John W Ecklin -- Stationary armature generator -- US Patent
3879633, US Patent 4567407, 12 articles

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**John W. ECKLIN**

**Stationary Armature Generator**

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**US Patent # 3,879,622**

**Permanent Magnet Motion Conversion Device**

**( 1975-04-22 )**

**John W. ECKLIN**

**Classification:** - international: H02K53/00; H02K53/00;
(IPC1-7): H02K7/06;- european: H02K53/00

**Abstract** --- A permanent magnet motor in one embodiment
utilizes a spring-biased reciprocating magnetizable member
positioned between two permanent magnets. Magnetic shields in
the form of rotatable shutters are located between each
permanent magnet and the reciprocating member to alternately
shield and expose the member to the magnetic field thereby
producing reciprocating motion. A second embodiment utilizes a
pair of reciprocating spring-biased permanent magnets with
adjacent like magnetic poles separated by a magnetic shield
which alternately exposes and shields the like poles from the
repelling forces of their magnetic fields.

**Background of the Invention**

This invention relates to the use of energy stored in the
fields of permanent magnets. This energy is utilized in prime
movers capab le of producing work without the addition of energy
from an outside source.

The world is now confronted with a crisis brought about by a
shortage of sources of energy. People everywhere are being asked
to conserve energy in every possible way. And scientists are
seeking diligently for new sources of energy and for ways to
utilize conventional sources more efficiently.

Electromagnetic energy is known and employed throughout the
world in countless applications. Permanent magnets have played a
large part in the development and utilization of electromagnetic
energy, but no significant use as a primary energy source has
ever been made of the potential energy which exists in the field
of a permanent magnet. It is an object of this invention to
provide a permanent magnet motor which produces reciprocating
motion. The reciprocating motion thus produced may be converted
to rotary motion by conventional mechanisms as desired.

**Summary of the Invention**

The invention utilizes the attraction and repulsion properties
of the magnetic fields of permanent magnets to produce
reciprocating motion in a member of magnetizable material. A
first embodiment of the invention employs a pair of permanent
magnets positioned in spaced relationship along a common axis. A
spring-biased magnetizable member is mounted along the common
axis between the permanent magnets. A rotatable shutter of
magnetic shielding material is mounted between the spring-biased
magnetizable member and each permanent magnet. When the shutters
are rotated to expose and shield, in alternate sequence, the
magnetizable member from the magnetic fields of the permanent
magnets, the magnetizable member is caused to reciprocate along
the common axis between the permanent magnets. The reciprocating
motion o the member can be converted to useful work by
conventional mechanisms.

A second embodiment utilizes a pair of permanent magnets
mounted for reciprocating movement along a common axis. The
magnets are spring-biased in adjacent positions with like
magnetic poles facing each other A magnetic shielding shutter is
moved in and out from between the facing magnetic poles to cause
the permanent magnets to repel each other against the spring
action to produce reciprocating motion.

**Brief Description of the Drawings**

Figure 1 is a diagrammatic view of one embodiment of a
permanent magnet motor constructed in accordance with the
invention;

![](3-fig1.jpg)

Figure 2 is a plan view of one of the rotary shutters used as a
magnetic shield in the device of Figure 1;

![](3-fig2.jpg)

Figure 3 is a diagrammatic view of a second embodiment of the
invention with the magnetic shield in position; and

![](3-fig3.jpg)

Figure 4 is a diagrammatic view of the device of Figure 3 with
the magnetic shield removed from between the permanent magnets.

![](3-fig4.jpg)

**Description of the Preferred Embodiments**

The invention will be understood more readily by referring to
Figure 1 which is a diagrammatic view of a first form of the
invention which may utilize either the attraction or repulsion
of magnetic fields to produce reciprocating motion in a prime
mover device. A pair of permanent magnets 1 and 3 are positioned
in spaced relationship to each other with a magnetizable member
5 located therebetween. The member 5 is shown with arms 7 and 9
connected thereto. Arm 7 is also connected to driving link 11
which is provided to convert the reciprocating motion of member
5 to rotary motion by means of eccentric connection to circular
member 13.

The member 5 is spring-biased in the position shown by means o
springs 15, 17, 19, and 21. Biasing links 23 and 25 connect arms
7 and 9 to the spring members.

A pair of rotatable shutter members 27 and 29 are mounted on
shaft 31 which is concentric with the common axis of permanent
magnets 1 and 3 and magnetizable member 5. Shaft 31 is driven by
a suitable device such as motor 33 shown.

Figure 2 is a plan view of rotatable shutter 27 show in Figure
1. The shutter 27 comprises cutout portions 35 and 37 and
portions 39 and 41 of magnetic shielding material. The positions
of the magnetic shielding portions of shutters 27 and 29 are
displaced 90 degrees in rotation from each other so that when
shutter 27 exposes the pole pieces of permanent magnet 1,
shutter 29 is shielding the pole pieces of permanent magnet 3.

In operation the motor 33 turns shaft 31 and the rotatable
shutters 27 and 29 attached thereto. As the pole pieces of one
of the permanent magnets are exposed, magnetizable member 5 is
attracted thereto, since at the same time the pole pieces of the
other permanent magnet will be shielded. As the shutter
continues rotation the pole pieces of each magnet will be
alternately exposed and shielded causing magnetizable member 5
to reciprocate back and forth between the permanent magnets with
assistance from the biasing springs, one pair of which will be
compressed while the other air is tensioned. The circular wheel
13 serves as a power take-off means and converts the
reciprocating motion of magnetizable member 5 to circular motion
for shaft rotation.

An alternative arrangement could be achieved in the device of
Figure 1 by substituting a permanent for the magnetizable member
5. In this case the magnet would have to be oriented so that
like magnetic poles were always adjacent each other. The device
would operate by the repulsion properties of like magnetic poles
with the reciprocating member 5 being repelled by magnetic
forces as the rotatable shutter uncovered the pole pieces.

Figures 3 and 4 illustrate a second embodiment o the invention
employing the property of magnetic repulsion. A pair of
permanent magnets 45 and 47 are positioned in tubular members 49
and 51. Springs 53 and 55 bias permanent magnets 45 and 47 in
position so that like magnetic poles are adjacent. A magnetic
shutter member 57 separates permanent magnets 45 and 47 when
they are in their fully-biased position.

When the magnetic shutter member 57, which acts as a magnetic
shield between permanent magnets 45 and 47, is removed, as shown
in Figure 4, the magnets 45 and 47 repel each other and compress
springs 53 and 55. When the shutter member 57 is again placed
between magnets 45 and 46, the compressed springs 53 and 55
force magnets 45 and 47 back into the position shown in Figure
3. Periodic action of shutter member 57 will produce a periodic
reciprocating motion which may be converted to useful rotary
motion by circular wheels 59 and 61. The shutter 57 may be
mounted for rotary motion in a fashion similar to shutters 27
and 29 of Figure 1.

What is claimed is: --- [Claims not included here ]

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**US Patent # 4,567,407**

**Biased Unitized Motor Alternator with
Stationary Armature and Field**

**( January 28, 1986 )**

**John W. Ecklin**

**Abstract** --- A unitized (single unit) motor and flux
switch alternator having stationary field, armature and motor
windings which provides a magnetic path for some of the motor
input power to feed through and increase the alternating current
(AC) generator output. A rotor formed from a material having a
high magnetic permeability (solid or laminated soft steel) is
controlled in speed by controlling the magnitude and timing of
the pulsed direct current (DC) supplied to the motor windings
which may be wound on the stationary legs or the rotor. The
current flow in the motor windings can be controlled by a
mechanical commutator if the motor windings are on the rotor or
by a solid-state converter if the motor windings are on the legs
in a manner normally associated with brushless DC motors. The DC
windings of the flux switch alternator can be replaced by
permanent magnets since the reversing field in the AC output
windings are predominantly time stationary.

**Current U.S. Class:**  318/140 ; 310/113; 310/155;
318/138; 318/149; 318/153

**Current International Class:**  H02P 25/30
(20060101); H02K 47/00 (20060101); H02K 47/04 (20060101); H02P
25/16 (20060101)

**Field of Search:** 
318/140,141,142,144,148,149,151,152,153,138
310/159,12R,103,113,158,159,152,154,156,168,171,177,179,46,181,155
322/39,90,100,13

**References Cited: U.S. Patent Documents**

1730340  October 1929  Smith // 2217499  October
1940  Smith // 2279690  April 1942  Lindsey //
2505130  April 1950  Maynard // 2520828  August
1950  Bertschi //   
2732509  January 1956  Hammerstrom et al. //
2816240  December 1957  Zimmer // 3009092 
November 1961  Carmichael // 3010040  November
1961  Braun // 3253170  May 1966  Philips et al.
// 3346749  October 1967  Shafranek // 3512026 
May 1970  Tiltins // 3518473  June 1970  Nordebo
// 3569804  March 1971  Studer // 3577002  May
1971  Hall // 3588559  June 1971  Fono //
3594595  June 1971  Frederic et al. // 3641376 
February 1972  Livingston // 3879622  April 1975 
Ecklin // 3953753  April 1976  Barrett //
3967200  June 1976  Tetsugu et al. // 4053801 
October 1977  Ray et al. // 4138629  February
1979  Miller et al. // 4237395  December 1980 
Loudermilk // 4259604  March 1981  Aoki //
4297604  October 1981  Tawse //

**Description**

**BACKGROUND OF THE INVENTION**

Inductor alternators were as popular and efficient as any
generator before 1900. They had no brushes for high reliability
but they were slightly larger than other generators and output
unidirectional pulses. As a result they lost out to other
generators except in special applications. Later the flux switch
alternator replaced the inductor alternator as the flux switch
alternator outputs AC and since all AC coils and DC coils were
used twice as much, the flux switch alternator output four times
more than inductor alternator, all else being equal.

Simple inductor alternators had four legs with AC and DC coils
wound on each leg and a four lobed steel rotor. The flux switch
alternator simply wound these same coils between the four legs
instead of on the legs and cut two opposite lobes from the steel
rotor. Since only steel rotates with a conservative force, what
could require four times more input torque to the flux switch
alternator?

Because of sags, glitches, brownouts, blackouts and other
surprises from electric power systems many large electronic
systems including computers now use a motorgenerator (M-G) for
back-up or emergency power. Few motors or generators are
individually over 95 per cent efficient so when their shafts are
mechanically coupled, the overall efficiency of an M-G with
separate motors and generators is seldom over 90 percent
efficient.

It is commonplace to teach the output of a generator is equal
to the mechanical input power minus the losses. It is also known
from Lenz's law (but seldom taught) a generator that is 95
percent efficient consumes 95 percent of the input to overcome
torque due to internal forces and 5 percent goes to losses. The
rotors of most of today's generators are repelled as they
approach a stator and are attracted back by the stator as soon
as the rotor passes the stator in accordance with Lenz's law.
Thus, most rotors face constant nonconservative work forces and
therefore, present generators require constant input torque.

Therefore, it is an object of this invention to provide a more
compact motor generator.

It is also an objective of this invention to bias all steel
above ground by attaching this steel to the positive terminal of
a power supply or battery and grounding the negative terminal to
bleed off or gound most free electrons to decrease losses from
unwanted induced currents. This will also decrease losses in any
other motor, generator or transformer with armatures.

It is further an objective of this invention to make a more
compact and far more efficient motor generator by unitization.

It is yet another objective of this invention to take advantage
of a conservative no work force demonstrated by a simple damped
oscillator consisting of a steel ball bearing released off
center on a button permanent magnet with magnetic poles on the
flat surfaces.

According to this invention, the legs or the rotor of a flux
switch alternator are provided with motor windings. The steel
rotor of the unitized flux switch alternator actually aids the
input torgue for half of each rotation as the rotor is always
attracted and never repelled. This construction makes it
possible for some of the current or power fed to the motor
windings to magnetically feed through a solid magnetic path to
the AC output windings which does not occur in today's M-Gs as
they are only mechanically coupled by their shafts and have no
common magnetic path to share.

From basic electronic technology we learn a charged condensor
has few free or conduction electrons on the positive plate and
an excess of free electrons on the negative or grounded plate.
Since steel armatures are conductors, there has been
considerable effort expended in materials research to increase
resistance to conduction electrons in armature materials to
thereby reduce hysteresis and eddy current damping losses.
Another more common approach is to laminate or powder these
armatures. Accordingly, a further feature of the invention, the
reduction in hysteresis and eddy current damping losses.

This invention provides a biased and unitized M-G which is
smaller, has less loss, and is more efficient than present
units.

Since the steel rotor is always attracted to the strongest
magnetic field regardless of it's polarity, steel gets a
conservative force or is accelerated to a leg and slowed down or
decelerated by the magnetic field set up in the legs by the DC
coils or permanent magnets of the flux switch alternator.
Moreover, because the flux induced into the two lobed rotor by
the stationary source of field flux exhibits no reluctance
change as rotation takes place, there is an essentially lossless
transfer.

Well established mechanical or solid-state commutator
technology allows the pulsing or energizing of the motor coils
(whether stationary on the legs or on the rotor) to selectively
provide given magnetic polarities when the rotor gets within 30
degrees of any leg in the direction of motion of the rotor and
to deenergize these pulses 10 degrees or so before the rotor
gets to a leg to take advantage of a large collapsing field.

**SUMMARY OF THE INVENTION**

In accordance with a principle of this invention, a unitized
flux switch alternator is provided whose stationary field of
flux is established by DC coils or permanent magnets.

In accordance with another principle of this invention, a solid
or laminated steel rotor is turned and timed by pulses of
current fed to either stationary motor coils on the legs or to a
winding on the rotor to increase given magnetic polarities using
standard commutating procedures. This pulsed polarized magnetic
motor flux feeds through to the AC output coils providing a
fatter appearing sine wave for an increased output power.

It will also be appreciated from the foregoing description that
the invention is electrically, magnetically and mechanically
inexpensive and uncomplicated using only well known and fully
developed technologies.

**BRIEF DESCRIPTION OF THE DRAWINGS**

The foregoing objects and other attendant advantages and
features of this invention will become more readily appreciated
as the same becomes better understood by reference to the
following detailed description when taken in conjunction with
the accompanying drawings wherein:

FIG. 1 is a magnetic circuit diagram illustrating the basic
embodiment of the invention of how steel moves with conservative
forces in a magnet's field,

![](4-fig1.jpg)

FIG. 2 is a simple prior art inductor alternator,

![](4-fig2.jpg)

FIG. 3 is a simple prior art flux switch alternator using
permanent magnets and demonstrating how magnetic flux is
reversed in the AC coils by turning the steel rotor,   
    
 

![](4-fig3a.jpg)![](4-fig3b.jpg)

FIG. 4 is an end view of the unitized, motor generator
incorporating the present invention,   
    
 

![](4-fig4.jpg)

FIG. 5 illustrates a rotor for a 6 pole unitized MG, and

![](4-fig5.jpg)

FIG. 6 illustrates a modification wherein the DC motor windings
are on the armature pole pieces.

![](4-fig6.jpg)

**DESCRIPTION OF THE PREFERRED EMBODIMENTS**

FIG. 1 is a magnetic circuit diagram which is useful for
illustrating a basic aspect of the invention. A steel ball 19 is
set on either the North or South pole of a button magnet 20
which, in turn, is positioned on a steel sheet 23. Magnet 20
might be one half inch in diameter by three sixteenths of an
inch thick in which case steel ball member 19 should be five
sixteenths of an inch in diameter. When steel ball 19 is pushed
to the edge of button magnet 20 and released under the influence
of the magnetic field, it has a damped oscillation. If all
losses could be overcome, the excursion of steel ball 19 would
be constant and in either case demonstrates a conservative no
work force.

FIG. 2 is a prior art inductor alternator and is shown because
such sketches are now difficult to locate and also to observe
the similarity of the motion of the steel rotor 13 and 19 in
FIG. 1. Stator 10 is provided with pole pieces 11 corresponding
in number to the teeth projections 12 on toothed iron rotor 13.
Primary winding 14 on pole pieces 11 are energized through
rheostat 15 from battery 16 and the AC output to a load 17 are
taken from secondary winding 9.

FIGS. 3(a) and 3(b) are of a flux switch alternator. These
sketches show the rotor 5' in two positions. Stator 40 includes
a pair of permanent magnets 41 and 42 and a flux guiding
structure 43 having pole pieces 44-1, 44-2, 44-3 and 44-4 and
windings 45 and 46 on legs 47 and 48. The flux reversal through
the AC windings 45 and 46 is demonstrated by rotation of rotor
5'. Also it can be seen that two rotations of rotor 5' will
produce four sine waves. To get 60 cycles (hertz) per second
out, rotor 5' is rotated at 1800 revolutions per minute (RPM)
with a double lobed rotor. Using a six lobed rotor 5", as
illustrated in FIG. 5, the speed of rotation can be reduced to
600 RPM for 60 cycle (Hz) AC out. Similar strategies can be used
to generate three phase AC. Since rotors 5' turn with a
conservative force, it is obvious it should be embedded in
magnetically transparent material MT to make it a better
flywheel and a smooth surface to reduce windage losses. In FIGS.
2 and 3(a) and 3(b), a separate drive means coupled to the
shafts S of rotors 13, 5 and 5' produce the motive force on the
rotors.

In FIG. 4, stator 70 exemplarily includes four poles 71-1N,
71-2S, 71-3S and 71-4N and connecting sections 72-1, 72-2, 72-3
and 72-4 on which are located the DC coils 75 and the AC output
coils 74, AC output coils 74-1 and 74-3 being wound on stator
connecting portions 72-1 and 72-3, respectively, and DC coils or
windings 75-2 and 75-4 being wound on stator connecting portions
72-2 and 72-4, respectively. These DC windings on the stator
connecting portions are energized from a DC source, such as a
battery. Prior art solid-state commutator controls such as shown
in U.S. Pat. No. 3,569,804 or other DC brushless motor controls
may be used when the DC motor coils are on the legs or pole
pieces 1, 2, 3 and 4 as in FIG. 6. The rotor 80 is on shaft 81
journeled at it's ends for free rotation, or if vertically
oriented, on magnetic bearings to eliminate further friction
losses. DC windings 75 and the AC output windings 74 can
overlap, and in fact be bifilar wound. As noted above, well
established mechanical or solid state commutator technology
allows the pulsing or energizing of the motor coils (whether
stationary on the stator legs as shown in FIG. 6 or on the rotor
as shown in FIG. 4) to selectively provide given magnetic
polarities when the rotor gets within 30 degrees of any leg in
the direction of motion of the rotor and to deenergize these
pulses 10 degrees or so before the rotor gets to a leg. For
example, as shown in FIG. 4, brushes B1 and B2 are engaged by
commutator segments C1 and C2, respectively, when the rotor is
within 30 degrees of leg 2 and 4 of the stator 82 and leave
these commutator segments at about 10 degrees before the rotor
gets to those legs.

Exemplary dimensions of the four legged stator 70 are 12 inches
in diameter by one inch thick and wide, as are the pole pieces
71.

A battery 90 is shown for bias in FIG. 4 however, a positive
lead to a DC coil can be attached to the stator in the case
where permanent magnets are not used instead of the DC coils.

It will be appreciated that not only does some of the power to
the motor coils 82 feed through to the AC output coils 74-1 and
74-3 but the only power required to the motor coils 82 would be
that needed in a structure corresponding to FIG. 1 to keep the
ball at a constant excursion or the rotor 80 at a constant
speed. Also since the power to the DC coils 75-2 and 75-4
saturates the stator 70 when the rotor is between two legs
(71-1N and 71-3S or 71-2S and 72-4N) much less motor power is
required (as in a variable flux path magnetic amplifier) using a
mechanical commutator and winding the DC motor coils 82 on rotor
80. Very little change is required to the input torque as the
electrical load on the alternator varies. Magnetic lines of
force always tend to shorten their path so they not only take
the easiest path, they make the shortest magnetic path. See FIG.
1.

As noted above, the direction of the current fed to the motor
coils can be controlled by a mechanical commutator to give the
tips of the rotor the opposite magnetic polarity to that of the
legs the rotor tips approach.

As shown in FIG. 6, instead of placing the DC motor windings on
the rotor as shown in FIG. 5, the motor windings 82 can be on
the pole pieces, such as 71-1N of FIG. 6.

By unitizing we not only get rid of an external motor but some
of the pulsed power fed to the motor coils will feed through to
the AC coils and generate more output. Pulse or energize the
motor coils to increase given magnetic polarities when the rotor
gets within 30 degrees or so of any leg in the direction of
motion and deenergize 10 degrees before 80 gets to a leg to take
advantage of a large collapsing field.

Stator losses are caused by current flow either hysteresis or
eddy current damping. By biasing stator at a positive voltage
most free or conduction electrons are grounded reducing these
losses to almost zero. The stator are similar to the electron
starved plate of a charged condensor. Biasing works better than
laminated or powdered stator to reduce these losses in
conductors.

Except for space applications it is more efficient to use
brushes and wind the motor coils on the rotor. Since the DC
coils should saturate the armature when the rotor is between two
legs it takes much more energy to motor coils on the legs
compared to rotor.

Motor windings can be applied to the flux switch alternator of
FIG. 3a and FIG. 3b incorporating the permanent magnets.

While illustrative forms of the system in accordance with the
present invention have been described, it will be understood
that numerous changes may be made without departing from the
principles and scope of this invention.

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**Google Search Results**

John Ecklin's SAG-6   
www.montalk.net/science/72/john-ecklins-sag-6

Stationary Armature Generator   
Mr. Ecklin says that like most things in nature, magnetic fields
take and make the easiest path and prefer the soft steel in 27
and 29 more than 7000 to one ...   
www.kz1300.com/ecklin/ - 17k

ECKLIN GENERATOR   
Ecklin Patent number 3879622 AVAILABLE
http://www.patents.ibm.com/details?&pn=US03879622\_\_&s\_clms=1#clms.
ABSTRACT
A permanent magnet motor in one ...   
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The Brown-Ecklin generator: Part 1   
Fig.1: the Ecklin generator: mechanical perpetuum mobile
proposal, top view. A rod magnet 5 is drawn periodically back
and forth by switching on and off the ...   
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The Brown-Ecklin generator - Part 3   
3) the magnetic field of the coil is a potential field, and ...
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[Keelynet] Wadle Magnetic Shield   
This is possible in view of the shielding materials used to
produce the magnetic shield. This might have application in the
Ecklin and Gary motors in ...   
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-
6k

[Keelynet] Steorn claims vs Jack Hilden-Brands invention   
http://www.kz1300.com/ecklin/ And there is also Jack
Hilden-Brands invention of a method of switching off any natural
magnetic field, either mechanically or ...   
www.mail-archive.com/interact@listserv.capital-master.com/msg00255.html
-
14k

John Ecklin/Free Energy/AG   
John Ecklin: Stationary-Armature Generator - This device is a
motor based on 'Permanent-Magnet Motion-Conversion'.
Spring-loaded reciprocating magnets are ...   
antigravitypower.tripod.com/FreeEnergy/j.ecklin.html - 7k

patents   
Ecklin, J.W., 3879622, Magnet Motion Converter, Permanent Magnet
Motors, USA. Gay, H. #2486327, P.M. Self-Movement Device,
Permanent Magnet Motors, FRANCE ...   
www.theverylastpageoftheinternet.com/menu/patents.htm - 94k

Patent Links for Alternative Energy, Cold Fusion, Fusion, anti
...   
3879622 Permanent Magnet Motion Conversion Device \* Ecklin, John
W. ...   
www.butlerlabs.com/patentlinks.htm

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