Flight method and aircraft

Abstract

A flying method and aircraft, comprising a container, an aerodynamic forming device fixedly connected with the container, and an intelligent control system connected with the aerodynamic forming device; the container is a volumetric container, which can form a certain buoyancy; The aerodynamic forming device described above is designed and manufactured according to the principle of aerodynamics, and it can form a certain aerodynamic force; further, in order to make the aircraft realize intelligent driving, an intelligent control system is provided on this aircraft. The flight method of the present invention is not driven by the buoyancy formed by the aircraft or the aerodynamic force formed by the aerodynamic forming device formed by the aircraft to push the aircraft to fly. It is characterized in that the buoyancy formed by the aircraft and the aerodynamic force of the aircraft The two aerodynamic forces generated by the forming device act together on the aircraft to realize flight, and by controlling the size of the aerodynamic force, the aircraft can be lifted into the air, fly and land.

Description

technical field [0001] The invention relates to the field of aviation technology, in particular to a flying method and an aircraft. Background technique [0002] There are three main methods of man-made flight. [0003] The first one is made according to the buoyancy principle of Archimedes, such as balloons, Kongming lanterns, etc. When designing, only the buoyancy of the sphere or lamp body is considered. The volume of the seven-level hot air balloon is 2000-2400M 3 , The volume of ten-level balloons reaches 6000M 3 Kongming lantern can hardly lift any heavy objects due to the limited buoyancy of its smaller volume, so it has no use value. This method of relying solely on buoyancy to realize flight is difficult to realize controllable flight because there is no independent power. [0004] The second type is manufactured according to the principle of aerodynamics, such as airplanes, rockets, missiles, drones, etc., which are mainly driven by aerodynamic force formed by m...

AI Technical Summary

Problems solved by technology

[0003] The first one is made according to the buoyancy principle of Archimedes, such as balloons, Kongming lanterns, etc. When designing, only the buoyancy of the sphere or lamp body is considered. The volume of the seven-level hot air balloon is 2000-2400M 3 , The volume of ten-level balloons reaches 6000M 3 Kongming lanterns have limited buoyancy due to their small size and can hardly lift any heavy objects, so they have no use value. This method of relying solely on buoyancy to achieve flight is difficult to achieve controllable flight due to the lack of independent power.

[0004] The second type is manufactured according to the principle of aerodynamics, such as airplanes, rockets, missiles, drones, etc., which are mainly driven by aerodynamic force formed by mechanical movement or thermal movement. When the upward thrust is greater than gravity, it can rise and fly. The effect of buoyancy on this type of aircraft is almost negligible, so it is difficult to achieve a smooth hover with this flying method

[0005] The third is to realize flight according to Archimedes' buoyancy principle. Plane movement is realized by aerodynamic force, such as an airship. Although it also realizes hovering and movement, its lift is still only controlled by buoyancy, which is difficult to achieve. free lift

[0006] Hot air balloons are bulky, and Kongming Lanterns can lift limited weights; while airplanes, rockets, missiles, drones, etc. are difficult to fly smoothly; airships cannot be lifted and lowered freely

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