WO2018188507A2

WO2018188507A2 - Magnetic levitation repulsive energy power production method, and machine and engineering therefor

Info

Publication number: WO2018188507A2
Application number: PCT/CN2018/081836
Authority: WO
Inventors: 冯惠贞
Original assignee: 冯惠贞
Priority date: 2017-04-13
Filing date: 2018-04-04
Publication date: 2018-10-18
Also published as: CN106992718A

Description

Magnetic suspension rap energy power production method and its machine and engineering

Technical field

The invention relates to an energy and power production method, a machine and a project thereof, in particular to a magnetic suspension energy power production method, a machine and a project thereof, and belongs to the high-tech field of the electromagnetic power energy industry, and is an ultra-high-speed magnetic levitation energy source and the like. power.

Background technique

Magnetic levitation technology:

The existing magnetic suspension technology is too high in calculation and technical requirements on suspension technology, which is not conducive to widespread promotion and low power.

Maglev train:

The existing maglev trains use magnetic repulsion magnetic levitation technology (including normally-conducting magnetic repulsion and superconducting magnetic repulsion). The technology is mature in terms of negative-heavy suspension. The repulsion method is open-air and open-plane, that is, using the repulsive force and orbit on the train. The repulsion on the train suspends the train and then uses the stability and power systems on either side of the track to pull and propel the train forward. The existing power belongs to the high dynamic range of magnetic power.

Motor power:

The existing motor has no magnetic levitation technology, generates power by rotating magnetic field, has large energy loss, large magnetic leakage, and will generate an overload condition, insufficient utilization of magnetic energy, insufficient power, and relatively low power.

The ordinary motor is the magnetic induction of the metal stator and the permanent magnet rotor of the energized wire winding. There is no magnetic levitation technology, the energy loss is large, the magnetic flux leakage is large, the overload condition occurs, the magnetic energy utilization rate is insufficient, and the power is insufficient, so the power consumption is not motivated.

The three-phase motor has no magnetic levitation technology, and the energy loss is large, the magnetic flux leakage is large, the overload condition occurs, the magnetic energy utilization rate is insufficient, and the power is low.

Magnetic suspension bearing:

The existing magnetic suspension bearings, the bearings are magnetically suspended without generating power, and the motor or other power, juxtaposed in the same line, reducing mechanical friction to ensure efficient output of the motor or other power. It is a kind of magnetic levitation technology that does not generate power.

Coal energy power, oil power:

It belongs to high-energy power energy, adopts one-time natural energy. Disadvantages: one-time power energy, non-renewable, high development and use cost, and extremely destructive to nature.

Wind, water, solar energy:

The natural energy power is renewable energy, but the utilization rate is not high, the construction cost is high, the use cost is high, and the natural resources are occupied. The power is unstable.

Summary of the invention

1. Purpose of the invention

The invention is a new, safe, high-efficiency, ultra-high-speed magnetic suspension power machine and engineering and magnetic levitation power energy machine and engineering. The purpose is to transform the magnetic levitation energy into a continuous and ultra-high-speed power energy and power (motion) mode through continuous cyclic continuous motion.

2. What technical problems are solved?

The magnetic levitation distance point is a boundary point defining the magnetic levitation motion and the ultra-high-speed magnetic levitation motion, and solves the manufacturing technique that can make the distance between the magnets smaller than the magnetic levitation distance point.

The ultra-high-speed magnetic levitation energy and power are based on the magnetic properties of the magnetic material through the distance between the fixed magnets. When the magnetic strength (current) increases, there is no limit to increase the repulsion between the magnets when the distance between the fixed magnets is smaller than the magnetic levitation distance. The pressure is generated, and the driving force and the traction force of the guiding section are used to convert the pressure into power. Under the principle of the force and the reaction force, the magnetic energy of the magnetic levitation is obtained several times or several hundred times with the normal amount of the magnetic energy. The repulsion force increases the pressure and power steering or power steering and corrects the magnetic levitation pulsating power energy that is several times or hundreds of times larger than the normal amount of magnetic energy or electric energy under the action of the force and the reaction force;

In addition, since the distance between the magnets is fixed, the current can be increased without limit, and the repulsive force between the magnets smaller than the magnetic suspension distance point, that is, the pressure increases, and the limit is the magnetic pressure endurance limit of the inner and outer magnets or the magnetic induction energy limit of the magnet. The power and energy space is huge.

The solution is the invention and problems of ultra-high-speed magnetic levitation power.

3. Technical solution 1

1) First, magnetic levitation and mutual suspension principle

A closed or closed (opening space diameter larger than the diameter of the cross section of the inner magnet) is closed or not closed (note: the diameter of the unclosed space is smaller than the diameter of the cross section of the inner magnet). Another magnet of any shape is placed between the ring magnets. The opposite surfaces are mutually repulsive with respect to the magnetic poles. In the range of the magnetic induction energy of the two magnets being of similar quality or one of them, when the magnetic strength of the two magnets reaches such that one of them is suspended, the two magnets are arbitrarily suspended from each other;

A solid hollow closed or not closed [the diameter of the unclosed space is smaller than the diameter of the inner magnet (the smaller the space is better)] another magnet of any shape is placed in the magnet of any shape, and the opposite surfaces of the two magnets rebalance each other In the magnetic energy range of the two magnets having similar or one of the magnetic masses, when the magnetic strength of the two magnets reaches such that one of them is suspended, the two magnets are arbitrarily suspended from each other;

That is, when the outer magnet is lifted or placed, the inner magnet is suspended, and when the inner magnet is lifted or placed, the outer magnet is suspended;

And in the range of the magnetic induction energy in which the mass of the two magnets exceeds one of them, the magnet with less mass is suspended;

The inner and outer magnets {including the two sides open (open space diameter is larger than the inner magnet cross-sectional diameter) hollow closed or not closed (note: the non-closed space cross-cut diameter is smaller than the inner magnet cross-sectional diameter) annular outer magnet and hollow inner The magnet and the solid hollow are closed or not closed [the diameter of the non-closed space is smaller than the diameter of the inner magnet (the smaller the space is better)] the outer magnet and the inner magnet} are magnetic substances or diamagnetic substances or composed of magnetic substances and electric conductors;

The inner and outer magnets {including the two sides open (open space diameter is larger than the inner magnet cross-sectional diameter) hollow closed or not closed (note: the non-closed space cross-cut diameter is smaller than the inner magnet cross-sectional diameter) annular outer magnet and hollow inner The magnet and the solid hollow are closed or not closed [the diameter of the unclosed space is smaller than the diameter of the inner magnet (the smaller the space is better)] the outer magnet and the inner magnet} may be a separate integral magnet or a combined magnet;

The opposite surface magnetic poles between the inner and outer magnets form the same repulsion, which is one of the conditions necessary for magnetic levitation, so that each magnet can independently turn on the current;

Inner and outer magnet monopole air gap magnetic levitation

The single-pole air gap magnetic field of the open-ended or non-closed annular outer magnet and the hollow inner magnet and the three-dimensional hollow outer magnet and the inner magnet are specifically inner and outer hollow magnets, and the opposite surfaces of the two magnets are balanced and smooth, and the inner magnet The smooth and flat inner surface of the outer surface is a uniform shape, size, number of convex portions or cylindrical portions (preferably in the form of strips), and the convex portion or the cylindrical portion is used for the winding of the conductive coil and all the coils The current direction is uniform, and the outer surface of the outer magnet is smooth and flat. The outer surface is a uniform shape, size, number of convex portions or cylindrical portions. The convex portion or the cylindrical portion is used for the winding of the conductive coil and the current of all the coils. The directions are the same; the inner and outer magnet coils are balanced with each other and the current direction is perpendicular to the straight line. The opposite surfaces of the inner and outer magnets are balanced with each other. The smooth magnetic poles are the same and repel each other. When the magnetic strength of the two magnets is uniform, the magnetic strength or current increases to achieve the two magnets. One of being suspended or arbitrarily suspended from each other; that is, the outer magnet yoke is inward, and the inner magnet yoke is outward, Said inner and outer magnets opposite the yoke to form a suspension;

Further, the single-pole air gap magnetic field of the open-ended or non-closed annular outer magnet and the hollow inner magnet and the three-dimensional hollow outer magnet and the inner magnet are specifically a single body composed of one or more independent parts of the outer magnet hollow inner magnet. The extreme air gap magnetic field is specifically that the outer surface of the inner magnet is smooth and flat, and is composed of more than one independent part and is arbitrarily closely interlocked with each other (including lamination, welding, boring, outer hoop, lock, nail insertion, and can be inside the inner magnet) A magnet is placed which is hollow and has a surface opposite to the magnetic pole of the inner surface of the inner magnet to generate an attractive force. The outer magnet is provided with a magnet which is hollow and has a magnetic field opposite to the outer surface of the outer magnet to attract the repulsive force between the individual magnets. Or use a magnetic shielding material to place the magnetic shield), or add another magnet to fix it (the magnet inside the inner magnet is hollow and the magnet surface is opposite to the magnetic pole of the inner surface of the inner magnet to create an attractive magnet. The outer magnet is hollow and magnetized outside. a magnet that has an attractive surface opposite to the outer surface of the outer magnet to absorb the individual magnets The repulsion between them is set by magnetic shielding material to set the magnetic shielding), or the surface is welded, the direction of the coil current of the independent part or the current direction of the electric conductor is the same, and the inner surface of the outer magnet is smooth and flat, and the inner surface is evenly distributed in any shape, size and quantity. a protruding portion or a cylindrical portion (preferably in the form of a strip), the protruding portion or the cylindrical portion is used for the winding of the conductive coil, and the current directions of all the coils are uniform; the inner and outer magnet coils are balanced with each other with respect to the current direction and a straight line On the contrary, the opposite surfaces of the inner and outer magnets are balanced to be smooth and flat to the same magnetic pole and repel each other; when the magnetic strength of the two magnets is uniform, the magnetic strength or the current is increased to achieve suspension or suspension of one of the two magnets; The outer magnet yoke is inward, the inner magnet yoke is outward, and the inner and outer magnet yokes are relatively suspended;

The inner and outer magnets change air gap magnetic levitation

The variable air gap magnetic field is a winding type variable air gap or a straight wire or a conductor variable air gap or an arbitrary variable air gap, and the two sides open the hollow closed or non-closed annular outer magnet and the hollow inner magnet and the solid hollow outer magnet The current direction of the coil or straight wire or conductor of the inner magnet is the same, and the opposite surfaces of the inner and outer magnets are divided into two magnetic poles in the right or left direction or in any direction at the center of the current direction, so that the opposite surfaces of the inner and outer magnets are divided into two identical magnetic poles. Repelling, that is, changing the air gap magnetic field; when the magnetic strength of the two magnets is uniform, the magnetic strength or the current is increased, so that one of the two magnets can be suspended or arbitrarily suspended; that is, the outer magnet yoke is inward, The inner magnet yoke is outward, and the inner and outer magnet yokes are relatively suspended;

The internal and external magnet circuit manners may be connected by a series circuit, a parallel circuit or an arbitrary circuit;

Second, the principle of magnetic suspension and motion or magnetic suspension mutual suspension and motion

Magnetic field direction

The direction of the magnetic field line of the magnet is linear, and the seamless monopole surface of the electromagnet will present magnetic lines in a straight line direction. The direction of the magnetic field line of the electromagnet is divided into a vertical straight line direction and a radioactive linear direction according to the contact mode of the magnetic substance and the electric conductor; and the linear direction is the magnetic levitation power. Making more favorable;

Inner and outer magnet monopole air gap magnetic levitation

The single-pole air gap magnetic field of the open-ended or non-closed annular outer magnet and the hollow inner magnet and the three-dimensional hollow outer magnet and the inner magnet are specifically inner and outer hollow magnets, and the opposite surfaces of the two magnets are balanced and smooth, and the inner magnet The smooth and flat inner surface of the outer surface is a uniform shape, size, number of convex portions or cylindrical portions (preferably in the form of strips), and the convex portion or the cylindrical portion is used for the winding of the conductive coil and all the coils The current direction is the same, and the inner surface of the outer magnet is smooth and flat. The outer surface is a uniform shape, a size, a number of convex portions or cylindrical portions, and the convex portion or the cylindrical portion is used for the winding of the conductive coil and all the coils are used. The current direction is the same; the inner and outer magnet coils are balanced with each other and the current direction is perpendicular to the straight line. The opposite surfaces of the inner and outer magnets are balanced with each other. The smooth magnetic poles are the same and repel each other. When the magnetic strength of the two magnets is uniform, the magnetic strength or current increases. One of the two magnets is suspended or arbitrarily suspended from each other; that is, the outer magnet yoke is inward, and the inner magnet yoke is outward, Said inner and outer magnets opposite the yoke to form a suspension;

Further, the single-pole air gap magnetic field of the open-ended or non-closed annular outer magnet and the hollow inner magnet and the three-dimensional hollow outer magnet and the inner magnet are specifically a single body composed of one or more independent parts of the outer magnet hollow inner magnet. The extreme air gap magnetic field is specifically that the outer surface of the inner magnet is smooth and flat, and is composed of more than one independent part and is arbitrarily closely interlocked with each other (including lamination, welding, boring, outer hoop, lock, nail insertion, and can be inside the inner magnet) A magnet is placed which is hollow and has a surface opposite to the magnetic pole of the inner surface of the inner magnet to generate an attractive force. The outer magnet is provided with a magnet which is hollow and has a magnetic field opposite to the outer surface of the outer magnet to attract the repulsive force between the individual magnets. Or use a magnetic shielding material to place the magnetic shield), or add another magnet to fix it (the magnet inside the inner magnet is hollow and the magnet surface is opposite to the magnetic pole of the inner surface of the inner magnet to create an attractive magnet. The outer magnet is hollow and magnetized outside. a magnet that has an attractive surface opposite to the outer surface of the outer magnet to absorb the individual magnets The repulsive force is either magnetic shielding by placing the magnetic shielding material, or surface welding, the direction of the coil current of the independent part or the current direction of the electric conductor is the same, and the inner surface of the outer magnet is smooth and flat, and the inner surface is uniformly distributed with any shape, size and number of convexities. a portion or a cylindrical portion (preferably in the form of a strip), the protruding portion or the cylindrical portion is used for the winding of the conductive coil, and the current directions of all the coils are uniform; the inner and outer magnet coils are balanced with each other with respect to the current direction and the straight line is opposite The opposite surfaces of the inner and outer magnets are balanced and smoothed to the same magnetic pole to repel each other; when the magnetic strength of the two magnets is uniform, the magnetic strength or the current is increased to achieve suspension or suspension of one of the two magnets; The outer magnet yoke is inward, the inner magnet yoke is outward, and the inner and outer magnet yokes are relatively suspended;

The inner and outer magnets change air gap magnetic levitation

The variable air gap magnetic field is a winding type variable air gap or a straight wire or a conductor variable air gap or an arbitrary air gap, and the two sides open the hollow closed or unclosed annular outer magnet and the hollow inner magnet and the solid hollow outer magnet and the inner side The coil or straight wire or conductor of the magnet has the same current direction, and the opposite surfaces of the inner and outer magnets are divided into two magnetic poles in the right or left direction or in any direction at the center of the current direction, so that the opposite surfaces of the inner and outer magnets are divided into two identical magnetic poles. Repelling, that is, changing the air gap magnetic field; when the magnetic strength of the two magnets is uniform, the magnetic strength or the current is increased, so that one of the two magnets can be suspended or arbitrarily suspended; that is, the outer magnet yoke is inward, and the inner magnet The yoke is outward, and the inner and outer magnet yokes are relatively suspended;

The inner and outer magnet circuit modes may be connected by a series circuit, a parallel circuit or an arbitrary circuit;

Hollow closed or closed (opening space diameter larger than the diameter of the transverse cross-section of the inner magnet) on one of the sides (note: the diameter of the unclosed space is smaller than the diameter of the cross-section of the inner magnet). Another magnet of any shape is placed between the ring magnets, two The opposite surfaces of the magnets are mutually repulsive with respect to each other. In the range of the magnetic induction energy of one or both of the two magnets, when the magnetic strength of the two magnets reaches any one of them, the two magnets are suspended independently of each other. And the magnet with less mass is suspended in the range of the magnetic energy of the two magnets exceeding one of the masses;

The inner and outer magnets may be independent monolithic magnets or combined magnets;

The opposite surface magnetic poles between the inner and outer magnets form a repulsive repulsion which is one of the conditions necessary for magnetic levitation, so that each magnet can independently turn on the current;

The hollow open-ended annular magnet and the inner magnet are in a suspended air magnetic field suspension condition;

When the two surfaces of the two magnets which are annularly surrounded and arbitrarily suspended are smooth and flat, and the two sides are equal in length, the two magnets are relatively stationary. When the opposite surfaces of the two magnets are balanced with each other, the cross-cut lengths of the two sides are not equal. The shorter magnets will be attracted by the positive and negative polarities of the positive and negative poles on both sides of the cross-section of the two sides, and the magnets will be attracted to the positive, positive or negative and negative poles. Relative movement; or the shorter side of the magnet does not exert a force on one side of the cross section, and the other side generates a force of the same pole repulsive with the opposite magnet surface to cause the two magnets to move relative to each other;

When the two surfaces of the two magnets which are annularly surrounded and arbitrarily suspended are smooth and flat, and the two sides are equal in length, the two magnets are relatively stationary. When the opposite surfaces of the two magnets are balanced with each other, the cross-cut lengths of the two sides are equal. The two opposite surfaces of the inner and outer magnets or one of the two surfaces are formed with any tangent plane that is consistent or inconsistent with the direction of the power. For example, the inner magnet surface is uniformly distributed and the inner magnet is laterally centered. The left and right sides can also be single-direction left or single direction. a helical gear concave or convex cut surface with a right-angled angle of 90 degrees or less within 180 degrees, opposite to the left and right in the shape of an arrow, and the opposite sides of the cut surface are two positive and negative magnetic poles, wherein the angle is perpendicular to the surface of the magnet and One magnetic pole facing the power direction (such as the fixed inner magnet outer magnet movement is back to the power direction) forms two different magnetic poles with the opposite outer magnet surface, and the attraction is pulled forward according to the principle of magnetic anisotropic attraction, and the other The chamfered magnetic pole forms two identical magnetic poles with the opposing outer magnet surface, and generates a driving force according to the principle of magnetic homosexual repulsive Push forward, the force generated causes the two magnets to move relative to each other;

Or the inner magnet surface is evenly distributed with the inner magnet lateral center position left and right, or the single-direction left or single-direction right-angled angle within 90 degrees, the spiral gear is concave or convex, and the left and right are arrow-shaped. In contrast, the opposite sides of the cut surface are opposite to one side of the inner magnet surface and the angle of the inner surface is less than 90 degrees and the other chamfer surface is less than 90 degrees and faces the power direction (such as the fixed inner magnet outer magnet movement is the back-to-power direction). The action of the force, the other chamfered magnetic pole forms two identical magnetic poles with the opposite outer magnet surface, and the driving force is pushed forward according to the principle of magnetic homosexual repulsive, and the generated force causes the two magnets to move relative to each other; the outer magnet must There is no closure in line with the direction of the power (Note: the diameter of the cross-cut of the non-closed space is smaller than the diameter of the cross-section of the inner magnet). The clearance space is fixed or power-connected; if it is not fixed, the power will fly; in order to maintain the magnetic induction between the inner and outer magnets A uniform number of magnets can be added to both sides of the uniform outer magnet gap; a built-in power supply or a built-in power supply can be connected to the external power supply; the electrical conductor or Line can be used with less resistance wire graphene or graphene wires and metal conductors; conductive line portions may be freezing temperature drop and drop across the resistor;

The hollow open-ended annular magnet and the inner magnet are in a single-pole air gap magnetic field suspension; when the inner magnet is made, the inner magnet is divided into one or more independent parts or the inner magnet is hollow or the inner magnet is arbitrarily composed and the inner and outer magnets are arbitrarily configured;

When the two surfaces of the two magnets which are annularly surrounded and arbitrarily suspended are smooth and flat, and the two sides are equal in length, the two magnets are relatively stationary. When the opposite surfaces of the two magnets are balanced with each other, the cross-cut lengths of the two sides are not equal. The shorter magnets will be positively and negatively polarized on both sides of the cross-section, the negative pole and the longer magnet surface will produce positive and negative polarities. The different phases attract the positive, positive or negative, and the negative poles are magnetically repulsive and the two magnets are opposite to each other. Movement; or the shorter sides of the magnets do not exert a force on one side of the cross section, and the other side generates a force that repels the same pole with the opposite magnet surface to cause the two magnets to move relative to each other;

When the two surfaces of the two magnets which are annularly surrounded and arbitrarily suspended are smooth and flat, and the two sides are equal in length, the two magnets are relatively stationary. When the opposite surfaces of the two magnets are balanced with each other, the cross-cut lengths of the two sides are equal. One of the two surfaces or two surfaces of the inner and outer magnets is formed with any cutting surface that is consistent or inconsistent with the direction of the power, for example, a spiral having a uniform distribution of the inner magnet surface and a degree of rotation within 90 degrees of the power direction. The concave or convex section of the gear, the opposite sides of the tangential surface are two positive and negative magnetic poles, wherein the angle of the magnet surface is less than 90 degrees and faces the power direction (such as the movement of the outer magnet of the fixed inner magnet is the direction opposite to the power direction) The magnetic pole forms two different magnetic poles with the opposite outer magnet surface, and the attraction is pulled forward according to the principle of magnetic anisotropic attraction, and the other chamfered magnetic pole forms two identical magnetic poles with the opposite outer magnet surface, according to the magnetic isotropic phase. The principle of repulsion generates a driving force to push forward, and the generated force causes the two magnets to move relative to each other;

Or a helical gear-concave or convex-cut surface with a uniform distribution of the inner magnet surface and a rotation angle of 0 degrees or more within 90 degrees of the power direction, and the opposite sides of the cut surface face the inner magnet surface less than the vertical angle and the other chamfered surface A magnetic pole having an angle less than 90 degrees and facing the power direction (such as the movement of the outer magnet of the fixed inner magnet is the direction opposite to the power direction) does not generate a force, and the other chamfered magnetic pole forms two identical magnetic poles with the surface of the opposite outer magnet. According to the principle of magnetic homosexual repulsive force, the driving force is pushed forward, and the generated force causes the two magnets to move relative to each other; the outer magnet must have a non-closed shape consistent with the power direction (Note: the non-closed space cross-cut diameter is smaller than the cross-section of the inner magnet Diameter) clearance space for fixed or power connection; unfixed without connecting power will fly; to maintain a uniform magnetic induction between the inner and outer magnets, the outer magnet gap can increase the corresponding number of magnets; can be built-in power supply or built-in power supply and then connected to the external power supply; Electrical conductors or wires may be made of graphene wires or graphene wires with less resistance plus metal conductors; Freezing treatment may be part of the temperature drop and the drop across the resistor;

In a three-dimensional hollow closed or not closed [Note: the diameter of the non-closed space is smaller than the diameter of the inner magnet (the smaller the space is better)] another magnet of any shape is placed in the magnet of any shape, and the opposite surfaces of the two magnets are mutually The balance magnetic pole repels, in the range of the magnetic induction energy of the two magnets having similar or one of the two magnets, when the magnetic strength of the two magnets reaches any one of them, the two magnets are suspended arbitrarily with each other; One of the magnetic energy ranges is suspended in a small mass of magnet;

The three-dimensional hollow magnet and the inner magnet are in the case of a variable air gap magnetic field suspension; the inner magnet is prevented from being a perfect circle, and the hollow portion of the outer magnet is prevented from being a perfect circle, and the direction of the inner and outer magnets is not in a straight line position because the perfect circular shape is randomly moved;

When the opposite surfaces of the two magnets that are arbitrarily suspended from each other are balanced with each other, the opposite surfaces of the inner and outer magnets are relatively flat and the two magnets are relatively stationary; when the opposite surfaces of the inner and outer magnets are made of one or both surfaces Any section that is consistent or inconsistent with the direction of the power, for example, a uniform distribution of the surface of the inner magnet and a lateral center position of the inner magnet. Left and right can also be rotated in a single direction to the left or a single direction to the right angle of 90 degrees or more. The concave or convex section of the gear is opposite to the left and right in the shape of an arrow. The opposite sides of the section are two positive and negative magnetic poles, wherein the angle is perpendicular to the surface of the magnet and faces the direction of the power (such as the movement of the outer magnet of the fixed inner magnet is back-to-back One magnetic pole of the power direction forms two different magnetic poles with the surface of the opposite outer magnet, and the attraction is pulled forward according to the principle of magnetic anisotropic attraction, and the other oblique small-cut magnetic pole forms two identical with the opposite outer magnet surface. The magnetic pole, according to the principle of magnetic homosexual repelling, generates a driving force to push forward, and the generated force causes the two magnets to move relative to each other. ;

Or a spherical gear with a uniform inner surface and a lateral center position of the inner magnet. The left and right sides of the inner magnet may also have a single-direction left or a single-direction right-angled angle of 90 degrees or less. The helical gear has a concave or convex cut surface with a degree of rotation of 0 degrees or more. In contrast, the opposite sides of the cut surface are opposite to one side of the inner magnet surface and the angle of the inner surface is less than 90 degrees and the other chamfer surface is less than 90 degrees and faces the power direction (such as the fixed inner magnet outer magnet movement is the back-to-power direction). The action of the force, the other oblique small-cut magnetic pole forms two identical magnetic poles with the opposite outer magnet surface, and the driving force is pushed forward according to the principle of magnetic isotropic repulsion, and the generated force causes the two magnets to move relative to each other; The magnet must have more than one non-closed space [Note: the diameter of the non-closed space is smaller than the diameter of the inner magnet (the smaller the space is better)] The space is fixed or power-connected; in order to keep the magnetic induction between the inner and outer magnets uniform, the outer magnet does not close the space. Add a corresponding number of magnets; can be built-in power supply or built-in power supply and then connected to external power supply; electrical conductors or wires can be used with graphene with less resistance Line or graphene wires and metal conductors; conductive line portions may be freezing temperature drop and drop across the resistor;

The solid hollow magnet and the inner magnet are in a single pole air gap magnetic field suspension state; the inner magnet is divided into one or more independent parts or the inner magnet is hollow or the inner magnet is arbitrarily formed and the inner and outer magnets are arbitrarily formed;

When the opposite surfaces of the two magnets that are arbitrarily suspended from each other are balanced with each other, the opposite surfaces of the inner and outer magnets are relatively flat and the two magnets are relatively stationary; when the opposite surfaces of the inner and outer magnets are made of one or both surfaces Any section that is consistent or inconsistent with the direction of the power, for example, a helically concave or convex section of the same direction in which the inner magnet surface is uniformly distributed, and the opposite sides of the section are two positive and negative magnetic poles, one of which is opposite to the other. The surface of the magnet forms two different magnetic poles, and the attraction is pulled forward according to the principle of magnetic anisotropic attraction, and the other magnetic pole forms two identical magnetic poles with the opposite magnet surface, and the driving force is pushed according to the principle of magnetic homosexual repelling. Moving forward, the force generated causes the two magnets to move relative to each other;

Or a helical gear concave or convex cut surface with a uniform rotation of the inner magnet surface and a rotation angle of 0 degrees or more within 90 degrees of the power direction, and the opposite sides of the cut surface face the inner magnet surface less than the vertical angle and the other oblique direction The small section forms an angle less than 90 degrees and faces the power direction (such as the fixed inner magnet outer magnet movement is back to the power direction) of one magnetic pole does not produce a force, the other oblique small section magnetic pole and the opposite outer magnet surface form two The same magnetic pole, according to the principle of magnetic homosexual repulsive force to generate the driving force to push forward, the force generated causes the two magnets to rotate relative to each other; the outer magnet must have more than one unclosed space [Note: the diameter of the unclosed space is smaller than the inner magnet Diameter (the smaller the space, the better)] The space is fixed or power-connected; in order to keep the magnetic induction between the inner and outer magnets uniform, the outer magnet can be added to the space next to the closed space; the built-in power supply or the built-in power supply can be connected to the external power supply; Or the wire may be a graphene wire or a graphene wire with less resistance and a metal conductor; the conductive pipe portion is made to be frozen. And the temperature drop across the resistor can be reduced;

The dynamic mode of the magnetic induction direction of the inner and outer magnets

When the inner or outer magnet conductive coil winding and the winding salient pole are in the same direction as the power direction or within 90 degrees of the power direction deflection angle and the conductive coil winding and the power direction are left or right, the skew angle is less than 90 degrees and continuous or discontinuous The magnetic induction direction difference guide line or column includes continuous or discontinuous spiral magnetic induction direction difference guide line or column or continuous or discontinuous arbitrary shape magnetic induction direction difference guide line or column; at least two corresponding directions should be made during power production Or a 360-degree spiral magnetic induction direction difference guide line or column or any shape magnetic induction direction difference guide line or column to make the force more uniform;

For example, when the two surfaces of the two magnets that are arbitrarily suspended from each other are balanced with each other, the opposite surfaces of the inner and outer magnets are smooth and smooth, and the corresponding two sides of the outer magnet or the corresponding two rows of spiral outer surfaces of the outer magnet are uniformly arranged. The arranged conductive coil windings, the salient poles of the windings and the windings are inclined within 90 degrees of the power direction, and the magnetic lines of the inner surface portion of the outer magnet of the winding form a thrust force with the magnetic lines of the inner magnet to push forward, so that the relative movement of the two magnets is self-rotating; The strength of the current (magnetic strength) brings out strong power; the outer magnet must have more than one non-closed space [Note: the diameter of the unclosed space is smaller than the diameter of the inner magnet (the smaller the space is better)] the space is fixed or powered; Keep the magnetic induction intensity between the inner and outer magnets evenly. The outer magnet can not increase the corresponding number of magnets next to the closed space; the built-in power supply or built-in power supply can be connected to the external power supply; the electrical conductor or wire can be made of graphene wire or graphene wire with less resistance and metal conductor The part of the conductive pipeline is frozen to reduce the temperature and reduce the resistance;

In addition, the magnetic force has its own unique range. The movement between the magnets beyond the magnetic range cannot be discussed. Therefore, in order to obtain continuous magnet movement force, a track must be provided to ensure the continuity of motion between the magnets, so that the track of continuous movement between the magnets can be maintained. Referred to as a track, the track can be a magnet track, or a non-magnetic track, described herein as a magnet track;

The movement mode of the magnet can be divided into a balanced extended track and a three-dimensional enclosed track.

Balanced extended track

It is a linear or curved balance between the magnet and the track. The distance track is moved according to the length of the track. It consists of a top-bottom plane, a 360-degree annular envelop (tubular) with two open sides, and the hollow sides are not closed. The annular enveloping type (non-closed tubular type) in which the cross-sectional diameter of the non-closed space is smaller than the diameter of the transverse section of the inner magnet can be divided into a circular loop motion type, a linear motion type, and a curved motion type according to the movement direction;

Stereo bound track

Is a surrounding state in which the magnet and the track are closed or not closed in a three-dimensional (inner or outer) manner and the cross-sectional diameter of the space is smaller than the diameter of the inner magnet, and the magnet rotates on the track (inside or outside),

The three-dimensional enclosing track comprises a hollow three-dimensional enclosing type of a magnet and a three-dimensional outer enclosing type of a magnet, and can be divided into a circular shape according to a shape, an elliptical shape, a spherical shape, a turbine shape, a round flat shape, a long flat shape, a spiral shape, and a magnet of any shape rotation type;

The magnet and the track are suspended and moved with each other and are mutually magnetic tracks, that is, when the external magnet is fixed, the external magnet is suspended and moved by the magnet in the track, and when the inner magnet is fixed, the inner magnet is suspended and moved by the outer magnet;

Third, magnetic levitation repulsion mutual suspension ultra-high-speed motion and energy principle

Hollow closed or unclosed on one side open (open space diameter larger than the diameter of the inner magnet cross section) (Note: the diameter of the unclosed space is smaller than the diameter of the cross section of the inner magnet). Place one or more arbitrary shapes in the middle of the ring magnet. The magnet, the two opposite magnetic poles of the two magnets repel each other. In the range of the magnetic energy of the two magnets being close to or in one of the two magnets, when the magnetic strength of the two magnets reaches any one of them, the two magnets are suspended independently of each other. And the magnet with less mass is suspended in the range of the magnetic energy of the two magnets exceeding one of the masses;

The hollow open-ended annular magnet and the inner magnet are in a suspended air gap magnetic suspension state;

When the two surfaces of the two magnets which are annularly surrounded and arbitrarily suspended are smooth and flat, and the two sides are equal in length, the two magnets are relatively stationary. When the opposite surfaces of the two magnets are balanced with each other, the cross-cut lengths of the two sides are not equal. The shorter magnets will be positively and negatively polarized on both sides of the cross-section, the negative pole and the longer magnet surface will produce positive and negative poles. The different phases attract the same magnetic force as the positive and the positive poles, and the repulsive force causes the two magnets to move relative to each other; The short sides of the short magnets do not exert a force on one side of the cross section, and the other side generates a force of reciprocal repulsion with the opposite magnet surfaces to cause the two magnets to move relative to each other;

When the two surfaces of the two magnets which are annularly surrounded and arbitrarily suspended are smooth and flat, and the two sides are equal in length, the two magnets are relatively stationary. When the opposite surfaces of the two magnets are balanced with each other, the cross-cut lengths of the two sides are equal. The two opposite surfaces of the inner and outer magnets or one of the two surfaces are formed with any cut surface that is consistent or inconsistent with the direction of the power, for example, the inner magnet surface is uniformly distributed and the inner magnet is laterally centered, that is, the current direction is in the middle position, left and right. Spiral gear concave or convex cut surface with a left-direction or a single-direction right-angled angle within 90 degrees and a degree of rotation within 180 degrees. The left and right sides are opposite in the shape of an arrow. The opposite sides of the cut surface are positive and negative two different magnetic poles, wherein the angle is A magnetic pole perpendicular to the surface of the magnet and facing the direction of the power (such as the movement of the outer magnet of the fixed inner magnet is opposite to the direction of the power) forms two different magnetic poles with the surface of the opposite outer magnet, and the attraction is pulled according to the principle of magnetic anisotropic attraction. Forward, the other oblique small-cut magnetic pole forms two identical magnetic poles with the opposite outer magnet surface, according to the same magnetic The principle of sexual repulsive force generates a driving force to push forward, and the generated force causes the two magnets to move relative to each other;

Or the inner magnet surface is evenly distributed with the inner magnet lateral center position left and right, or the single-direction left or single-direction right-angled angle within 90 degrees, the spiral gear is concave or convex, and the left and right are arrow-shaped. In contrast, the opposite sides of the cut surface are opposite to the inner magnet surface and the magnetic pole is smaller than the vertical angle and the other oblique small cut surface is less than 90 degrees and faces the power direction (such as the fixed inner magnet outer magnet movement is the back-to-power direction) Without the effect of force, the other oblique small-cut magnetic pole forms two identical magnetic poles with the opposite outer magnet surface, and the driving force is pushed forward according to the principle of magnetic homosexual repulsive, and the generated force causes the two magnets to move relative to each other. The outer magnet shall have a non-closed shape consistent with the direction of the power (Note: the diameter of the cross-cut space of the non-closed space is smaller than the diameter of the cross-section of the inner magnet). The gap space is fixed or power-connected; if it is not fixed, the power will fly; The intensity of the magnetic induction is uniform. The outer magnet gap can increase the corresponding number of magnets on both sides; the built-in power supply or the built-in power supply can be connected to the external power supply; Available less conductor or resistance wire graphene or graphene wires and metal conductors; conductive line portions may be freezing temperature drop and drop across the resistor;

When the hollow two-side open ring magnet and the inner magnet are in a single-pole air gap magnetic field suspension, the inner magnet is divided into one or more independent parts or the inner magnet is hollow or the inner magnet is arbitrarily formed and the inner and outer magnets are arbitrarily formed;

When the two surfaces of the two magnets which are annularly surrounded and arbitrarily suspended are smooth and flat, and the two sides are equal in length, the two magnets are relatively stationary. When the opposite surfaces of the two magnets are balanced with each other, the cross-cut lengths of the two sides are equal. One of the two surfaces or two surfaces of the inner and outer magnets is formed with any cutting surface that is consistent or inconsistent with the direction of the power, for example, a spiral having a uniform distribution of the inner magnet surface and a degree of rotation within 90 degrees of the power direction. The concave or convex section of the gear, the opposite sides of the cut surface are two different positive and negative magnetic poles, wherein the angle of the magnet surface is less than 90 degrees and faces the power direction (such as the movement of the outer magnet of the fixed inner magnet is the back-to-power direction) One magnetic pole forms two different magnetic poles with the opposite outer magnet surface, and the attraction is pulled forward according to the principle of magnetic anisotropic attraction, and the other oblique small-cut magnetic pole forms two identical magnetic poles with the opposite outer magnet surface. According to the principle of magnetic homosexual repelling, the driving force is pushed forward, and the generated force causes the two magnets to move relative to each other;

Or a helical gear concave or convex cut surface with a uniform rotation of the inner magnet surface and a rotation angle of 0 degrees or more within 90 degrees of the power direction, and the opposite sides of the cut surface face the inner magnet surface less than the vertical angle and the other oblique direction The small section forms an angle less than 90 degrees and faces the power direction (such as the fixed inner magnet outer magnet movement is back to the power direction) of one magnetic pole does not produce a force, the other oblique small section magnetic pole and the opposite outer magnet surface form two The same magnetic pole, according to the principle of magnetic homosexual repulsive force, generates a driving force to push forward, and the generated force causes the two magnets to move relative to each other; the outer magnet must have a non-closed shape consistent with the power direction (Note: the diameter of the cross-cut is not closed) Less than the diameter of the cross-section of the inner magnet) The gap space is fixed or power-connected; if it is not fixed, the power will fly; in order to keep the magnetic induction between the inner and outer magnets uniform, the outer magnet gap can increase the corresponding number of magnets; the built-in power supply or built-in power supply Reconnect the external power supply; the electrical conductor or wire can be a graphene wire with less resistance or a graphene wire plus a metal conductor The conductive line portions may be freezing temperature drop and drop across the resistor;

In a three-dimensional hollow non-closed [non-closed space diameter is smaller than the inner magnet diameter (the smaller the space is better)], another magnet of any shape is placed in the magnet of any shape, and the opposite surfaces of the two magnets rebalance each other. In the range of the magnetic induction energy of the two magnets having similar or one of the two magnets, when the magnetic strength of the two magnets reaches such that one of them is suspended, the two magnets are suspended arbitrarily with each other; and the magnetic mass of the two magnets exceeds one of them. a magnet with less mass in the sense energy range is suspended;

Or a spherical gear with a uniform inner surface and a lateral center position of the inner magnet. The left and right sides of the inner magnet may also have a single-direction left or a single-direction right-angled angle of 90 degrees or less. The helical gear has a concave or convex cut surface with a degree of rotation of 0 degrees or more. In contrast, the opposite sides of the cut surface are opposite to the inner magnet surface and the magnetic pole is smaller than the vertical angle and the other oblique small cut surface is less than 90 degrees and faces the power direction (such as the fixed inner magnet outer magnet movement is the back-to-power direction) Without the effect of force, the other oblique small-cut magnetic pole forms two identical magnetic poles with the opposite outer magnet surface, and the driving force is pushed forward according to the principle of magnetic homosexual repulsive, and the generated force causes the two magnets to move relative to each other. The outer magnet must have more than one non-closed space [Note: the diameter of the non-closed space is smaller than the diameter of the inner magnet (the smaller the space is better)] the space is fixed or power-connected; in order to maintain the magnetic induction between the inner and outer magnets, the outer magnet does not close the space. A corresponding number of magnets can be added next to it; the built-in power supply or built-in power supply can be connected to the external power supply; the electric conductor or wire can be used with less resistance stone. Alkenyl or graphene lead wires and metal conductors; conductive line portions may be freezing temperature drop and drop across the resistor;

When the three-dimensional hollow magnet and the inner magnet are in a single-pole air gap magnetic field suspension, the inner magnet is divided into one or more independent parts or the inner magnet is hollow or the inner magnet is arbitrarily formed and the inner and outer magnets are arbitrarily formed;

When the two opposite surfaces of the two magnets that are arbitrarily suspended from each other are balanced with each other, the opposite surfaces of the inner and outer magnets are relatively smooth and the two magnets are relatively stationary; when the opposite surfaces of the inner and outer magnets are made of one or both surfaces Any section that is consistent or inconsistent with the direction of the power, for example, a concave or convex section of the gear that is uniformly distributed on the surface of the inner magnet and that is in the same direction as the power direction or a spiral that is not limited to the degree of rotation of the left or right of the power direction by 90 degrees. When the concave or convex section of the gear or any section within 90 degrees of the left or right deviation angle of the power direction, the opposite small sides of the section are two positive and negative magnetic poles, one of which forms two opposite surfaces of the opposite magnet. Different magnetic poles, according to the principle of magnetic anisotropic attraction, produce attractive force to pull forward, and the other magnetic pole forms two identical magnetic poles with the opposite magnet surface, and generates a driving force to push forward according to the principle of magnetic isotropic repulsion. Let the two magnets move relative to each other;

For example, a helical gear concave or convex cut surface with a 360 degree rotation angle of 90 degrees or less in the left or right deviation angle of the power direction is an angle perpendicular to the surface of the magnet and facing the power direction (such as the movement of the outer magnet of the fixed inner magnet) a helical gear-shaped inner or outer section consisting of a vertical small section facing away from the power direction and an oblique surface having a smaller angle of less than 90 degrees. The opposite sides of the section are two positive and negative magnetic poles, wherein the angle is perpendicular to One magnetic pole on the surface of the magnet forms two different magnetic poles with the opposite inner or outer magnet surface, and the attraction is pulled forward according to the principle of magnetic anisotropic attraction, and the other oblique small-cut magnetic pole forms the surface of the opposite inner or outer magnet. Two identical magnetic poles, according to the principle of magnetic homopolar repulsion, generate a driving force to push forward, and the generated force causes the two magnets to rotate relative to each other;

Or a helical gear concave or convex cut surface with a uniform rotation of the inner magnet surface and a rotation angle of 0 degrees or more within 90 degrees of the power direction, and the opposite sides of the cut surface face the inner magnet surface smaller than the vertical angle and the other chamfered surface One magnetic pole having a composition angle less than 90 degrees and facing the power direction (such as the movement of the outer magnet of the fixed inner magnet is opposite to the power direction) does not generate a force, and the other oblique small-section magnetic pole forms two identical with the surface of the opposite outer magnet. The magnetic pole generates a driving force to push forward according to the principle of magnetic homosexual repulsiveness, and the generated force causes the two magnets to rotate relative to each other; the outer magnet must have more than one unclosed space [Note: the diameter of the unclosed space is smaller than the diameter of the inner magnet ( The smaller the space, the better.)] The space is fixed or power-connected; in order to keep the magnetic induction between the inner and outer magnets uniform, the outer magnet can be added to the side of the space without the closed space; the built-in power supply or the built-in power supply can be connected to the external power supply; the electrical conductor or the wire It is possible to use a graphene wire or a graphene wire with less resistance to add a metal conductor; And the temperature drop across the resistor;

Magnetic induction direction difference power mode

For example, when two surfaces of the two magnets that are arbitrarily suspended from each other are balanced with each other, the opposite surfaces of the inner and outer magnets are flat and smooth, and the corresponding two sides of the outer magnet or the corresponding two rows of spirals of the outer surface of the outer magnet are uniformly distributed. The arranged conductive coil windings, the salient poles of the windings and the windings are inclined within 90 degrees of the power direction, and the magnetic lines of the inner surface portion of the outer magnet of the winding form a thrust force with the magnetic lines of the inner magnet to push forward, so that the relative movement of the two magnets is self-rotating; The strength of the current (magnetic strength) brings out strong power; the outer magnet must have more than one non-closed space [Note: the diameter of the unclosed space is smaller than the diameter of the inner magnet (the smaller the space is better)] the space is fixed or powered; Keep the magnetic induction intensity between the inner and outer magnets evenly. The outer magnet can not increase the corresponding number of magnets next to the closed space; the built-in power supply or built-in power supply can be connected to the external power supply; the electrical conductor or wire can be made of graphene wire or graphene wire with less resistance and metal conductor The part of the conductive pipeline is frozen to reduce the temperature and reduce the resistance;

Using an electronic drive control system or a remote electronic drive control system;

Force area between magnets:

When magnets of the same mass and magnetic strength are the same, the magnetic repulsion between the magnets will be different depending on the size of the mutual force. Therefore, changing the mutual force area of the magnets increases the mutual force area between the magnets, which increases the mutual magnetic force. Big;

Magnetic levitation distance point:

Suspension distance point = repulsive force between magnets, magnet weight

Under a certain magnetic strength, the two opposite magnetic poles of the two magnets are the same and the two surfaces are close to each other in the vertical balance direction. The two magnets suspend the suspension at a position where the weight is equal to the repulsive force. This position is also called the magnetic levitation distance point. Repulsive point;

Magnetic range

The magnetic force has a range. The magnetic force range is 360 degrees from the center of the magnetic pole. The magnitude of the magnetic force determines the size of the magnetic force. The magnetic force is not obvious beyond the magnetic radius of the magnetic pole.

The magnetic levitation distance between the inner and outer magnets is equal to the magnetic levitation distance point, and the mutual repulsion causes the inner and outer magnets to float and move with each other;

When the magnetic levitation distance between the inner and outer magnets is smaller than the magnetic levitation distance point, the mutual repulsion force is increased, so that the mutual movement speed between the inner and outer magnets is significantly accelerated, and the magnetic strength (current) is larger inside and outside. The smaller the suspension distance between the magnets is, the larger the mutual repulsive force between the magnets is, the higher the mutual repulsion between the magnets enters the high speed and the super high speed;

Namely: magnetic levitation repulsion type ultra-high speed motion (power, speed) magnetic dynamic formula

Power, speed = repulsive force between magnets + traction + driving force

Repulsive force between magnets = distance between magnets, mass of magnet itself, magnetic strength (current), mutual force area between magnets

Traction between magnets = distance between magnets, magnetic strength (current), mutual force area between magnets

Pushing force between magnets = distance between magnets, magnetic strength (current), mutual force area between magnets

The repulsive force between the inner and outer magnets is a levitation force when the distance between the magnets is equal to the magnetic levitation distance point, because the inner and outer magnets are in a three-dimensional or annular enclosing manner, and the distance between the inner and outer magnets is fixed. When the (current) increases, there is no way to resolve the pressure by the magnetic suspension position of the lifting magnet. Therefore, the increase of the magnetic strength (current) makes the repulsive force smaller than the magnetic levitation distance point become the pressure. According to the principle of the force and the reaction force, the pressure is converted into the power. Therefore, the repulsive force smaller than the magnetic levitation distance point is equal to more than twice the magnetic levitation distance point, and the repulsion force smaller than the magnetic levitation distance point is increased by the reaction force, and the growth amount is several times or several hundred times. In this case, the traction force and the driving force have no obvious repulsive force. When the magnetic levitation distance is smaller than the magnetic levitation distance, the increase of the traction force and the urging force is lower than that of the repulsion. When the magnetic strength increases, the repulsion, traction force and driving force between the magnets are smaller than the magnetic levitation distance. At the same time increase, and the biggest increase is the repulsive force, so when the magnetic strength (current) increases, the magnetic levitation distance is smaller than the magnetic levitation point. Between the outer magnet produces ultra high-speed movement (power, speed), therefore the repulsive magnetic levitation ultra high-speed movement (power, speed) of the magnetic force between the magnetic repulsion critical size;

Therefore, the force-receiving area of the repulsive force between the magnets should be greatly increased during power production;

And the repulsive force between the inner and outer magnets at this time is a stereo vertical direction or a circular 360 degree vertical direction, when the repulsive force between the inner and outer magnets is greater than the sum of the traction force and the driving force and is greater than the external force and the external force and the traction force driving direction When the same straight line or balance line is completely opposite, and the external force is greater than the sum of the traction force and the driving force, the power direction will be reversed and moved backwards in the opposite direction; in this case, the external force is changed or the direction is Change the direction of the traction and driving force, that is, the direction of the power, as long as the direction is not the same straight line or the balance line is completely opposite. When the external force is greater than the sum of the traction force and the driving force, the power will only stop and the power direction will not reverse the reverse direction. In the case, because the large three-dimensional or annular magnet repulsion will correct the direction of motion and the direction of external force, the power will be generated after correction; that is, after the correction, the repulsion between the magnet and the driving force and traction generate ultra-high-speed magnetic levitation motion or power. ;

For example, when the direction of the external force cannot be changed, the guide section with a left or right deviation angle of less than 90 degrees from the power direction and continuous or discontinuous includes a continuous or discontinuous helical gear-shaped guide section or a continuous or discontinuous arbitrary shape-oriented section change. The direction of the traction or driving force is the direction of the power; therefore, the force-receiving area of the repulsion between the magnets during power production should be made of at least two corresponding directions or 360-degree helical gear-shaped guiding surfaces or any shape-oriented cutting surfaces to make the force more uniform; The direction can also use a guide line or column that is inconsistent with the direction of the power and has a magnetic induction direction difference between the magnets, the inner magnet or the outer magnet conductive coil winding and the winding salient pole are within 90 degrees of the power direction deflection angle and the conductive coil winding and the power Directional left or right skew angle less than 90 degrees and continuous or discontinuous magnetic induction direction difference guide line or column including continuous or discontinuous spiral magnetic induction direction difference guide line or column or continuous or discontinuous arbitrary shape magnetic sense direction difference Guide line or column; at least two corresponding directions or 360 degrees of spiral magnetic direction difference should be made during power production Differences in the line or guide wire or any row or column direction of the magnetic induction shape make the force more evenly;

When the direction of the external force and the direction of the traction force and the driving force between the magnets, that is, the direction of the power, cannot be changed, the traction force and the driving force between the magnets can be made larger than the external power to prevent the power direction from moving backwards in the reverse direction;

Therefore, when the direction of the external force is the same as the direction of the traction force and the driving force, that is, when the distance between the magnets is fixed or the current is increased, there is no way to resolve the pressure by the magnetic suspension position of the lifting magnet, when the magnetic strength or current is increased to the magnet. The repulsive force between the magnets whose distance is smaller than the magnetic levitation distance becomes the pressure and the sum of the traction force and the urging force between the magnets is greater than the external force such as the air resistance, and the force and the reaction force due to the repulsion between the magnets enter the ultrahigh-speed magnetic levitation. Movement or power, speed; that is, power, speed = traction between magnets + driving force - external force + repulsive force between magnets including force and reaction force, external force can be added to the weight of the magnet itself;

When the direction of the external force is different from the direction of the traction and the driving force, that is, the direction of the power, when the distance between the magnets has a fixed magnetic strength (current), there is no way to resolve the pressure by the magnetic suspension position of the lifting magnet. When the magnetic strength or current increases to the magnet The repulsive force between the magnets whose distance is less than the distance of the magnetic levitation becomes the pressure. The force and the reaction force of the repulsion between the magnets cause a large repulsion between the inner and outer magnets or the 360-degree circular vertical direction. The huge repulsive force between the magnets Correct the direction of external force and the direction of power. After correction, balance the magnets, stabilize the suspension and propulsion and traction to produce ultra-high-speed magnetic levitation motion or power and speed; that is, power, speed = repulsion between magnets including force and reaction force - External force + magnet traction + driving force, external force can be added to the magnet itself to calculate the weight;

The magnetic levitation distance between the inner and outer magnets is a boundary point defining the magnetic levitation energy and the ultra-high magnetic levitation energy. The ultra-high magnetic levitation energy is based on the magnetic properties of the magnetic material through the distance between the fixed magnets. The increase is not limited to increase the distance between the fixed magnets at a distance less than the magnetic levitation distance. The repulsion between the magnets (ie, the levitation force) is converted into pressure, and the normal amount of magnetic energy is obtained under the principle of the force and the reaction force. a magnetic levitation energy source that is several times or hundreds of times or more, that is, a magnetic levitation energy source that obtains several times or several hundred times or more with a normal amount of magnetic energy or electric energy under the action of a force and a reaction force by increasing the pressure between the magnets;

The magnetic levitation distance between the inner and outer magnets is the boundary between the magnetic levitation motion and the ultra-high-speed magnetic levitation motion. The ultra-high-speed magnetic levitation energy and power are based on the magnetic properties of the magnetic material through the distance between the fixed magnets. The increase is not limited to increase the distance between the fixed magnets at a distance less than the magnetic levitation distance. The repulsion between the magnets (ie, the levitation force) is converted into pressure, and the driving force and the traction force of the guiding section are used to convert the pressure into power. Under the principle of force and reaction force, the magnetic energy of several times or hundreds of times is used to obtain the magnetic levitation power energy, that is, the repulsion between the magnets is increased by pressure and power steering or power steering and the effects of force and reaction force are corrected. The magnetic levitation pulsating power source is obtained several times or several hundred times or more with a normal amount of magnetic energy or electric energy; or the magnetic levitation repulsion energy is combined with the external power to obtain a huge magnetic levitation repulsion power source;

In addition, since the distance between the inner and outer magnets is fixed, the current can be increased without limitation, and the repulsive force between the magnets smaller than the magnetic suspension distance point, that is, the pressure is also increased, and the limit is the magnetic pressure endurance limit of the inner and outer magnets or the magnet. The magnetic energy limit, so the power and energy space is huge.

Technical solution 2

2) A stepwise connection method for a rotating object power supply

A step-by-step connection method for a rotating object power supply is a method for accessing and receiving power of a rotating electrical wire: firstly, all rotating or connected rotating wires of the rotating object are fixed at a moving point and then The wire on the moving point is fixed on the side rocker or pulley or the resilience spiral wire to remove the rotating force and connect the power supply smoothly; the movable part of the other wire can be composed of the liquid conductive material wrapped by the insulator, because Highly soft.

DRAWINGS

1 is a magnetic suspension repulsion energy source manufacturing method and a machine and engineering structure diagram thereof for a hollow annular square tube track and a solid magnet in a linear direction in an embodiment;

1. outer magnet 2. inner magnet 11. outer magnet coil 12. inner magnet coil

2 is a magnetic suspension repulsion energy power production method and a machine and engineering structure diagram of a hollow annular square tube track and a three-dimensional hollow inner magnet in a linear direction in the second embodiment;

1. outer magnet 2. inner magnet 11. outer magnet coil 12 inner and outer magnet coil

3 is a magnetic suspension repulsion energy power production method and a machine and engineering structure diagram of the annular square tubular track and the integral annular inner magnet in the annular circulation direction of the third embodiment;

1. outer magnet 2. inner magnet 3. connecting rod 4. support

5. Clearance 11. External magnet coil 12. Inner magnet coil

4 is a fifth embodiment of a circular circulation direction circular toroid and an outer magnet magnetic suspension repulsion energy power production method and a machine and engineering structure thereof

1. outer magnet 2. inner magnet 3. connecting rod 4. support

5. Clearance 11. External magnet coil 12. Inner magnet coil

5 is a magnetic suspension repulsion energy power production method and a machine and engineering structure diagram thereof for a hollow annular square tube track and an inner magnet in a lateral combination annular circulation direction of the fourth embodiment;

1. outer magnet 2. inner magnet 3. connecting rod 4. support

5. Clearance 6. Inner link 7. Internal support

11. External magnet coil 12. Inner magnet coil

6 is a sixth embodiment of a three-dimensional hollow full-enclosed oblate outer magnet and a hollow or solid inner magnet magnetic suspension repulsion energy source manufacturing method, and a machine and engineering structure thereof

1. outer magnet 2. inner magnet 3. connecting rod 4. support

5. Clearance 11. External magnet coil 12. Inner magnet coil

7 is a seventh embodiment of a hollow hollow full-enclosed outer long circular magnet sleeve having the same hollow or solid inner magnet magnetic suspension repulsion energy power production method, and a machine and engineering structure thereof.

1. outer magnet 2. inner magnet 3. connecting rod 4. support

11. External magnet coil 12. Inner magnet coil

8 is a manufacturing method of an eight-magnet multi-enclosed motion power or an aircraft magnetic suspension repulsion energy source, and a machine and engineering structure thereof

1. outer magnet 2. inner magnet 3. connecting rod 4. support

11. External magnet coil 12. Inner magnet coil

9 is a manufacturing method and a machine and an engineering structure diagram of a magnetic field three-dimensional variable air gap circuit magnetic field three-dimensional hollow full-enclosed flat circular outer magnet and a same shape inner magnet magnetic suspension repulsion energy power

1. outer magnet 2. inner magnet 3. connecting rod 4. support

21. External magnet straight wire 22. Inner magnet straight wire

10 is a manufacturing method, a machine, and an engineering structure diagram of a magnetic field of a twelve-variable air gap circuit, a three-dimensional hollow full-enclosed oblong outer magnet, and a magnetic ferroelectric repulsion energy of the same shape

1. outer magnet 2. inner magnet 3. connecting rod 4. support

21. External magnet straight wire 22. Inner magnet straight wire

Figure 11 is a diagram showing the magnetic magnetic three-dimensional hollow outer magnet and the superconductor magnetic magnetic suspension repulsion energy power production method and its machine and engineering structure diagram of the thirteen variable air gap circuit of the thirteenth embodiment

1. outer magnet 2. inner magnet 3. connecting rod 4. support

5. Superconducting inner magnet 21. External magnet straight wire 22. Inner magnet straight wire

12 is a four-dimensional variable air gap magnetic field three-dimensional hollow oblong outer permanent magnet and inner permanent magnet magnetic suspension repulsion energy and power machine and engineering structure diagram

1. External permanent magnet 2. Internal permanent magnet 3. Connecting rod 4. Support

FIG. 13 is a diagram showing an embodiment of a ten-variable air gap circuit magnetic field annular circulation direction annular tube type permanent magnet body and a whole annular inner permanent magnet magnetic suspension repulsion energy power production method and its machine and engineering structure diagram

1. outer magnet 2. inner magnet 3. connecting rod 4. support 5. clearance

14 is a four-way magnetic suspension repulsion energy power production method and a machine and engineering structure diagram of a hollow square tube type annular magnetic track and a three-dimensional hollow inner magnet in a straight shape direction

1. outer magnet 2. inner magnet 3. connecting rod 4. support

5. Clearance 11. External magnet coil 12. Inner magnet coil

15 is a magnetic suspension repulsion energy power production method and a machine and engineering structure diagram thereof, which are different from the magnetic induction direction of the same shape inner magnet

1. outer magnet 2. inner magnet 3. connecting rod 4. support

5. Clearance 13. External magnet coil 12. Inner magnet coil

16 is a magnetic suspension repulsion energy source manufacturing method and a machine and engineering structure diagram thereof, which are different from the magnetic induction direction of the hollow square tube type annular magnetic field and the three-dimensional hollow inner magnet

1. outer magnet 2. inner magnet 3. connecting rod 4. support

5. Clearance 11. External magnet coil 12. Inner magnet coil

detailed description

In order to explain the technical solutions of the present invention more clearly, the following claims are further described in detail in conjunction with the specific embodiments and FIGS. 1-16. It will be understood that the following drawings show only certain aspects of the present invention. The embodiments are not to be considered as limiting the scope, and the invention is limited by the scope of the appended claims.

It should be understood that, in the description of the present invention, it should be noted that the orientation or positional relationship of the terms “upper”, “lower”, “inside”, “outside”, “left”, “right” and the like is based on the drawings. Azimuth or positional relationship, or a position or positional relationship that is conventionally placed when the invention product is used, is merely for the convenience of describing the present invention and simplifying the description, and does not indicate or imply that the device or component referred to has a specific orientation, The specific orientation and operation are not to be construed as limiting the invention.

Embodiment 1

1. Rotary propulsion type magnetic levitation repulsion energy power production method of hollow circular tubular tube and inner magnet in linear direction and its machine and engineering

In the direction of the straight line, the open outer ring magnet and the inner coil of the inner magnet are balanced in opposite directions. The parallel or series circuit or any circuit is used, and the opposite surfaces of the inner and outer magnets become the same magnetic pole and repel each other; Polar air gap magnetic field; the inner magnet can be divided into more than one independent part or the inner magnet is hollow or the inner magnet is arbitrarily formed and the inner and outer magnets are arbitrarily formed;

a hollow magnet of the same shape in a circular tubular annular track is opened on both sides of the hollow direction, and the inner surface of the inner magnet is a uniformly distributed convex portion or a cylindrical portion, and the convex portion or the cylindrical portion is used for winding the conductive coil and The current direction of all the coils is one to the outer surface of the outer magnet is a uniformly distributed convex portion or a cylindrical portion, and the convex portion or the cylindrical portion is used for the winding of the conductive coil and the current direction of all the coils is one; the inner and outer magnet coils The mutual balance is opposite to the current direction, and the opposite surfaces of the inner and outer magnets are balanced with each other and repel each other;

A single cylindrical solid hollow magnet in the open tubular annular track on both sides of the hollow direction, the inner and outer magnets are equal or similar in length, the track thickness is uniform, the distance between the inner and outer magnets is as small as possible, and the opposite surfaces of the magnets are balanced with each other and due to the two magnets The surface magnetically repels and suspends each other. The surface of the outer magnet is a 360-degree spiral gear-oriented cutting surface with uniform distribution. The opposite side of the gear-oriented cutting surface has an angle of less than 90 on the side of the inwardly inclined plane and the other outwardly inclined small section. And a small section facing the direction of the power (such as the movement of the outer magnet of the fixed inner magnet is opposite to the direction of the power), the magnetic pole of the small section does not exert a force, and the other magnetic pole of the oblique section forms two surfaces with the surface of the opposite inner magnet. The same magnetic pole, according to the principle of magnetic homosexual repelling, generates a driving force to push forward, and the generated force causes the inner magnet to rotate and makes continuous continuous motion forward;

Since the inner and outer magnets are in a circular enveloping type, the distance between the magnets has a fixed magnetic strength (current), and there is no way to resolve the pressure by the magnetic suspension position of the lifting magnet, so that when the magnetic strength (current) increases, the distance between the magnets is smaller than the magnetic levitation distance. The repulsive force of the point becomes the pressure. According to the principle of the force and the reaction force, the repulsive force smaller than the magnetic levitation distance point is equal to more than twice the magnetic levitation distance point, and the smaller the repulsion force of the magnetic levitation distance point is, the higher the driving force is. In this case, the reaction force has no obvious repulsive force. When the magnetic levitation distance is smaller than the magnetic levitation distance, the force increase is lower than the repulsion. When the magnetic strength increases, the repulsion and the driving force between the magnets increase simultaneously, and the maximum increase is the repulsive force. The increase in (current) causes the magnetic levitation distance to be less than that of the magnetic levitation point engine to produce ultra-high speed motion (power, speed). And the huge 360-degree circular repulsive force between the magnets is corrected by the spiral gears on the surface of the magnet to face the power direction and the external force. After the correction, the super-high-speed motion of the suspension in the forward direction is generated, and the magnetic energy utilization rate is not increased.

The outer magnets are open on both sides and are not sealed. The inner magnet of the fixed outer magnet makes a strong rotary propulsion power to push the object forward. It can be used for aircraft, rocket thrust or 360 degree thrust, car, train forward power, large and small pipeline transportation, large and small transmitters, or other propulsion power.

Can be built-in power supply, or use the power step-by-step method to connect to the power supply, or use an electronic chip to control the power circuit;

With the magnetic isolation insulation shell, the high temperature conductivity of the conductive pipeline can be used to freeze one of the sections to achieve the effect of temperature drop resistance.

Embodiment 2

Method for manufacturing magnetic levitation repulsion energy of hollow square tubular annular track and solid hollow inner magnet in linear direction and its machine and engineering

In the linear direction, the open square tube-shaped ring magnets on both sides of the hollow tube and the coil windings of the inner magnets are balanced in opposite directions. The parallel or series circuit method or any circuit method is used to make the opposite surfaces of the inner and outer magnets become the same magnetic pole and repel each other. Can be called unipolar air gap magnetic field; the inner magnet can be divided into more than one independent part or the inner magnet is hollow or the inner magnet is arbitrarily composed and the inner and outer magnets are arbitrarily formed;

a hollow magnet of the same shape in a square tube-shaped annular track in a hollow direction, the inner surface of the inner magnet is a uniformly distributed convex portion or a cylindrical portion, and the convex portion or the cylindrical portion is used for the winding of the conductive coil and The current direction of all the coils is one to the outer surface of the outer magnet is a uniformly distributed convex portion or a cylindrical portion, and the convex portion or the cylindrical portion is used for the winding of the conductive coil and the current direction of all the coils is one; the inner and outer magnet coils The mutual balance is opposite to the current direction, and the opposite surfaces of the inner and outer magnets are balanced with each other and repel each other;

A single square solid hollow magnet in a linear square tube annular track is opened on both sides of the hollow, the length of the inner magnet is smaller than the length of the outer magnet and larger than the diameter of the transverse cross section of the track, the track thickness is uniform, the distance between the inner and outer magnets is as small as possible, and the opposite surfaces between the magnets are mutually Balanced and suspended by the magnetic surface of the opposite surfaces of the two magnets, the transverse cross-section of the two sides of the magnet is the inward tapered surface, and the cut surface is a flat cut surface, and the front inward tapered cross-section and the inner surface of the track do not generate force. The latter cross-section and the inner surface of the track form two identical magnetic poles, which are driven by the repulsive force around the track according to the same-pole repulsive principle, and perform continuous continuous motion in the same direction; and the inner magnet surface is uniformly distributed and the power direction is inclined. The oblique gear guides the cutting surface within 90 degrees. The opposite sides of the cut surface are the inwardly inclined plane and the other outward chamfered surface are less than 90 degrees and face the power direction (such as the fixed inner magnet, the outer magnet movement is the back-to-power direction One magnetic pole does not exert a force, and the other chamfered magnetic pole forms two with the opposite outer magnet surface With magnetic poles, pushed forward urging force is generated according to the principle of magnetic repulsion of the same sex, the forward force of the magnet so as to generate a continuous motion;

Since the inner and outer magnets are in a circular enveloping type, the distance between the magnets has a fixed magnetic strength (current), and there is no way to resolve the pressure by the magnetic suspension position of the lifting magnet, so that when the magnetic strength (current) increases, the distance between the magnets is smaller than the magnetic levitation distance. The repulsive force of the point becomes the pressure. According to the principle of the force and the reaction force, the repulsive force smaller than the magnetic levitation distance point is equal to more than twice the magnetic levitation distance point, and the smaller the repulsion force of the magnetic levitation distance point is, the higher the driving force is. In this case, the reaction force has no obvious repulsive force. When the magnetic levitation distance is smaller than the magnetic levitation distance, the force increase is lower than the repulsion. When the magnetic strength increases, the repulsion and the driving force between the magnets increase simultaneously, and the maximum increase is the repulsive force. The increase in (current) causes the magnetic levitation distance to be less than that of the magnetic levitation point engine to produce ultra-high speed motion (power, speed). And the huge 360-degree circular repulsive force between the magnets is corrected by the oblique gear guiding of the magnet surface to face the power direction and the external force. After the correction, the super-high-speed motion of the suspension in the forward direction is generated, and the magnetic energy utilization rate is not increased.

The outer magnets are open on both sides and are not closed. The inner magnet of the fixed outer magnet makes a strong movement or the direct propulsion power can push the object forward. It can be used for car propulsion, train forward power and train tracks, large and small pipeline transportation, large and small launchers, or other propulsion power and long distance sports.

Can be built-in power supply, or wired power supply, or use an electronic chip to control the power circuit;

In addition to the magnetic isolation housing, the high temperature conductivity of the conductive pipeline can be used to freeze one of the sections to achieve the temperature drop resistance effect.

Embodiment 3

3, the circular tube type track in the annular direction and the magnetic suspension levitation energy power production method of the integral annular inner magnet and its machine and engineering

The open-loop magnets on both sides of the hollow are balanced with the coil windings of the inner magnets in opposite directions. The parallel or series circuit or arbitrary circuit is used to make the opposite surfaces of the inner and outer magnets become the same magnetic pole and repel each other; The gap magnetic field; the inner magnet can be divided into more than one independent part or the inner magnet is hollow or the inner magnet is arbitrarily formed and the inner and outer magnets are arbitrarily formed;

a hollow magnet of the same shape in a square tube type annular track which is opened in a circular direction on both sides of the hollow, the inner surface of the inner magnet is a strip-shaped convex portion or a cylindrical portion which is uniformly distributed, and the convex portion or the cylindrical portion is used as a conductive coil Winding use and the current direction of all coils is one, the outer surface of the outer magnet is a strip-shaped convex portion or a cylindrical portion with uniform distribution, and the convex portion or the cylindrical portion is used for the winding of the conductive coil and the current direction of all the coils One to the inside; the inner and outer magnet coils are balanced with each other in opposite directions, and the opposite surfaces of the inner and outer magnets are balanced with each other and repel each other;

Hollow magnets of the same shape in a square tube type annular track with annular direction open on both sides of the hollow, the track thickness is uniform, the distance between the inner and outer magnets is as small as possible, the opposite surfaces of the magnets are balanced with each other and the magnetic surfaces of the opposite surfaces of the two magnets reciprocate each other. Suspension, the surface of the inner magnet is a uniformly distributed concave guiding concave surface of the oblique gear within 90 degrees of the deviation of the power direction angle, and the angle smaller than the vertical angle section and the other outward chamfering surface are less than 90 degrees and facing the power direction (such as fixed inside) The outer magnet movement of the magnet does not exert a force on one magnetic pole facing away from the power direction, and the other outer oblique magnetic pole forms two identical magnetic poles with the opposite outer magnet surface, and generates a driving force according to the principle of magnetic homosexual repelling. Push forward and do continuous continuous motion in the forward direction. The internal and external magnets bring strong power according to the strength of the current or magnetic strength.

Since the inner and outer magnets are in a circular enveloping type, the distance between the magnets has a fixed magnetic strength (current), and there is no way to resolve the pressure by the magnetic suspension position of the lifting magnet, so that when the magnetic strength (current) increases, the distance between the magnets is smaller than the magnetic levitation distance. The repulsive force of the point becomes the pressure. According to the principle of the force and the reaction force, the repulsive force smaller than the magnetic levitation distance point is equal to more than twice the magnetic levitation distance point, and the smaller the repulsion force of the magnetic levitation distance point is, the higher the driving force is. In this case, the reaction force has no obvious repulsive force. When the magnetic levitation distance is smaller than the magnetic levitation distance, the force increase is lower than the repulsion. When the magnetic strength increases, the repulsion and the driving force between the magnets increase simultaneously, and the maximum increase is the repulsive force. The increase in (current) causes the magnetic levitation distance to be less than that of the magnetic levitation point engine to produce ultra-high speed motion (power, speed). And the large 360-degree circular repulsive force between the magnets is corrected by the oblique gear guiding of the magnet surface to face the power direction and the external force. After the correction, the super-high-speed motion of the suspension in the forward direction is generated, and the magnetic energy utilization rate is not increased.

Supporting outside the track and leaving an annular gap space consistent with the direction of movement of the magnet (the diameter of the transverse space of the gap space is smaller than the diameter of the cross-section of the inner magnet) is connected to the electric power and the fixed track, and the inner magnet is provided with a small hole for connecting the electric wire, in order to maintain the inside and outside. The magnetic induction intensity between the magnets is uniform. The outer magnet gap can increase the corresponding number of magnets on both sides, and the inner and outer magnets are respectively energized. It can be built-in power supply, or use electronic chip to control the power circuit, or use the rotating object power supply step-by-step method to connect the power supply. All the rotating or connecting rotating wires of the first rotating object are fixed at a moving point next to it. Fixing the wire on the moving point to the rocker or pulley or the resilience spiral wire can remove the rotating force and connect the power supply smoothly; the movable part of the other wire can be composed of the liquid conductive material wrapped by the insulator. It has a high degree of softness.

Power can be connected to gears, bearings, etc. to directly drive the machine, or put the engine in the gear to directly drive the machine. It can also be used for car propulsion, train forward power and train tracks, large and small pipeline transportation, large and small aircraft, aircraft power, or other propulsion and long distance sports and various industrial powers.

Embodiment 4

Circular ring magnetic shell hollow circular ring magnet magnetic suspension repulsion energy power production method and machine, engineering

The open-loop magnets on both sides of the hollow are balanced with the inner magnets in opposite directions. The parallel or series circuit or arbitrary circuit is used to make the opposite surfaces of the inner and outer magnets become the same magnetic pole and repel each other; Suspension; the inner magnet can be divided into more than one independent part or the inner magnet is hollow or the inner magnet is arbitrarily formed and the inner and outer magnets are arbitrarily formed;

a single integral annular circular tubular hollow magnet in an open circular tubular ring magnet on both sides of the hollow, the inner surface of the inner magnet is a uniformly distributed convex portion or a cylindrical portion, and the convex portion or the cylindrical portion is wound around the conductive coil The line is used and the current direction of all the coils is one to the outer surface of the outer magnet is a uniformly distributed convex portion or a cylindrical portion, and the convex portion or the cylindrical portion is used for the winding of the conductive coil and the current direction of all the coils is one; The inner and outer magnet coils are balanced with each other with respect to the current direction, and the opposite surfaces of the inner and outer magnets are balanced with each other and repel each other;

A single integral annular circular tubular hollow magnet in the open circular tubular ring magnet on both sides of the hollow, the thickness of the magnet is uniform, the distance between the inner and outer magnets is as small as possible and the mass is similar, and the opposite surfaces of the magnets are balanced with each other and due to the opposite surfaces of the two magnets The magnetic bodies repel each other and suspend each other. The left and right sides of the inner surface of the outer magnet are two gear-oriented cutting planes with an angle of 90 degrees to the left and right of the power direction. The two cutting planes are opposite in the shape of an arrow, and the gear guiding plane is opposite to the opposite sides. The composition angle is less than 90 degrees, and one side is smaller than the vertical angle and faces the power direction (such as the movement of the outer magnet of the fixed inner magnet is the direction of the power), the magnetic pole of the small section does not generate a force, and the other side The outer chamfered magnetic pole forms the same magnetic pole with the opposite outer magnet surface, and generates a driving force to push forward according to the principle of magnetic homosexual repulsiveness, and performs continuous continuous motion in the same direction. The internal and external magnets bring strong power according to the strength of the current or magnetic strength.

Since the inner and outer magnets are in a circular enveloping type, the distance between the magnets has a fixed magnetic strength (current), and there is no way to resolve the pressure by the magnetic suspension position of the lifting magnet, so that when the magnetic strength (current) increases, the distance between the magnets is smaller than the magnetic levitation distance. The repulsive force of the point becomes the pressure. According to the principle of the force and the reaction force, the repulsive force smaller than the magnetic levitation distance point is equal to more than twice the magnetic levitation distance point, and the smaller the repulsion force of the magnetic levitation distance point is, the higher the traction force is. The driving force has no obvious reaction force in this case. When the magnetic levitation distance is less than the magnetic levitation distance, the force growth is lower than the repulsion growth. It can be seen that the repulsion, traction force and driving force of the magnet increase simultaneously when the magnetic strength increases, and the maximum increase is the repulsive force. When the magnetic strength (current) increases, the magnetic levitation distance is smaller than that of the magnetic levitation point. The engine produces ultra-high speed motion (power, speed). And the huge 360-degree circular repulsive force between the magnets is corrected by the oblique gear guiding of the magnet surface to face the power direction and the external force. After the correction, the super-high-speed motion of the suspension in the forward direction is generated, and the magnetic energy utilization rate is not increased.

An annular gap space (the diameter of the cross-sectional plane of the gap space is smaller than the diameter of the cross-section of the inner magnet) can be left outside the track to access the electric power and the fixed track, and the inner magnet is provided with a small hole for the electric wire to maintain the inner and outer magnets. The magnetic induction intensity is uniform. The outer magnet gap can increase the corresponding number of magnets on both sides, and the inner and outer magnets are respectively energized. Can be built-in power supply, or use electronic chip to control the power circuit, or use the rotating object power step-by-step method to connect the power supply. All the connected or connected rotating wires of the first rotating object are fixed at a moving point and then The wire on the moving point is fixed on the side rocker or pulley or the resilience spiral wire to remove the rotating force and connect the power supply smoothly; the movable part of the other wire can be composed of the liquid conductive material wrapped by the insulator, because Highly soft. ;

Embodiment 5

5. Method for manufacturing magnetic suspension repulsion energy power of horizontal combined hollow annular square tube track and inner magnet and machine, engineering thereof

A single annular square tube hollow inner magnet in a transversely combined hollow annular square tube track, the hollow magnets of the same shape in a square tube type annular track opened in a circular direction on both sides of the hollow, and the inner surface of the inner magnet is uniformly distributed The partial or cylindrical portion, the convex portion or the cylindrical portion is used for the winding of the conductive coil and the current direction of all the coils is one to the outer surface of the outer magnet is a uniformly distributed convex portion or a cylindrical portion, the convex portion Or the cylindrical portion is used for the winding of the conductive coil and the current direction of all the coils is one; the inner and outer magnet coils are balanced with each other with respect to the current direction, and the opposite surfaces of the inner and outer magnets are balanced with each other and repel each other;

A single annular square tube hollow inner magnet in a transversely combined hollow annular square tube track, the track thickness is evenly composed of four independent magnets, and the independent magnets of the four sides can be connected without being connected (no connection space) The diameter of the cross-section is smaller than the diameter of the cross-section of the inner magnet. The distance between the magnets is as small as possible. The circumference of the magnet is balanced on the track and the magnetic surface of the two magnets is repulsed and suspended in the track. The outer surface of the inner magnet is evenly distributed and deflected in the direction of the power. The concave side of the oblique gear with an angle of less than 90 degrees, the opposite sides of the opposite side of the cut surface are smaller than the vertical angle of the inner magnet surface and the angle of the other outward oblique small section is less than 90 degrees and faces the power direction (such as a fixed inner magnet) The movement of the magnet is opposite to the direction of the power), the magnetic pole of the small section does not exert a force, and the other outwardly oblique small-section magnetic pole forms two identical magnetic poles with the surface of the opposite outer magnet, which is generated according to the principle of magnetic homosexual repelling. The driving force pushes forward and makes continuous continuous movement in the same direction. The internal and external magnets bring strong power according to the strength of the current or magnetic strength.

An annular gap space (the diameter of the cross-sectional plane of the gap space is smaller than the diameter of the cross-section of the inner magnet) can be left outside the track to access the electric power and the fixed track, and the inner magnet is provided with a small hole for the electric wire to maintain the inner and outer magnets. The magnetic induction intensity is uniform. The outer magnet gap can increase the corresponding number of magnets on both sides, and the inner and outer magnets are respectively energized. It can be built-in power supply, or use electronic chip to control the power circuit, or use the rotating object power supply step-by-step method to connect the power supply. All the rotating or connecting rotating wires of the first rotating object are fixed at a moving point next to it. Fixing the wire on the moving point to the rocker or pulley or the resilience spiral wire can remove the rotating force and connect the power supply smoothly; the movable part of the other wire can be composed of the liquid conductive material wrapped by the insulator. It has a high degree of softness.

Embodiment 6

6. Hollow three-dimensional fully enclosed flat circular outer magnet sleeve has the same shape and hollow inner magnet magnetic suspension repulsion energy power production method and its machine and engineering

The hollow full-enclosed oblate magnet and the inner magnet are balanced in opposite directions with respect to the current direction. The parallel or series circuit or arbitrary circuit is used to make the opposite surfaces of the inner and outer magnets become the same magnetic pole and repel each other; The air gap is suspended; the inner magnet can be divided into more than one independent part or the inner magnet is hollow or the inner magnet is arbitrarily formed and the inner and outer magnets are arbitrarily formed;

Hollowly enclosing a hollow magnet of the same shape in an oblate outer outer track, the inner surface of the inner magnet being a uniformly distributed lateral convex portion or a cylindrical portion, and the convex portion or the cylindrical portion serving as a winding of the conductive coil and all the coils The current direction is one, the outer surface of the outer magnet is a laterally convex portion or a cylindrical portion which is uniformly distributed, and the convex portion or the cylindrical portion is used for the winding of the conductive coil and the current direction of all the coils is one; the inner and outer magnet coils are mutually The balance is opposite to the direction of the current, and the opposite surfaces of the inner and outer magnets are balanced with each other and repel each other;

The hollow hollow body is surrounded by the same hollow magnetic body in the outer circumference of the flat circular outer cylinder. The outer magnet has two holes on the outer side of the outer diameter of the inner magnet. The circular space is fixed or connected, and the thickness of the track is uniform. The opposite surfaces between the inner and outer magnets are balanced with each other. The opposite magnetic poles of the two magnets are magnetically repelled and suspended from each other, and the surface of the inner magnet is evenly distributed with a helical gear-shaped concave surface with a 360 degree rotation angle within a 90-degree angle of the power direction, and the opposite sides of the cut surface face inward. The surface of the magnet is smaller than the vertical angle and the angle of the other chamfered surface is less than 90 degrees and faces the power direction (for example, the movement of the outer magnet of the fixed inner magnet is opposite to the direction of the power), the magnetic pole of the cutting surface does not generate a force, and the other outwardly Two small magnetic poles are formed on the surface of the small-section magnetic pole and the opposite outer magnet surface, and the driving force is pushed forward according to the principle of magnetic isotropic repulsion, and the generated force causes the two magnets to rotate relative to each other; according to the current (magnetic strength) Strength and weakness bring out strong momentum.

Since the inner and outer magnets are in a three-dimensional enclosing manner, when the distance between the magnets is fixed, the magnetic strength (current) increases, and there is no way to resolve the pressure by the magnetic suspension position of the lifting magnet, so that when the magnetic strength (current) increases, the distance between the magnets is smaller than the magnetic levitation distance. The repulsive force of the point becomes the pressure. According to the principle of the force and the reaction force, the repulsive force smaller than the magnetic levitation distance point is equal to more than twice the magnetic levitation distance point, and the smaller the repulsion force of the magnetic levitation distance point is, the higher the traction force is. The driving force has no obvious reaction force in this case. When the magnetic levitation distance is less than the magnetic levitation distance, the force growth is lower than the repulsion growth. It can be seen that the repulsion, traction force and driving force of the magnet increase simultaneously when the magnetic strength increases, and the maximum increase is the repulsive force. When the magnetic strength (current) increases, the magnetic levitation distance is smaller than that of the magnetic levitation point. The engine produces ultra-high speed motion (power, speed). And the large three-dimensional magnet repulsive force between the magnets is corrected by the oblique gear guiding surface of the magnet surface facing the power direction and the external force, and the modified high-speed motion is generated in the forward direction, and the magnetic energy utilization rate is not increased.

The external magnet is fixed, and the outer magnet is opened with a diameter smaller than the diameter of the inner magnet, and the circular space is connected to the power and the power is connected. The inner magnet is provided with a small hole for connecting the electric wire, so as to maintain the magnetic induction intensity between the inner and outer magnets, the outer magnet does not close the space. A corresponding number of magnets can be added next to it, and the inner and outer magnets are energized separately. It can be built-in power supply, or use electronic chip to control the power circuit, or use the rotating object power supply step-by-step method to connect the power supply. All the rotating or connecting rotating wires of the first rotating object are fixed at a moving point next to it. Fixing the wire on the moving point to the rocker or pulley or the resilience spiral wire can remove the rotating force and connect the power supply smoothly; the movable part of the other wire can be composed of the liquid conductive material wrapped by the insulator. It has a high degree of softness.

Power can be connected to gears, bearings, etc. to directly drive the machine, or put the engine in the gear to directly drive the machine. It can also be used for car trains, power, large and small aircraft, aircraft power, or other propulsion and long-distance sports and various industrial powers.

Example 7

Hollow three-dimensional fully enclosed outer long circular magnet sleeve shape same hollow inner magnet magnetic suspension repulsion energy power production method and its machine, engineering

The hollow full-enclosed oblong magnet and the inner magnet are balanced in opposite directions with respect to the current direction. The parallel or series circuit or any circuit is used to make the opposite surfaces of the inner and outer magnets become the same magnetic pole and repel each other; Gap suspension; during production, the inner magnet can be divided into more than one independent part or the inner magnet is hollow or the inner magnet is arbitrarily composed and the inner and outer magnets are arbitrarily configured;

The hollow shape is surrounded by a hollow magnet having the same shape in the outer circumference of the oblong outer cylinder, and the inner surface of the inner magnet is a laterally convex portion or a cylindrical portion which is uniformly distributed, and the convex portion or the cylindrical portion is used for winding of the conductive coil and all the coils are used. The current direction is one, the outer surface of the outer magnet is a laterally convex portion or a cylindrical portion which is uniformly distributed, and the convex portion or the cylindrical portion is used for the winding of the conductive coil and the current direction of all the coils is one; the inner and outer magnet coils are mutually The balance is opposite to the direction of the current, and the opposite surfaces of the inner and outer magnets are balanced with each other and repel each other;

Hollow fully enclosed hollow magnets of the same shape in the outer circular track, the outer magnets are opened on both sides with a smaller diameter than the inner magnet diameter opening circular space fixed support or connection power, the track thickness is uniform, the opposite surfaces between the inner and outer magnets are balanced with each other The opposite surfaces of the magnets are magnetically repulsive and suspended from each other. The surface of the inner magnet is evenly distributed with a helical gear concave surface with a 360 degree rotation angle within 90 degrees of the power direction. The opposite sides of the cut surface are smaller than the inner magnet surface. The vertical angle and the other chamfered surface form an angle less than 90 degrees and face the power direction (such as the movement of the outer magnet of the fixed inner magnet is the back-to-power direction), the magnetic pole of the cutting surface does not exert a force, and the other outwardly obliquely the small section The magnetic pole forms two identical magnetic poles with the surface of the opposite outer magnet. According to the principle of magnetic homosexual repulsive force, the driving force is pushed forward, and the generated force causes the two magnets to rotate relative to each other; the strong and weak band according to the current (magnetic strength) Strong motivation.

Power can be connected to gears, bearings, etc. to directly drive the machine, or put the engine in the gear to directly drive the machine.

Example eight

8. Magnet multi-enclosed motion power (or aircraft) magnetic suspension repulsion energy power production method and its machine and engineering

The balance between the hollow circular magnet and the inner magnet is opposite to the current direction. The parallel or series circuit or any circuit is used to make the opposite surfaces of the inner and outer magnets become the same magnetic pole and repel each other; it can be called unipolar air gap suspension; During the production, the inner magnet can be divided into more than one independent part or the inner magnet is hollow or the inner magnet is arbitrarily composed and the inner and outer magnets are arbitrarily configured;

a hollow magnetic body having the same shape in a hollow circular outer magnet, the inner surface of the inner magnet being a laterally convex portion or a cylindrical portion having a uniform distribution, and the convex portion or the cylindrical portion serving as a winding of the conductive coil and the current direction of all the coils The outer surface of the outer magnet is a laterally convex portion or a cylindrical portion which is uniformly distributed, and the convex portion or the cylindrical portion is used for the winding of the conductive coil and the current direction of all the coils is one; the inner and outer magnet coils are balanced with each other. In opposite directions, the opposite surfaces of the inner and outer magnets are formed to balance the magnetic poles and repel each other;

The upper and lower sections of the outer magnet are centered on the arc-shaped magnet radiating outward from the center, and are connected by a cylindrical magnet. The central cylindrical magnet is hollowed through the middle circular-shaped magnet, and the opposite magnetic poles of the two magnets are the same to generate a repulsive suspension. The upper and lower circular arc magnets and the center of the inner surface of the cylindrical magnet are two or more 360° helical inscribed gear-shaped cut surfaces in the same direction, and the opposite sides of the cut surface face the inner magnet surface less than the vertical angle and the other A chamfered surface is composed of a magnetic pole having an angle less than 90 degrees and facing the power direction (such as the movement of the outer magnet of the fixed inner magnet is a back-to-power direction), and the other magnetic pole of the curved chamfer is formed with the surface of the opposite outer magnet. Two identical magnetic poles, according to the principle of magnetic homosexual repelling, generate driving force to push forward, so that the intermediate magnets continue to circulate continuously in the same direction; according to the strength of the given magnetic strength (current), strong power is brought.

Since the inner and outer magnets are in a ring shape and a three-dimensional enveloping type, when the distance between the magnets is fixed, the magnetic strength (current) increases, and there is no way to resolve the pressure by the magnetic suspension position of the lifting magnet, so that the distance between the magnets is smaller when the magnetic strength (current) increases. The repulsion of the magnetic levitation distance point becomes the pressure. According to the principle of the force and the reaction force, the repulsion force less than the magnetic levitation distance point is equal to more than twice the magnetic levitation distance point, and the smaller the repulsion force of the magnetic levitation distance point is, the higher the The traction force and the driving force have no obvious reaction force. The force increase is lower than the repulsion growth when the magnetic levitation distance is smaller. When the magnetic strength increases, the repulsion and the driving force between the magnets increase simultaneously, and the maximum increase is the repulsive force. When the magnetic strength (current) increases, the magnetic levitation distance is smaller than the magnetic levitation point. Under the action of force and reaction force, the engine produces ultra-high speed motion (power, speed). And the large three-dimensional magnet repulsive force is corrected by the 360-degree helical gear to cut the power direction and the external force. After the correction, the suspension ultra-high-speed motion is generated, and there is no backward turning to improve the magnetic energy utilization rate.

Power can be connected to gears, bearings, etc. to directly drive the machine, or put the engine in the gear to directly drive the machine. The inner and outer magnets are energized separately. It can be built-in power supply, or use electronic chip to control the power circuit, or use the rotating object power supply step-by-step method to connect the power supply. All the rotating or connecting rotating wires of the first rotating object are fixed at a moving point next to it. Fixing the wire on the moving point to the rocker or pulley or the resilience spiral wire can remove the rotating force and connect the power supply smoothly; the movable part of the other wire can be composed of the liquid conductive material wrapped by the insulator. It has a high degree of softness.

Example nine

9. Variable air gap circuit magnetic field hollow three-dimensional full enclosed flat circular outer magnet and shape same inner magnet magnetic suspension repulsion energy power production method and its machine, engineering

The current direction of the solid hollow magnet and the inner magnet is the same straight line in any direction of the tangent plane, so that the opposite magnetic poles of the inner and outer magnets are the same and repel each other. The inner and outer magnets are divided into two magnetic poles in the up and down direction at the center position of the current direction, and the inner magnet cannot be a perfect circle. Shape, the hollow part of the outer magnet cannot be a perfect circle, because the circular shape will move freely, causing the current direction of the inner and outer magnets not to be in the same straight line position;

The inner and outer magnets have the same current direction of the coil or the straight wire or the conductor, and the inner and outer magnets are divided into two magnetic poles in the right or left direction or in any direction in the middle direction of the current direction, so that the opposite surfaces of the inner and outer magnets are divided into two identical magnetic poles and repel each other, that is, the variable air gap Magnetic field; when the magnetic strength of the two magnets is uniform, the magnetic strength or the current is increased, so that one of the two magnets can be suspended or arbitrarily suspended; that is, the outer magnet yoke is inward, the inner magnet yoke is outward, and the inner and outer magnet yokes are opposite. ;

The hollow shape is surrounded by the same shape of the magnet in the outer circular circular track, and the outer magnet has two sides with a diameter smaller than the diameter of the inner magnet. The circular space is fixedly supported or connected, and the track thickness is uniform. The opposite surfaces of the inner and outer magnets are balanced with each other. The opposite surfaces of the magnets are magnetically repulsive and suspended from each other, and the surface of the inner magnet opposite to the outer magnet is provided with a helically concave surface of a helical gear which is uniformly distributed with a rotation angle of 180 degrees within 90 degrees of the upper and lower deflection angles of the inner magnet. The upper and lower sides are opposite to each other in an arrow shape, and the opposite sides of the cut surface are opposite to the inner magnet surface and the angle smaller than the vertical angle and the other chamfered surface are less than 90 degrees and face the power direction (for example, the movement of the outer magnet of the fixed inner magnet is the back-to-power direction). The magnetic pole of the slice does not exert a force, and the other outwardly oblique small-cut magnetic pole forms two identical magnetic poles with the opposite outer magnet surface, and generates a driving force to push forward according to the principle of magnetic homosexual repelling. The relative motion of the two magnets is self-rotating;

Since the inner and outer magnets are in a three-dimensional enclosing manner, when the distance between the magnets is fixed, the magnetic strength (current) increases, and there is no way to resolve the pressure by the magnetic suspension position of the lifting magnet, so that when the magnetic strength (current) increases, the distance between the magnets is smaller than the magnetic levitation distance. The repulsive force of the point becomes the pressure. According to the principle of the force and the reaction force, the repulsive force smaller than the magnetic levitation distance point is equal to more than twice the magnetic levitation distance point, and the smaller the repulsion force of the magnetic levitation distance point is, the higher the traction force is. The driving force has no obvious reaction force in this case. When the magnetic levitation distance is less than the magnetic levitation distance, the force growth is lower than the repulsion growth. It can be seen that the repulsion, traction force and driving force of the magnet increase simultaneously when the magnetic strength increases, and the maximum increase is the repulsive force. When the magnetic strength (current) increases, the magnetic levitation distance is smaller than that of the magnetic levitation point. The engine produces ultra-high speed motion (power, speed). The 180-degree spiral guiding plane on the upper and lower sides of the magnet surface is used to correct the power direction and external force of the repulsion between the magnets. After the correction, the super-high-speed motion of the suspension is generated, and the magnetic energy utilization rate is not increased.

The outer magnets are opened on both sides with a diameter smaller than the diameter of the inner magnet. The circular space is fixed or connected to the power and the power is connected. The inner magnet is provided with small holes for connecting the electric wires. In order to maintain the magnetic induction between the inner and outer magnets, the outer magnet is not closed. A corresponding number of magnets can be added, and the inner and outer magnets are energized separately. It can be built-in power supply, or use electronic chip to control the power circuit, or use the rotating object power supply step-by-step method to connect the power supply. All the rotating or connecting rotating wires of the first rotating object are fixed at a moving point next to it. Fixing the wire on the moving point to the rocker or pulley or the resilience spiral wire can remove the rotating force and connect the power supply smoothly; the movable part of the other wire can be composed of the liquid conductive material wrapped by the insulator. It has a high degree of softness.

Example ten

10, variable air gap circuit magnetic field hollow three-dimensional full-enclosed oblong outer magnet and shape of the same inner magnetic suspension magnetic energy production method and its machine, engineering

The current direction of the solid hollow magnet and the inner magnet is the same straight line in the direction of any tangent plane, so that the opposite magnetic poles of the inner and outer magnets are the same and repel each other. The inner and outer magnets are divided into two magnetic poles in the left and right direction by the center position of the current direction, and the inner magnet cannot be a perfect circle. Shape, the hollow part of the outer magnet can not be a perfect circle, because the circular shape will move freely, causing the current direction of the inner and outer magnets not to be in the same straight line position;

The hollow shape is surrounded by the same shape magnet in the outer circular track, and the outer magnets are opened on both sides with a smaller diameter than the inner magnet diameter opening circular space fixed support or connection power, the track thickness is uniform, and the opposite surfaces between the inner and outer magnets are balanced with each other due to the two magnets The opposite surfaces are magnetically repulsive and suspended from each other. The surface of the inner magnet opposite to the outer magnet is uniformly distributed with a helical gear concave section with a rotation angle of 180 degrees within 90 degrees of the lateral center position of the inner magnet. Opposite to the arrow shape, the opposite sides of the opposite side of the cut surface face the inner magnet surface less than the vertical angle and the angle of the other chamfered surface is less than 90 degrees and face the power direction (such as the movement of the outer magnet of the fixed inner magnet is the back-to-power direction). The magnetic pole of the cut surface does not exert a force, and the other outwardly oblique small cut magnetic pole forms two identical magnetic poles with the opposite outer magnet surface, and generates a driving force to push forward according to the principle of magnetic homosexual repulsive, and the generated force causes two The relative motion of the magnet is self-rotating;

Since the inner and outer magnets are in a three-dimensional enclosing manner, when the distance between the magnets is fixed, the magnetic strength (current) increases, and there is no way to resolve the pressure by the magnetic suspension position of the lifting magnet, so that when the magnetic strength (current) increases, the distance between the magnets is smaller than the magnetic levitation distance. The repulsive force of the point becomes the pressure. According to the principle of the force and the reaction force, the repulsive force smaller than the magnetic levitation distance point is equal to more than twice the magnetic levitation distance point, and the smaller the repulsion force of the magnetic levitation distance point is, the higher the traction force is. The driving force has no obvious reaction force in this case. When the magnetic levitation distance is less than the magnetic levitation distance, the force growth is lower than the repulsion growth. It can be seen that the repulsion, traction force and driving force of the magnet increase simultaneously when the magnetic strength increases, and the maximum increase is the repulsive force. When the magnetic strength (current) increases, the magnetic levitation distance is smaller than that of the magnetic levitation point. The engine produces ultra-high speed motion (power, speed). And the 360-degree spiral guiding plane on the left and right sides of the magnet surface makes the repulsive force between the magnets correct the power direction and the external force, and the modified ultra-high-speed motion is generated after the correction, and the magnetic energy utilization rate is not increased.

Embodiment 11

11. Variable air gap circuit magnetic field three-dimensional hollow outer magnet and superconductor inner magnet magnetic suspension repulsion energy power production method and its machine, engineering

The hollow shape is surrounded by the same shape magnet in the outer long circular track, and the inner and outer magnets have a conical intermediate cylindrical shape on both sides, and the outer magnets are opened on both sides with a diameter smaller than the inner magnet diameter opening circular space fixed support or connection power, the track thickness is uniform, and the inner and outer magnets are The opposite surfaces are balanced with each other and are suspended by the magnetic surfaces of the opposite surfaces of the two magnets. The inner cylindrical magnet of the inner magnet is superconductor with super high magnetic resistance and strong repulsive with the outer magnet. The superconductor must be sealed with liquid nitrogen to seal the inner magnet. The two sides of the conical surface opposite to the outer magnet are provided with two uniformly distributed conical cones to the left and the other conical to the right at an angle of 90 degrees and a 360 degree rotation of the spiral gear. In contrast, the opposite sides of the cut surface are opposite to the inner magnet surface and the angle smaller than the vertical angle and the other chamfer surface are less than 90 degrees and face the power direction (such as the fixed inner magnet outer magnet movement is the back-to-power direction), the small cut surface The magnetic pole does not generate a force, and the other outwardly obliquely faces the small-cut magnetic pole and the opposite outer magnet surface Two identical magnetic poles, according to the principle of magnetic homosexual repelling, generate a driving force to push forward, and the generated force causes the two magnets to rotate relative to each other;

Since the inner and outer magnets are in a three-dimensional enclosing manner, when the distance between the magnets is fixed, the magnetic strength (current) increases, and there is no way to resolve the pressure by the magnetic suspension position of the lifting magnet, so that when the magnetic strength (current) increases, the distance between the magnets is smaller than the magnetic levitation distance. The repulsive force of the point becomes the pressure. According to the principle of the force and the reaction force, the repulsive force smaller than the magnetic levitation distance point is equal to more than twice the magnetic levitation distance point, and the smaller the repulsion force of the magnetic levitation distance point is, the higher the traction force is. The driving force has no obvious reaction force in this case. When the magnetic levitation distance is less than the magnetic levitation distance, the force growth is lower than the repulsion growth. It can be seen that the repulsion, traction force and driving force of the magnet increase simultaneously when the magnetic strength increases, and the maximum increase is the repulsive force. When the magnetic strength (current) increases, the magnetic levitation distance is smaller than that of the magnetic levitation point. The engine produces ultra-high speed motion (power, speed). And the large three-dimensional magnet repulsive force is corrected by the 180-degree spiral guide of the left and right sides of the magnet surface to face the power direction and the external force, and the modified ultra-high-speed motion is generated after the correction, and the magnetic energy utilization rate is not increased.

External magnetic isolation housing. The high temperature-conducting property of the conductive pipeline can be used to freeze one of the sections to achieve a temperature drop resistance effect.

Example twelve

12. Variable air gap magnetic field three-dimensional hollow oblong outer permanent magnet and inner permanent magnet magnetic suspension repulsion energy power production method and machine, engineering

The direction of magnetizing current of the three-dimensional hollow permanent magnet and the inner permanent magnet is the same linear direction, so that the surface magnetic poles of the inner and outer permanent magnets are the same and repel each other, and the inner and outer permanent magnets are divided into two magnetic poles in the left and right direction by the center position of the current direction. The permanent magnet cannot be a perfect circle, and the hollow portion of the outer permanent magnet cannot be a perfect circle. Since the perfect circular shape will move at random, the current direction of the inner and outer permanent magnets is not in the same straight line position;

The hollow shape is surrounded by the same permanent magnets in the outer circular permanent magnet track, and the outer magnets are opened on both sides with a diameter smaller than the inner permanent magnet diameter opening circular space fixed support or connection power, the track thickness is uniform, and the opposing surfaces between the inner and outer permanent magnets are mutually Balanced and suspended by the magnetic surface of the opposite surfaces of the two permanent magnets, the surface of the inner permanent magnet and the outer permanent magnet are uniformly distributed, and the inner middle permanent magnet is laterally centered. The left and right skew angles are 90 degrees or less. Spiral gear concave cut surface, the left and right sides are opposite to each other in the shape of an arrow, and the inner permanent magnet surface is evenly distributed. The helical gear concave surface of the inner permanent magnet is transversely centered with the left and right oblique angles of 90 degrees or less within 180 degrees. The left and right sides are opposite to each other in an arrow shape, and the opposite sides of the concave surface of the gear are opposite to the inner surface of the permanent magnet. The angle smaller than the vertical angle and the other oblique surface are less than 90 degrees and face the power direction (such as the fixed inner permanent magnet and the permanent magnet movement is the back). For the direction of the power), the magnetic pole of this small section does not exert a force, and the other outwardly obliquely the small-section magnetic pole and the opposite outer permanent magnet Two identical magnetic poles formed on the surface, pushed forward urging force is generated according to the principle of magnetic repulsion of the same sex, so that the force generated by the permanent magnet to the two sides i.e. rotation relative movement;

Since the inner and outer magnets are in a three-dimensional enclosing manner, when the distance between the magnets is fixed, the magnetic strength (current) increases, and there is no way to resolve the pressure by the magnetic suspension position of the lifting magnet, so that when the magnetic strength (current) increases, the distance between the magnets is smaller than the magnetic levitation distance. The repulsive force of the point becomes the pressure. According to the principle of the force and the reaction force, the repulsive force smaller than the magnetic levitation distance point is equal to more than twice the magnetic levitation distance point, and the smaller the repulsion force of the magnetic levitation distance point is, the higher the traction force is. There is no obvious reaction force in this driving force. The force increase is lower than the repulsion growth when the magnetic levitation distance is smaller. It can be seen that the repulsion and driving force between the magnets increase simultaneously when the magnetic strength increases, and the maximum increase is the repulsive force. The increase in the strong (current) causes the magnetic levitation distance to be less than that of the magnetic levitation point engine to produce ultra-high speed motion (power, speed). And the large three-dimensional magnet repulsive force is corrected by the 360-degree spiral guiding of the left and right sides of the magnet surface to face the power direction and the external force, and the modified ultra-high-speed motion is generated after the correction, and the magnetic energy utilization rate is not increased.

The outer magnets are opened on both sides with a diameter smaller than the diameter of the inner magnet. The circular space is fixed or connected to the power and magnetization. In order to keep the magnetic induction between the inner and outer magnets uniform, the outer magnet can be closed next to the space, and the inner and outer permanent magnets are separately magnetized. . After the internal and external permanent magnets are magnetized, they can be continuously operated for a long time without power supply until the magnetic induction is stopped or re-magnetized.

Plus magnetic shield.

Example thirteen

13. Variable air gap magnetic field annular direction open hollow oblate outer permanent magnet and inner permanent magnet magnetic suspension repulsion energy power production method and machine, engineering

The direction of the magnetizing current of the open-ended annular outer permanent magnet and the inner permanent magnet in the annular direction is the same linear direction of the transverse section, so that the opposing magnetic poles of the inner and outer permanent magnets are the same and repel each other, and the inner and outer permanent magnets are in the current direction. The center position is divided into two magnetic poles in the left and right direction;

A solid oblate annular inner permanent magnet in an open circular annular permanent magnet track is opened on both sides of the annular direction, the track thickness is uniform, the distance between the inner and outer permanent magnets is as small as possible, and the opposing surfaces between the permanent magnets are balanced with each other due to the two permanent magnets The opposite surfaces are magnetically repulsive and mutually suspended. The surface of the inner permanent magnet and the outer permanent magnet are uniformly distributed. The lateral center position of the inner permanent magnet, that is, the current direction, the center position, the left and right skew angles within 90 degrees, and the rotation degree within 180 degrees. The concave shape of the spiral gear is opposite to the left and right in the shape of an arrow. The opposite side of the concave surface of the gear is smaller than the vertical angle of the inner surface of the permanent magnet and the angle of the other small oblique surface is less than 90 degrees and faces the power direction (such as The fixed internal permanent magnet external permanent magnet movement is opposite to the power direction), the small cutting magnetic pole does not produce a force, and the other outwardly oblique small cutting magnetic pole opposite the outer permanent magnet surface forms two identical magnetic poles, according to the magnetic The principle of homosexual repelling produces a driving force to push forward, and the generated force causes the two permanent magnets to move relative to each other;

Since the inner and outer magnets are in a three-dimensional enclosing manner, when the distance between the magnets is fixed, the magnetic strength (current) increases, and there is no way to resolve the pressure by the magnetic suspension position of the lifting magnet, so that when the magnetic strength (current) increases, the distance between the magnets is smaller than the magnetic levitation distance. The repulsive force of the point becomes the pressure. According to the principle of the force and the reaction force, the repulsive force smaller than the magnetic levitation distance point is equal to more than twice the magnetic levitation distance point, and the smaller the repulsion force of the magnetic levitation distance point is, the higher the traction force is. The driving force has no obvious reaction force in this case. When the magnetic levitation distance is less than the magnetic levitation distance, the force growth is lower than the repulsion growth. It can be seen that the repulsion, traction force and driving force of the magnet increase simultaneously when the magnetic strength increases, and the maximum increase is the repulsive force. When the magnetic strength (current) increases, the magnetic levitation distance is smaller than that of the magnetic levitation point. The engine produces ultra-high speed motion (power, speed). And the large circular 360-degree magnet repulsive force is corrected by the 360-degree spiral guiding of the left and right sides of the magnet surface to face the power direction and the external force, and the modified ultra-high-speed motion is generated after the correction, and the magnetic energy utilization rate is not increased.

Supporting outside the track and leaving an annular gap space consistent with the direction of movement of the magnet (the cross-sectional diameter of the gap space is smaller than the diameter of the cross-section of the inner magnet) to bring out power and magnetization, in order to maintain the magnetic induction intensity between the inner and outer magnets, the outer magnet does not close the space. A corresponding number of magnets can be added next to each other, and the inner and outer permanent magnets are respectively magnetized. After the internal and external permanent magnets are magnetized, they can be continuously operated for a long time without power supply until the magnetic induction is stopped or re-magnetized.

Power can be connected to gears, bearings, etc. to directly drive the machine, or put the engine in the gear to directly drive the machine. Can be used for all types of power.

Plus magnetic shield.

Embodiment 14

In the direction of the straight line, the open-ended square-tube type ring magnets and the inner magnets are balanced in opposite directions with respect to the current direction. The parallel or series circuit method or any circuit method is used to make the opposite surfaces of the inner and outer magnets become the same magnetic pole and repel each other; It can be called a unipolar air gap magnetic field; during production, the inner magnet can be divided into more than one independent part or the inner magnet is hollow or the inner magnet is arbitrarily composed and the inner and outer magnets are arbitrarily composed, and each part can be welded;

A single square solid hollow magnet in a linear square tube annular track is opened on both sides of the hollow, the length of the inner magnet is smaller than the length of the outer magnet and larger than the diameter of the transverse cross section of the track, the track thickness is uniform, the distance between the inner and outer magnets is as small as possible, and the opposite surfaces between the magnets are mutually The balance is smooth and flat and suspended by the magnetic surface of the opposite surfaces of the two magnets. The cross-section of the two sides of the magnet is positive and negative. The cross-section of the two different magnetic poles and the inner surface of the track form two different magnetic poles. According to the principle of magnetic pole heteropolar attraction It is attracted to the front of the track, and the rear cross-section and the inner surface of the track form two identical magnetic poles. According to the principle of reciprocal repulsion of the magnetic pole, the repulsive force around the track is pushed forward to make continuous continuous motion in the same direction; when changing the inner side of the inner magnet The magnet moves in the opposite direction in the direction of the cut surface current.

Since the inner and outer magnets are in a circular enveloping type, the distance between the magnets has a fixed magnetic strength (current), and there is no way to resolve the pressure by the magnetic suspension position of the lifting magnet, so that when the magnetic strength (current) increases, the distance between the magnets is smaller than the magnetic levitation distance. The repulsive force of the point becomes the pressure. According to the principle of the force and the reaction force, the repulsive force smaller than the magnetic levitation distance point is equal to more than twice the magnetic levitation distance point, and the smaller the repulsion force of the magnetic levitation distance point is, the higher the driving force is. In this case, the reaction force has no obvious repulsive force. When the magnetic levitation distance is smaller than the magnetic levitation distance, the force increase is lower than the repulsion. When the magnetic strength increases, the repulsion and the driving force between the magnets increase simultaneously, and the maximum increase is the repulsive force. (Current) The increase in the magnetic levitation distance is less than that of the magnetic levitation point. The engine produces ultra-high speed motion (power, speed).

When the internal and external magnets increase the current instantaneously, the instantaneous burst speed or power can be obtained, and the polarity of the magnetic poles of the cross-sections on both sides can be changed according to the current direction for reciprocating motion or power. It can be used in various power environments, large and small power production, and large and small pipeline transportation. , large and small rail transport, large and small transmitters, all kinds of propulsion power.

Example fifteen

Magnetic suspension repulsion energy power manufacturing method and machine and engineering thereof for difference of magnetic induction direction of stereo hollow flat circular outer magnet and magnet in same shape

The three-dimensional hollow flat circular outer magnet and the coil of the same shape inner magnet are opposite to each other in the opposite direction of the current direction, and the parallel or series circuit method or the arbitrary circuit method is adopted, so that the opposite surfaces of the inner and outer magnets become the same one magnetic pole and repel each other; Unipolar air gap magnetic field;

a three-dimensional hollow flat circular outer magnet and an inner magnet of the same shape, the inner surface of the inner magnet is a uniformly distributed convex portion or a cylindrical portion, and the convex portion or the cylindrical portion is used for winding the conductive coil and the current direction of all the coils As soon as the outer surface of the outer magnet is a uniformly distributed convex portion or a cylindrical portion, the convex portion or the cylindrical portion is used for the winding of the conductive coil and the current direction of all the coils is one; the inner and outer magnet coils are balanced with each other with respect to the current direction. On the contrary, the opposite surfaces of the inner and outer magnets are formed to balance the magnetic poles and repel each other;

The hollow hollow body is surrounded by the same hollow magnetic body in the outer circumference of the flat circular outer cylinder. The outer magnet has two holes on the outer side of the outer diameter of the inner magnet. The circular space is fixed or connected, and the thickness of the track is uniform. The opposite surfaces of the inner and outer magnets are balanced and smooth. And the opposite magnetic poles of the two magnets are mutually repulsive and mutually suspended, wherein the outer two magnets of the outer magnet have two rows of spirally arranged conductive coil windings, and the conductive coil windings and the salient poles of the windings are inclined within 90 degrees of the power direction. The magnetic line of the winding portion and the magnetic line of the inner magnet form a thrust to push forward, so that the two magnets rotate relative to each other; that is, according to the strength of the current (magnetic strength), a strong power is generated.

Since the inner and outer magnets are in a three-dimensional enclosing manner, when the distance between the magnets is fixed, the magnetic strength (current) increases, and there is no way to resolve the pressure by the magnetic suspension position of the lifting magnet, so that when the magnetic strength (current) increases, the distance between the magnets is smaller than the magnetic levitation distance. The repulsive force of the point becomes the pressure. According to the principle of the force and the reaction force, the repulsive force smaller than the magnetic levitation distance point is equal to more than twice the magnetic levitation distance point, and the smaller the repulsion force of the magnetic levitation distance point is, the higher the traction force is. There is no obvious reaction force in this driving force. The force increase is lower than the repulsion growth when the magnetic levitation distance is smaller. It can be seen that the repulsion and driving force between the magnets increase simultaneously when the magnetic strength increases, and the maximum increase is the repulsive force. The increase in the strong (current) causes the magnetic levitation distance to be less than that of the magnetic levitation point engine to produce ultra-high speed motion (power, speed). And the large three-dimensional magnet repulsive force between the magnets is different from the outer surface of the magnet, and the spirally arranged conductive coil windings of the outer surface of the magnet are modified to correct the power direction and the external force, and the modified super-high-speed motion in the forward direction is not generated. Turn up the magnetic energy utilization rate.

Example sixteen

Magnetic suspension pulsation energy power production method and its machine and engineering for the difference between the magnetic direction of the hollow circular tube type circular track and the three-dimensional hollow inner magnet

In the direction of the straight line, the open circular tube type ring magnet and the inner coil of the inner magnet are balanced in opposite directions. The parallel or series circuit or arbitrary circuit is used to make the opposite surfaces of the inner and outer magnets become the same magnetic pole and repel each other. ; can be called a single pole air gap magnetic field;

A hollow magnet of the same shape in a circular tubular annular track is opened on both sides of the hollow direction, and the inner surface of the inner magnet is a strip-shaped convex portion or a cylindrical portion with a uniform distribution, and the convex portion or the cylindrical portion is used as a winding of the conductive coil. Use and the current direction of all the coils is one, the outer surface of the outer magnet is a strip-shaped convex portion or a cylindrical portion with a uniform distribution, and the convex portion or the cylindrical portion is used for the winding of the conductive coil and the current direction of all the coils is one; The inner and outer magnet coils are balanced with each other with respect to the current direction, and the opposite surfaces of the inner and outer magnets are balanced with each other and repel each other;

A single square solid hollow magnet in a circular circular tubular annular track is opened on both sides of the hollow, the length of the inner magnet is smaller than the length of the outer magnet and larger than the diameter of the transverse cross section of the track, the thickness of the track is uniform, the distance between the inner and outer magnets is as small as possible, and the opposite surfaces between the magnets are mutually The balance is smooth and flat and suspended by the magnetic surface of the opposite surfaces of the two magnets, wherein the outer surface of the outer magnet has two rows of spirally arranged conductive coil windings, and the conductive coil windings and the salient poles of the windings are inclined at an angle of 90 with respect to the power direction. Within a degree, the magnetic field lines of the winding portion and the magnetic lines of the inner magnet form a thrust to push forward, causing the inner magnet to rotate forward; and according to the strength of the current (magnetic strength), a strong rotational forward power is brought.

Since the inner and outer magnets are in a circular enveloping type, the distance between the magnets has a fixed magnetic strength (current), and there is no way to resolve the pressure by the magnetic suspension position of the lifting magnet, so that when the magnetic strength (current) increases, the distance between the magnets is smaller than the magnetic levitation distance. The repulsive force of the point becomes the pressure. According to the principle of the force and the reaction force, the repulsive force smaller than the magnetic levitation distance point is equal to more than twice the magnetic levitation distance point, and the smaller the repulsion force of the magnetic levitation distance point is, the higher the driving force is. In this case, the reaction force has no obvious repulsive force. When the magnetic levitation distance is smaller than the magnetic levitation distance, the force increase is lower than the repulsion. When the magnetic strength increases, the repulsion and the driving force between the magnets increase simultaneously, and the maximum increase is the repulsive force. The increase in (current) causes the magnetic levitation distance to be less than that of the magnetic levitation point engine to produce ultra-high speed motion (power, speed). And the reciprocating force between the large 360-degree annular magnets between the magnets is different from the spirally arranged conductive coil windings on the outer surface of the magnet. The modified power direction and the external force are corrected, and the super-high-speed motion in the forward direction is not corrected. Turning backwards increases the magnetic energy utilization rate.

The outer magnets are open on both sides and are not sealed. The inner magnet of the fixed outer magnet makes a strong rotary propulsion power to push the object forward. It can be used for aircraft, rocket thrust or thrust in 360 degrees, car, train forward power, or other propulsion power.

It can be built-in power supply, or use electronic chip to control the power circuit, or use the rotating object power supply step-by-step method to connect the power supply. All the rotating or connecting rotating wires of the first rotating object are fixed at a moving point next to it. Fixing the wire on the moving point to the rocker or pulley or the resilience spiral wire can remove the rotating force and connect the power supply smoothly; the movable part of the other wire can be composed of the liquid conductive material wrapped by the insulator. It has a high degree of softness.

Production instructions:

1. The inner and outer magnets are customized according to the requirements of the electromagnet manufacturer. After installation, the inner and outer magnets can be energized or magnetized respectively. For example, if the permanent magnet is installed according to safety requirements, the inner and outer magnets are respectively magnetically connected, and the superconductor needs to be sealed by liquid nitrogen.

2. Large-scale power projects must be produced according to the requirements of the project, and the pressure safety requirements are high during production.

3, add high strength protection shell, plus heat dissipation facilities.

4. The magnet can be all magnetic materials of various materials, including electromagnets, permanent magnets, superconducting magnetic materials, constant magnetic materials, natural magnetic materials, and anti-magnets.

5. According to the technical principle of the present invention, numerous styles can be produced.

Features: 1, energy saving, environmental protection, low noise, rap-type magnetic levitation ultra-high-speed power can bring the power to the extreme, high-speed speed can reach hundreds of kilometers and more than a thousand kilometers, the speed of more than 10,000 kilometers per hour.

2, can be large or miniaturized.

Uses: cars, trains, boats, aircraft, aircraft, launchers, power generation, physical batteries, large and small pipeline transportation, pipeline lifting, various industrial uses, various environmental applications requiring power.

Claims

A magnetic repulsion energy power production method and a machine and a project thereof are characterized by the following principles, and the specific contents are as follows:

A closed or closed (opening space diameter larger than the diameter of the transverse cross-section of the inner magnet) is hollow or closed (the diameter of the non-closed space is smaller than the diameter of the transverse cross-section of the inner magnet). Another magnet of any shape is placed between the annular magnets, and the two magnets are opposed to each other. The two surfaces are mutually repulsive with respect to the magnetic poles. In the range of the magnetic energy of the two magnets being similar or one of the magnetic masses, when the magnetic strength of the two magnets is such that any one of them is suspended, the two magnets are arbitrarily suspended from each other;

A solid hollow closed or not closed [the diameter of the unclosed space is smaller than the diameter of the inner magnet (the smaller the space is better)] another magnet of any shape is placed in the magnet of any shape, and the opposite surfaces of the two magnets rebalance each other In the magnetic energy range of the two magnets having similar or one of the magnetic masses, when the magnetic strength of the two magnets reaches such that one of them is suspended, the two magnets are arbitrarily suspended from each other;

That is, when the outer magnet is lifted or placed, the inner magnet is suspended, and when the inner magnet is lifted or placed, the outer magnet is suspended;

And in the range of the magnetic induction energy in which the mass of the two magnets exceeds one of them, the magnet with less mass is suspended;

The inner and outer magnets {including the two sides open (the open space diameter is larger than the inner magnet cross-sectional diameter) are hollowly closed or not closed (the non-closed space cross-cut diameter is smaller than the inner magnet transverse cross-sectional diameter) and the outer outer magnet and the hollow inner magnet and The solid hollow is closed or not closed [the diameter of the non-closed space is smaller than the diameter of the inner magnet (the smaller the space is, the better)] the outer magnet and the inner magnet} are magnetic substances or diamagnetic substances or composed of magnetic substances and electric conductors;

The inner and outer magnets {including the two sides open (the open space diameter is larger than the inner magnet cross-sectional diameter) are hollowly closed or not closed (the non-closed space cross-cut diameter is smaller than the inner magnet transverse cross-sectional diameter) and the outer outer magnet and the hollow inner magnet and The solid hollow is closed or not closed [the diameter of the non-closed space is smaller than the diameter of the inner magnet (the smaller the space is better)] the outer magnet and the inner magnet} may be a separate integral magnet or a combined magnet;

The opposite surface magnetic poles between the inner and outer magnets form the same repulsion, which is one of the conditions necessary for magnetic levitation, so that each magnet can independently turn on the current;

Inner and outer magnet monopole air gap magnetic levitation

The single-pole air gap magnetic field of the open-ended or non-closed annular outer magnet and the hollow inner magnet and the three-dimensional hollow outer magnet and the inner magnet are specifically inner and outer hollow magnets, and the opposite surfaces of the two magnets are balanced and smooth, and the inner magnet The smooth and flat inner surface of the outer surface is a uniform shape, size, number of convex portions or cylindrical portions (preferably in the form of strips), and the convex portion or the cylindrical portion is used for the winding of the conductive coil and all the coils The current direction is the same, and the outer surface of the outer magnet is smooth and flat. The outer surface is a uniform shape, a size, a number of convex portions or cylindrical portions, and the convex portion or the cylindrical portion is used for the winding of the conductive coil and all the coils are used. The current direction is the same; the inner and outer magnet coils are balanced with each other and the current direction is perpendicular to the straight line. The opposite surfaces of the inner and outer magnets are balanced with each other. The smooth magnetic poles are the same and repel each other. When the magnetic strength of both magnets is equal, the magnetic strength or current can be increased. One of the two magnets is suspended or arbitrarily suspended from each other; that is, the outer magnet yoke is inward, and the inner magnet yoke is outward, Said inner and outer magnets opposite the yoke to form a suspension;

In addition, the single-pole air-gap magnetic field of the open-ended or non-closed annular outer magnet and the hollow inner magnet and the three-dimensional hollow outer magnet and the inner magnet are specifically composed of one or more independent parts of the outer magnet hollow inner magnet. The unipolar air gap magnetic field is specifically that the outer surface of the inner magnet is smooth and flat, and is composed of more than one independent part and is arbitrarily closely interlocked with each other (including lamination, welding, boring, outer hoop, lock, nail insertion, and can be inner magnet) A magnet is placed inside and a magnet surface is opposite to the magnetic pole of the inner surface of the inner magnet to generate an attractive force. The outer magnet is provided with a magnet which is hollow and has a magnetic field opposite to the outer surface of the outer magnet to attract an attraction force, so as to absorb between the individual magnets. Repulsive force or magnetic shielding is placed by placing a magnetic shielding material, or another magnet is fixed to fix it (the magnet inside the inner magnet is hollow and the surface of the magnet is opposite to the magnetic pole of the inner surface of the inner magnet to generate an attractive force, and the outer magnet is hollow outside and a magnet having an attractive surface opposite to the magnetic pole of the outer surface of the outer magnet to absorb the respective independent magnetic The repulsion between them is set by magnetic shielding material to set the magnetic shielding), or the surface is welded, the direction of the coil current of the independent part or the current direction of the electric conductor is the same, and the inner surface of the outer magnet is smooth and flat, and the inner surface is evenly distributed in any shape, size and quantity. a protruding portion or a cylindrical portion (preferably in the form of a strip), the protruding portion or the cylindrical portion is used for the winding of the conductive coil, and the current directions of all the coils are uniform; the inner and outer magnet coils are balanced with each other with respect to the current direction and a straight line On the contrary, the opposite surfaces of the inner and outer magnets are balanced to be smooth and flat to the same magnetic pole and repel each other; when the magnetic strength of the two magnets is uniform, the magnetic strength or the current is increased to achieve suspension or suspension of one of the two magnets; The outer magnet yoke is inward, the inner magnet yoke is outward, and the inner and outer magnet yokes are relatively suspended;

The inner and outer magnets change air gap magnetic levitation

The variable air gap magnetic field is a winding type variable air gap or a straight wire or a conductor variable air gap or an arbitrary air gap, and the two sides open the hollow closed or unclosed annular outer magnet and the hollow inner magnet and the solid hollow outer magnet and the inner side The coil or straight wire or conductor of the magnet has the same current direction, and the opposite surfaces of the inner and outer magnets are divided into two magnetic poles in the right or left direction or in any direction at the center of the current direction, so that the opposite surfaces of the inner and outer magnets are divided into two identical magnetic poles. Repelling, that is, changing the air gap magnetic field; when the magnetic strength of the two magnets is uniform, the magnetic strength or the current is increased, so that one of the two magnets can be suspended or arbitrarily suspended; that is, the outer magnet yoke is inward, and the inner magnet The yoke is outward, and the inner and outer magnet yokes are relatively suspended;

The internal and external magnet circuit manners may be connected by a series circuit, a parallel circuit or an arbitrary circuit;

Second, the principle of magnetic suspension and motion or magnetic suspension mutual suspension and motion

Magnetic field direction

The direction of the magnetic field line of the magnet is linear, and the seamless monopole surface of the electromagnet will present magnetic lines in a straight line direction. The direction of the magnetic field line of the electromagnet is divided into a vertical straight line direction and a radioactive linear direction according to the contact mode of the magnetic substance and the electric conductor; and the linear direction is the magnetic levitation power. Making more favorable;

Inner and outer magnet monopole air gap magnetic levitation

The single-pole air gap magnetic field of the open-ended or non-closed annular outer magnet and the hollow inner magnet and the three-dimensional hollow outer magnet and the inner magnet are specifically inner and outer hollow magnets, and the opposite surfaces of the two magnets are balanced and smooth, and the inner magnet The smooth and flat inner surface of the outer surface is a uniform shape, size, number of convex portions or cylindrical portions (preferably in the form of strips), and the convex portion or the cylindrical portion is used for the winding of the conductive coil and all the coils The current direction is uniform, and the outer surface of the outer magnet is smooth and flat. The outer surface is a uniform shape, size, number of convex portions or cylindrical portions. The convex portion or the cylindrical portion is used for the winding of the conductive coil and the current of all the coils. The directions are the same; the inner and outer magnet coils are balanced with each other and the current direction is perpendicular to the straight line. The opposite surfaces of the inner and outer magnets are balanced with each other. The smooth magnetic poles are the same and repel each other. When the magnetic strength of the two magnets is uniform, the magnetic strength or current increases to achieve the two magnets. One of being suspended or arbitrarily suspended from each other; that is, the outer magnet yoke is inward, and the inner magnet yoke is outward, Said inner and outer magnets opposite the yoke to form a suspension;

In addition, the single-pole air-gap magnetic field of the open-ended or non-closed annular outer magnet and the hollow inner magnet and the three-dimensional hollow outer magnet and the inner magnet are specifically composed of one or more independent parts of the outer magnet hollow inner magnet. The unipolar air gap magnetic field is specifically that the outer surface of the inner magnet is smooth and flat, and is composed of more than one independent part and is arbitrarily closely interlocked with each other (including lamination, welding, boring, outer hoop, lock, nail insertion, and can be inner magnet) A magnet is placed inside and a magnet surface is opposite to the magnetic pole of the inner surface of the inner magnet to generate an attractive force. The outer magnet is provided with a magnet which is hollow and has a magnetic field opposite to the outer surface of the outer magnet to attract an attraction force, so as to absorb between the individual magnets. Repulsive force or magnetic shielding is placed by placing a magnetic shielding material, or another magnet is fixed to fix it (the magnet inside the inner magnet is hollow and the surface of the magnet is opposite to the magnetic pole of the inner surface of the inner magnet to generate an attractive force, and the outer magnet is hollow outside and a magnet having an attractive surface opposite to the magnetic pole of the outer surface of the outer magnet to absorb the respective independent magnetic The repulsion between them is set by magnetic shielding material to set the magnetic shielding), or the surface is welded, the direction of the coil current of the independent part or the current direction of the electric conductor is the same, and the inner surface of the outer magnet is smooth and flat, and the inner surface is evenly distributed in any shape, size and quantity. a protruding portion or a cylindrical portion (preferably in the form of a strip), the protruding portion or the cylindrical portion is used for the winding of the conductive coil, and the current directions of all the coils are uniform; the inner and outer magnet coils are balanced with each other with respect to the current direction and a straight line On the contrary, the opposite surfaces of the inner and outer magnets are balanced to be smooth and flat to the same magnetic pole and repel each other; when the magnetic strength of the two magnets is uniform, the magnetic strength or the current is increased to achieve suspension or suspension of one of the two magnets; The outer magnet yoke is inward, the inner magnet yoke is outward, and the inner and outer magnet yokes are relatively suspended;

The inner and outer magnets change air gap magnetic levitation

The variable air gap magnetic field is a winding type variable air gap or a straight wire or a conductor variable air gap or an arbitrary air gap, and the two sides open the hollow closed or unclosed annular outer magnet and the hollow inner magnet and the solid hollow outer magnet and the inner side The coil or straight wire or conductor of the magnet has the same current direction, and the opposite surfaces of the inner and outer magnets are divided into two magnetic poles in the right or left direction or in any direction at the center of the current direction, so that the opposite surfaces of the inner and outer magnets are divided into two identical magnetic poles. Repelling, that is, changing the air gap magnetic field; when the magnetic strength of the two magnets is uniform, the magnetic strength or the current is increased, so that one of the two magnets can be suspended or arbitrarily suspended; that is, the outer magnet yoke is inward, and the inner magnet The yoke is outward, and the inner and outer magnet yokes are relatively suspended;

The inner and outer magnet circuit modes may be connected by a series circuit, a parallel circuit or an arbitrary circuit;

A hollow closed or unclosed (opening space diameter larger than the diameter of the transverse cross-section of the inner magnet) is open on one side (the diameter of the open space is larger than the diameter of the cross-section of the inner magnet) (the diameter of the non-closed space is smaller than the diameter of the cross-section of the inner magnet). Another magnet of any shape is placed between the two magnets. The opposite surfaces are mutually repulsive with respect to the magnetic poles. In the range of the magnetic induction energy of the two magnets being of similar quality or one of them, when the magnetic strength of the two magnets reaches such that one of them is suspended, the two magnets are arbitrarily suspended from each other; And in the range of the magnetic induction energy in which the mass of the two magnets exceeds one of them, the magnet with less mass is suspended;

The inner and outer magnets may be independent monolithic magnets or combined magnets;

The opposite surface magnetic poles between the inner and outer magnets form a repulsive repulsion which is one of the conditions necessary for magnetic levitation, so that each magnet can independently turn on the current;

The hollow open-ended annular magnet and the inner magnet are in a suspended air magnetic field suspension condition;

When the two surfaces of the two magnets which are annularly surrounded and arbitrarily suspended are smooth and flat, and the two sides are equal in length, the two magnets are relatively stationary. When the opposite surfaces of the two magnets are balanced with each other, the cross-cut lengths of the two sides are not equal. The shorter magnets will be magnetized to the opposite sides of the two sides, the negative pole and the longer magnet surface around the surface of the longer magnet, and the magnets of the positive and negative poles are attracted to each other and the magnetic force of the positive and positive poles is repulsive, causing the two magnets to move relative to each other; or The shorter sides of the magnets do not exert a force on the two sides of the cross section, and the other side generates a force of the same pole repulsive with the opposite magnet surfaces to cause the two magnets to move relative to each other;

When the two surfaces of the two magnets which are annularly surrounded and arbitrarily suspended are smooth and flat, and the two sides are equal in length, the two magnets are relatively stationary. When the opposite surfaces of the two magnets are balanced with each other, the cross-cut lengths of the two sides are equal. The two opposite surfaces of the inner and outer magnets or one of the two surfaces are formed with any cut surface that is consistent or inconsistent with the direction of the power. For example, the inner magnet surface is uniformly distributed and the inner magnet is laterally centered. The left and right sides can also be single-direction left or single direction. a helical gear concave or convex cut surface with a right-angled angle of 90 degrees or less within 180 degrees, opposite to the left and right in the shape of an arrow, and the opposite sides of the cut surface are two positive and negative magnetic poles, wherein the angle is perpendicular to the surface of the magnet and One magnetic pole facing the power direction (such as the fixed inner magnet outer magnet movement is back to the power direction) forms two different magnetic poles with the opposite outer magnet surface, and the attraction is pulled forward according to the principle of magnetic anisotropic attraction, and the other The chamfered magnetic pole forms two identical magnetic poles with the opposite outer magnet surface, and is driven according to the principle of magnetic homosexual repulsive Pushed forward, so that the force generated by the magnet to the two sides of relative movement;

Or the inner magnet surface is evenly distributed with the inner magnet lateral center position left and right, or the single-direction left or single-direction right-angled angle within 90 degrees, the spiral gear is concave or convex, and the left and right are arrow-shaped. In contrast, the opposite sides of the cut surface are opposite to one side of the inner magnet surface and the angle of the inner surface is less than 90 degrees and the other chamfer surface is less than 90 degrees and faces the power direction (such as the fixed inner magnet outer magnet movement is the back-to-power direction). The action of the force, the other chamfered magnetic pole forms two identical magnetic poles with the opposite outer magnet surface, and the driving force is pushed forward according to the principle of magnetic homosexual repulsive, and the generated force causes the two magnets to move relative to each other; the outer magnet must There is no closure in line with the direction of the power (Note: the diameter of the cross-cut of the non-closed space is smaller than the diameter of the cross-section of the inner magnet). The clearance space is fixed or power-connected; if it is not fixed, the power will fly; in order to maintain the magnetic induction between the inner and outer magnets A uniform number of magnets can be added to both sides of the uniform outer magnet gap; a built-in power supply or a built-in power supply can be connected to the external power supply; the electrical conductor or Line can be used with less resistance wire graphene or graphene wires and metal conductors; conductive line portions may be freezing temperature drop and drop across the resistor;

The hollow open-ended annular magnet and the inner magnet are in a single-pole air gap magnetic field suspension; when the inner magnet is made, the inner magnet is divided into one or more independent parts or the inner magnet is hollow or the inner magnet is arbitrarily composed and the inner and outer magnets are arbitrarily configured;

When the two surfaces of the two magnets which are annularly surrounded and arbitrarily suspended are smooth and flat, and the two sides are equal in length, the two magnets are relatively stationary. When the opposite surfaces of the two magnets are balanced with each other, the cross-cut lengths of the two sides are not equal. The shorter magnets will be positively and negatively polarized on both sides of the cross-section, the negative pole and the longer magnet surface will produce positive and negative poles. The different phases attract the same magnetic force as the positive and the positive poles, and the repulsive force causes the two magnets to move relative to each other; The short sides of the short magnets do not exert a force on one side of the cross section, and the other side generates a force of the same pole repulsive with the opposite magnet surface to cause the two magnets to move relative to each other;

When the two surfaces of the two magnets which are annularly surrounded and arbitrarily suspended are smooth and flat, and the two sides are equal in length, the two magnets are relatively stationary. When the opposite surfaces of the two magnets are balanced with each other, the cross-cut lengths of the two sides are equal. One of the two surfaces or two surfaces of the inner and outer magnets is formed with any cutting surface that is consistent or inconsistent with the direction of the power, for example, a spiral having a uniform distribution of the inner magnet surface and a degree of rotation within 90 degrees of the power direction. The concave or convex section of the gear, the opposite sides of the tangential surface are two positive and negative magnetic poles, wherein the angle of the magnet surface is less than 90 degrees and faces the power direction (such as the movement of the outer magnet of the fixed inner magnet is the direction opposite to the power direction) The magnetic pole forms two different magnetic poles with the opposite outer magnet surface, and the attraction is pulled forward according to the principle of magnetic anisotropic attraction, and the other chamfered magnetic pole forms two identical magnetic poles with the opposite outer magnet surface, according to the magnetic isotropic phase. The principle of repulsion generates a driving force to push forward, and the generated force causes the two magnets to move relative to each other;

Or a helical gear-concave or convex-cut surface with a uniform distribution of the inner magnet surface and a rotation angle of 0 degrees or more within 90 degrees of the power direction, and the opposite sides of the cut surface face the inner magnet surface less than the vertical angle and the other chamfered surface A magnetic pole having an angle less than 90 degrees and facing the power direction (such as the movement of the outer magnet of the fixed inner magnet is the direction opposite to the power direction) does not generate a force, and the other chamfered magnetic pole forms two identical magnetic poles with the surface of the opposite outer magnet. According to the principle of magnetic homosexual repelling, the driving force is pushed forward, and the generated force causes the two magnets to move relative to each other; the outer magnet must have a non-closed shape consistent with the power direction (the diameter of the non-closed space is smaller than the diameter of the cross-section of the inner magnet) The gap space is fixed or powered; if it is not fixed, the power will fly; in order to maintain the magnetic induction between the inner and outer magnets, the outer magnet gap can increase the corresponding number of magnets; the built-in power supply or built-in power supply can be connected to the external power supply; Or the wire may be a graphene wire with less resistance or a graphene wire plus a metal conductor; Freezing process can be reduced and the temperature drop across the resistor;

A magnet of any shape is placed in a magnet that is closed or not closed in a three-dimensional hollow [the diameter of the non-closed space is smaller than the diameter of the inner magnet (the smaller the space is better)], and the opposite surfaces of the two magnets balance the magnetic poles Repulsively, in the range of the magnetic induction energy of the two magnets having similar or one of the two magnets, when the magnetic strength of the two magnets reaches such that one of them is suspended, the two magnets are suspended arbitrarily with each other; and the quality of the two magnets exceeds one of them. Within the range of magnetic induction energy, the magnet with less mass is suspended;

The three-dimensional hollow magnet and the inner magnet are in the case of a variable air gap magnetic field suspension; the inner magnet is prevented from being a perfect circle, and the hollow portion of the outer magnet is prevented from being a perfect circle, and the direction of the inner and outer magnets is not in a straight line position because the perfect circular shape is randomly moved;

When the opposite surfaces of the two magnets that are arbitrarily suspended from each other are balanced with each other, the opposite surfaces of the inner and outer magnets are relatively flat and the two magnets are relatively stationary; when the opposite surfaces of the inner and outer magnets are made of one or both surfaces Any section that is consistent or inconsistent with the direction of the power, for example, a uniform distribution of the surface of the inner magnet and a lateral center position of the inner magnet. Left and right can also be rotated in a single direction to the left or a single direction to the right angle of 90 degrees or more. The concave or convex section of the gear is opposite to the left and right in the shape of an arrow. The opposite sides of the section are two positive and negative magnetic poles, wherein the angle is perpendicular to the surface of the magnet and faces the direction of the power (such as the movement of the outer magnet of the fixed inner magnet is back-to-back One magnetic pole of the power direction forms two different magnetic poles with the opposite outer magnet surface, and the attraction is pulled forward according to the principle of magnetic anisotropic attraction, and the other oblique small-cut magnetic pole forms two identical with the opposite outer magnet surface. The magnetic pole, according to the principle of magnetic homosexual repelling, generates a driving force to push forward, and the generated force causes the two magnets to move relative to each other. ;

Or a spherical gear with a uniform inner surface and a lateral center position of the inner magnet. The left and right sides of the inner magnet may also have a single-direction left or a single-direction right-angled angle of 90 degrees or less. The helical gear has a concave or convex cut surface with a degree of rotation of 0 degrees or more. In contrast, the opposite sides of the cut surface are opposite to one side of the inner magnet surface and the angle of the inner surface is less than 90 degrees and the other chamfer surface is less than 90 degrees and faces the power direction (such as the fixed inner magnet outer magnet movement is the back-to-power direction). The action of the force, the other oblique small-cut magnetic pole forms two identical magnetic poles with the opposite outer magnet surface, and the driving force is pushed forward according to the principle of magnetic isotropic repulsion, and the generated force causes the two magnets to move relative to each other; The magnet must have more than one non-closed space [Note: the diameter of the non-closed space is smaller than the diameter of the inner magnet (the smaller the space is better)] The space is fixed or power-connected; in order to keep the magnetic induction between the inner and outer magnets uniform, the outer magnet does not close the space. Add a corresponding number of magnets; can be built-in power supply or built-in power supply and then connected to external power supply; electrical conductors or wires can be used with graphene with less resistance Line or graphene wires and metal conductors; conductive line portions may be freezing temperature drop and drop across the resistor;

The solid hollow magnet and the inner magnet are in a single pole air gap magnetic field suspension state; the inner magnet is divided into one or more independent parts or the inner magnet is hollow or the inner magnet is arbitrarily formed and the inner and outer magnets are arbitrarily formed;

When the opposite surfaces of the two magnets that are arbitrarily suspended from each other are balanced with each other, the opposite surfaces of the inner and outer magnets are relatively flat and the two magnets are relatively stationary; when the opposite surfaces of the inner and outer magnets are made of one or both surfaces Any section that is consistent or inconsistent with the direction of the power, for example, a helically concave or convex section of the same direction in which the inner magnet surface is uniformly distributed, and the opposite sides of the section are two positive and negative magnetic poles, one of which is opposite to the other. The surface of the magnet forms two different magnetic poles, and the attraction is pulled forward according to the principle of magnetic anisotropic attraction, and the other magnetic pole forms two identical magnetic poles with the opposite magnet surface, and the driving force is pushed according to the principle of magnetic homosexual repelling. Moving forward, the force generated causes the two magnets to move relative to each other;

Or a helical gear concave or convex cut surface with a uniform rotation of the inner magnet surface and a rotation angle of 0 degrees or more within 90 degrees of the power direction, and the opposite sides of the cut surface face the inner magnet surface less than the vertical angle and the other oblique direction The small section forms an angle less than 90 degrees and faces the power direction (such as the fixed inner magnet outer magnet movement is back to the power direction) of one magnetic pole does not produce a force, the other oblique small section magnetic pole and the opposite outer magnet surface form two The same magnetic pole, according to the principle of magnetic homosexual repulsive force to generate the driving force to push forward, the force generated causes the two magnets to rotate relative to each other; the outer magnet must have more than one unclosed space [Note: the diameter of the unclosed space is smaller than the inner magnet Diameter (the smaller the space, the better)] The space is fixed or power-connected; in order to keep the magnetic induction between the inner and outer magnets uniform, the outer magnet can be added to the space next to the closed space; the built-in power supply or the built-in power supply can be connected to the external power supply; Or the wire may be a graphene wire or a graphene wire with less resistance and a metal conductor; the conductive pipe portion is made to be frozen. And the temperature drop across the resistor can be reduced;

The dynamic mode of the magnetic induction direction of the inner and outer magnets

When the inner or outer magnet conductive coil winding and the winding salient pole are in the same direction as the power direction or within 90 degrees of the power direction deflection angle and the conductive coil winding and the power direction are left or right, the skew angle is less than 90 degrees and continuous or discontinuous The magnetic induction direction difference guide line or column includes continuous or discontinuous spiral magnetic induction direction difference guide line or column or continuous or discontinuous arbitrary shape magnetic induction direction difference guide line or column; at least two corresponding directions should be made during power production Or a 360-degree spiral magnetic induction direction difference guide line or column or any shape magnetic induction direction difference guide line or column to make the force more uniform;

For example, when the two surfaces of the two magnets that are arbitrarily suspended from each other are balanced with each other, the opposite surfaces of the inner and outer magnets are smooth and smooth, and the corresponding two sides of the outer magnet or the corresponding two rows of spiral outer surfaces of the outer magnet are uniformly arranged. The arranged conductive coil windings, the salient poles of the windings and the windings are inclined within 90 degrees of the power direction, and the magnetic lines of the inner surface portion of the outer magnet of the winding form a thrust force with the magnetic lines of the inner magnet to push forward, so that the relative movement of the two magnets is self-rotating; The strength of the current (magnetic strength) brings out strong power; the outer magnet must have more than one non-closed space [Note: the diameter of the unclosed space is smaller than the diameter of the inner magnet (the smaller the space is better)] the space is fixed or powered; Keep the magnetic induction intensity between the inner and outer magnets evenly. The outer magnet can not increase the corresponding number of magnets next to the closed space; the built-in power supply or built-in power supply can be connected to the external power supply; the electrical conductor or wire can be made of graphene wire or graphene wire with less resistance and metal conductor The part of the conductive pipeline is frozen to reduce the temperature and reduce the resistance;

In addition, the magnetic force has its own unique range. The movement between the magnets beyond the magnetic range cannot be discussed. Therefore, in order to obtain continuous magnet movement force, a track must be provided to ensure the continuity of motion between the magnets, so that the track of continuous movement between the magnets can be maintained. Referred to as a track, the track can be a magnet track, or a non-magnetic track, described herein as a magnet track;

The movement mode of the magnet can be divided into a balanced extended track and a three-dimensional enclosed track.

Balanced extended track

It is a linear or curved balance between the magnet and the track. The distance track is moved according to the length of the track. It consists of a top-bottom plane, a 360-degree annular envelop (tubular) with two open sides, and the hollow sides are not closed. The annular enveloping type (non-closed tubular type) in which the cross-sectional diameter of the non-closed space is smaller than the diameter of the transverse section of the inner magnet can be divided into a circular loop motion type, a linear motion type, and a curved motion type according to the movement direction;

Stereo bound track

Is a surrounding state in which the magnet and the track are closed or not closed in a three-dimensional (inner or outer) manner and the cross-sectional diameter of the space is smaller than the diameter of the inner magnet, and the magnet rotates on the track (inside or outside),

The three-dimensional enclosing track comprises a hollow three-dimensional enclosing type of a magnet and a three-dimensional outer enclosing type of a magnet, and can be divided into a circular shape according to a shape, an elliptical shape, a spherical shape, a turbine shape, a round flat shape, a long flat shape, a spiral shape, and a magnet of any shape rotation type;

The magnet and the track are suspended and moved with each other and are mutually magnetic tracks, that is, when the external magnet is fixed, the external magnet is suspended and moved by the magnet in the track, and when the inner magnet is fixed, the inner magnet is suspended and moved by the outer magnet;

Third, magnetic repulsion energy and power principle

A hollow closed or unclosed (opening space cross-sectional diameter smaller than the diameter of the transverse cross-section of the inner magnet) is opened in one of the two sides (the diameter of the open space is larger than the diameter of the transverse cross-section of the inner magnet), and another one or more magnets of any shape are placed in the middle of the ring magnet, The opposite surface magnetic poles of the two magnets repel each other; there are one or more rows or more movable wheels between the inner and outer magnets.

The hollow open-ended annular magnet and the inner magnet are in a suspended air gap magnetic suspension state;

The opposite surfaces of the two magnets surrounded by the ring are smooth and balanced with each other. When the transverse lengths of the two magnets are equal, the two magnets are relatively stationary. When the opposite surfaces of the two magnets are balanced with each other, the cross-cut lengths of the two sides are not equal. The magnet will cause the two magnets to move relative to each other due to the positive and negative polarities of the positive and negative poles on the two sides of the cross-section, the negative pole and the longer magnet surface. The magnets are repulsive with the positive, positive or negative and negative poles. The short sides of the short magnets do not exert a force on one side of the cross section, and the other side generates a force of reciprocal repulsion with the opposite magnet surfaces to cause the two magnets to move relative to each other;

When the two surfaces of the two magnets which are annularly surrounded and arbitrarily suspended are smooth and flat, and the two sides are equal in length, the two magnets are relatively stationary. When the opposite surfaces of the two magnets are balanced with each other, the cross-cut lengths of the two sides are equal. The two opposite surfaces of the inner and outer magnets or one of the two surfaces are formed with any cut surface that is consistent or inconsistent with the direction of the power, for example, the inner magnet surface is uniformly distributed and the inner magnet is laterally centered, that is, the current direction is in the middle position, left and right. Spiral gear concave or convex cut surface with a left-direction or a single-direction right-angled angle within 90 degrees and a degree of rotation within 180 degrees. The left and right sides are opposite in the shape of an arrow. The opposite sides of the cut surface are positive and negative two different magnetic poles, wherein the angle is A magnetic pole perpendicular to the surface of the magnet and facing the direction of the power (such as the movement of the outer magnet of the fixed inner magnet is opposite to the direction of the power) forms two different magnetic poles with the surface of the opposite outer magnet, and the attraction is pulled according to the principle of magnetic anisotropic attraction. Forward, the other oblique small-cut magnetic pole forms two identical magnetic poles with the opposite outer magnet surface, according to the same magnetic The principle of sexual repulsive force generates a driving force to push forward, and the generated force causes the two magnets to move relative to each other;

Or the inner magnet surface is evenly distributed with the inner magnet lateral center position left and right, or the single-direction left or single-direction right-angled angle within 90 degrees, the spiral gear is concave or convex, and the left and right are arrow-shaped. In contrast, the opposite sides of the cut surface are opposite to the inner magnet surface and the magnetic pole is smaller than the vertical angle and the other oblique small cut surface is less than 90 degrees and faces the power direction (such as the fixed inner magnet outer magnet movement is the back-to-power direction) Without the effect of force, the other oblique small-cut magnetic pole forms two identical magnetic poles with the opposite outer magnet surface, and the driving force is pushed forward according to the principle of magnetic homosexual repulsive, and the generated force causes the two magnets to move relative to each other. The outer magnet shall have a non-closed shape that is consistent with the direction of the power (the diameter of the non-closed space is smaller than the diameter of the cross-section of the inner magnet). The gap space is fixed or powered; if it is not fixed, the power will fly; in order to maintain the magnetic between the inner and outer magnets Uniform intensity of the external magnet gap can increase the corresponding number of magnets on both sides; can be built-in power supply or built-in power supply and then connected to external power supply; conductance Or less available wire resistance wire graphene or graphene wires and metal conductors; conductive line portions may be freezing temperature drop and drop across the resistor;

When the hollow two-side open ring magnet and the inner magnet are in a single-pole air gap magnetic field suspension, the inner magnet is divided into one or more independent parts or the inner magnet is hollow or the inner magnet is arbitrarily formed and the inner and outer magnets are arbitrarily formed;

When the two surfaces of the two magnets which are annularly surrounded and arbitrarily suspended are smooth and flat, and the two sides are equal in length, the two magnets are relatively stationary. When the opposite surfaces of the two magnets are balanced with each other, the cross-cut lengths of the two sides are not equal. The shorter magnets will be positively and negatively polarized on both sides of the cross-section, the negative pole and the longer magnet surface will produce positive and negative polarities. The different phases attract the positive, positive or negative, and the negative poles are magnetically repulsive and the two magnets are opposite to each other. Movement; or the shorter side of the magnet has no force acting on one side of the cross section; the other side generates a force that repels the same pole with the opposite magnet surface to cause the two magnets to move relative to each other;

When the two surfaces of the two magnets which are annularly surrounded and arbitrarily suspended are smooth and flat, and the two sides are equal in length, the two magnets are relatively stationary. When the opposite surfaces of the two magnets are balanced with each other, the cross-cut lengths of the two sides are equal. One of the two surfaces or two surfaces of the inner and outer magnets is formed with any cutting surface that is consistent or inconsistent with the direction of the power, for example, a spiral having a uniform distribution of the inner magnet surface and a degree of rotation within 90 degrees of the power direction. The concave or convex section of the gear, the opposite sides of the cut surface are two different positive and negative magnetic poles, wherein the angle of the magnet surface is less than 90 degrees and faces the power direction (such as the movement of the outer magnet of the fixed inner magnet is the back-to-power direction) One magnetic pole forms two different magnetic poles with the opposite outer magnet surface, and the attraction is pulled forward according to the principle of magnetic anisotropic attraction, and the other oblique small-cut magnetic pole forms two identical magnetic poles with the opposite outer magnet surface. According to the principle of magnetic homosexual repelling, the driving force is pushed forward, and the generated force causes the two magnets to move relative to each other;

Or a helical gear concave or convex cut surface with a uniform rotation of the inner magnet surface and a rotation angle of 0 degrees or more within 90 degrees of the power direction, and the opposite sides of the cut surface face the inner magnet surface less than the vertical angle and the other oblique direction The small section forms an angle less than 90 degrees and faces the power direction (such as the fixed inner magnet outer magnet movement is back to the power direction) of one magnetic pole does not produce a force, the other oblique small section magnetic pole and the opposite outer magnet surface form two The same magnetic pole, according to the principle of magnetic homosexual repelling, generates the driving force to push forward, and the generated force causes the two magnets to move relative to each other; the outer magnet must have the same closing direction as the power direction (the non-closed space cross-cut diameter is smaller than the inner diameter) The diameter of the cross-section of the magnet) is fixed or connected by the gap space; if it is not fixed, the power will fly; in order to keep the magnetic induction between the inner and outer magnets uniform, the outer magnet gap can increase the corresponding number of magnets; the built-in power supply or the built-in power supply can be connected. External power supply; electrical conductors or wires may be made of graphene wires with less resistance or graphene wires plus metal conductors; The conductive pipeline is partially frozen to reduce temperature and reduce resistance;

In a three-dimensional hollow non-closed [non-closed space diameter is smaller than the inner magnet diameter (the smaller the space is better)], another magnet of any shape is placed in the magnet of any shape, and the opposite surfaces of the two magnets rebalance each other. In the range of the magnetic induction energy of the two magnets having similar or one of the two magnets, when the magnetic strength of the two magnets reaches such that one of them is suspended, the two magnets are suspended arbitrarily with each other; and the magnetic mass of the two magnets exceeds one of them. a magnet with less mass in the sense energy range is suspended;

The three-dimensional hollow magnet and the inner magnet are in the case of a variable air gap magnetic field suspension; the inner magnet is prevented from being a perfect circle, and the hollow portion of the outer magnet is prevented from being a perfect circle, and the direction of the inner and outer magnets is not in a straight line position because the perfect circular shape is randomly moved;

When the opposite surfaces of the two magnets that are arbitrarily suspended from each other are balanced with each other, the opposite surfaces of the inner and outer magnets are relatively flat and the two magnets are relatively stationary; when the opposite surfaces of the inner and outer magnets are made of one or both surfaces Any section that is consistent or inconsistent with the direction of the power, for example, a uniform distribution of the surface of the inner magnet and a lateral center position of the inner magnet. Left and right can also be rotated in a single direction to the left or a single direction to the right angle of 90 degrees or more. The concave or convex section of the gear is opposite to the left and right in the shape of an arrow. The opposite sides of the section are two positive and negative magnetic poles, wherein the angle is perpendicular to the surface of the magnet and faces the direction of the power (such as the movement of the outer magnet of the fixed inner magnet is back-to-back One magnetic pole of the power direction forms two different magnetic poles with the surface of the opposite outer magnet, and the attraction is pulled forward according to the principle of magnetic anisotropic attraction, and the other oblique small-cut magnetic pole forms two identical with the opposite outer magnet surface. The magnetic pole, according to the principle of magnetic homosexual repelling, generates a driving force to push forward, and the generated force causes the two magnets to move relative to each other. ;

Or a spherical gear with a uniform inner surface and a lateral center position of the inner magnet. The left and right sides of the inner magnet may also have a single-direction left or a single-direction right-angled angle of 90 degrees or less. The helical gear has a concave or convex cut surface with a degree of rotation of 0 degrees or more. In contrast, the opposite sides of the cut surface are opposite to the inner magnet surface and the magnetic pole is smaller than the vertical angle and the other oblique small cut surface is less than 90 degrees and faces the power direction (such as the fixed inner magnet outer magnet movement is the back-to-power direction) Without the effect of force, the other oblique small-cut magnetic pole forms two identical magnetic poles with the opposite outer magnet surface, and the driving force is pushed forward according to the principle of magnetic homosexual repulsive, and the generated force causes the two magnets to move relative to each other. The outer magnet must have more than one non-closed space [the diameter of the non-closed space is smaller than the diameter of the inner magnet (the smaller the space is better)] the space is fixed or the power connection; in order to keep the magnetic induction intensity between the inner and outer magnets uniform, the outer magnet does not close the space. Add a corresponding number of magnets; can be built-in power supply or built-in power supply and then connected to external power supply; electrical conductors or wires can be used with graphene with less resistance Line or graphene wires and metal conductors; conductive line portions may be freezing temperature drop and drop across the resistor;

When the three-dimensional hollow magnet and the inner magnet are in a single-pole air gap magnetic field suspension, the inner magnet is divided into one or more independent parts or the inner magnet is hollow or the inner magnet is arbitrarily formed and the inner and outer magnets are arbitrarily formed;

When the two opposite surfaces of the two magnets that are arbitrarily suspended from each other are balanced with each other, the opposite surfaces of the inner and outer magnets are relatively smooth and the two magnets are relatively stationary; when the opposite surfaces of the inner and outer magnets are made of one or both surfaces Any section that is consistent or inconsistent with the direction of the power, for example, a concave or convex section of the gear that is uniformly distributed on the surface of the inner magnet and that is in the same direction as the power direction or a spiral that is not limited to the degree of rotation of the left or right of the power direction by 90 degrees. When the concave or convex section of the gear or any section within 90 degrees of the left or right deviation angle of the power direction, the opposite small sides of the section are two positive and negative magnetic poles, one of which forms two opposite surfaces of the opposite magnet. Different magnetic poles, according to the principle of magnetic anisotropic attraction, produce attractive force to pull forward, and the other magnetic pole forms two identical magnetic poles with the opposite magnet surface, and generates a driving force to push forward according to the principle of magnetic isotropic repulsion. Let the two magnets move relative to each other;

For example, a helical gear concave or convex cut surface with a 360 degree rotation angle of 90 degrees or less in the left or right deviation angle of the power direction is an angle perpendicular to the surface of the magnet and facing the power direction (such as the movement of the outer magnet of the fixed inner magnet) a helical gear-shaped inner or outer section consisting of a vertical small section facing away from the power direction and an oblique surface having a smaller angle of less than 90 degrees. The opposite sides of the section are two positive and negative magnetic poles, wherein the angle is perpendicular to One magnetic pole on the surface of the magnet forms two different magnetic poles with the opposite inner or outer magnet surface, and the attraction is pulled forward according to the principle of magnetic anisotropic attraction, and the other oblique small-cut magnetic pole forms the surface of the opposite inner or outer magnet. Two identical magnetic poles, according to the principle of magnetic homopolar repulsion, generate a driving force to push forward, and the generated force causes the two magnets to rotate relative to each other;

Or a helical gear concave or convex cut surface with a uniform rotation of the inner magnet surface and a rotation angle of 0 degrees or more within 90 degrees of the power direction, and the opposite sides of the cut surface face the inner magnet surface smaller than the vertical angle and the other chamfered surface One magnetic pole having a composition angle less than 90 degrees and facing the power direction (such as the movement of the outer magnet of the fixed inner magnet is opposite to the power direction) does not generate a force, and the other oblique small-section magnetic pole forms two identical with the surface of the opposite outer magnet. The magnetic pole generates a driving force to push forward according to the principle of magnetic homosexual repulsiveness, and the generated force causes the two magnets to rotate relative to each other; the outer magnet must have more than one unclosed space [Note: the diameter of the unclosed space is smaller than the diameter of the inner magnet ( The smaller the space, the better.)] The space is fixed or power-connected; in order to keep the magnetic induction between the inner and outer magnets uniform, the outer magnet can be added to the side of the space without the closed space; the built-in power supply or the built-in power supply can be connected to the external power supply; the electrical conductor or the wire It is possible to use a graphene wire or a graphene wire with less resistance to add a metal conductor; And the temperature drop across the resistor;

Magnetic induction direction difference power mode

When the inner or outer magnet conductive coil winding and the winding salient pole are in the same direction as the power direction or within 90 degrees of the power direction deflection angle and the conductive coil winding and the power direction are left or right, the skew angle is less than 90 degrees and continuous or discontinuous The magnetic induction direction difference guide line or column includes continuous or discontinuous spiral magnetic induction direction difference guide line or column or continuous or discontinuous arbitrary shape magnetic induction direction difference guide line or column; at least two corresponding directions should be made during power production Or a 360-degree spiral magnetic induction direction difference guide line or column or any shape magnetic induction direction difference guide line or column to make the force more uniform;

For example, when two surfaces of the two magnets that are arbitrarily suspended from each other are balanced with each other, the opposite surfaces of the inner and outer magnets are flat and smooth, and the corresponding two sides of the outer magnet or the corresponding two rows of spirals of the outer surface of the outer magnet are uniformly distributed. The arranged conductive coil windings, the salient poles of the windings and the windings are inclined within 90 degrees of the power direction, and the magnetic lines of the inner surface portion of the outer magnet of the winding form a thrust force with the magnetic lines of the inner magnet to push forward, so that the relative movement of the two magnets is self-rotating; The strength of the current (magnetic strength) brings out strong power; the outer magnet must have more than one non-closed space [Note: the diameter of the unclosed space is smaller than the diameter of the inner magnet (the smaller the space is better)] the space is fixed or powered; Keep the magnetic induction intensity between the inner and outer magnets evenly. The outer magnet can not increase the corresponding number of magnets next to the closed space; the built-in power supply or built-in power supply can be connected to the external power supply; the electrical conductor or wire can be made of graphene wire or graphene wire with less resistance and metal conductor The part of the conductive pipeline is frozen to reduce the temperature and reduce the resistance;

Using an electronic drive control system or a remote electronic drive control system;

Force area between magnets:

When magnets of the same mass and magnetic strength are the same, the magnetic repulsion between the magnets will be different depending on the size of the mutual force. Therefore, changing the mutual force area of the magnets increases the mutual force area between the magnets, which increases the mutual magnetic force. Big;

Magnetic levitation distance point:

Suspension distance point = repulsive force between magnets, magnet weight

Under a certain magnetic strength, the two opposite magnetic poles of the two magnets are the same and the two surfaces are close to each other in the vertical balance direction. The two magnets suspend the suspension at a position where the weight is equal to the repulsive force. This position is also called the magnetic levitation distance point. Repulsive point;

Magnetic range

The magnetic force has a range. The magnetic force range is 360 degrees from the center of the magnetic pole. The magnitude of the magnetic force determines the size of the magnetic force. The magnetic force is not obvious beyond the magnetic radius of the magnetic pole.

The magnetic levitation distance between the inner and outer magnets is equal to the magnetic levitation distance point, and the mutual repulsion causes the inner and outer magnets to float and move with each other;

When the magnetic levitation distance between the inner and outer magnets is smaller than the magnetic levitation distance point, the mutual repulsion force is increased, so that the mutual movement speed between the inner and outer magnets is significantly accelerated, and the magnetic strength (current) is larger inside and outside. The smaller the suspension distance between the magnets is, the larger the mutual repulsive force between the magnets is, the higher the mutual repulsion between the magnets enters the high speed and the super high speed;

Namely: magnetic levitation repulsion type ultra-high speed motion (power, speed) magnetic dynamic formula

Power, speed = repulsive force between magnets + traction + driving force

Repulsive force between magnets = distance between magnets, mass of magnet itself, magnetic strength (current), mutual force area between magnets

Traction between magnets = distance between magnets, magnetic strength (current), mutual force area between magnets

Pushing force between magnets = distance between magnets, magnetic strength (current), mutual force area between magnets

The repulsive force between the inner and outer magnets is a levitation force when the distance between the magnets is equal to the magnetic levitation distance point, because the inner and outer magnets are in a three-dimensional or annular enclosing manner, and the distance between the inner and outer magnets is fixed. When the (current) increases, there is no way to resolve the pressure by the magnetic suspension position of the lifting magnet. Therefore, the increase of the magnetic strength (current) makes the repulsive force smaller than the magnetic levitation distance point become the pressure. According to the principle of the force and the reaction force, the pressure is converted into the power. Therefore, the repulsive force smaller than the magnetic levitation distance point is equal to more than twice the magnetic levitation distance point, and the repulsion force smaller than the magnetic levitation distance point is increased by the reaction force, and the growth amount is several times or several hundred times. In this case, the traction force and the driving force have no obvious repulsive force. When the magnetic levitation distance is smaller than the magnetic levitation distance, the increase of the traction force and the urging force is lower than that of the repulsion. When the magnetic strength increases, the repulsion, traction force and driving force between the magnets are smaller than the magnetic levitation distance. Increase at the same time, and increase the maximum is the repulsive force, so when the magnetic strength (current) increases, the magnetic levitation distance is smaller than the magnetic levitation point, The ultra-high-speed motion (power, speed) is generated between the outer magnets. Therefore, the repulsion-type ultra-high-speed motion (power, speed) of the magnetic levitation is the key to the repulsion between the magnets;

Therefore, the force-receiving area of the repulsive force between the magnets should be greatly increased during power production;

And the repulsive force between the inner and outer magnets at this time is a stereo vertical direction or a circular 360 degree vertical direction, when the repulsive force between the inner and outer magnets is greater than the sum of the traction force and the driving force and is greater than the external force and the external force and the traction force driving direction When the same straight line or balance line is completely opposite, and the external force is greater than the sum of the traction force and the driving force, the power direction will be reversed and moved backwards in the opposite direction; in this case, the external force is changed or the direction is Change the direction of the traction and driving force, that is, the direction of the power, as long as the direction is not the same straight line or the balance line is completely opposite. When the external force is greater than the sum of the traction force and the driving force, the power will only stop and the power direction will not reverse the reverse direction. In the case, because the large three-dimensional or annular magnet repulsion will correct the direction of motion and the direction of external force, the power will be generated after correction; that is, after the correction, the repulsion between the magnet and the driving force and traction generate ultra-high-speed magnetic levitation motion or power. ;

For example, when the direction of the external force cannot be changed, the guide section with a left or right deviation angle of less than 90 degrees from the power direction and continuous or discontinuous includes a continuous or discontinuous helical gear-shaped guide section or a continuous or discontinuous arbitrary shape-oriented section change. The direction of the traction or driving force is the direction of the power; therefore, the force-receiving area of the repulsion between the magnets during power production should be made of at least two corresponding directions or 360-degree helical gear-shaped guiding surfaces or any shape-oriented cutting surfaces to make the force more uniform; The direction can also use a guide line or column that is inconsistent with the direction of the power and has a magnetic induction direction difference between the magnets, the inner magnet or the outer magnet conductive coil winding and the winding salient pole are within 90 degrees of the power direction deflection angle and the conductive coil winding and the power Directional left or right skew angle less than 90 degrees and continuous or discontinuous magnetic induction direction difference guide line or column including continuous or discontinuous spiral magnetic induction direction difference guide line or column or continuous or discontinuous arbitrary shape magnetic sense direction difference Guide line or column; at least two corresponding directions or 360 degrees of spiral magnetic direction difference should be made during power production Differences in the line or guide wire or any row or column direction of the magnetic induction shape make the force more evenly;

When the direction of the external force and the direction of the traction force and the driving force between the magnets, that is, the direction of the power, cannot be changed, the traction force and the driving force between the magnets can be made larger than the external power to prevent the power direction from moving backwards in the reverse direction;

Therefore, when the direction of the external force is the same as the direction of the traction force and the driving force, that is, when the distance between the magnets is fixed or the current is increased, there is no way to resolve the pressure by the magnetic suspension position of the lifting magnet, when the magnetic strength or current is increased to the magnet. The repulsive force between the magnets whose distance is smaller than the magnetic levitation distance becomes the pressure and the sum of the traction force and the urging force between the magnets is greater than the external force such as the air resistance, and the force and the reaction force due to the repulsion between the magnets enter the ultrahigh-speed magnetic levitation. Movement or power, speed; that is, power, speed = traction between magnets + driving force - external force + repulsive force between magnets including force and reaction force, external force can be added to the weight of the magnet itself;

When the direction of the external force is different from the direction of the traction and the driving force, that is, the direction of the power, when the distance between the magnets has a fixed magnetic strength (current), there is no way to resolve the pressure by the magnetic suspension position of the lifting magnet. When the magnetic strength or current increases to the magnet The repulsive force between the magnets whose distance is less than the distance of the magnetic levitation becomes the pressure. The force and the reaction force of the repulsion between the magnets cause a large repulsion between the inner and outer magnets or the 360-degree circular vertical direction. The huge repulsive force between the magnets Correct the direction of external force and the direction of power. After correction, balance the magnets, stabilize the suspension and propulsion and traction to produce ultra-high-speed magnetic levitation motion or power and speed; that is, power, speed = repulsion between magnets including force and reaction force - External force + magnet traction + driving force, external force can be added to the magnet itself to calculate the weight;

The magnetic levitation distance between the inner and outer magnets is a boundary point defining the magnetic levitation energy and the ultra-high magnetic levitation energy. The ultra-high magnetic levitation energy is based on the magnetic properties of the magnetic material through the distance between the fixed magnets. The increase is not limited to increase the distance between the fixed magnets at a distance less than the magnetic levitation distance. The repulsion between the magnets (ie, the levitation force) is converted into pressure, and the normal amount of magnetic energy is obtained under the principle of the force and the reaction force. a magnetic levitation energy source that is several times or hundreds of times or more, that is, a magnetic levitation energy source that obtains several times or several hundred times or more with a normal amount of magnetic energy or electric energy under the action of a force and a reaction force by increasing the pressure between the magnets;

The magnetic levitation distance between the inner and outer magnets is the boundary between the magnetic levitation motion and the ultra-high-speed magnetic levitation motion. The ultra-high-speed magnetic levitation energy and power are based on the magnetic properties of the magnetic material through the distance between the fixed magnets. The increase is not limited to increase the distance between the fixed magnets at a distance less than the magnetic levitation distance. The repulsion between the magnets (ie, the levitation force) is converted into pressure, and the driving force and the traction force of the guiding section are used to convert the pressure into power. Under the principle of force and reaction force, the magnetic energy of several times or hundreds of times is used to obtain the magnetic levitation power energy, that is, the repulsion between the magnets is increased by pressure and power steering or power steering and the effects of force and reaction force are corrected. The magnetic levitation pulsating power source is obtained several times or several hundred times or more with a normal amount of magnetic energy or electric energy; or the magnetic levitation repulsion energy is combined with the external power to obtain a huge magnetic levitation repulsion power source;

In addition, since the distance between the inner and outer magnets is fixed, the current can be increased without limitation, and the repulsive force between the magnets smaller than the magnetic suspension distance point, that is, the pressure is also increased, and the limit is the magnetic pressure endurance limit of the inner and outer magnets or the magnet. The magnetic energy limit, so the power and energy space is huge.
A step-by-step connection method for a rotating object power supply, that is, a method for accessing and receiving power to a rotating electric wire, characterized in that all the rotating wires connected or connected on the first rotating object are fixed at a moving point The wire on the moving point is fixed on the side of the rocker or pulley or the resilience spiral wire to remove the rotating force and connect the power supply smoothly; the movable part of the other wire can be composed of the liquid conductive material wrapped by the insulator. Because of its high degree of softness.
The magnetic suspension repulsion energy power production method according to claim 1 and the machine and engineering thereof are characterized in that an internal power source can be set or a power source step-by-step connection method can be used to connect an external power source or a brush power source connection method or a brushless power source connection method or any power source. A connection method, and a power supply circuit lead or conductive material according to claim 2, comprising a metal wire or conductor and a non-metallic wire or conductor and a liquid conductive substance.
The method for manufacturing a magnetic levitation repulsion energy source according to claim 1 and the machine and engineering thereof are characterized in that the outer magnet can independently wrap or independently support another one or more magnets during the magnetic repulsion stereoscopic suspension rotation movement of the solid hollow magnet and the inner magnet. Suspension and movement, or the magnetic repulsive stereoscopic suspension rotation movement of the solid hollow magnet and the inner magnet, the outer magnet combination wraps or combines to support the suspension or movement of the other or more magnets, and the combined magnet does not have a closed space diameter or a cross-sectional diameter smaller than the inner magnet One of the diameter or cross-sectional diameter and the opposite surface between the magnets or the opposite surface between the magnets is a spiral guiding section or an arbitrary shape guiding section which is inconsistent with the direction of the external force, or is inconsistent with the direction of the external force. Or the column or any shape of the magnetic induction direction is different from the guide line or column of the magnet suspension and motion.
The magnetic suspension repulsion energy source manufacturing method according to claim 1 and the machine and engineering thereof are characterized in that the inner and outer magnet materials are all made of electromagnets or all of the magnet materials are made of permanent magnets or permanent magnet electromagnets or electromagnets or The permanent magnet is mixed with the anti-magnet.
The method for manufacturing a magnetic levitation repulsion energy source according to claim 1 and a machine and engineering thereof, which are all made of a magnetic material or a material capable of generating an electric field and a magnetic field or diamagnetism after being energized; or all of the liquid magnetic material and after being energized Made of liquid magnetic materials that generate electric and magnetic fields or diamagnetic.
A magnetic suspension repulsion energy source manufacturing method according to claim 1 and a machine therefor, characterized in that the cooling system or cooling method of the electrical conductor or magnet comprises a physical cooling system or method and a chemical cooling system or method; and according to claim 1 The magnetic levitation repulsion energy source and the power machine and the engineering are characterized in that the track comprises a magnet-moving magnetic levitation pulsating energy source and a power machine and engineering using a non-magnetic track as a track.
The magnet according to claim 1 characterized by a magnetic material, a material that can be magnetized, a diamagnetic material, a metal or material that is energized with magnetic properties, a metal or material that is energized with diamagnetism, a natural magnetic material, a permanent magnetic material, and often Magnetic materials, superconducting magnetic materials, natural magnetic materials, liquid magnetic materials.
The method for manufacturing a magnetic levitation repulsion energy source according to claim 1 and the machine and the engineering thereof are characterized in that the annular magnet and the inner magnet are open on both sides of the hollow (the diameter of the open portion is larger than the diameter of the inner magnet), and are suspended in a circular shape, a circular shape, and a circular shape. The spherical shape is a cyclic winding motion and the linear shape is a straight line length distance reciprocating motion or a curved shape curve length distance reciprocating motion; and the inner and outer magnets may be independent integral or multiple combinations.
The magnetic suspension repulsion energy source manufacturing method according to claim 1 and the machine and engineering thereof are characterized in that the open-ended hollow ring magnet and the inner magnet are suspended by 360 degrees when moving in a straight line or a curved length, and the solid hollow magnet and the inner magnet are rotated. When the movement is a three-dimensional suspension; and the magnetic suspension repulsion energy source and the power machine and the engineering according to claim 1 are characterized in that the open-ended hollow ring magnet and the inner magnet move at a distance of a straight line or a curved length for a 360 degree suspension, the solid hollow magnet and the inner When the magnet is rotated, it is a three-dimensional suspension.
The magnetic suspension repulsion energy power production method according to claim 1 and the machine and the engineering thereof are characterized in that the open-ended hollow ring magnet and the inner magnet are in a straight line or a curved length distance form, and the magnetic levitation repulsion motion includes multiple magnet magnetic levitation repulsion motion or juxtaposition Magnet magnetic suspension repulsion motion, stereo hollow magnet and internal magnet for self-rotation form magnetic suspension repulsion motion includes multiple magnet magnetic levitation repulsion motion or parallel magnet magnetic levitation repulsion motion.
The magnetic suspension repulsion energy source manufacturing method according to claim 1 and the machine and engineering thereof are characterized in that the open-ended hollow ring magnet and the inner magnet move at a distance of a straight line or a curved length to form a 360-degree annular magnetic repulsion, the solid hollow magnet and the inner When the magnet is rotated, the magnetic repulsion force is stereoscopically surrounded, and one of the inner and outer magnets or the inner and outer magnets is a spiral guiding section or an arbitrary shape guiding section which is inconsistent with the direction of the external force, or a spiral magnetic direction difference guide line or column or any shape The magnetic induction direction is different from the guide line or column.
The magnetic suspension repulsion energy power production method according to claim 1 and the machine and engineering thereof are characterized by comprising an alternating current power source and a direct current power source, and comprising a high and low voltage power source and an arbitrary circuit mode.