JPH05316772A - Multi-stage energy generating method - Google Patents

Abstract

PURPOSE:To provide a novel method for generating nuclear energy as a difference between an amplified energy and a thrown-in energy. CONSTITUTION:A multi-stage energy generating method comprises a step for providing a magnetic body 1 with primary and secondary conductor coils 2, 3, a step for providing at the opposite ends of the primary coil with gap forming terminals 4, 5 having gap regulating mechanism, a step for providing a pulsating 7 DC power supply 8 having variable primary potential 6, and a step for feeding the primary coil 2 with a current having potential overcoming the voltage drop across a resistor having resistance increasing as the gap increases. Electromagnetic energy induced in the primary coil is taken out from the secondary coil 3 in a first stage I and the energy generated in a first stage I is fed as power supply for a second stage II in the inventive multi-stage energy generating method. When primary coils in two electric circuits A, B are fed with pulsating power, one circuit is interrupted during conduction of the other circuit and powers generated in two secondary coils are combined and continuous DC electricity, i.e., energy, is taken out in the form of heat from the primary coil at some stage.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention relates to energy.

[0002]

2. Description of the Related Art Conventionally, fuel has been required to obtain energy.

[0003]

However, this has the following drawbacks. (B) When burning fuel such as oil, toxic gas is generated, which causes pollution. (B) Oil resources are disappearing. (C) When nuclear fuel burns, radioactivity is generated, which causes pollution. The present invention relates to an energy generation method that solves these problems.

[0004]

A magnetic body (1) is provided with a primary coil (2) which is an electric conductor and a secondary coil (3), and the spread of the gap is adjusted at least at one end of the primary coil. It has two terminals (4) and (5) having a mechanism and forming a gap, and has a direct-current power source (8) whose primary side potential is variable (6) and pulsating (7). As the current spreads, a current with a potential exceeding the resistance to be amplified is supplied to the primary coil (2), and new energy generated in the primary coil (2) is extracted from the secondary coil (3) in one step. (I)
Is a multi-stage energy generation method in which the generated current is used as a second-stage (II) power source, and in order to supply a pulsating power source to the primary side coils of at least two electric circuits (A) and (B), When is energized, the other is a power source that is cut off, and the power sources generated in at least two coils on the secondary side are combined to obtain thermal energy from a continuous DC power source.

[0005]

[Function] Two terminals (4) of the primary coil (2) of the conductor
The spread of the gap between (5) is a resistance, and when the high-potential power supply (8) that passes a current across the gap passes a current to the coil (2) on the primary side across the gap, the primary side A current amplified from the current of the power source flows through the coil (2). As the current is amplified, new energy is generated in the primary coil. It is easy to extract electricity as amplified energy from the secondary coil (3) via the magnetic body (1). When discharging between gaps, the terminal part becomes particles and moves from plus to minus at high speed. These particles are heavy, force, and child (materials with heavy and force 1).
Since the speed is discharge, it is the speed of light when considered as the moving speed of electrons. When the particles arrive at the negative terminal and stop, they are considered to convert the nuclear force, which is the speed of light, into electrical energy. The relationship between the resistance, which is the spread of the gap, and the newly generated power is proportional. Electric power W is W = IV =
Since it is I ² R, the newly generated energy is E =
It can be expressed as RW = I ² R ² = (IR) ² . If the nuclear force is 3.4 × 10 ³⁸ times the weight / force, there are four forces bound in the four-dimensional space, which is a relative space. Therefore, the multi-stage energy generation method can obtain nuclear power in eight stages.

[0006]

EXAMPLES Examples of the present invention will be described below. (B) The iron bar is used as the magnetic material (1). (B) Wind the enamel wire around the iron bar as the primary coil (2) of the conductor. (C) Wind the enamel wire around the iron bar as the secondary coil (3) of the conductor. (D) A copper plate terminal (4) is provided at one end and the other end of the primary coil. (E) A copper plate terminal (5) having a copper plate with a gap is provided at one end and the other end of the primary coil to serve as a power supply side terminal. (F) One end and the other end of the secondary coil are connected as a power source to the primary coil of the second stage (II) as the energy generating source of the first stage (I). (G) The power source is equipped with a variable voltage (6) power source (8). (H) A switching switch (7) is provided which allows a direct current to flow continuously and alternately to the primary coils of the two systems (A) and (B). (I) Supply high voltage (7) to the power supply. INDUSTRIAL APPLICABILITY According to the present invention, electric power can be amplified and generated by the above multi-step energy generation method, and new nuclear energy, which is direct current power, can be obtained as heat.

[0007]

Effect of the Invention The difference between the amplified energy and the input energy is new energy, and this newly generated nuclear energy does not require fuel.

[Brief description of drawings]

FIG. 1 is an electric circuit diagram of the present invention.

[Explanation of symbols]

 (1) Iron bar which is a magnetic material (2) Primary coil which is an electric conductor and is an enameled wire (3) Secondary coil which is an electric conductor and is an enameled wire (4) Terminal which is a copper plate (5) Terminal which is a copper plate (6) Variable resistor (7) Pulsation switch (8) DC power supply (A) Circuit (B) Circuit (I) Energy generation one stage (II) Energy generation two stage

Claims (3)

[Claims] 1. A step (I) for generating at least energy, wherein at least one magnetic body (1) comprises a primary coil (2) of an electric conductor and a secondary coil (3), The primary coil (2) is equipped with two terminals (4) and (5) forming a gap, which have a mechanism for adjusting the spread of the gap, at one end and the other end, and the primary side potential is variable (6). Yes, with a pulsating (7) DC power supply (8),
A method in which a current having a potential exceeding a resistance that amplifies with the spread of the gap is supplied to the primary coil and new energy generated in the primary coil (2) is taken out from the secondary coil (3). 2. At least two electric circuits (A) (B)
In order to supply a pulsating power supply to the primary side coil, the other side is a power supply that is cut off when one is energized, and the power generated in at least two coils (3) on the secondary side is combined to form a continuous DC How to get power. 3. The power generated in the secondary coil (3) is used as the first stage (I) of energy generation, and the power generated in the first stage (I) is supplied as the power source of the second stage (II). A multi-stage energy generation method in which thermal energy is generated from the multi-stage primary coil (2).