RU2004110898A - METHOD OF ANTI-GRAVITATION AND AIRCRAFT FOR ITS IMPLEMENTATION - Google Patents

Claims (11)

1. The method of antigravity is that they rotate an electrically charged object, characterized in that they create a rotating ring of charged particles of the same sign, for example, electrons or protons, orient it relative to the gravitational field of the planet so that its rotation plane is parallel to the surface of the planet and rely on the magnetic and (or) electric field of the rotating ring of charged particles, and, if necessary, change its orientation using either a traveling or changing or constant magnetic and (and k) an electric field whose source is connected with the aircraft body acting on the magnetic or electric field of the ring, and the magnitude of the ring force acting on the aircraft and its direction are changed by changing the direction of rotation of the ring of charged particles, changing its density, size and rotational speeds, and the angle of the direction of the ring force to the horizon is changed using either a running or changing or constant magnetic and (or) electric field, the source of which is connected with the body of the aircraft apparatus, acting on the ring of rotating particles. 2. The method according to claim 1, characterized in that a rotating electron ring is created in the following way: electrons are emitted in a sealed chamber, dispersed by electron guns or in another way and directed from the outer circumference of the chamber radially or tangentially to the center, and inside the chamber create a deflecting magnetic field, configured and oriented so that it swirls the electrons in a spiral or in a circle and holds the rotating ring of electrons inside the chamber, while creating or not creating inside the chamber They produce a radial electric field, which additionally accelerates the electrons and holds the electron ring inside the chamber. 3. The method according to claim 1, characterized in that the rotating electron ring is created in the following way: a radial electric field is created in the sealed chamber, emitted at the cathode located in the center of the chamber, electrons are accelerated using a radial electric field and twisted around the camera axis by means of a magnetic field configured and oriented so that it twists the electrons in a spiral around the center of the chamber. 4. The method according to claim 1, characterized in that the rotating ring of protons is created in the following way: in a sealed chamber, accelerators are produced, accelerated, and a proton flux is directed radially or tangentially to the center of the chamber from its outer circumference, and a deflecting magnetic a field configured and oriented so that it twists the protons in a spiral or in a circle and holds the rotating ring of protons inside the chamber, while the radial electric current is created or not created inside the chamber skoe field, further accelerating protons and protons inside the retaining ring chamber. 5. The method according to claim 1, characterized in that the change in the direction and speed of rotation of the ring of charged particles, its density and size is carried out by changing the intensity of the deflecting magnetic field, the radial electric field, the speed and density of the flows of charged particles generated by their sources or accelerators , and the angle of the direction of approach of the particle flows to the rotating ring of charged particles, and one or more parameters is changed at once. 6. The aircraft for implementing the method according to claim 1, comprising a hull, inside of which there are power sources and an onboard control system, characterized in that a sealed chamber of a cylindrical, cone, ellisoid or other shape is located on the outer circumference of which there are devices, generating flows of charged particles connected to accelerators such as electron guns or other types, directed from the outer circumference of the chamber radially or tangentially to the center, and at the ends On the camera’s surfaces are permanently fixed either removable deflecting solenoids (coils, electromagnets) and steering-steering solenoids (coils, electromagnets), or combined devices combining deflecting and steering-steering functions, with an annular electrode installed inside the chamber along its circumference, and the center electrode has a central electrode. 7. The aircraft according to claim 6, characterized in that the deflecting solenoids (coils, electromagnets) have a cylindrical or conical or other shape, are installed on the end sides of the chamber above and below and are connected to a power source so that the magnetic field pole of the upper solenoid ( coil, electromagnet) facing the ring of charged particles was opposite to the upper pole of the lower solenoid (coil, electromagnet) also facing the ring of charged particles. 8. The aircraft according to claim 6, characterized in that the steering-steering solenoids (coils, electromagnets) are mounted on the upper and lower end surfaces of the chamber opposite the charged particles ring with or without mutual overlap and are connected to a power source so that they the fields directed to the rotating ring of charged particles created a repulsive or attractive force, depending on the control signals of the control system, either a traveling or a changing magnetic field. 9. The aircraft according to claim 6, characterized in that the camera of the device and its solenoids (coils, electromagnets) are surrounded by a ferromagnetic screen made of ferromagnetic metal, ferromagnetic ceramic or ferromagnetic plastic and a biological protective screen that absorbs electromagnetic radiation and other harmful to health radiation. 10. The aircraft according to claim 6, characterized in that its solenoids (coils, electromagnets) are fully or partially made of superconducting materials and (or) light conductive metals or alloys. 11. The aircraft according to claim 6, characterized in that the source of charged particles is located in the center of the camera.