JP58207610A - Electric Particle Generator

Japan Patent Office (JP)

Patent Application Publication
(Application A)

1. Patent Application Publication No.:
   Showa 58-207610

2. Patent Application Date:
   Showa 58 (1983), December 3

3. Application Number:
   Showa 58-23664
   February 15, 1983

4. Priority Claim:
   1982 April 9, USA No. 367051

5. Title of the Invention:
   Electric Particle Generator

6. Applicant:
   Stanley A. Meyer
   Grove City, Ohio 43123, USA

7. Agent:
   Attorney Nakamura

Title of the Invention
Electric Particle Generator

Scope of Patent Claims

(1) An electric particle generator equipped with a particle accelerator at the end of a tube through which non-conductive magnetic gas flows, and incorporating ionization elements inserted into the unit, which work together with the particle accelerator.

(2) The electric particle generator described in claim 1, where the ionization element operates with low input voltage in the second chamber, and the voltage/electromagnetic field is used to extract and utilize energy from the gas.

(3) The electric particle generator described in claim 1, wherein a second electrode that extracts the ionized particles from the first chamber is installed and operates to capture the energy released.

(4) The ionization element described in claim 1, wherein the element is solid in structure.

(5) The ionization element described in claim 1, wherein the element is a liquid.

(6) The electric particle generator described in claim 1, wherein the particle accelerator is driven by a magnetic coil.

(7) The electric particle generator described in claim 6, wherein the magnetic coil is designed to generate a low input voltage into the first chamber.

(8) The electric particle generator described in claim 7, wherein the low input voltage and the magnitude of electromagnetic force generated by the second coil control the size of the voltage output.

(9) The electric particle generator described in claim 7, wherein the low input voltage is further enhanced by the ionization process.

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An electric particle generator in which the first coil’s input voltage is alternating current and operates at a constant frequency, wherein the magnitude of the input voltage/alternating current is low voltage.

An electric particle generator in which the first coil’s input voltage is pulsating direct current and operates at a low voltage.

An electric particle generator in which the first coil’s input voltage is variable, wherein the magnitude of the input voltage/alternating current is modulated to control the output.

An electric particle generator that includes a second chamber where the input voltage is lower than in the first coil and accelerates the ionized particles.

An electric particle generator in which the chamber is separated into three parts.

Each part is connected in series to a brush, and the second coil is connected to each of the brush terminals, with each coil being phased separately. This creates a three-phase alternating current effect.

An electric particle generator where the ionization element is filled with water and has an ionized structure that contributes to enhanced electromagnetic force.

An electric particle generator that is capable of providing particle acceleration by the mechanism of alternating current and low voltage within the chamber.

An electric particle generator in which the first coil and the electromagnetic force created by it send the ionized particles through a tube to a designated location.

Magnetic Field Generator
The magnetic field generator emits magnetic fields to induce particle ionization, passing through a pipe where ionized particles are accelerated. This system magnifies the effect of ionized particles as they pass through the magnetic field system.

3. Detailed Description of the Invention
According to traditional teachings, a magnetic field induces voltage/electric current when passed through, or by passing the magnetic field to a coil or a second system, voltage generation occurs. The basic principle behind this is detailed.

Additionally, in this invention, the first coil element induces voltage/electric current as it moves and reacts to other attached elements. This method of inducing voltage from a moving coil element can result in further acceleration by causing oscillation between the coils.

Thus, the induced voltage from both primary and secondary coils can be magnified. This magnetic field enhancement technique accelerates the voltage generated between the coils as the first coil moves in relation to the second coil. Other charged particles move in sync with these oscillations, which also produce oscillating voltage/current patterns.