WO2017199450A1 - Monopole multistage transformer motor - Google Patents

Abstract

[Problem] The present invention addresses the problems of: providing a permanent motor; providing a practical machine that embodies the principle that "the spontaneous breaking of symmetry in the electromagnetic force does not conform to the law of conservation of energy" as put forth by Weinberg and Salam, who received the Nobel Prize in 1974; providing a device in which the symmetry between the positive electricity and the negative electricity in the electricity of the electromagnetic force is spontaneously broken; providing a device in which the symmetry of magnetism is spontaneously broken; and providing a device in which the symmetry between the directions of interest, that is, the directions of input and output, is spontaneously broken and force propagation and reaction are spontaneously broken. [Solution] In the present invention, a permanent motor is developed by deductive reasoning on the basis of the aforedescribed principle to provide a specific device. Specifically, what is developed is a permanent motor capable of producing energy that is comparable to nuclear energy from the energy of the gravitational force and that goes beyond a narrow interpretation of the law of conservation of energy and follows a wider interpretation of the law of conservation of energy made possible by a solution to three impossible problems that had been deemed unsolvable but had been solved using a compass and a ruler. Posited during the classical Greek period, these problems deal with the geometry of the unity of curvature and a straight line that proves the "principle of explosions and chance encounters" in the universe according to the number theory, and include trisecting the angle, squaring the circle, and halving the volume. The present invention relates to a device in which an N-multiple of force is obtained by dividing a magnetic force by a factor of N.

Description

Monopole multi-stage transformer motor Detailed Description of the Invention

[Technical field to which the invention pertains] Permanent motors

Conventional technology

In the first stage, a conventional electric motor is an armature in which a good conductor wire wound around a plywood pillar of an exciting iron plate that is integrally insulated is wound around an armature, and a gap is formed between one end and the other end of the armature. This is a two-body structure of a stator and a rotor in which the magnet N / S double magnetic poles of another body are moved relative to each other and electromagnetic force interaction is caused therebetween. When the electric motor receives drive power and rotates, the electric motor and the other body move relative to each other, and a self-induced electromotive force is generated inside to generate power. The generated electromagnetic force and the driving electromagnetic force are in a closed relationship of back-to-back symmetry, which is the electromagnetic force ± power: NS magnetic force: ± attractive force: reaction gravity: there are four symmetry of input and output, They cancel each other out and have energy conservation.

For this reason, the energy conservation law in a narrow sense is not exceeded. These forces = gravity, weak force, power, and nuclear force do not interact with each other and exceed the gravitational field. In these four force fields, energy is governed by gauge theory, which is a closed field that can be renormalized as a quartic function of calorie mass × velocity × velocity and does not interact.

On the other hand, Nobel Prize-winning physicists S. Weinberg and A. Salam proposed and proved as a unified theory that the conservation law collapses due to spontaneous symmetry breaking in electromagnetic force interactions. World physicists have been granted additional trials.
Collisions accelerated near the speed of light by a positron accelerator do not cause nuclear fusion, and the input energy close to nuclear force disappears due to the loss of spontaneous symmetry, and the narrowly-defined energy conservation law is broken. . There is still no practical machine that implements this law in the positive direction. The present invention embodies a practical machine that obtains energy reaching nuclear power with an electric motor in response to gravity input in the positive direction of the law due to spontaneous breaking of symmetry, which exceeds this narrow energy conservation law. .

Symmetry is generated in the solenoid coil, the drive current, the magnetic pole NS due to the flow of magnetic flux, the attractive force and the attractive force, and the negative symmetry of the direction in which the direction of the power goes and the negative direction. There is a closed relationship that cancels each other out.

The relationship between these four fields is united at 0 and the pole, which are the starting points of the dimensions of the eight-cubic quadrant of ± XYZ, plus and minus three dimensions.

The force relationship with the elementary particles representing the four fields is gravitational field = neutron = attractive appeal. Weak force field = Positron = N magnetic pole ⇔ S magnetic pole. Electromagnetic force = electron = positive electrode ⇔ negative electrode.
Nuclear power = Photon traveling direction = Corresponds to darkness, the origin of explosion in the lucid universe.

The relationship between four forces and the field closed against the void of electromagnetic force. Electric power is called a power field. Similarly, gravity is called a gravitational field. Weak force is called magnetic field. Nuclear power is called the nuclear field.

The electromagnetic force indicates that these four fields are united, the elementary particle is one that has four faces that cannot be divided, and is the center of a plus-minus three-dimensional vector centered on the pole. It has four rotation axes, has plus / minus axial directions, has plus / minus forward / reverse rotation directions, and has four plus / minus rotation speeds proportional to the four forces.

Energy is conserved in each gauge field, which is closed as a narrow law of conservation of energy. The four forces can be transferred to four fields so that the energy of each field can be transferred as, for example, the amount of heat in the gravity field.

There is a proposal of a law that can unify and display energy from gravity to nuclear power. However, since it is described in the relativity of quadratic function, it is not successful.
The explosion of the universe and the law of eagle are ± quaternary functions.

In the first stage current of the electric motor. When driven by a plus / minus current input to the drive power supply, the self-inductive minus / plus generated current causes a short circuit in the motor armature's closed circuit, consumes the generated current, and the coil becomes a heater, generating heat. Copper loss, heat loss, and power loss occur.

In the electric motor current in the first stage, a rotating magnetic field is generated by driving power input, and the motor is driven. When the motor is 90 degrees out of phase, power is generated by self-induction power generation and short-circuited within the motor to generate heat. The generated power and drive power are in a symmetrical relationship that cancel each other.

In the electric power in the coil closing circuit in the second stage, positive and negative currents flow through both terminals of the closing circuit. Conventionally, the current that flows outward from both ends of the coil works. At the same time, self-induced power generation is performed at a position 90 degrees out of phase with the drive position. The relationship between the rotational direction force of drive excitation and the drag force of power generation excitation is always back-to-back and cancels each other. In the electric motor / solenoid coil, the flow of the drive magnetic flux and the generated magnetic flux is positive and negative symmetrical, canceling each other and closed.

In the conventional two-body electric motor of the third stage, the generated magnetic flux in the integral excitation iron of the two-body electric motor causes an alternating magnetic flux to flow in the excitation iron including another magnet, While the magnetic poles cancel N · S, eddy currents generated in the closed circuit are short-circuited and generate heat.
As for the direction of electromagnetic force interaction of the conventional two-body electric motor, the electric power generated by the drive input and the electric power generated by the self-inductive power generation are always back-to-back and are in a relationship of canceling each other.

In the conventional power generation drive motor of the fourth stage, the drive torque and power generation torque of the two-body electric motor are symmetrical with each other in the relationship between the four pairs of exciting iron and coil between the two bodies. And plus / minus: minus / plus and four-body symmetry, and offset and follow the law of conservation of energy.
The electromagnetic force that spontaneously breaks the symmetry of the electromagnetic force, exceeds the narrow law of conservation of energy, and extracts the power of the drive / electromagnetic force and the power of the same energy as the drive power separately. There has been no technique for spontaneously breaking the symmetry of the present invention until the advent of the present invention.
Also, there was no technology that spontaneously broke the symmetry of electromagnetic force and increased the torque N times.

There is a method in which a DC / AC brushless inverter power supply rectifies self-induced power generation by a parasitic diode and flows it as regenerative electricity in a brushless motor in which a transient current is activated by a magnet phase control current and a field current is supplied to the electric motor. Due to symmetry cancellation, the number of rotations does not increase, so that the voltage of electricity generated with respect to the input power supply is low and cannot be regenerated, and back electromotive force causes short-circuit heat generation in the closed circuit. The improvement of power loss by self-induced power generation cannot be expected.

In power generation, the middle of one end and the other end of the armature coil in the generator is a series connection, which is a closed circuit of a star circuit or a delta circuit. The heat loss and power loss are severe due to the ± target of electromagnetic force. When rectified by a commutator, the electromagnetic force in the closed circuit is the same as that of the electromotive force and the back electromotive force, and the behavior of power generation. , Heat loss and power loss.

In a converter that converts alternating current generated by power generation such as a conventional alternator into direct current, full-wave rectification is conventionally performed. No. Heat loss for this. Power loss is great. A circuit that rectifies and grounds at the midpoint and releases the back electromotive force can prevent heat generation, but the back electromotive force cannot be used effectively. In addition, there are induction motors and digital motors that use induction power generation as driving force, but none of them can use back electromotive force, and all of the back electromotive force is heat loss / power loss.

In the regulator of the battery overcharge prevention switch mechanism used in the conventional alternator generator, the generated current always flows through the transientr, and the heat loss due to heat generation is large.
The alternator, which is a direct-winding generator, causes heat loss and power loss due to the closed circuit. However, when the generated power is discharged to the battery, if it becomes overcharged, the excitation coil power supply is cut off and overcharged. It is a mechanism to prevent. Transformers are frequently used in this shut-off switch circuit, resulting in heat loss.
There is no practical machine that uses the loss of voluntary subjectivity.

Magnetic flux disappears due to the mutual induction electromotive force written on page 79 mutual inductance of the electric circuit, which is the first basic illustration, published by Natsume, which is the basic electromagnetic force concept in the past. It shows the volatility of voluntary object that cancels out magnetic flux. A monopole as a concept is possible.

In the conventional inverter and converter of claim 3, there is an idea of half-wave rectification and full-wave rectification, but there is no idea that there is a current of ± full-wave. There is no idea of ± full-wave frequency tuning. For this reason, most of the back electromotive force / electromagnetic force is released as short-circuit heat generation.

The conventional generator is required to have the required electric power and the total torque and the maximum torque by the closed circuit from the start rotation. As a result, most of the energy is heat loss and power.

[Problems to be solved by the invention]

The unification problem that the present invention unifies and solves is closed by being constrained by the energy conservation law in the gravitational field, which is an energy conservation law in a narrow sense, while the electric motor uses the interaction of electromagnetic force with a narrow idea. .
On the other hand, it is a unified issue to solve the device and method of Weinberg-Salam's law, “Spontaneous breaking of symmetry of electromagnetic force exceeds the law of conservation of energy” by deductive method.

The first basic problem of the electric motor to be solved by the present invention is that when the electric motor is driven, self-induced power generation occurs, and at the same time, a power loss as a drag is generated by the self-induced magnetic flux. The first problem is to eliminate this.

The second basic problem of the electric motor to be solved by the present invention is that the electric power generated by self-induction in the motor and the driving power are short-circuited to generate heat. The second problem is to eliminate this heat loss.

A third problem to be solved by the present invention is to constantly regenerate power generation generated during driving.

A fourth problem to be solved by the present invention is an electric circuit that supplies regeneratively generated power as drive power at all times.

The fifth problem to be solved by the present invention is to multiply the magnetic flux N times and to increase the torque N times.

A sixth problem to be solved by the present invention is to convert all regenerative power into drive power without using a control circuit.

The seventh problem to be solved by the present invention is a method of constantly returning the total power of the regenerative power of both the electromotive force and the counter electromotive force to the battery.

Means to solve the problem

Means for solving the power loss due to the drag of the self-induction power generation, which is the first problem of the present invention, includes a magnetic pole based on the magnetic flux generated in the armature exciting iron by the self-induction power generation, and another magnet As a means for eliminating the drag and repulsion force generated between the two armatures, the flow of the magnetic flux of the armature is cut to prevent the magnetic flux from flowing. The specific means for this purpose is to use a double coil that separates the drive motor coil and the self-induction power generation coil.

The second object of the present invention is to cut the middle of the solenoid coil wound around the NS magnetic double pole excitation iron to double the terminal. Means are to provide an additional single-pole armature pair. Due to this, the electric currents of the two magnetic poles that simultaneously generate electricity in both the N and S poles are different in the traveling direction of the electric machine, and ± electricity due to forward and reverse electromotive forces with different rotation directions when this current goes to the same magnetic pole, short-circuits in the middle of the coil. The second solution is to provide a single-armature armature pair that prevents the heat loss, eliminates the heat loss, and realizes the spontaneous breaking of the current symmetry.

A third object of the present invention, a means for solving the generated power in which the rotation direction of the current generated at the time of driving reversely rotates without short-circuiting, and for effectively using all the generated current is the self generated at the time of driving. A third means for solving the above problem is to form a transformer motor that collects self-induced power generation in which induction power generation is overlapped with a drive current coil and the generated current is wound twice to generate power simultaneously with drive power.

The means for solving the problem of the electric circuit for supplying the electric power that is always regeneratively generated as the driving power, which is the fourth problem of the present invention, is to generate the electric power generated in the double coil by the input driving power as the next in-phase electric The circuit to be supplied to the drive coil of the child pole is a circuit in which the back electromotive force is short-circuited by the closed circuit of the double-pole armature, and the closed circuit is constructed with a capacitor. You can input to the battery in parallel connection. To supply the back electromotive force to the battery, which spontaneously breaks the electromagnetic force symmetry, a back electromotive force circuit having the above capacitor and transformer is connected in series to the middle connection of the ± terminals of the battery connected in series. Connecting to the middle of the connected battery with an interrupt serial connection is a means for solving the fourth problem.

The means for spontaneously breaking the electromagnetic force symmetry magnetic force of the fifth problem of the present invention, increasing the magnetic flux by N and increasing the torque by N, generates power by means of electricity input to the armature. A power generation coil that inputs to the drive power coil of at least one armature in the same phase, and further regenerates and inputs the power generated by the double coil of the same armature column to the drive coil of the Nth armature column A transformer motor circuit is used as a solution.

Means for solving the sixth problem of the present invention is a solution means by directly supplying the same co-rotating multistage motor without passing through the control circuit by the method circuit for solving the fifth problem.

Means for solving the seventh problem of the present invention is that the power generated in the last stage of the multistage motor is supplied to the battery by the control circuit.

In the first embodiment of the present invention which eliminates the heat loss, the drive power input circuit of the electric motor and the electric circuit for self-induction power generation are the same, and a short circuit occurs inside the electric circuit. In order to eliminate the generation of heat, the first implementation of a drive power supply circuit in which a coil is wound around an excitation iron pole and a power generation / drive circuit electric motor comprising an armature of a power generation circuit in which a coil is wound around the same excitation iron pole The form is as follows.

In the second embodiment of the present invention that eliminates the power loss of the present invention, the power loss is caused by self-induction in the magnetized iron at the same time due to the current generated in the coil that spans NS bipolar poles in both the generator and the drive motor. Magnetic flux generated, magnetic poles generated by the flow of magnetic flux, and attraction force due to another magnet interacting with the exciting iron magnetic pole. Cutting off the source of this magnetic flux flow is the second embodiment.

The third aspect of the present invention, which is the disclosure of the present invention, is that self-induction power generation is achieved by attaching a full-wave commutator to a friend when an input / output transistor switch mechanism is attached to both ends of a driving single-magnetic armature circuit and a brushless motor is used. Regenerate part of one direction.
Capacitors are attached to both ends of the driving single-armature armature circuit, and a short circuit due to the reverse induced electromotive force, which is the other direction of self-inductive power generation, is used as a closed circuit. Regeneratively store the amount of electricity generated.

A first embodiment of the invention will be described with reference to FIG. The first embodiment for preventing heat loss of the present invention is to wrap a good electrical conductor wire coated with a first insulating film as a coil around a pillar made of a magnetized iron plate with an edge coating as a plywood, A good electric conductor wire with a second insulation film is wound as a coil on the top to form a double coil armature. An electric motor is formed by using magnets as separate bodies at both ends of the magnetizing iron. One coil is a drive power supply circuit, and the other coil is a generator electric circuit. According to the first embodiment of the present invention, a separate electric circuit for power generation and driving that shares a magnetic circuit is constructed. As a result, a power generation / drive motor is formed.

In a second embodiment of the present invention for preventing power loss, the armature coil is cut between the one end and the other end of the coil to double the terminal. As a result, a power generation / drive motor having a single magnetic armature pair coil is formed.

In the third embodiment of the present invention, the single-armature armature pair motor is a brushless DC drive two-body motor. At the one end and the other end of a single-armature armature pair that is an integral part of the motor, a transistor that is switched by an element that informs the relative position of the magnetic poles of another body is attached. Thus, a brushless motor that inputs and drives desired drive electricity is constructed. In addition, a parasitic transester that straddles this sswitch mechanism is mounted, and a mechanism for regenerating part of one direction of self-induced power generation is constructed.

The fourth embodiment of the present invention is a regenerative system in which a capacitor is attached to one end and the other end of a drive circuit of a motor armature drive circuit, a part of the other direction of self-induced power generation is stored in the capacitor, and is discharged for driving during driving. Build a circuit.
[The invention's effect]

The first effect of the double coil that eliminates the heat loss of the present invention will be described with reference to FIG. The figure shows a two-body electric motor comprising a stator and a rotor. The electric circuit is a single-phase single-column in-phase parallel circuit. The coil wound around the exciting magnetic iron is an exciting magnetic iron sharing / power generation / driving armature / internal electric motor in which a driving electric circuit, a generating electric circuit and a separate circuit are respectively wound around the same exciting magnetic iron. The effect is that when the drive motor inputs electricity,
4/5 page self-induced power generation occurs, but the generated electricity is output from a power generation electric circuit different from the drive electric circuit and digested. As a result, the conventional driving electricity and the self-induced power generation electricity are short-circuited and generate heat, and in the present invention, the power generation is effectively digested by another power generation circuit, so that there is no short circuit of electricity and no heat is generated. In addition, 100% of the generated power can be obtained.

The second effect of eliminating the power loss of the present invention is that the armature cuts the middle of the armature circuit straddling the double pole and doubles the terminal as a new open circuit. The single pole armature pair is connected in parallel. When the armature coils are connected in series, the electricity in the opposite phase from one end and the other end toward the inside of the coil is short-circuited to generate heat. In a single magnetic armature pair parallel circuit in which this is released from the series circuit, electricity is not short-circuited in the armature coil, so that there is an effect on heat loss that does not generate heat. When the power generated by self-induction power generation is digested as an output, current is digested and magnetic flux is not generated in the single-pole armature pair in the magnetized iron of the double-pole armature. Since magnetic flux does not flow, there is an effect that no power generation drag is generated and there is no power loss. In addition, since the connection of the single magnetic pole armature is parallel, there is no short circuit in the reverse-phase electric wire, and there is no effect of heat generation due to the short circuit. And conventionally, when the rotation of the drive motor is increased, the power generation drag of self-induction power generation is also increased and the torque is eliminated. However, the present invention has an effect that the maximum torque can be maintained even if the rotation of the drive motor is increased.

[Correction 08.06.2016 based on Rule 91]
An embodiment in which the drive motor constituted by the single-armature armature pair of the present invention is a brushless motor will be described with reference to FIG. The figure is a circuit diagram including an element and a switch mechanism for creating a rotating magnetic field in a DC drive motor of a single magnetic armature pair. It is also possible to regenerate a part of the self-induced power generation by the parasitic diode. Thereby, a part of the short-circuit heat generated by the drive power in the drive motor and self-induced power generation is avoided.

[Correction 08.06.2016 based on Rule 91]
FIG. 1 is a circuit diagram of a brushless motor of a pair of single-magnet coil armatures. A capacitor is attached to one end and the other end of a driving armature coil to store and rotate electricity in the other direction of self-induction power generation against a rotating magnetic field. It is a regenerative circuit provided with a mechanism that discharges when a directional current is applied. As a result, there is an effect of eliminating a part of the short-circuit heat generation between the self-induced power generation and the drive electricity.

As a whole, since coils of separate circuits for driving and power generation are wound around the same magnetized magnetic iron, most of self-induction power generation can be effectively used as power generation. In addition, there is no short circuit and no heat loss occurs.

[Correction 08.06.2016 based on Rule 91]
FIG. 2 shows one of multistage motors. The rotor of the monopole transformer motor is a permanent magnet. On the outside, a single magnetic armature pair and a power generation drive multi-stage motor armature are concentrically constructed with a monopole transformer motor armature. The power generation electric circuit of the monopole transformer motor is connected to the first stage of the single-magnet-electron pair on the outer side of the rotor and the multi-stage power generation drive motor to construct a multi-stage motor.

[Correction 08.06.2016 based on Rule 91]
FIG. 3 is a linearly developed circuit diagram of the multistage motor.
Power generation and drive are connected by a parallel circuit.

[Correction 08.06.2016 based on Rule 91]
1) Excitation iron 2) Drive coil 3) Parasitic diode / commutator 4)
5)
6) FET / transistor 7) Hall element / signal input line 8) Generator coil 9) Regenerative generator circuit 10) Drive current circuit 11) Regenerative capacitor N Magnetic pole S Magnetic pole A, B, C, D Armature terminals ± U, ± V, ± W AC electrical phase diagram 1 is a schematic cross-sectional view of a monopole transformer multistage motor composed of a rotor and a stator.
FIG. 2 is a cross-sectional view of a monopole transformer multistage motor with an armature added outside the outer periphery of the two-body motor.
3 is a circuit diagram in which the two-body motor of the monopole transformer multistage motor is linearly opened.

Claims (2)

1. the first stage.
   A good conductor coil is wound around a plywood of an exciting magnetic iron plate with an insulating coating, and the two-pole armature of a good conductive coil with an insulating coating and the other body have a gap between one end and the other end of the exciting iron In a two-body electric motor composed of a double-pole armature in which the N / S double-poles move relative to each other, the self-induction kinetic power generation is superimposed on the coil that is input to the drive motor field armature and is constantly regenerated. An electric motor that constantly generates power at the same time, in which a coil for recurring power generation is wound twice to form a revolving magnetic field / regenerative armature. Driving power generation electric circuit, which is a method of returning to the driving motor the electric energy of self-induced power generation that exceeds the narrow energy conservation law, spontaneously breaking the input and output directions of [Qi], which is the direction of electromagnetic force objectivity . Exciting iron shared drive power generation double coil transformer motor, which is a device that applies reverse drive current to self-induced power generation current without applying short circuit to drive power.
   Second stage.
   In the single-pole armature pair, wherein the coil of the double-pole armature of the motor of claim 2 is provided with a new input / output terminal by cutting the middle of the coil, plus and minus of electromagnetic force symmetry [electricity] In the spontaneous breaking of symmetry, the energy in a broad sense exceeds the symmetry of the energy conservation law in the narrow sense by the flow of positive and negative electrons, the flow of current and holes, and the flow of generated power that is the back electromotive force of the same flow. A single-pole armature pair drive generator circuit that is a method of obtaining a conservation law.
   In a single-magnetic armature pair-driven generator motor composed of a single-pole armature pair, the electromagnetic force symmetry [electricity] is spontaneously broken, with respect to the drive current plus, minus, hole flow, and electron flow It is a device of a single-armature armature pair drive generator motor that does not short-circuit the same flow as power generation, which is a reverse flow, and follows the law of conservation of energy in a broad sense.
   Monopole transformer motor.
   Third stage.
   In single magnetic armature pair drive generator motor,
   Electromagnetic force-symmetric [magnetism] that outputs induction-generated electricity to other in-phase armature columns as drive electricity by the drive coil input current of at least one armature column of the in-phase armature Multi-stage drive generator circuit, which is a method of a single-magnetic armature vs. multi-stage drive generator-motor that breaks the symmetry of, exceeds the narrow energy conservation law, and follows the broad energy conservation law
2. The single-magnetic armature pair drive generator motor of claim 1 has multiple stages in which the electricity generated by the induction drive current coil in the same phase is input to the drive current coil of the other in-phase column. A monopole multi-stage transformer motor that is a single-magnetic armature versus a multi-stage drive generator motor.

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