RU2106287C1 - Complex technology of planetary and interplanetary navigation - Google Patents

Abstract

FIELD: flying vehicles of saucer configuration employing effect of rotary thermal field, namely, aerospace vehicle for atmosphere and vacuum navigation. SUBSTANCE: complex technology of planetary and interplanetary navigation includes flying device formed by at least two similar saucer-type flying vehicles of different diameters. Diameter of first flying vehicle exceeds diameters of other vehicles. Each flying vehicle is provided with propeller for motion in atmosphere employing the effect of rotary thermal field and shooting-type jet engine for motion in vacuum. EFFECT: enhanced efficiency. 2 cl, 6 dwg

Description

 The invention relates to plate-shaped aircraft operating on the effect of a rotating thermal field, namely to aerospace ships capable of sailing in a natural void and in the atmospheres of the solar system.

 The invention is aimed at the ability to fly and swim in outer space, in a natural void, where there is no gravity, inertia, friction and other obstacles to resist movement in any direction of the solar system.

 Famous Buran aircraft, multi-stage rocket carriers, Soyuz, Vostok satellite ships (Aviation encyclopedia, Great Russian Encyclopedia. - M.: TsAGI 1994, p.121) on jet thrust. The disadvantage is primarily the complexity and high cost of manufacturing and operation, the diversity of use, unreliability and irrevocability, the relatively small transport speed in the atmosphere and maneuverability in space. All this increases the time to achieve the goal and stay in space. Large financial and material costs go to the physical, medical, intellectual and moral training of astronauts.

 The invention is directed to the creation of dish-type aircraft, environmentally friendly, noiseless, cost-effective, safe and not requiring special physical and moral training of pilots and passengers, since in front of them there is a rotating thermal field, which creates a vertical pressure drop in the atmosphere and removes the earth attraction.

 The problem is solved by creating a comprehensive technology of planetary and interplanetary navigation, which contains an aircraft with a jet engine, launch pads. An aircraft is a spacecraft formed by at least two of the same type dish-type aircraft of different diameters, the diameter of the first aircraft being larger than the diameter of the subsequent ones, and each of the aircraft is equipped with a propulsion device for moving in the atmosphere, based on the work on the effect of a rotating thermal field, and a firing jet engine for travel in a vacuum. The aircraft can be equipped with an individual flying device for the development of aliens.

 In FIG. 1 shows a general view and structure of a disk-type aircraft; in FIG. 2 - general view of the space composition; in FIG. 3 - general view and arrangement of runways; in FIG. 4 is a diagram of the movement of the spacecraft along the route Earth-Alien; in FIG. 5 - a general view of the alien orbit drift and the arrangement of aircraft; figure 6 - General view and structure of an individual flying device for the development of aliens.

 The complex technology of planetary and interplanetary navigation contains an aircraft (apparatus) 1 with a cockpit 2, a firing jet engine 3, docking locks 4, a chassis 5, a power plant 6, a continuous jet engine 7, brake jet engines 8, firing jet engines 9, designed to change direction at right angles 9.

 An aircraft is a spacecraft formed by at least two of the same type dish-type aircraft of different diameters, the diameter of the first aircraft being larger than the diameter of the subsequent ones to save fuel.

 The movement in outer space of an aircraft (apparatus) is provided by a firing jet engine 3.

где
E/R - тепловая энергия, град.;
V - объем тепловой энергии, м³;
Δγ_↑ - перепад давления, м³/кг;
K^o - коэффициент потери тепла, в град.The movement in the atmosphere is carried out by a propulsion device, based on work on the effect of a rotating thermal field, kG

Where
E / R - thermal energy, deg .;
V is the volume of thermal energy, m ³ ;
Δγ _↑ - pressure drop, m ³ / kg;
K ^o - heat loss coefficient, in deg.

 Take-off and landing of aircraft are carried out from airfield 11. The building is a ring type with a courtyard 10, which, if desired, can be used as a launching pad for spacecraft, providing it with special equipment. The launch site of airfield 11 is surrounded by a fence 12. For camouflage and decorative arrangement, the free area is planted with 13 trees. Concrete round platforms were built of concrete for the reception of aircraft along radii 14. Underpasses with stair flights 15 were made for passengers to land and disembark. Ancillary buildings 16 were built for preventive measures at the airport. Central entrance 17 to the building was made as an underground passage.

 An individual flying device 21 consists of a hull-plate 22 in the form of a cylindrical cone 23, a window 24, a chair-bed 25, a refrigerator-cabinet 26, a cage 27 for experimental animals.

 The spacecraft 19 carries out its work (flight) along routes 18 to alien 20.

 The complex technology of planetary and interplanetary navigation carries out its work as follows.

 Aircraft is mounted on landing gear 14 on round platforms 14, another aircraft with retracted landing gear is mounted on docking locks 4, then subsequent aircraft are installed, the latter, and the first along the way, must have a diameter larger than all the others.

 The start (start) of the spacecraft 19 is carried out by launching a jet propulsion engine operating on the effect of the rotating heat field of aircraft 1. When the spacecraft enters space, the specified propulsion engine is muffled, the firing engine 3 of the lower aircraft is turned on. According to the route map, the space composition moves in the void to the desired planet.

 Upon reaching the goal, the space composition becomes drift in the orbit of a given planet. On command, the aircraft undocks from the composition and moves to the planet along route N 1. Having entered the dense layers of the existing gas atmosphere of planet 20 of the solar system, an individual aircraft is released.

 Including a mover in the work, the pilot flies around the planet's surface, if there is an atmosphere, and in the right place falls to the surface of the alien. The reserve flying vehicles of the space composition carry out other work related to the development of planets and their satellites.

 A spacecraft of two or more dish-type aircraft using a propulsion engine operating on the effect of a rotating thermal field, takes off vertically from a site located in the center of the building. When you exit into the void, the mover is turned off. To bring the spacecraft to the desired route according to the scheme, a firing jet engine is included in the operation. Upon reaching the target, the spacecraft enters orbit. For inspection, the space composition is undocked and approaches the planet, including jet engines 3, 8, 9. In the presence of a gas atmosphere, an individual aircraft is released, the propulsion device of which also operates on the effect of a rotating thermal field.

 The return to planet Earth is carried out individually or by a space composition.

Claims (2)

 Integrated technology for planetary and interplanetary navigation, containing a jet vehicle with a jet engine, launch pads, characterized in that the aircraft is a space composition formed by at least two of the same type of dish-type aircraft of different diameters, and the diameter of the first aircraft is larger than the diameter of subsequent and each of the aircraft is equipped with a propulsion device for moving in the atmosphere, based on the work on the effect of a rotating thermal field and firing jet engine to move in a vacuum.  2. The complex technology according to claim 1, characterized in that each disk-type aircraft is equipped with an individual flying device for the development of aliens.

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