of the magnet then the entire magnetic field
of the magnet is vibrated when the electronic structure is
vibrated. Coils placed in the vibrating magnetic field will have
voltage and current induced in them.
It is well established fact that when the magnetic field of the
permanent magnet is vibrated it is possible to generate an
alternating current in a coil winding which is within the
vibrating magnetic field influence. What is unique about this
invention is to increase the efficiency of permanent magnet
transformers by using acoustic stimulation from piezoelectrics
to further stimulate the permanent magnet so as to add to the
inductive effects of permanent magnet transformers. This
invention does this by stimulating the permanent magnet cores of
permanent magnet transformers with an acoustic field generated
by a piezoelectric or other acoustically active generator which
is vibrated at the same frequency as the electrical induction of
the permanent magnet transformers.
BRIEF
DESCRIPTION OF THE DRAWINGS
FIG. 1 illustrates a frequency signal generator attached to and
driving a piezoelectric which is in the acoustic proximity of a
bar type of permanent magnet with a output coil placed within
the magnetic field of the permanent magnet.
FIG. 2 illustrates a frequency signal generator attached to and
driving a piezoelectric which is in the acoustic proximity of a
toroidal type of permanent magnet with an output coil wrapped
around the toroidal permanent magnet.
FIG. 3 illustrates a frequency signal generator attached to and
driving a piezoelectric which is in the acoustic proximity of a
toroidal type of permanent magnet transformer and the signal
generator is also driving the input coil of the torroidal
permanent magnet transformer.
FIG. 4 illustrates a frequency signal generator attached to and
driving two torroidal core permanent magnet transformers as well
as an acoustic transducer that is in acoustic proximity of the
torroidal cores.
DETAILED
DESCRIPTION OF THE INVENTION
In FIG. 1 a frequency signal generator 6 is connected to a
piezoelectric 1 via wires 4 and 5 connected to the electrode
surfaces of the piezoelectric 2 and 3 respectively. The
piezoelectric 1 is defined to be a high dielectric material such
as barium titanate or lead zirconate titanate or any other
acoustic transducer material suitable for sonic and ultrasonic
generators. The piezoelectric 1 is placed in close proximity to
the permanent magnet 7 such that the acoustic field of the
piezoelectric 1 can radiate into the permanent magnet material.
A permanent magnet transformer defined by a coil 8 is in the
magnetic field of the permanent magnet 7. When the piezoelectric
1 is stimulated by the frequency generator 6 then a voltage and
current is generated at the output 9 and 10 of the above defined
permanent magnet transformer.
Another embodiment of this invention is shown in FIG. 2. and is
similar to FIG. 1. with a similar frequency signal generator 6
connected to a piezoelectric material 1 via wires 4 and 5
connected to the electrode surfaces of the piezoelectric 2 and 3
respectively. The piezoelectric 1 is as defined above, that is,
a material suitable for sonic and ultrasonic generators. The
piezoelectric 1 is placed in close proximity to the permanent
magnet 11 such that the acoustic field of the piezoelectric 1
can radiate into the permanent magnet material. A permanent
magnet transformer defined by a coil 12 in the magnetic field of
the permanent magnet 11. When the piezoelectric 1 is stimulated
by the frequency generator 6 then a voltage and current is
generated at the output 13 and 14 of the above defined magnetic
transformer.
FIG. 3 is similar to FIG. 1 and FIG. 2 with a frequency signal
generator 6 connected to a piezoelectric 1 via wires 4 and 5
connected to the electrode surfaces of the piezoelectric 2 and 3
respectively. The piezoelectric 1 is as defined in the
descriptions above. The signal generator 6 is also connected to
the input coil 20 of the permanent magnet transformer defined by
the torroidal permanent magnet core 11, input coil 20 and output
coil 19. The piezoelectric 1 is placed in close proximity to the
permanent magnet 11 such that the acoustic field of the
piezoelectric 1 can radiate into the permanent magnet material.
The magnetic transformer defined by 11, 19, and 20 is in the
magnetic field of the permanent magnet 11 and is connected to
the frequency signal generator 6 wires 15 and 16. The frequency
generator 6 by stimulates the piezoelectric 1 which stimulates
the permanent magnet transformer via the acoustic field and at
the same time the signal generator also stimulates the coil
electromagnetically. A voltage and current is generated at the
output coil 19 and power can be taken from the output wires 17
and 18 of the magnetic transformer.
A further embodiment of this invention, shown in FIG. 4, is a
frequency signal generator 6 driving a pair of permanent magnet
transformers defined by 26, 35, 27 and 25, 36, 28 respectively
and also driving a piezoelectric transducer 1. The piezoelectric
is as described above. The signal generator is connected via
input wires 23 and 24 to the input coil 26 of the permanent
magnet transformer on the left and to the input coil 25 of the
transformer on the right respectively. The other input wire 38
of the left permanent magnet transformer is connected to the
remaining input wire 39 of the right magnetic transformer. The
output of the signal generator in also connected to the
piezoelectric 1 via connections 21 and 22 to the connector
surface of the piezoelectric 33 and 34 respectively. The output
of the permanent magnet transformer on the left is connected to
a load 40 via wire 30 and the output of the permanent magnet
transformer on the right is connected to the load via wire 29.
The remaining output wires 31 and 32 of the left and right
permanent magnet transformers are also connected to the load.
The load 40 can be anything such as a motor or electrical lights
or appliance.
This invention is not limited to the 4 different versions of the
invention shown in FIGS. 1, 2, 3, and 4 as there are any number
of cascading and electrical hookup techniques that can be
accomplished to amplify power and to take advantage of the
acoustic influence of the piezoelectric upon the magnetic
material. Similarly, this invention is not limited to the
torroidal core configuration as there can be many types of
permanent magnet transformers with any number of magnetic core
and coil configurations that can be enhanced with acoustic
stimulation depending on power and output requirements according
to the rules of electronics and those familiar with the state of
the art in permanent magnet power transformers.