CN112994392A

CN112994392A - Generator

Info

Publication number: CN112994392A
Application number: CN201911274530.4A
Authority: CN
Inventors: 王珠
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-12-12
Filing date: 2019-12-12
Publication date: 2021-06-18

Abstract

According to the generator provided by the invention, the plurality of solenoid coils are arranged in the interlayer of the permanent magnet, and magnetic field energy generated after the plurality of solenoid coils are electrified is superposed with a magnetic field generated by the permanent magnet, so that the magnetic induction intensity is increased, and the current is increased along with the increase of the magnetic induction intensity. Compared with the existing generator, the generator provided by the embodiment of the invention overcomes the defects that the existing generator is weak in magnetic induction intensity and cannot generate strong current.

Description

Generator

Technical Field

The invention relates to the field of motors, in particular to a generator.

Background

The generator is a tool frequently used in daily life, and people can rely on electric energy generated by the generator to a great extent in production and life.

The existing generator generates electricity by magnetic induction lines generated by cutting permanent magnets through rotor coils. Since the magnetic induction B of the magnetic induction lines of the permanent magnet is often weak, as can be seen from E ═ Blv, the current generated by a small magnetic induction is often small, and the demand of people for electricity cannot be satisfied well.

Disclosure of Invention

In view of this, the embodiment of the present invention provides a generator to overcome the defects that the magnetic induction lines of the permanent magnet in the existing generator are weak in magnetic induction strength and cannot generate a strong current.

In order to achieve the above object, an embodiment of the present invention provides a generator, and is characterized in that a plurality of solenoid coils are disposed in an interlayer of a permanent magnet, and magnetic field energy generated by the plurality of solenoid coils after being energized is superposed with an earth magnetic field and a magnetic field generated by the permanent magnet, so that triple magnetic currents for reversely intersecting a rotor coil are inevitably formed, and magnetic induction intensity is increased, so that current is increased along with the increase of the intensity of magnetic induction intersection. Compared with the existing generator, the generator provided by the embodiment of the invention overcomes the defects that the existing generator is weak in magnetic induction intensity and cannot generate strong current.

The second key point is that the earth magnetic field rotates anticlockwise in the northern hemisphere and rotates clockwise in the southern hemisphere, so that the earth magnetic field, the permanent magnet magnetic field and the electromagnetic induction magnetic field which are coordinated reversely intersect, the intersecting magnetic force is possibly doubled, and whether the corresponding electric power is doubled or not needs to be experimentally identified.

The third point is that the third point is mainly to realize the second point, which is realized mainly by two measures, namely the first measure is to adjust the first permanent magnet and the second permanent magnet for 180 degrees by a special adjusting mechanism to adapt to the direction of the magnetic current in the south-north hemisphere, so as to adapt to the direction of the natural magnetic current in the south-north hemisphere, namely, only three magnetic currents are consistent, and strong magnetic current which is coordinated and unified and can be used for reverse intersection can be formed. The second adjustment measure is to replace or adjust the internal structure of the prime mover driving the rotor to rotate, such as adjusting the rotation direction of the externally hung crankshaft of the steam turbine, adjusting the direction of the blades of the turbine, and so on. The essence of the two adjusting measures is to adapt to the difference of the magnetic force directions of the south and the north of the earth, and to adjust the connection of the positive and negative leads of the permanent magnet at the periphery of the machine body and the magnetic induction coil in the magnet, the positive and negative poles of the three-in-one bipolar plate outside the permanent magnet, the rotation direction of the rotor coil and the track connection of the positive and negative leads, etc., so that the structures achieve new unification and coordination in a new direction, and the new reverse cutting magnetic current is realized, and the generated current product is also the same strong current product.

The fourth point is that the alternating magnetic force is the necessary condition for generating current instead of magnetic force, and the reverse alternating magnetic force is the necessary condition for generating strong current by strong cutting magnetic force lines. According to the complete 'magnetic-gas-electric effect' principle, magnetic current is the property of current, but the magnetic current is not a solid particle flow converted into current, and the hydrogen and oxygen quanta are excited by the alternating magnetic current to make the hydrogen and oxygen quanta electrified. Therefore, the super generator is provided with a generation, storage and transfer device, namely a gas supply and cooling device, which supplies abundant hydrogen and oxygen quanta to the hollow accommodating cavity, and supplies appropriate amount of liquid hydrogen and liquid oxygen to the hollow accommodating cavity under the control of an intelligent device.

The fifth point is that the reason why the liquid hydrogen and liquid oxygen are provided for the hollow accommodating cavity is that the hollow accommodating cavity is a measure which is totally beautiful, namely the accommodating cavity can be cooled to prevent the accommodating cavity from being burnt. When supplying liquid hydrogen and liquid oxygen to the hollow accommodating cavity, the generation of the delivery magnetic force and the electric power is reduced due to various possible reasons, so that the supply of the liquid hydrogen and liquid oxygen at about-250 ℃ needs to be reduced. If the supply of liquid hydrogen and liquid oxygen cannot be adjusted in time, a supercooling accident which is more dangerous than burning the generator body due to overhigh magnetic force and electric power of the hollow accommodating cavity can occur, and the possible accident is inevitably a series of extremely harmful accidents such as the explosion of a boiler which continues to burn and the like because the rotor and the generator body are firstly frozen. This is based on a probable mechanism that when the generator cuts magnetic lines of force efficiently, the generator will generate internal heat resistance and cutting action with very high temperature, and apart from the other reason, the high temperature will probably cause the liquid oxyhydrogen to be converted into gaseous oxyhydrogen, which is decomposed into oxyhydrogen atoms and recombined into various forms of water, and then the temperature of kelvin will be reduced due to various reasons, especially the supply of low-temperature liquid hydrogen and liquid oxygen at about-2500C, so that a series of accidents such as freezing the body will probably occur, and the solidification of water will be under-00C, which will cause possible conditions for freezing the body. This is a minor part of the formation of liquefied water, according to logical reasoning. More importantly, after the oxyhydrogen protons are charged and discharged, the oxyhydrogen protons are reduced into water again by combining with the electron current weakening backflow after working, and the reduced water is the main part of the water generated in the working process of the super generator, namely the larger the current is produced, the more the reduced water is, and the poor control is the main factor for forming the freezing accident. Conversely, if the problem of water is solved and pumped to the liquid hydrogen and liquid oxygen generating, storing, transferring and supplying device, the fixing requirement of a virtuous cycle, sustainability and disengageable ground power grid can be formed, and if a prime power machine taking hydrogen and oxygen as fuel is configured, the water can be applied to ground moving devices such as automobiles, subway trains, light rails, motor train units and the like. If a fluorine generating, storing and supplying device is arranged, the fluorine generating, storing and supplying device can be used on a true ultra-high-speed aerospace craft or an air-light missile instead of a triple magnetic current fuel cell. In summary, this means that the recyclable super generator first needs to solve the safety control problem according to the body kelvin temperature-it must be solved well.

Due to the existence of these two main risks, a safety program aimed at preventing overheating and supercooling according to the kelvin temperature of the body must first be set in the wisdom control system:

1. generally, this is because the magnetic force is large due to the reverse cutting of magnetic lines of force and the supply of liquid hydrogen and liquid oxygen is small, which requires decreasing the rotation speed of the rotor and increasing the supply of liquid hydrogen and liquid oxygen, thereby decreasing the over-high kelvin temperature of the core chamber.

2. When the generator is over-cooled, the original energy supply of the power machine is increased, the rotating speed of the rotor is increased, the supply of liquid hydrogen and liquid oxygen of the generator body is reduced, and the like, so that the working Kelvin temperature of the generator system can be increased through a series of measures.

In summary, it is important to control the normal kelvin temperature of the generator system, i.e. the overall operating temperature of the machine body, by the intelligent control system. The entire generator system must be shut down in the event of an extreme abnormal condition.

The key point is that the first half section of the principle of natural 'light-gas-electric effect' is the 'light-gas effect', and the complete 'light-gas-electric effect' principle can be divided into a front section and a rear section. The method is that a generator room is built at the lower end of a downwind port of a turbine cooling tower, sunlight can photolyze water vapor emitted by the cooling tower to form oxyhydrogen gas which is supplied to the generator room, and the oxyhydrogen gas enters a hollow accommodating cavity through meshes of a generator body to supply power. These are the six main points of the novel super generator.

The generator comprises a generator body, a permanent magnet, a magnetic induction coil and a rotor coil, wherein the magnetic induction coil and the rotor coil are arranged in the hollow permanent magnet, and the permanent magnet comprises a first permanent magnet and a second permanent magnet. The magnetic field energy that produces after a plurality of solenoid coils circular telegram with the magnetic field that the permanent magnet produced and earth's magnetic field stack and unanimity. The rotor coil is arranged between the first permanent magnet and the second permanent magnet and can rotate relative to the first permanent magnet and the second permanent magnet.

Preferably, the generator further includes a power supply, the plurality of solenoid coils are connected in series to form a solenoid group, a positive electrode of the power supply is connected to one end of the solenoid group, and a negative electrode of the power supply is connected to the other end of the solenoid group.

The power supply can supply power to the solenoid group, and because the solenoid coils in the solenoid group are wound in the same direction and the solenoids are arranged in parallel in the same direction, the magnetic field generated by the energized solenoid coils is consistent with the directions of the earth magnetic field and the permanent magnet magnetic field.

Preferably, the generator further includes a permanent magnet position conversion mechanism, the permanent magnet position conversion mechanism is disposed between the machine body and the first permanent magnet and between the machine body and the second permanent magnet, and the permanent magnet position conversion mechanism is configured to exchange positions of the first permanent magnet and the second permanent magnet.

Specifically, the permanent magnet position conversion mechanism may be specifically disposed on a side wall of the hollow accommodation chamber, and one end of one of the permanent magnet position conversion mechanisms may be connected with the side wall of the hollow accommodation chamber, and the other end is connected with the first permanent magnet. One end of the other one of the permanent magnet position conversion mechanisms can be connected with the side wall of the hollow accommodating cavity, and the other end of the other one of the permanent magnet position conversion mechanisms is connected with the second permanent magnet.

Preferably, in the above-mentioned generator, the hollow accommodating chamber is a cylindrical cavity, the permanent magnet position conversion mechanism includes a slide rail and at least two slide bars, the at least two slide bars are slidably connected to the machine body along the slide rail, the slide rail is a circular slide rail, the slide rail surrounds the cylindrical cavity for a circle along the circumferential direction of the cylindrical cavity, the first permanent magnet is connected to the machine body through one of the at least two slide bars, and the second permanent magnet is connected to the machine body through the other of the at least two slide bars.

The slide bar can slide along the slide rail, can adjust the position of first permanent magnet and second permanent magnet through slide rail and slide bar matched with mode.

Preferably, the generator further comprises a gas introducing mechanism, the gas introducing mechanism is connected with the hollow accommodating cavity through a through hole, and the gas introducing mechanism introduces gas into the hollow accommodating cavity.

The gas introducing mechanism can introduce gas for increasing the electricity generation property into the hollow accommodating cavity.

Preferably, in the above generator, the gas comprises hydrogen and oxygen.

Hydrogen can be supplied from the positive electrode and then moves to the negative electrode to form hydrogen proton with negative charge, and the hydrogen proton is attached to the negative electrode and then gets close to the positive electrode by the negative electrode due to opposite attraction. And oxygen is fed from the negative electrode to form oxygen protons which are positively charged and attached to the positive electrode. The hydrogen protons and the oxygen protons are magnetized and move in the hollow accommodating cavity by the magnetic field, so that the current is more favorably generated.

Preferably, in the above generator, the rotor coil is formed by winding a plurality of conducting wires with insulating layers.

The plurality of wires may increase the amount of current passing.

Preferably, in the above generator, the housing of the machine body is a mesh housing.

The mesh-shaped shell is favorable for the circulation of gas and the heat dissipation.

Preferably, in the above generator, the mesh of the mesh-shaped housing is circular, diamond-shaped or rectangular.

It will be appreciated that the mesh of the mesh enclosure may be circular, diamond-shaped or rectangular, or may have other shapes, and the particular shape of the mesh enclosure should not be construed as limiting the invention.

Preferably, the generator further comprises a cooling mechanism, the cooling mechanism is connected with the hollow accommodating cavity, and the cooling mechanism introduces liquid hydrogen and liquid oxygen into the hollow accommodating cavity under the control of the intelligent device.

The liquid hydrogen and the liquid oxygen are introduced to cool the hollow accommodating cavity and provide sufficient hydrogen and oxygen for the hollow accommodating cavity after absorbing the temperature.

When the technical points are described, the technical process of the novel generator needs to be repeated a little while now, based on the mechanism that the internal resistance heat and the cutting action generated by the super-strong generator probably cause the reversible change of a part of the liquid hydrogen and the liquid oxygen: the liquid oxyhydrogen-changed into gas oxyhydrogen-is decomposed again and synthesized into various forms of water, and the solidification of the water only needs to be below-00 ℃, so that the water can be used as a secondary part of possible conditions for a series of extremely harmful accidents such as organism freezing and the like. The main part is that the charged discharge of hydroxide protons can be combined with the electron flow weakening the reflux to reform reducing water, and the reducing water is in positive correlation with the production of current. This is a highly valued problem-high power is concurrent with high risk. The system can be used for mobile devices on the ground, such as automobiles, light rails, subway electric vehicles, railway motor train units and the like by being provided with a prime mover taking hydrogen and oxygen as fuel instead of the fixity requirement of a ground power grid. If the device is provided with a fluorine generation, storage and transfer device and a fuel cell, the device can be emptied and used on a real aerospace super-high-speed aircraft and a gas (fluorine hydrogen) light (laser) missile which are used for siphoning atmospheric air by a polynomial motor and heating and pressurizing a jet turbine by using hydrogen fluoride laser combustion.

1. The supply of liquid hydrogen and liquid oxygen also requires that the cutting magnetic lines have certain strength, namely the cutting magnetic lines must be matched with each other in a reverse cutting way, only in this way, certain magnetic force can be generated and the liquid hydrogen and liquid oxygen can be digested by internal heat resistance, in the change reaction, partial atomic hydrogen and oxygen can be generated into water mainly due to the supply of the liquid hydrogen and liquid oxygen at about-2500C, so that the movement chamber is filled with water, and the water also forms a secondary part of the water. The generator system can produce a direct proportion of reduced water while producing strong current, because the magnetic interaction can combine with the electron flow weakened by work and backflow to reduce the water again after the hydrogen and oxygen protons are charged and discharged, which is the vast majority of the water produced by the generator, and the water is pumped back to the liquid hydrogen and liquid oxygen production, storage and transfer device for recycling. Therefore, during supercooling, measures such as reducing the supply of liquid hydrogen and liquid oxygen, increasing the rotation speed of the rotor, increasing the current output and the like must be taken through intelligent control system control.

2. When the engine body is overheated, the supply of original energy is reduced, the rotating speed of the rotor is reduced, the power output is reduced, the supply of liquid hydrogen and liquid oxygen is increased, and the like.

Therefore, it is very important to design a program for controlling the generator system to safely operate by using the kelvin temperature of the generator body in an intelligent control system. Upon occurrence of a higher level of abnormality, the rotor rotation is stopped, and the like. The accident can be prevented by using the rocket braking technology of the leading launching satellite in the world of China for reference, and the safe production is ensured.

The rotating direction of a rotor coil which is connected with the permanent magnet through a positive and negative track bearing and rotates under the surrounding of the permanent magnet can be adjusted along with the permanent magnet. The adjustment of the rotor coil can specifically adjust the direction of a turbine fan blade of a prime mover driving the rotor to rotate and the direction of a double-cylinder connecting crankshaft of the turbine.

According to the generator provided by the invention, the plurality of solenoid coils are arranged in the interlayer of the permanent magnet, and magnetic field energy generated after the plurality of solenoid coils are electrified is superposed with magnetic fields generated by the permanent magnet and the earth, so that the magnetic induction intensity is increased, and the current is increased along with the increase of the magnetic induction intensity. It should be noted here that in the triple magnetic currents, the earth magnetic force and the magnetic force of the permanent magnet are weak natural magnetic forces, the magnetic force of the magnetic induction coil in the interlayer of the permanent magnet is decisive, and the magnetic force can be greatly increased by increasing the current supply.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic diagram of a generator according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a portion of a generator according to an embodiment of the present invention;

fig. 3 is a partial structural schematic diagram of a permanent magnet position conversion mechanism of a generator according to an embodiment of the invention.

The reference numbers are as follows:

a body 110; a hollow accommodating chamber 111; a permanent magnet 120; a first permanent magnet 121; a second permanent magnet 122; a rotor coil 130; a hollow interlayer 140; a solenoid coil 150; a power supply 160; a permanent magnet position switching mechanism 170; a slide rail 171; a slide bar 172; a gas introduction mechanism 180; a cooling mechanism 190.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

Examples

Fig. 1 is a schematic structural diagram of a generator according to an embodiment of the present invention, and fig. 3 is a schematic structural diagram of a part of a permanent magnet position conversion mechanism of the generator according to the embodiment of the present invention. Referring to fig. 1 and 2, fig. 1 and 2 together illustrate a generator according to an embodiment of the present invention. The generator comprises a machine body 110, a permanent magnet 120, a rotor coil 130, a power supply 160, a permanent magnet position switching mechanism 170, a gas introducing mechanism 180 and a cooling mechanism 190. The body 110 includes a hollow accommodating cavity 111, and the permanent magnet 120 is connected to a sidewall of the hollow accommodating cavity 111 through a permanent magnet position conversion mechanism 170, and referring to fig. 3 for details, both the permanent magnet 120 and the permanent magnet position conversion mechanism 170 can be disposed in the hollow accommodating cavity 111. The rotor coil 130 is disposed between the permanent magnets 120. The power supply 160 is connected to the body 110. The gas introducing mechanism 180 and the cooling mechanism 190 are connected to the hollow accommodating cavity 111 of the body 110 through a vent pipe.

The permanent magnet 120 includes a first permanent magnet 121, a second permanent magnet 122, and a plurality of solenoid coils 150, see fig. 2 for details. The first permanent magnet 121 and the second permanent magnet 122 may each have a hollow interlayer 140 disposed therein, and the plurality of solenoid coils 150 may each be disposed in the hollow interlayer 140 of the first permanent magnet 121 and the hollow interlayer 140 of the second permanent magnet 122. The direction of the magnetic field generated by the solenoid coil 150 after being energized may be superposed with the magnetic field generated by the permanent magnet 120 and the direction of the earth's magnetic field outside the generator, and may generate strong magnetic currents with coordinated directions for delivery, as shown in detail in fig. 2.

The wire winding direction of each solenoid coil 150 is uniform. A plurality of solenoid coils 150 may be connected in series to form a solenoid group. Or may be connected in parallel.

The rotor coil 130 may be disposed between the first permanent magnet 121 and the second permanent magnet 122, and referring to fig. 2 for details, the rotor coil 130 may rotate relative to the first permanent magnet 121 and the second permanent magnet 122.

The positive pole of the power supply 160 may be connected to one end of the aforementioned solenoid group, and the negative pole of the power supply 160 may be connected to the other end of the aforementioned solenoid group. The solenoid set may be caused to generate a magnetic field when the power supply 160 is turned on.

The generator provided by the embodiment of the invention also comprises a transformer, and the electric signal sent by the generator can be firstly boosted and then reduced and then transmitted to a load for power supply.

The transformer can be a polynomial, namely a multi-positive-conductance capacitor plate single-negative-conductance capacitor plate extra-high voltage transformer, and the electric signal can be current.

The permanent magnet position shift mechanism 170 may include a slide rail 171 and a slide bar 172, see fig. 3 for details. The hollow accommodating cavity 111 may be a cylindrical cavity, the slide rail 171 may be disposed on a sidewall of the cylindrical wall, and the slide rail 171 may be a circular slide rail 171. The number of the sliding rods 172 can be two, and both the sliding rods 172 can slide along the sliding rail 171 relative to the hollow accommodating cavity 111. The first permanent magnet 121 can also rotate relative to the sliding rod 172 connected with the first permanent magnet 121, and the second permanent magnet 122 can also rotate relative to the sliding rod 172 connected with the second permanent magnet 122.

The working principle of the generator provided by the invention is as follows: the solenoid groups formed by serially connecting the solenoid coils 150 are arranged in the hollow interlayer 140 of the first permanent magnet 121 and the hollow interlayer 140 of the second permanent magnet 122. The power supply 160 energizes the solenoid group formed by the solenoid coils 150 connected in series, so that the solenoid coils 150 generate magnetic induction lines, and the magnetic induction lines generated by the solenoid coils 150 can be superimposed with the magnetic fields formed by the first and second

permanent magnets

121, 122, so that the magnetic induction intensity of the magnetic induction lines cut by the rotor coil 130 can be increased. It should be noted here that the rotor coil 130 cuts the triple magnetic induction lines in the opposite direction under the driving of the power machine, and thus may be a double cutting effect, which is the second core technology of the novel generator of this embodiment except for the triple magnetic current.

The solenoid coil 150 may be disposed side by side with the first permanent magnet 121 and the second permanent magnet 122, except for a magnetic field composed of a solenoid group in which the first permanent magnet 121, the second permanent magnet 122, and the solenoid coil 150 are connected in series. But also with the magnetic field generated by the earth. Since the magnetic field generated by the earth has a difference in the direction of the magnetic induction lines in different regions, the direction of the magnetic induction lines of the permanent magnet 120 can be made to coincide with the direction of the magnetic induction lines of the earth by adjusting the angle of the permanent magnet position switching mechanism 170. For example, when the direction of the magnetic induction line is counterclockwise in the northern hemisphere, the angle of the permanent magnet position switching mechanism 170 is adjusted so that the direction of the magnetic induction line of the permanent magnet 120 follows the direction of the magnetic induction line of the northern hemisphere; in the southern hemisphere, when the direction of the induction line is clockwise, the angle of the permanent magnet position switching mechanism 170 is adjusted so that the direction of the induction line of the permanent magnet 120 follows the direction of the induction line of the southern hemisphere.

The plurality of solenoid coils 150 need not be connected in series, and the power supply 160 may be configured to lead a plurality of wires from the positive electrode to energize the plurality of solenoid coils 150, respectively. The negative electrode can lead out a single lead.

The first permanent magnet 121 and the second permanent magnet 122 may be rare earth, ru, fe, b, or other magnet materials.

The gas introducing mechanism 180 may be connected to the hollow accommodating chamber 111 through a vent pipe. Specifically, gaseous mechanism of letting in can let in hydrogen and oxygen to cavity holding chamber 111, and hydrogen can be followed the positive pole and supplied the back to negative pole motion formation hydrogen proton negative electricity that takes, depends on at the negative pole, draws close to positive one side again by the negative pole because opposite sex is inhaled mutually. And oxygen is fed from the negative electrode to form oxygen protons which are positively charged and attached to the positive electrode. The hydrogen protons and the oxygen protons are magnetized and moved by the magnetic field in the hollow accommodating cavity 111, thereby facilitating the generation of super-strong current.

The rotor coil 130 may be wound from a plurality of polynomial insulated wires, and the rotor coil 130 may be a light alloy such that less energy is consumed by the rotation of the rotor coil 130. The space between the insulating layer and the metal wire is relatively loose, so that more hydrogen and oxygen can enter to generate stronger electrochemical reaction. A rotor coil 130 wound with fine wires may also be used.

The housing of the generator body 110 may be embodied as a mesh-shaped housing in order to allow external hydrogen and oxygen to enter the interior of the generator. Specifically, hydrogen and oxygen may be introduced between the insulating layer and the conductor layer of the rotor coil 130.

It will be appreciated that the mesh openings of the mesh enclosure may be circular, diamond-shaped or rectangular, or may be of other shapes, and the particular shape of the mesh openings should not be construed as limiting the invention.

When the hydrogen or oxygen is insufficient, the gas introducing mechanism 180 may generate hydrogen and oxygen by electrolyzing a potassium hydroxide or sodium hydroxide solution, and introduce the generated hydrogen and oxygen into the hollow accommodating chamber 111.

The cooling mechanism 190 may introduce the atomized liquid hydrogen and the atomized liquid oxygen into the hollow accommodating chamber 111 through a vent pipe. The liquid hydrogen and the liquid oxygen can cool the hollow accommodating cavity 111, and can be gasified into hydrogen and oxygen after absorbing the internal resistance heat of the hollow accommodating cavity 111.

In order to solve the circular architecture problem between the permanent magnet 120 and the rotor coil 130 rotating around the permanent magnet, it is necessary to solve the problem that when the roller rotating track embedded positive and negative conductive circuit connection is arranged in the circular architecture, positive and negative electric plates are also required to be arranged to respectively attract the positive and negative electron accumulation ends, so that the positive and negative electron ends mutually attract and drain to do work when the loop is opened.

Reference may be made to the "green energy of the hydrogen-21 st century" (ISBN: 9787502560393), published by the chemical industry press, 3/1/2006, which describes a proton exchange membrane fuel cell in which graphite plates and a novel polymer membrane can be made as a three-in-one assembly of several positive electrodes-membrane-negative electrodes. The three-in-one assembly of positive electrode-membrane-negative electrode can be disposed on the outer surface of the permanent magnet 120 as a novel electrode plate.

The positive electrode faces the positive terminal surface of the core of the generator composed of the permanent magnet 120 and the rotor coil 130, and the negative electrode faces the negative terminal surface of the core. Thus, when the generator rotates, a current with positive and negative electrons first split and then combined flows out from the positive electrode, and is accumulated in the power supply 160 to become high electromotive force, so that the current output is realized to do work. The weakened current flows back from one end of the negative electrode after the work is done. In addition, the inner circle of the circular frame may support the rotor coil 130 using ball bearings with tracks of positive and negative electrodes embedded therein, which may allow the rotor coil 130 to smoothly rotate at a high speed for reverse cutting to generate a large current. The boiler of the power generator driving the rotor coil 130 to rotate can also use hydrogen and oxygen as energy sources, so that the power generation process is more environment-friendly.

The permanent magnet 120 including the first permanent magnet 121 and the second permanent magnet 122 has been described above with reference to the schematic drawings, in order to adapt to the difference of the rotation directions of the magnetic lines of force between north and south of the earth, the permanent magnet position conversion mechanism 170 disposed in the hollow accommodating cavity can be used to perform conversion through the slide rail 171 and the slide bar 172.

The generator provided by the embodiment of the invention has the following beneficial effects:

(1) the solenoid coil 150 is arranged in the interlayer of the permanent magnet 120, and the magnetic field generated by the solenoid coil 150 after being electrified is superposed with the magnetic field generated by the permanent magnet 120 to cause the magnetic induction intensity to be enhanced, and the magnetic induction intensity and the direction of the earth magnetic field can be superposed and consistent, so that the magnetic induction intensity of the generator is further enhanced. The rotor coil 130 also generates stronger current when cutting the triple magnetic induction lines due to the increased magnetic induction of the generator.

(2) Liquid hydrogen and liquid oxygen are introduced into the hollow accommodating cavity 111 through the cooling mechanism 190, so that the cavity of the hollow accommodating cavity 111 can be cooled, and sufficient hydrogen and oxygen can be provided. When the hollow accommodating cavity is overcooled, the supply of liquid hydrogen and liquid oxygen is reduced, the rotating speed of the rotor is increased, and the working temperature of the accommodating cavity is increased, so that the output of current can be increased.

(3) The rotor coil 130 may be driven by hydrogen and oxygen as fuel, which may greatly reduce the dependence on the original energy such as coal, oil, natural gas, etc., and is advantageous for sustainable development.

(4) Since hydrogen and oxygen are combusted to drive the rotor coil 130, the pollution problem can be better alleviated than combustion of fossil fuels.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention are clearly and completely described above with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are a part of the embodiments of the present invention, but not all of the embodiments. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the above detailed description of the embodiments of the invention presented in the drawings is not intended to limit the scope of the invention as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms indicating the orientation or positional relationship are based on the orientation or positional relationship shown in the drawings or the orientation or positional relationship which the product of the present invention is conventionally placed in use, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the method or element referred to must have a specific orientation, be constructed in a specific orientation and operation, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "connected," and "connected" are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Claims

1. The utility model provides a generator, its characterized in that, includes organism, permanent magnet and rotor coil, the permanent magnet includes first permanent magnet and second permanent magnet, be provided with cavity holding chamber in the organism, first permanent magnet, second permanent magnet all set up in cavity holding chamber, the second permanent magnet set up in keeping away from in cavity holding chamber one side of first permanent magnet, all be provided with the cavity intermediate layer in first permanent magnet and the second permanent magnet, be provided with a plurality of solenoid coils that extend the direction unanimity in the cavity intermediate layer, the magnetic field energy that produces after a plurality of solenoid coils circular telegrams with the magnetic field stack that the permanent magnet produced, rotor coil set up in between first permanent magnet and the second permanent magnet, rotor coil can for first permanent magnet and second permanent magnet rotate.

2. The generator of claim 1, further comprising a power source, wherein the plurality of solenoid coils are connected in series to form a solenoid group, wherein a positive pole of the power source is connected to one end of the solenoid group, and a negative pole of the power source is connected to the other end of the solenoid group.

3. The generator of claim 1 further comprising a permanent magnet position shift mechanism disposed between the body and the first permanent magnet and between the body and the second permanent magnet, respectively, the permanent magnet position shift mechanism for interchanging the positions of the first and second permanent magnets.

4. The generator according to claim 3, wherein the hollow accommodating cavity is a cylindrical cavity, the permanent magnet position conversion mechanism comprises a slide rail and at least two slide bars, the at least two slide bars are slidably connected with the generator body along the slide rail, the slide rail is a circular slide rail, the slide rail surrounds the cylindrical cavity along the circumferential direction of the cylindrical cavity for a circle, the first permanent magnet is connected with the generator body through one of the at least two slide bars, and the second permanent magnet is connected with the generator body through the other of the at least two slide bars.

5. The generator of claim 1 further comprising a gas inlet mechanism, wherein the gas inlet mechanism is connected to the hollow accommodating chamber through a through hole, and the gas inlet mechanism is configured to introduce gas into the hollow accommodating chamber.

6. The generator of claim 5 wherein the gas comprises hydrogen and oxygen.

7. The generator of claim 1 wherein the rotor coil is wound from a plurality of insulated wires.

8. The generator of claim 1 wherein the housing of the machine body is a mesh housing.

9. The generator of claim 8 wherein the mesh of the mesh enclosure is circular, diamond shaped or rectangular.

10. The generator of claim 1 further comprising a cooling mechanism coupled to the hollow containment chamber, the cooling mechanism introducing liquid hydrogen and liquid oxygen into the hollow containment chamber.