CN118877187A - The appearance of electromagnetic powered aircraft - Google Patents

Abstract

The earth is a magnet. We can make a strong magnet that rotates and repels the earth's magnetic field. We can use the difference in magnetic field to generate power or anti-gravity, and completely simulate the principle of stars rotating, suspending, and running in space to manufacture electromagnetic powered aircraft. This has changed the aerodynamics of traditional aircraft. It makes it possible for electromagnetic powered spacecraft to operate on land, sea, air, and in space. It makes it possible for superconducting anti-gravity magnetic levitation flying saucers to navigate in space. The present invention is mainly based on the power operation principle and structure of electromagnetic powered aircraft, with the stability of the central axis of the rotating aircraft as the basic principle, including rounded corner design, to design the appearance of the electromagnetic powered aircraft. And design the appearance of a variety of electromagnetic powered aircraft based on flat-bottomed spheres, spheres, saucers, cone-head cylinders, cigar shapes (or cylinders), pyramids, triangles, and circular rings.

Description

The appearance of electromagnetic powered aircraft

Technical field: We can completely simulate the principle of stars (or yin and yang particles) rotating, levitating and running in space to manufacture electromagnetic powered aircraft. The earth is a magnet. We can make a strong magnet that rotates and repels the earth's magnetic field. We can use the magnetic field difference to generate power or anti-gravity for space travel. And we can design the shape of the electromagnetic powered aircraft.

Black holes, planets, electrons, etc. in the universe carry low-temperature negative charges. Stars, atomic nuclei, protons, etc. carry high-temperature positive charges. All objects are composed of electrons and atomic nuclei or anions and cations, and they are also yin and yang particles. Atoms are divided into atomic nuclei and electrons, and molecules are divided into cations and anions. Stars are positively charged high-temperature yang particles, and planets are negatively charged low-temperature negative particles. Rotating anions and cations generate magnetic fields, and generate the north and south magnetic poles of stars or particles, thereby generating gravitational and repulsive forces between objects. The superposition of magnetic fields thus generates the space electromagnetic field in the universe. Electromagnetic induction is generated, and the rotation of yin and yang particles and movement along the spin magnetic pole axis are caused. The principle of planets orbiting stars and electrons orbiting atomic nuclei is the same (macro and micro are unified). Universal gravitation is electromagnetic force. The Milky Way is like a large gear system, composed of black holes, stars, planets, atomic nuclei, electrons, etc., and driven by the space electromagnetic field to produce interactions. Black holes are the main power source of the space electromagnetic field, which is composed of all stars and particles in the universe. It is also called Taiyi or ether. All objects can be divided into positively charged, negatively charged, and relatively neutral. Existing spacecraft are all developed based on gravity and aerodynamics. All objects are magnets. By using the attraction and repulsion between magnets, we can use the electromagnetic field in space or artificial electromagnetic fields to manufacture electromagnetic powered spacecraft. Electromagnetic powered spacecraft has almost all the advantages of high speed, good stability, small inertia, high maneuverability, large load capacity, energy saving, safety, and environmental protection. It should be able to operate on land, sea, air, and space.

Background technology: Objects are acted upon by two system forces, one is electromagnetic induction force. Atoms are composed of electrons and atomic nuclei or anions and cations, and rotating objects generate magnetic fields. Electromagnetic induction generates induced currents and magnetic attraction in the same or opposite directions, and electromagnetic self-locking is generated. Just like the directional rotation and attraction of electrons in the atoms of a magnet. For example, the rotation of the sun, planets, and the earth, polar cyclones, tornadoes and whirlpools, the spin of some atomic nuclei and electrons, and the spin of electromagnetic waves. When viewed from above the northern hemisphere of the earth, they all rotate counterclockwise, and the southern hemisphere rotates clockwise. This force is mainly caused by the rotation of the black hole at the center of the Milky Way, and electromagnetic induction to the Milky Way, the sun, the earth, and objects on the earth, including atoms. This is the electromagnetic induction force (not caused by the Coriolis force). The direction of the electromagnetic induction force on the earth is parallel to the earth's magnetic pole axis in a macroscopic sense, and along the earth's magnetic field lines in a microscopic sense. Electromagnetic induction force is the basis of the movement of all things. The other is electromagnetic attraction. Electromagnetic attraction is caused by the rotation of the atomic nuclei and electrons of electromagnetic induction objects, and the resulting current is subjected to the combined force of the Ampere force in the earth's magnetic field. The direction of this force is perpendicular to the earth's magnetic pole axis according to the left-hand rule (the horizontal component of the electromagnetic field in space can also be used to define electromagnetic attraction). Electromagnetic attraction can also produce repulsive force, just like the plane repulsion of charges of the same kind. Electromagnetic induction force and electromagnetic attraction produce universal gravitation. Universal gravitation is generated by the electromagnetic force formed by the electromagnetic field or the changing electromagnetic field. Electromagnetic induction and electromagnetic attraction are applicable to both macroscopic objects and microscopic particles. Electromagnetic induction force causes the rotation of solar system celestial bodies, and the rotation of solar system celestial bodies from north to south along the magnetic pole axis. Electromagnetic attraction causes the revolution of solar system celestial bodies. Electromagnetic induction force causes charges of the same kind to produce the same magnetic attraction along the spin magnetic pole axis or the direction of electromagnetic induction force, and repel a small number of charges of different kinds. This can cause electromagnetic powered aircraft to run in the direction of electromagnetic induction force. In the ecliptic plane, charges of the same kind repel each other when there are more of them. Charges of different kinds attract each other. This can cause the electromagnetic powered aircraft to move in the direction of electromagnetic gravity.

(As shown in Figure 9) is a schematic diagram of the positive and negative charge properties, rotation direction, magnetic pole direction and the effect of the magnetic field lines of the sun. In the movement of celestial bodies in the solar system, planets are attracted by stars. Stars are high-temperature positively charged particles, and planets are low-temperature negatively charged particles. The electromagnetic induction force makes the sun and planets rotate counterclockwise when viewed from above the northern hemisphere of the earth. It also makes the magnetic pole axes of the stars and planets opposite and parallel. In the direction of the magnetic pole axis, the magnetic field of the star is The planet's magnetic field is Therefore, in the orbit of the solar system, the stars and planets attract each other (the electromagnetic attraction and centripetal force are balanced), and the planets repel each other. Therefore, planets are generally not attracted to stars, and planets will not collide with each other. The magnetic field of the star in the orbit is distributed according to the Tai Chi diagram, not uniform. Therefore, the orbit of the planet is divided into long and short axes.

In the case of low-temperature superconductivity, the atomic nuclei and cations in the superconductor are still and do not rotate (frozen), leaving only negative charges such as low-temperature electrons. The electromagnetic force of the atomic nuclei on the electrons in the superconductor is zero. The electrons are not bound and have no resistance, and superconductivity will be generated when voltage is applied. When direct current or direct current pulses are passed through the ring-shaped superconductor, the superconductor generates superconducting current and superconducting strong magnetic field. The superconducting strong magnetic field or strong variable magnetic field rotates in the opposite direction to repel the earth's magnetic field, which can obtain super-strong superconducting carrying capacity and lifting force. It can be used in aircraft.

We can obtain strong magnets, which can react with artificial magnetic fields or natural magnetic fields to generate power or anti-gravity. Electromagnetic powered aircraft can obtain magnetism in the following ways. 1. Superconductivity, 2. Electricity is supplied to superconductors or magnetic materials, 3. Electromagnetic induction of superconductors or conductors by magnets, electromagnetic coils, electromagnetic waves, etc., 4. Rotating negative and positive particles, etc. The obtained strong magnets can be used to interact with artificial electromagnetic tracks or natural electromagnetic tracks such as the earth's magnetic field to generate power or anti-gravity. For example, maglev trains and flying saucers. The available power materials include 1. superconductors, 2. liquid superconductors, 3. plasma, 4. strong magnets, 5. wires or electromagnetic coils, 6. strong capacitors, etc. Better power methods include 1. superconductor or liquid superconductor columns (as shown in Figure 1, number 1), 2. superconductor or liquid superconductor volume cavities (as shown in Figure 3, number 2), etc.

Summary of the invention:

We take the stability of the axisymmetric of the rotating yin and yang particles as the basic principle, and the space of the power unit and the cockpit as the main basis for thinking. Design the basic shape of the electromagnetic powered aircraft. Because the magnetism is strong, in order to avoid tip discharge, the shape is basically designed with rounded corners. Electromagnetic powered aircraft can be divided into: 1 flat-bottomed sphere, 2 sphere, 3 dish, 4 cone-head cylinder, 5 cigar shape (or cylinder), 6 pairs of pyramids, 7 triangles, 8 rings, etc. There can be many shapes of electromagnetic powered aircraft. The best design is axisymmetric.

Scheme 1 (as shown in Figure 1): Flat-bottomed spherical electromagnetic powered aircraft shape. This aircraft shape design is based on a flat-bottomed sphere. This shape is subjected to force from the magnetic field, is easy to take off and land, has a solid structure, and is suitable for home furnishing. The passenger area is at the weakest magnetic field, which is very suitable for small home use. This shape can use a column-type superconducting power device, and the column is wrapped with an electromagnetic coil. When rotating, the central axis is symmetrical, the rounded corner design, and the simulated celestial body rotation has good stability. The flat-bottom design is easy to take off and land. The middle column has a solid structure. It is easy to layer, and the space is spacious and easy to drive and furnish. The weakest magnetic field of the aircraft is in the activity area. The shape design of the flat-bottomed spherical electromagnetic powered aircraft is suitable for large, medium and small aircraft. Very suitable for small home aircraft.

Scheme 2 (as shown in Figure 2): Spherical electromagnetic powered aircraft shape. This is an aircraft shape design based on a sphere. This shape is suitable for electromagnetic power, has good stability during operation, and a solid structure. It is easy to layer and arrange in space. A column-type or toroidal superconductor power device can be used. The aircraft's magnetic field is weakest in the active zone. It completely simulates the movement of a star. It is easy to camouflage.

Scheme 3 (as shown in Figure 3): Disc-shaped electromagnetic powered aircraft. This aircraft is based on the disc shape, like two discs buckled together. This shape is very suitable for electromagnetic power, and the central axis is symmetrical. A circular superconducting power device can be used. It is suitable for axial and horizontal operation. It has good stability, is easy to take off and land, and is also easy to camouflage and invisible. The appearance is smooth and classic, suitable for large, medium and small aircraft.

Scheme 4 (as shown in Figure 4): Cone-shaped cylindrical electromagnetic powered aircraft shape. This is an aircraft shape design based on the cone-shaped cylindrical shape. This shape is very suitable for electromagnetic power and aerodynamics. A column-type superconducting power device can be used. Similar to the shape of a rocket, it has low air resistance. The structure is strong, easy to take off and land, and easy to layer and design the internal space. The shape is classic and suitable for large, medium and small aircraft.

Scheme 5 (as shown in Figure 5): Cigar-shaped (or cylindrical) electromagnetic powered aircraft shape. This is an aircraft shape design based on the cigar shape or cylinder. This shape is more suitable for electromagnetic power and aerodynamics. The air resistance is small. The structure is strong and easy to layer and design the internal space. It is easy to take off and land, and it is also easy to camouflage and stealth, suitable for large, medium and small aircraft.

Scheme 6 (as shown in Figure 6): Pyramid-shaped electromagnetic powered aircraft shape. It is an aircraft shape design based on two interlocking pyramids. This shape can choose a column-type or circular superconducting power device. It is easy to design the layering and internal space. It is more personalized and symbolic than the pyramid. The disadvantages are also obvious.

Solution 7 (as shown in Figure 7): Triangular electromagnetic powered aircraft shape. This is a design of aircraft shape based on a triangle. This shape is more suitable for electromagnetic power. A circular superconducting power device can be used. It is easy to take off and land, easy to camouflage and invisible. Because it is not completely axially symmetrical, the stability is slightly poor and the space is small.

Solution 8 (as shown in Figure 8): Ring-shaped electromagnetic powered aircraft shape. This is an aircraft shape design based on a ring shape. This shape is more suitable for electromagnetic power. It is easy to take off and land, easy to camouflage and invisible, and takes up less space.

Description of the accompanying drawings: The appearance of the electromagnetic-powered aircraft. Because the appearance is symmetrical about the central axis, a front view and a top view are made. Figure 1 shows Scheme 1, the appearance of a flat-bottomed spherical electromagnetic-powered aircraft. Figure 2 shows Scheme 2, the appearance of a spherical electromagnetic-powered aircraft. Figure 3 shows Scheme 3, the appearance of a disc-shaped electromagnetic-powered aircraft. Figure 4 shows Scheme 4, the appearance of a cone-headed cylindrical electromagnetic-powered aircraft. Figure 5 shows Scheme 5, the appearance of a cigar-shaped (or cylindrical) electromagnetic-powered aircraft. Figure 6 shows Scheme 6, the appearance of a pyramid-shaped electromagnetic-powered aircraft. Figure 7 shows Scheme 7, the appearance of a triangular electromagnetic-powered aircraft. Figure 8 shows Scheme 8, the appearance of a donut-shaped electromagnetic-powered aircraft. Figure 9 shows a schematic diagram of the positive and negative charge properties, rotation direction, magnetic pole direction, and magnetic field lines of the solar system celestial bodies.

Specific implementation method: Scheme 1, a mid-column flat-bottomed spherical aircraft. Most suitable for small home use. If used for transportation, Schemes 1 to 6 are all suitable. If camouflage and invisibility are required, Schemes 2, 3, 5 and 7 are all suitable. Schemes 1, 3 and 4 are all classic and suitable for large, medium and small aircraft. Of course, perhaps the most classic is the disc-shaped electromagnetic powered aircraft of Scheme 3. The bottom surface of the disc-shaped or spherical electromagnetic aircraft, combined with the Tai Chi diagram, explains the power principle and the appearance is also very cool. The principles of the macroscopic and microscopic yin and yang particles are the same, so many physical and chemical rules are interlinked.

Claims (10)

1. The design of the appearance of an electromagnetic power aircraft is characterized in that the design of the appearance of the aircraft is basically designed with a round angle by taking the symmetrical stability of a central axis of a rotary aircraft as a basic principle and taking the space of a power device and a cockpit as a main thought basis, because of stronger magnetism, in order to avoid tip discharge. The design of the electromagnetic power aircraft is based on flat-bottom spherical, disc-shaped, conical head cylindrical, cigar-shaped (or cylindrical), pyramid-shaped, triangular, circular ring-shaped and the like.

2. The design of claim 1, wherein the design is based on axial symmetry of the rotodynamic aircraft.

3. An electromagnetic powered aircraft according to claim 1, characterized by a flat-bottomed spherical based profile design.

4. An electromagnetic powered aircraft exterior design according to claim 1, characterized by a spherical-based exterior design.

5. An electromagnetic powered aircraft according to claim 1, characterized by a dish-based profile design, resembling the profile of two opposing dishes.

6. An electromagnetic powered aircraft according to claim 1, characterized by a conical-based profile design.

7. An electromagnetic powered aircraft profile design according to claim 1, characterized by a cigar-shaped or cylindrical-based profile design.

8. An electromagnetic powered aircraft according to claim 1, characterized by a shape based on a pair of pyramids, like the shape of two opposite pyramids.

9. An electromagnetic powered aircraft according to claim 1, characterized by a triangular or circular based profile design.

10. The superconducting power device for electromagnetic power aircraft features that it is a power device based on column or ring superconductor.