Nikola Tesla: Mechanical Oscillator ~ US Patent # 514,169
& # 517,900 ~ Tele-Geodynamics

    

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**Nikola TESLA**

**Mechanical Oscillator**

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*New York World-Telegram*  

11 July 1935

   

NIKOLA TESLA, AT 79,
USES EARTH TO TRANSMIT SIGNALS:  EXPECTS TO HAVE
$100,000,000 WITHIN TWO YEARS

Could
Destroy Empire State Building with Five Pounds of Air
Pressure, He Says  
by Earl Sparling

"Nikola Tesla is 79
years old, and he is one of the true geniuses of this
time. Nevertheless, twenty-odd newspapermen came away from
his Hotel New Yorker birthday party yesterday, which
lasted six hours, feeling hesitantly that something was
wrong either with the old man's mind or else with their
own, for Dr. Tesla, serene in an old-fashioned Prince
Albert and courtly in a way that seems to have gone out of
this world, announced that: -  
  
1. He had
discovered the so-called cosmic ray in 1896, at least five
years before any other scientist took it up and twenty
years before it became popular among scientists, and he is
now convinced that many of the cosmic particles travel
fifty times faster than light, some of them 500 times
faster.  
  
Needs
No
Commutator  
  
2. He has found a
way to produce a direct electric current by induction and
without the use of a commutator, which is something the
experts in electricity have considered impossible for the
past hundred years.  
  
3. He has invented
an "absolutely impossible" machine which will impart
vibrations to the earth which, with proper receiving
apparatus can be picked up anywhere on the earth's
surface, and that this mysterious machine will allow
scientists to explore the deep interior of the earth, will
enable practical geologists to discover gold, coal and
petroleum, and at the same time will give ships the means
of navigating without compass or sextant.  
  
Dr. Tesla has 600
to 700 patents to his name. He invented the rotary field
motor, and is admittedly the seer and father of all modern
electrical development. As has been his custom for five
years now, he arranged his own birthday party, drank only
hot milk as his part of the celebration, and made his
announcements with the superb certainty of a man who knew
what he was talking about, even if none of his guests did.  
  
Tells
of "Quake"  
  
He said, among
other things, that he expects to have $100,000,000 within
two years, and he revealed that an earthquake which drew
police and ambulances to the region of his laboratory at
48 E. Houston St. in 188.7 or 1888 was the result of a
little machine he was experimenting with at that time
which "you could put in your overcoat pocket."  
  
The bewildered
newspapermen pounced upon this as at least one thing they
could understand and "the father of modern electricity"
told what had happened as follows: -  
  
"I was
experimenting with vibrations. I had one of my machines
going and I wanted to see if I could get it in tune with
the vibration of the building. I put it up notch after
notch. There was a peculiar cracking sound.  
  
"I asked my
assistants where did the sound come from. They did not
know. I put the machine up a few more notches. There was a
louder cracking sound. I knew I was approaching the
vibration of the steel building. I pushed the machine a
little higher.  
  
"Suddenly all the
heavy machinery in the place was flying around. I grabbed
a hammer and broke the machine. The building would have
been down about our ears in another few minutes. Outside
in the street there was pandemonium. The police and
ambulances arrived. I told my assistants to say nothing.
We told the police it must have been an earthquake. That's
all they ever knew about it."  
  
Watch
Out,
Mr. Smith  
  
Some shrewd
reporter asked Dr. Tesla at this point what he would need
to destroy the Empire State Building and the doctor
replied: - "Five pounds of air pressure. If I attached the
proper oscillating machine on a girder that is all the
force I would need, five pounds. Vibration will do
anything.- It would only be necessary to step up the
vibrations of the machine to fit the natural vibration of
the building and the building would come crashing down.
That's why soldiers always break step crossing a bridge."

His early experiments
in vibration, he explained, led to his invention of his
"earth vibrating" machine. Tall and thin and ascetic face,
his eyes sunken but  humorous under protruding brows, he
was cagey about describing what his new machine is, although
he believes it will be "the chief thing of my many
inventions posterity will thank me for."

  


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New York American ( 11 July
1935 )  
  
... His experiments in transmitting mechanical vibrations
through the earth - called by him the art of telegeodynamics -
were roughly described by the scientist as a sort of "controlled
earthquake."  
  
The rhythmical vibrations pass through the earth with almost no
loss of energy, he said, and predicted the system in time will
be universally adopted, since it furnishes an "unfailing means
of communication." He asserted:  
  
"It becomes possible to convey mechanical effects to the
greatest terrestrial distances and produce all kinds of unique
effects of inestimable value to science, industry and the arts."
...  
  


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New York Times ( 11 July 1935,
p. 23, c. 8 )  
  

His Greatest Achievement

  
...One of the subjects, which he hoped, he said, will come to be
recognized as his "greatest achievement in the field of
engineering," was, he said, the perfection by him of "an
apparatus by which mechanical energy can be transmitted to any
part of the terrestrial globe."  
  
This apparatus, he said, will have at least four practical
possibilities. It will give the world a new means of unfailing
communication; it will provide a new and by far the safest means
for guiding ships at sea and into port; it will furnish a
certain divining rod for locating ore deposits of any kind under
the surface of the earth; and finally, it will furnish
scientists with a means for laying bare the physical conditions
of the earth, and will enable them to determine all of the
earth's physical constants.  
  
He called this discovery "tele-geodynamics," motion of
earth-forces at a distance. It is of this, he said, that it
would "appear almost preposterous." The apparatus, he added, is
"ideally simple," consisting of a stationary part and a cylinder
of fine steel "floating" in air.   
  
He has found means, he said, of "impressing upon the floating
part powerful impulses which react on the stationary part, and
through the latter to transmit energy through the earth." To do
this he has "found a new amplifier for a known type of energy,"
and the "purpose is to produce impulses through the earth and
then pick them up whenever needed."  
  


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MECHANICAL THERAPY  
  
by   
  
NIKOLA TESLA

  
In order to convey a clear idea of the significance and
revolutionary character of this discovery it is indispensable to
make a brief statement regarding ELECTRICAL THERAPY.  
  
Fifty years ago, while investigating high frequency currents
developed by me at that time, I observed that they produced
certain physiological effects offering new and great
possibilities in medical treatment. My first announcement spread
like fire and experiments were undertaken by a host of experts
here and in other countries. When a famous French physician, Dr.
D'Arsonval, declared that he had made the same discovery, a
heated controversy relative to priority was started. The French,
eager to honor their countryman, made him a member of the
Academy, ignoring entirely my earlier publication. Resolved to
take steps for vindicating my claim, I went to Paris, where I
met Dr. D'Arsonval. His personal charm disarmed me completely
and I abandoned my intention, content to rest on the record. It
shows that my disclosure antedated his and also that he used my
apparatus in his demonstrations. The final judgment is left to
posterity.  
  
Since the beginning, the growth of the new art and industry has
been phenomenal, some manufacturers turning out daily hundreds
of sets. Many millions are now in use throughout the world. The
currents furnished by them have proved an ideal tonic for the
human nerve system. They promote heart action and digestion,
induce healthful sleep, rid the skin of destructive exudations
and cure colds and fever by the warmth they create. They vivify
atrophied or paralyzed parts of the body, allay all kinds of
suffering and save annually thousands of lives. Leaders in the
profession have assured me that I have done more for humanity by
this medical treatment than by all my other discoveries and
inventions. Be that as it may, I feel certain that the
MECHANICAL THERAPY, which I am about to give to the world, will
be of incomparably greater benefit. Its discovery was made
accidentally under the following circumstances.  
  
I had installed at the laboratory, 35 South Fifth Avenue, one of
my mechanical oscillators with the object of using it in the
exact determination of various physical constants. The machine
was bolted in vertical position to a platform supported on
elastic cushions and, when operated by compressed air, performed
minute oscillations absolutey isochronous, that is to say,
consuming rigorously equal intervals of time. So perfect was its
functioning in this respect that clocks driven by it indicated
the hour with astronomical precision. One day, as I was making
some observations, I stepped on the platform and the vibrations
imparted to it by the machine were transmitted to my body. The
sensation experienced was as strange as agreeable, and I asked
my assistants to try. They did so and were mystified and pleased
like myself. But a few minutes later some of us, who had stayed
longer on the platform, felt an unspeakable and pressing
necessity which had to be promptly satisfied, and then a
stupendous truth dawned upon me.   
  
Evidently, these isochronous rapid oscillations stimulated
powerfully the peristaltic movements which propel the
food-stuffs through the alimentary channels. A means was thus
provided whereby their contents can be perfectly regulated and
controlled at will, and without the use of drugs, specific
remedies or internal applications whatever.  
  
When I began to practice with my assistants MECHANICAL THERAPY
we used to finish our meals quickly and rush back to the
laboratory. We suffered from dyspepsia and various stomach
troubles, biliousness, constipation, flatulence and other
disturbances, all natural results of such irregular habit. But
after only a week of application, during which I improved the
technique and my assistants learned how to take the treatment to
their best advantage, all those forms of sickness disappeared as
by enchantment and for nearly four years, while the machine was
in use, we were all in excellent health. I cured a number of
people; among them my great friend Mark Twain whose books saved
my life. He came to the laboratory in the worst shape suffering
from a variety of distressing and dangerous ailments but in less
than two months he regained his old vigor and ability of
enjoying life to the fullest extent. Shortly after, a great
calamity befell me: my laboratory was destroyed by fire. Nothing
was insured and the loss of priceless apparatus and records gave
me a terrific shock from which I did not recover for several
years. The enforced discontinuance of MECHANICAL THERAPY also
caused me deep regret. I had evolved a wonderful remedy for ills
of inestimable value to mankind and invented apparatus offering
unbounded commercial possibilities but when I came to consider
practical introduction I realized that it was entirely
unsuitable. It was big, heavy and noisy, called for a continuous
supply of oil, part of which was discharged in the room as fine
spray; it consumed considerable power and required a number of
objectionable accessories. During the succeeding years I made
great improvements and finally evolved a design which leaves
nothing to be desired. The machine will be very small and light,
operate noiselessly without any lubricant, consume a trifling
amount of energy and will be, to my knowledge, the most
beautiful device ever put on the market. The intention is to
exhibit it in action at the occasion of my annual reception in
honor of the Press which has been, unfortunately, delayed this
year, and I anticipate that it will elicit great interest and
receive wide publicity. Unless I am grossly mistaken it will be
introduced very extensively and, eventually, there will be one
in every household.  
  
The practical application of MECHANICAL THERAPY through my
oscillators will profoundly affect human life. By insuring
perfect regularity of evacuations the body will function better
in every respect and life will become ever so much safer and
more enjoyable. One of the most important results will be the
great reduction  amounting possibly to seventy-five per cent 
in the number of heart failures, which are mostly caused by some
acute upset of the digestive process and normal operation of the
stomach. Another vital improvement will be derived from the
quickened removal of toxic excretions of organs affected by
disesse. It is reasonable to expect that through this and other
healthful actions ulcers and similar internal lesions or
absesses will be cured and relief might be obtained even in case
of a cancer or other malignant growth . Skilled physicians and
surgeons will be able to perform veritable miracles with such
oscillations. They stimulate strongly the liver, spleen,
kidneys, bladder and other organs and by these desirable actions
they must contribute not a little to well being. Persons
suffering from anemia of any form will be especially helped by
the treatment. But the greatest benefit will be derived from it
by women who will be able to reduce without the usual
tantalizing abstinence, privation, sacrifice of time and money
and torture they have to endure. They will improve much in
appearance, acquire clear eyes and complexions and it may be
safely predicted that long continued treatment will bring forth
feminine beauty never seen before. It is not to be forgotten
that the elimination of countless drugs, patent medicines and
specific remedies of all kinds taken internally, by which
millions of people doom themselves to an early grave, will be of
untold good to humanity.  
  
  


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**Nikola Tesla's Teleforce &
Telegeodynamics Proposals**

**Leland Anderson**   
ISBN: 0-9636012-8-8

"Two important papers, hidden for more than 60 years, are
presented for the first time.  The principles behind
teleforce -- the particle-beam weapon, and telegeodynamics --
the mechanical earth-resonance concept for seismic
exploration, are fully addressed. In addition to copies of the
original documents, typed on Tesla's official stationery, this
work also includes two Reader's Aid sections that guide the
reader through the more technical aspects of each paper. 
The papers are followed by Commentary sections which provide
historical background and functional explanations of the two
devices.  Significant newspaper articles and headline
accounts are provided to document the first mention of these
proposals.  A large Appendix provides a wealth of related
material and background information, followed by a
Bibliography section and Index.

"This book contains the original texts of two unique
proposals that Nikola Tesla offered up during his later
years.  In both cases, the technologies described trace
their roots back to an earlier and tremendously productive
decade in Tesla's life beginning in the early 1890s.  At
the time of the proposals' unveiling, "teleforce," the
particle beam concept, and "telegeodynamics," the mechanical
earth-resonance concept, received significant press
coverage...

"On the occasion of his annual birthday celebration interview
by the press on July 10, 1935 in his suite at the Hotel New
Yorker, Tesla announced a method of transmitting mechanical
energy accurately with minimal loss over any terrestrial
distance, including a related new means of communication and a
method, he claimed, which would facilitate the unerring
location of underground mineral deposits.  At that time
he recalled the earth-trembling "quake" that brought police
and ambulances rushing to the scene of his Houston Street
laboratory while an experiment was in progress with one of his
mechanical oscillators..."

*Excerpt*:

**Reactive Forces Obtainable by Tesla's Isochronous
Oscillators**

"These are generated by Tele-Geo-Dynamic transmitters which
are reciprocating engines of extreme simplicity adapted to
impress isochronous vibrations upon the earth, thereby causing
the propagation of corresponding rhythmical disturbances
through the same which are, essentially, sound waves like
those conveyed through the air and ether. . . . With a machine
of this kind it will be practicable, in the differentiation of
densities and aggregate states of subterranean strata and
tracing their outlines on the earth's surface, to reach a
precision approximating that which is secured in the
investigation of the internal structure of bodies by
penetrative rays.  For just as the vacuum tube projects
Roentgen shadows on a fluorescent screen, so the transmitter
produces on the earth's surface shadows which can be detected
by acoustic devices or rendered visible by optical
instruments.  The receiver can be made so sensitive that
prospecting may be accomplished while riding in a car and
without limit of distance from the transmitter."

**Table of Contents**

Introduction   
Nikola Tesla's Teleforce Proposal   
     Reader's Aid   
     New Art of Projecting Concentrated
Non-Dispersive Energy Through Natural Media. By Nikola Tesla   
     Commentary   
     New York Times, September 22, 1940,
"'Death Ray' for Planes"   
Nikola Tesla's Telegeodynamics Proposal   
     Reader's Aid   
     Relative Merits of the Lucas Method of
Prospecting by Detonations of Explosive Compounds and of The
Tesla Method of Prospecting by Isochronous Oscillations
Theoretically Considered. By Nikola Tesla   
     Tesla correspondence from George
Scherff, June 17, 1937   
     Commentary   
     New York Times, July 11, 1935, "Tesla,
79, Promises to Transmit Force"   
Appendix   
  Teleforce Proposal   
     Possibilities of Electrostatic
Generators. By Nikola Tesla   
     Tesla Correspondence to J. P. Morgan,
Jr., November 29, 1934   
  Telegeodynamics Proposal   
     Tesla correspondence from George
Scherff, April 19, 1918   
     Address Before The New York Electrical
Society, "Mechanical and Electrical Oscillators" by Nikola Tesla
  
     Electric Generator ~ U.S. Patent No.
511,916   
     Reciprocating Engine ~ U.S. Patent No.
514,169   
     Steam Engine ~ U.S. Patent No. 517,900
  
     Mechanical Therapy by Nikola Tesla   
     Detroit Free Press, Jan. 18, 1896,
"Tesla's Health Giver"   
Bibliography   
Teleforce   
Telegeodynamics   
Afterword   
Bibliography

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***Nikola Tesla's Earthquake
Machine***

**Dale Pond & Walter Baumgartner**

**Available from: [www.tfcbooks.com](http://www.tfcbooks.com)**

"Much of the material presented in this book is related to
the construction of a class of machine invented by Tesla and
known as the reciprocating Mechanical Oscillator. 
Serious students of Tesla's work may recognize this machine as
the basis of his system for producing electrical vibrations of
a very constant period. In 1898 another variation was used to
create a small earthquake in the neighborhood surrounding his
Houston Street lab.  Tesla called this method of
transmitting mechanical energy "telegeodynamics." 
Included are mechanical drawings that will guide you through
the construction of a working model of the Tele-Geo-Dynamic
Oscillator, plus a comprehensive description of the machine in
Tesla's own words."

---

Excerpt from:

***Prodigal Genius: The Life and
Times of Nicola Tesla***

**John O'Neill**

**Tele-Geo-Dynamics**

Tele-Geo-Dynamics is the transmission of sonic or acoustic
vibrations, which can be produced with comparatively simple
apparatus. There is of course much sonic equipment available
now for different applications, but this has little or nothing
to do with Nikola Tesla's oscillator-generator. What Tesla
proposed represents a new technology in sonic transmission
even today.

In Tesla's oscillator-generator, a Resonance effect can be
observed. Since resonance seems to be an ever increasing
effect with this oscillator-generator, it can be deduced that
there must be a great source of energy available through it.

Why can a resonance be created in the oscillator-generator
when it cannot in a ordinary reciprocating engine? With the
oscillator-generator, all governing mechanisms are eliminated.
On the other hand, consider the car engine. Starting with the
cylinder, a reciprocating motion is converted into rotary
motion by a means of shafts, cranks, gears, drivetrains,
transmissions, etc.

These parts all consume work by friction, but the greatest
loss occurs in the change from reciprocating to rotary motion.
At each point every varying inclination of the crank and
pistons work at a disadvantage and result in loss of
efficiency.

In Tesla's oscillator-generator, the piston is entirely free
to move as the medium impels it without having to encounter
and overcome the inertia of a moving system and in this
respect the two types of engines differ radically and
essentially.

This type of engine, under the influence of an applied force
such as the tension of compressed air, steam, or other gases
under pressure, yields an oscillation of a constant period.

The objective of the Tesla oscillator-generator is to provide
a mechanism capable of converting the energy of compressed gas
or steam into mechanical power. Since the oscillator-generator
is denuded of all governing devices, friction is almost
non-existent. In other words, the piston floats freely in air
and is capable of converting all pressure into mechanical
energy.

Our objective in building the engine is to provide an
oscillator which under the influence of an applied force such
as the elastic tension of a gas under pressure will yeild an
oscillating movement which within very wide limits, will be of
constant period, irrespective of variation of load, frictional
losses, and other factors which in ordinary engines change in
the rate of reciprocating.

It is a well-known priciple that if a spring possessing a
sensible inertia is brought under tension, i.e., being
stretched, and then freed, it will perform vibrations which
are isochronous. As far as the period in general is concerned,
it will depend on the rigidity of the spring, and its own
inertia or that of the system of which it may form an
immediate part. This is known as Simple Harmonic Motion.

This simple harmonic motion in the form of isochronous sound
vibrations can be impressed upon the earth, causing the
propagation of corresponding rhythmical disturbances through
the same which pass through its remotest boundaries without
attenuation so that the transmission is affected with an
efficiency of one hundred percent.

---

Excerpt from:

***Tesla: Man Out of Time***

**Margaret Cheney**

He attached an oscillator no larger than an alarm clock to a
steel link 2' long and 2" thick.

"For a long time nothing happened, but at last the great
steel link began to tremble, increased its trembling until it
dilated and contracted like a beating heart, and finally
broke. Sledgehammers could not have done it", he told a
reporter, "crowbars could not have done it, but a fusillade of
taps, no one of which would have harmed a baby, did it."

Pleased with this beginning, he put the little oscillator in
his coat pocket. Finding a half-built steel building in the
Wall Street district, 10 stories high with nothing up but the
steelwork, he clamped the oscillator to one of the beams.

"In a few minutes I could feel the beam trembling. Gradually
the trembling increased in intensity and extended throughout
the whole great mass of steel. Finally the structure began to
creak and weave, and the steelworkers came to the ground
panic-stricken, believing that there had been an earthquake.
Before anything serious happened, I took off the oscillator,
put it in my pocket, and went away. But if I had kept on 10
minutes more, I could have laid that building flat in the
street. And with the same oscillator I could drop Brooklyn
Bridge in less than an hour."

---



**Miscellanies**

Sparling, Earl: *N. Y. World-Telegram* (July 11, 1935),
"Nikola Tesla, at 79, Uses Earth to Transmit Signals; Expects
to have $100,000,000 Within Two Years" ~ Here Tesla tells the
story of the earthquake generated by the mechanical oscillator
in his NYC laboratory in 1898, which brought the police there
to stop him. They entered the lab just in time to see Tesla
swing a slegehammer and smash the tiny device, which was
mounted on a girder:

Nikola Tesla revealed that an earthquake which drew police
and ambulances to the region of his laboratory at 48 E.
Houston St., New York, in 1898, was the result of a little
machine he was experimenting with at the time which "you could
put in your overcoat pocket."

The bewildered newspapermen pounced upon this as at least one
thing they could understand and "the father of modern
electricity" told what had happened as follows:

"I was experimenting with vibrations. I had one of my
machines going and I wanted to see if I could get it in tune
with the vibration of the building. I put it up notch after
notch. There was a peculiar cracking sound.

"I asked my assistants where did the sound come from. They
did not know. I put the machine up a few more notches. There
was a louder cracking sound. I knew I was approaching the
vibration of the steel building. I pushed the machine a little
higher. "Suddenly all the heavy machinery in the place was
flying around. I grabbed a hammer and broke the machine. The
building would have been about our ears in another few
minutes. Outside in the street there was pandemonium.

"The police and ambulances arrived. I told my assistants to
say nothing. We told the police it must have been an
earthquake. That's all they ever knew about it."

Some shrewd reporter asked Dr. Tesla at this point what he
would need to destroy the Empire State Building and the doctor
replied: "Vibration will do anything. It would only be
necessary to step up the vibrations of the machine to fit the
natural vibration of the building and the building would come
crashing down. That's why soldiers break step crossing a
bridge."

In another interview, he boasted that, "With this principle
one could split the earth in half like an apple".

*Century Magazine*, p. 921, Figure 2 (April 1895) ~ In
1893 Tesla constructed a preferred embodiment of the
mechanical oscillator which he described as a "double compound
mechanical and electrical oscillator for generating current of
perfect, constant, dynamo frequency of 10 horsepower."

Allan L. Benson: *World Today* (Feb. 1912); "Nikola
Tesla, Dreamer" ~ An illustration for the article shows an
artist's conception of the planet splitting in two. The
caption reads: "Tesla claims that in a few weeks he could set
the earth's crust into such a state of vibration that it would
rise and fall hundreds of feet and practically destroy
civilization.  A continuation of this process would, he
says, eventually split the earth in two."

*New York Sun* (July 10, 1935); "New Apparatus Transmits
Energy - Tesla Announces Method of Remote Control," .

*N. Y. American* (July 11, 1935), Section 2; "Tesla's
Controlled Earth Quakes Power Through the Earth, A Startling
Discovery".

*New York Herald Tribune* (July 11, 1935), pp. 1, 8;
"Tesla, at 79, Discovers New Message Wave - At Birthday
Luncheon He Announces Machine for 1-Way Communication"

*New York Sun* (July 11, 1935); "Nikola Tesla Describes
New Invention - Art of Tele-Geodynamics"

*New York Times* (July 11, 1935), p. 23, col. 8; "Tesla,
79, Promises to Transmit Force - Transmission of Energy Over
World,"

---

http://www.dailymotion.com/video/xccg75\_n-tesla-made-earthquakes-onion\_tech  
N. Tesla Made Earthquakes -
(ONION)  
  

Tesla's Earthquakes - The
Mechanical Oscillator Earthquake Machine 1898

  
New York World [ Excerpt ]  
  
Telegram, July 11, 1935 -
Nikola Tesla revealed that an earthquake, he made, which
drew police and ambulances to the region of his laboratory
at 48 E. Houston St., New York, in 1898, was "due to" a
little mechanical oscillation machine he was experimenting
with at the time. What is significance of the ( 09/09/09 )
...  
  


---

  
http://nicola-tesla.blogspot.com/2007/02/chapter-7-most-unusual-inventions.html  
  
Chapter 7 THE MOST UNUSUAL
INVENTIONS  
  
... Among the incredible inventions that Tesla actually
conceived, frequently patented, were ...  
  
Tesla's Mechanical
Oscillator  
  
An unusual and little-known device invented by Tesla was the
Mechanical Oscillator which compressed air until the oxygen
became a liquid. It was built in the form of an air cylinder
and contained several chambers, each of which successively
cools the air until it becomes liquid. Tesla stated that the
device was highly efficient and could be used as a power
generating system if magnets were attached to the
oscillating pistons. Tesla believed that an "oxygen recycle
system" was a vast improvement to gasoline engines and
intended to conduct important experiments with LIQUID OXYGEN
for new turbine engines capable of developing extraordinary
power...

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**US Patent # 514,169**

**Reciprocating Engine**

**Nikola Tesla**

![](514169.jpg)

To all whom it may concern:

Be it known that I, Nikola Tesla, a citizen of the United
States, residing at New York, in the county and State of New
York, have invented certain new and useful Improvements in
Reciprocating Engines, of which the following is a
specification, reference being had to the drawing accompanying
and forming a part of the same.

In the invention which forms the subject of my present
application, my object has been, primarily to provide an
engine, which under the influence of an applied force such as
the elastic tension of steam or gas under pressure will yield
an oscillatory movement which, within very wide limits, will
be of constant period, irrespective of variations of load,
frictional losses and other factors which in all ordinary
engines produce change in the rate of reciprocation.

The further objects of the invention are to provide a
mechanism, capable of converting the energy of steam or gas
under pressure into mechanical power more economically than
the forms of engine heretofore used, chiefly by overcoming the
losses which result in these by the combination with rotating
parts possessing great inertia of a reciprocating system;
which also, is better adapted for use at higher temperatures
and pressures, and which is capable of useful and practical
application to general industrial purposes, particularly in
small units.

The invention is based upon certain well known mechanical
principles a statement of which will assist in a better
understanding of the nature and purposes of the objects sought
and results obtained. Heretofore, where the pressure of steam
or any gas has been utilized and applied for the production of
mechanical motion it has been customary to connect with the
reciprocating or moving parts of the engine a fly-wheel or
some rotary system equivalent in its effect and possessing
relatively great mechanical inertia, upon which dependence was
mainly placed for the maintenance of constant speed. This,
while securing in a measure this object, renders impossible
the attainment of the result at which I have arrived, and is
attended by disadvantages which by my invention are entirely
obviated. On the other hand, in certain cases, where
reciprocating engines or tools have been used without a
rotating system of great inertia, no attempt, so far as I
know, has been made to secure conditions which would
necessarily yield such results as I have reached.

It is a well known principle that if a spring possessing a
sensible inertia be brought under tension, as by being
stretched, and then freed it will perform vibrations which are
isochronous and, as to period, in the main dependent upon the
rigidity of the spring, and its own inertia or that of the
system of which it may form an immediate part. This is known
to be true in all cases where the force which tends to bring
the spring or movable system into a given position is
proportionate to the displacement.

In carrying out my invention and for securing the objects in
general terms stated above, I employ the energy of steam or
gas under pressure, acting through proper mechanism, to
maintain in oscillation a piston, and, taking advantage of the
law above stated, I connect with said piston, or cause to act
upon it, a spring, under such conditions as to automatically
regulate the period of the vibration, so that the alternate
impulses of the power impelled piston, and the natural
vibrations of the spring shall always correspond in direction
and coincide in time.

While, in the practice of the invention I may employ any kind
of spring or elastic body of which the law or principle of
operation above defined holds true, I prefer to use an air
spring, or generally speaking a confined body or cushion of
elastic fluid, as the mechanical difficulties in the use of
metallic springs are serious, owing mainly, to the tendency to
break. Moreover, instead of permitting the piston to impinge
directly upon such cushions within its own cylinder, I prefer,
in order to avoid the influence of the varying pressure of the
steam or gas that acts upon the piston and which might disturb
the relations necessary for the maintenance of isochronous
vibration, and also to better utilize the heat generated by
the compression, to employ an independent plunder connected
with the main piston, and a chamber or cylinder therefore,
containing air which is normally, at the same pressure as the
external atmosphere, for thus a spring of practically constant
rigidity is obtained, but the air or gas within the cylinder
may be maintained at any pressure.

In order to describe the best manner of which I am aware in
which the invention is or may be carried into effect, I refer
now to the accompanying drawing which represents in central
cross-section an engine embodying my improvements.

A is the main cylinder in which works a piston B. Inlet ports
CC pass through the sides of the cylinder, opening at the
middle portion thereof and on opposite sides. Exhaust ports DD
extend through the wall of the cylinder and are formed with
branches that open into the interior of the cylinder on each
side of the inlet ports and on opposite sides of the cylinder.

The piston B is formed with two circumferential grooves EF,
which communicate through openings G in the piston with the
cylinder on opposite sides of said piston respectively.

I do not consider as of special importance the particular
construction and arrangement of the cylinder, the piston and
the ports for controlling it, except that it is desirable that
all the ports, and more especially, the exhaust ports should
be made very much larger than is usually the case, so that no
force due to the action of the steam or compressed air will
tend to retard of affect the return of the piston in either
direction.

The piston B is secured to a piston rod H, which works in
suitable stuffing boxes in the heads of the cylinder A. This
rod is prolonged on one side and extends through bearings V in
a cylinder I suitably mounted or supported in line with the
first, and within which is a disk or plunger J carried by the
rod H.

The cylinder I is without ports of any kind and is air-tight
except as a small leakage my occur through the bearings V,
which experience has shown need not be fitted with any very
considerable accuracy. The cylinder I is surrounded by a
jacket K which leaves an open space or chamber around it. The
bearings V in the cylinder I, extend through the jacket K
which leaves an open space or chamber around it. The bearings
V in the cylinder I, extend through the jacket K to the
outside air and the chamber between the cylinder and jacket is
made steam or air tight as by suitable packing. The main
supply line L for steam or compressed air leads into this
chamber, and the two pipes that lead to the cylinder A run
from the said chamber, oil cups M being conveniently arranged
to deliver oil into the said pipes for lubricating the piston.

In the particular form of engine shown the jacket K which
contains the cylinder I is provided with a flange N by which
it is screwed to the end of cylinder A. A small channel O is
thus formed which has air vents P in its sides and drip pipes
Q leading out from it through which the oil which collects in
it is carried off.

To explain now the operation of the device above described.
In the position of the parts shown, or when the piston is at
the middle point of its stroke, the plunger J is at the center
of the cylinder I and the air on both sides of the same is at
the normal pressure of the outside atmosphere. If a source of
steam or compressed air be then connected to the inlet ports
CC of the cylinder A and a movement be imparted to the piston
as by a sudden blow, the latter is caused to reciprocate in a
manner well understood. The movement of the piston in either
direction ceases when the force tending to impel it and the
momentum which it has acquired are counterbalanced by the
increasing pressure of the steam or compressed air in that end
of the cylinder toward which it is moving and as in its
movement the piston has shut off at a given point, the
pressure that impelled it and established the pressure that
tends to return it, it is then impelled in the opposite
direction, and this action is continued as long as the
requisite pressure is applied. The movements of the piston
compress and rarify the air in the cylinder I at opposite ends
of the same alternately. A forward stroke compresses the air
ahead of the plunger J and tends to drive it forward. This
action of the plunger upon the air contained in the opposite
ends of the cylinder is exactly the same in principle as
though a piston rod were connected to the middle point of a
coiled spring, the ends of which are connected to fixed
supports. Consequently the two chambers may be considered as a
single spring. The compressions of the air in the cylinder I
and the consequent loss of energy due mainly to the imperfect
elasticity of the air, give rise to a very considerable amount
of heat. This heat I utilize by conducting the steam or
compressed air to the engine cylinder through the chamber
formed by the jacket surrounding the air-spring cylinder. The
heat thus taken up and used to raise the temperature of the
steam or air acting upon the piston is availed of to increase
the efficiency of the engine. In any given engine of this kind
the normal pressure will produce a stroke of determined
length, and this will be increased or diminished according to
the increase of pressure above or the reduction of pressure
below the normal.

In constructing the apparatus I allow for a variation in the
length of stroke by giving to the confining cylinder I of the
air spring properly determined dimensions. The greater the
pressure upon the piston, the higher will be the degree of
compression of the air-spring, and the consequent
counteracting force upon the plunger. The rate or period of
reciprocation of the piston, however, is no more dependent
upon the pressure applied to drive it, than would be the
period of oscillation of a pendulum permanently maintained in
vibration, upon the force which periodically impels it, the
effect of variations in such force being merely to produce
corresponding variations in the length of stroke or amplitude
of vibration respectively. The period is mainly determined by
the rigidity of the air spring and the inertia of the moving
system, and I may therefore secure any period of oscillation
within very wide limits by properly portioning these factors,
as by varying the dimensions of the air chamber which is
equivalent to varying the rigidity of the spring, or by
adjusting the weight of the moving parts. These conditions are
all readily determinable, and an engine constructed as herein
described my be made to follow the principle of operation
above stated and maintain a perfectly uniform period through
very much wider limits of pressure than in ordinary use it is
ever likely to be subjected to, and it may be successfully
used as a prime mover wherever a constant rate of oscillation
or speed is required, provided the limits within which the
forces tending to bring the moving system to a given position
are proportionate to the displacements, are not materially
exceeded. The pressure of the air confined in the cylinder
when the plunger J is in its central position will always be
practically that of the surrounding atmosphere, for while the
cylinder is so constructed as not to permit such sudden escape
of air as to sensibly impair or modify the action of the air
spring there will be a slow leakage of air into or out of it
around the piston rod according to the pressure therein, so
that the pressure of the air on opposite sides of the plunger
will always tend to remain at that of the outside atmosphere.

As an instance of the uses to which this engine may be
applied I have shown its piston rod connected with a pawl R
the oscillation of which drives a train of wheels. These may
constitute the train of a clock or of any other mechanism. The
pawl R is pivoted at R and its bifurcated end engages with
the teeth of the ratchet wheel  alternately on opposite
sides of the same, one end of the pawl at each half
oscillation acting to propel the wheel forward through the
space of one tooth when it is engaged and locked by the other
end on the last half of the oscillation which brings the first
end of the oscillation into position to engage with another
tooth.

Another application of the invention is to move a conductor
in a magnetic field for generating electric currents, and in
these and similar uses it is obvious that the characteristics
of the engine render it especially adapted for use in small
sizes or units.

Having now described my invention, what I claim is: [ Claims
not included here ]

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**US Patent # 517,900**

**Steam Engine**

**Nikola Tesla**

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To all whom it may concern:

Be it known that I, Nikola Tesla, a citizen of the United
States, residing at New York, in the county and State of New
York, have invented certain new and useful Improvements in
Steam Engines, of which the following is a specification,
reference being had to the drawing accompanying and forming a
part of the same.

Heretofore, engines, operated by the application of a force
such as the elastic tension of steam or a gas under pressure,
have been provided with a flywheel, or some rotary system
equivalent in its effect and possessing relatively great
mechanical inertia, which was relied upon for maintaining a
uniform speed. I have produced, however, an engine which
without such appurtenances produces, under very wide
variations of pressure, load, and other disturbing causes, an
oscillating movement of constant period, and have shown and
described the same in [ US Patent # 514,169 ]. A description
of the principle of the construction and mode of operation of
this device is necessary to an understanding of my present
invention. When a spring which possess a sensible inertia is
brought under tension as by being stretched and then freed it
will perform vibrations which are isochronous and, as to
period, in the main dependent upon the rigidity of the spring,
and its own inertia or that of the system of which it may form
an immediate part. This is known to be true in all cases where
the force which tends to bring the spring or movable system
into a given position is proportionate to the displacement. In
utilizing this principle for the purpose of producing
reciprocating movement of a constant period, I employ the
energy of steam or gas under pressure, acting through proper
mechanism, to maintain in oscillation a piston, and connect
with it or cause to act upon such piston a spring, preferably
an air spring, under such conditions as to automatically
regulate the period of the vibration, so that the alternate
impulses of the power impelled piston and the natural
vibrations of the spring shall always correspond in direction
and coincide in time. In such an apparatus it being essential
that the inertia of the moving system and the rigidity of the
spring should bear certain definite relations, it is obvious
that the practicable amount of work performed by the engine,
when this involves the overcoming of inertia is a limitation
to the applicability of the engine. I therefore propose, in
order to secure all the advantages of such performances as
this engine is capable of, to utilize it as the means of
controlling the admission and exhaust of steam or gas under
pressure in other engines generally, but more especially those
forms of engine in which the piston is free to reciprocate, or
in other words, is not connected with a flywheel or other like
device for regulating or controlling its speed.

The drawings hereto annexed illustrate devices by means of
which the invention may be carried out, Figure 1 being a
central vertical section of an engine embodying my invention,
and Figure 2 a similar view of a modification of the same.

Referring to Figure 1, A designates a cylinder containing a
reciprocating piston B secured to a rod C extending through on
or both cylinder heads.

DD; are steam ducts communicating with the cylinder at or
near its ends and E is the exhaust chamber or passage located
between the steam ports. The piston B is provided with the
usual passages FF which by the movements of the piston are
brought alternately into communication with the exhaust port.

G designates a slide valve which when reciprocated admits the
steam or the gas by which the engine is driven, from the pipe
G through the ducts DD to the ends of the cylinder.

The parts thus described may be considered as exemplifying
any cylinder, piston and slide valve with the proper ports
controlled thereby, but the slide valve instead of being
dependent for its movement upon the piston B is connected in
any manner so as to be reciprocated by the piston rod of a
small engine of constant period, constructed substantially as
follows: a is the cylinder, in which works the piston b. An
inlet pipe c passes through the side of the cylinder at the
middle portion of the same. The cylinder exhausts through
ports dd into a chamber d provided with an opening d". the
piston b is provided with two circumferential grooves e,f
which communicate through openings g in the same with the
cylinder chambers on opposite sides of the piston. The special
construction of this device may be varied considerably, but it
is desirable that all the ports, and more particularly, the
exhaust ports be made larger than is usually done, so that no
force due to the action of the steam or compressed air in the
chambers will tend to retard or accelerate the movement of the
piston in either direction. The piston b is ecured to a rod h
which extends through the cylinder heads, the lower end
carrying the slide valve above described and the upper end
having secured to it a plunger j in a cylinder I fixed to the
cylinder a and in line with it. The cylinder I is without
ports of any kind and is air-tight except that leakage may
occur around the piston rod which does not require to be very
close fitting, and constitutes an ordinary form of air spring.

If steam or a gas under pressure be admitted through the port
c to either side of the piston b, the latter, as will be
understood, may be maintained in reciprocation, and it is free
to move, in the sense that its movement in either direction
ceases only when the force tending to impel it and the
momentum which it has acquired are counterbalanced by the
increasing pressure of the steam in that end of the cylinder
toward which it is moving, and as in its movement the piston
has shut off at a given point, the pressure that impelled it
and established the pressure that tends to return it, it is
then impelled in the opposite direction, and this action is
continued as long as the requisite pressure is applied. The
movements of the piston compress and rarify the air in the
cylinder I at opposite ends of the same alternately, and this
results in the heqating of the cylinder. But since a variation
of the temperature of the air in the chamber would affect the
rigidity of the air spring, I maintain the temperature uniform
as by surrounding the cylinder I with a jacket a which is
open to the air and filled with water.

In such an engine as that just described the normal pressure
will produce a stroke of determined length, which may be
increased or diminished according to the increase of pressure
above or the reduction of pressure below the normal and due
allowance is made in constructing the engine for a variation
in the length of stroke or amplitude of vibration
respectively. The period is mainly determined by the rigidity
of the air spring and the inertia of the moving system and I
may therefore secure any period of oscillation within very
wide limits by properly adjusting these factors, as by varying
the dimensions of the air chamber which may be equivalent to
varying the rigidity of the spring, or by adjusting the weight
of the moving parts. This latter is readily accomplished by
making provision for the attachment to the piston rod of one
or more weights h. Since the only work which the small engine
has to perform is the reciprocation of the valve attached to
the piston rod, its load is substantially uniform and its
period by reason of its construction will be constant.
Whatever may be the load on the main engine therefore the
steam is admitted to the cylinder at defined intervals, and
thus any tendency to a change of the period of vibration in
the main engine is overcome.

The control of the main engine by the engine of constant
period may be effected in other ways --- of which Figure 2
will serve as an illustration. In this case the piston of the
controlling engine constitutes the slide valve of the main
engine, so that the latter may be considered as operated by
the exhaust of the former. In the figure I have shown two
cylinders AA placed end to end with a piston B and B in
each. The cylinder of the controlling engine is formed by or
in the casing intermediate to the two main cylinders but in
all other essential respects the construction and mode of
operation of the controlling engine remains as described in
connection with Figure 1. The exhaust ports dd, however,
constitute the inlet ports of the cylinders AA and the
exhaust of the latter is effected through the ports m,m which
are controlled by the pistons B and B respectively. The inlet
port for the admission of the steam to the controlling engine
is similar to that in Figure 1 and is indicated by the dotted
circle at the center of the piston b.

An engine of the kind described possess many and important
advantages. A much more perfect regulation and uniformity of
action is secured, while the engine is simple and its weights
for a given capacity is very greatly reduced. The
reciprocating movement of the piston may be converted into
rotary motion or it may be utilized and applied in any other
manner desired, either directly or indirectly.

In [ US Patent # 514,169 ] I have shown and described two
reciprocating engines combined in such manner that the
movement or operation of one is dependent upon and controlled
by the other. In the present case, however, the controlling
engine is not designed nor adapted to perform other work than
the regulation of the period of the other, and it is moreover
an engine of defined character which has the capability of an
oscillating movement of constant period.

What I claim is: [ Claims not included here ]

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US Patent # 511916  
Electric Generator

  

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