RU99118930A - METHOD FOR SUBMITTING APPLIANCES, MISSILES TO DESTINATION AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (6)

1. The method of supplying a projectile, a rocket to its destination, characterized in that it is carried out not using explosives or burning combustible substances, but using compressed air in the compression chamber supplied to it from the compressor at a pressure of compressed air on the damper, which after the release moves along the guides of the barrel, providing sharp pressure on the shell of the projectile, etc., knocking it out of the barrel through the barrel, thereby ensuring its flight to a certain distance, during which resistance occurs outward air flow, which arriving at the fins of a turbine shell, etc. provides rotation of the turbine, which is mounted on the stator field windings of the generator and electric motor, which, rotating above the rotary field windings, begin to generate generator energy, supplying it to the motor windings, which in turn starts to work not only from the turbine through which the air stream passes, but and from field windings, while ensuring rotation of the turbine with stator windings that generate electricity to provide flight altitude and destination in the shell of the projectile, etc., there are windows into which when they are opened, part of the air flow entering the turbine channel will be ejected, thereby raising to a higher height, lowering or turning to one side, opening the flight direction control windows using a radar device mounted on the front of the body of the projectile, which, when receiving radio signals from the radar device, opens or closes the flight control windows.  2. The method according to claim 1, characterized in that it provides almost any flight range, i.e. shell, etc. can fly as long as the turbogenerator-electromotor mechanism will work, providing intake air counterflow, thereby providing more free advancement of the projectile, etc., when ejecting the opposed counter airflow from the opposite side with respect to its movement, thereby ensuring its forward movement.  3. The method according to claim 1, characterized in that the flight range and its direction can be adjusted by opening or closing windows located in front of the shell of the projectile device or the like, which are opened and closed by a radar device located in the front part, around the body of the projectile, etc., receiving radio signals from the radar unit from the flight control panel.  4. The method according to claim 1, characterized in that the shot of a shell, etc. from the barrel barrel occurs using compressed air pumped by the compressor into the compression chamber, which, being limited in size by the shutter, ensures the creation of the necessary pressure for ejection, a shot of the projectile when the shutter is released, removing the shutter cheeks from the clamp cheeks, which moves forward along the barrel guides from the compressed air pressure provides pressure on the shell of the projectile, etc., throwing a certain flight over a certain distance, depending both on the degree of pressure, and on the layout and design of the projectile poison, etc.  5. The method according to claim 1, characterized in that after the shot of a shell, etc. the compression chamber flap is returned to its original position using the pressure of compressed air supplied to the barrel muzzle using pipelines installed on both sides along the barrel, turning their nozzles after firing over the barrel muzzle and turning on the compressed air supply, which, when pressed on the valve, returns it to its original position the position is fixed by the clamps after installing the shutter cheeks on the clamp cheeks.  6. A device for delivering a missile projectile, space technology to the destination, consists of a barrel in which there is a shutter with runners, which is fixed by clamps with pressure on their cheeks, shutter cheeks, providing a compression chamber in which air is supplied from the compressor to the maximum required pressure, providing a shot of the projectile, etc., when removing the shutter cheeks from the clamp cheeks, after which there is compressed air pressure on the damper, which in turn presses on the shell of the projectile, etc., throwing, firing it, and the flap is returned to its original location by compressed air pressure supplied from two sides through pipelines into the barrel muzzle, projectile etc. consists of a housing in which turbine fins are mounted on the stator excitation windings of the generator and electric motor, which rotate above the rotor windings of the generator and electric motor, mounted on the body of the projectile, etc., the housing itself is closed on both sides with faceplates in which there are windows for entering and discharging air flow, and the front part of the projectile body, etc., located outside the body around itself, has a radar ring with wings for a stable flight of the projectile, etc., the radar ring receiving a signal From the radar device locator, it opens and closes the shell shell windows, etc., controlling the flight of the shell, etc.