RU2011134194A - MOBILE BATTLE LASER COMPLEX AND METHOD FOR INCREASING BATTLE EFFICIENCY OF MOBILE BATTLE LASER COMPLEX - Google Patents

Abstract

1. Mobile combat laser system comprising a combat vehicle with a combat laser in the upper part, and at least one auxiliary vehicle on a multi-wheeled chassis, characterized in that the combat vehicle is made on a tracked undercarriage on which fuel tanks are mounted in the armored compartment the laser is mounted above the fuel tank in the armored cylinder on a rotary platform, and contains a gas turbine engine with a turbocharger and a jet nozzle mounted vertically with the possibility of exhausting the combustion products vertically upward and resonators mounted on it at an angle to the axis of the jet nozzle, in the upper part the armored cylinder is closed by the upper armored personnel carrier, in the center of which a hole is made in size and shape corresponding to the output section of the jet nozzle, holes are made in the armored cylinder for accommodating resonator lenses in them, and auxiliary machines are made in the form of at least one fueler. 2. The mobile combat laser complex according to claim 1, characterized in that the jet nozzle is made of two walls: internal and external, a layer of uranium 235 is deposited on the inner wall, and uranium particles 235.3 are embedded in this wall. Mobile combat laser system according to claim 1 or 2, characterized in that the combat vehicle contains an electric power source and a control system, which includes an on-board computer and a liquid rocket engine control unit, interconnected by electrical communications. The mobile combat laser system according to claim 1 or 2, characterized in that the combat vehicle contains a nuclear reactor and a heat exchanger installed in the combustion chamber and connected �

Claims (15)

1. Mobile combat laser system comprising a combat vehicle with a combat laser in the upper part, and at least one auxiliary vehicle on a multi-wheeled chassis, characterized in that the combat vehicle is made on a tracked undercarriage on which fuel tanks are mounted in the armored compartment the laser is mounted above the fuel tank in the armored cylinder on a rotary platform, and contains a gas turbine engine with a turbocharger and a jet nozzle mounted vertically with the possibility of exhausting the combustion products vertically upward and resonators mounted on it at an angle to the axis of the jet nozzle, in the upper part the armored cylinder is closed by the upper armored personnel carrier, in the center of which a hole is made in size and shape corresponding to the output section of the jet nozzle, holes are made in the armored cylinder for accommodating resonator lenses in them, and auxiliary machines are made in the form of at least one fueler. 2. The mobile combat laser complex according to claim 1, characterized in that the jet nozzle is made of two walls: inner and outer, a layer of uranium 235 is deposited on the inner wall, and uranium particles 235 are embedded in this wall. 3. The mobile combat laser system according to claim 1 or 2, characterized in that the combat vehicle contains an electric power source and a control system, which includes an on-board computer and a liquid rocket engine control unit, interconnected by electrical connections. 4. The mobile combat laser complex according to claim 1 or 2, characterized in that the combat vehicle contains a nuclear reactor and a heat exchanger installed in the combustion chamber and connected by coolant circulation pipelines. 5. Mobile combat laser system according to claim 1 or 2, characterized in that the combat vehicle is made with a diffuser mounted coaxially with the railroad nozzle above the armored cylinder. 6. Mobile combat laser system according to claim 1 or 2, characterized in that the diffuser is made cooled. 7. Mobile combat laser system according to claim 1 or 2, characterized in that above the combat laser on a support mounted on a caterpillar base mounted anti-aircraft machine gun with remote control. 8. The mobile combat laser system according to claim 5, characterized in that the combat vehicle contains a source of electricity, the turntable is equipped with a drive connected by power cables through a switch to a source of electricity. 9. Mobile combat laser system according to claim 1 or 2, characterized in that the fuelers are equipped with tanks. 10. The mobile combat laser system according to claim 1 or 2, characterized in that the refueling tankers in the upper part are equipped with an anti-aircraft machine gun with remote control and large-caliber aviation machine guns mounted on a multi-wheeled chassis and having remote control. 11. A method of increasing the combat effectiveness of a complex, characterized in that at least two vehicles are included in each combat transport column on a march: a combat vehicle with a combat laser mounted in an armored cylinder, and at least one fuel tanker, a combat vehicle the machine engages in combat using one or several beams of a combat laser, using the thermal energy of the gas turbine engine combustion products as an energy source, until the fuel is completely used up, after which the gas tanker refuel fuel and combat vehicle again engages in battle. 12. The method according to claim 11, characterized in that the combustion products of the gas turbine engine are additionally heated using a nuclear reactor. 13. The method according to claim 11 or 12, characterized in that during the fighting the armored cylinder is continuously rotated, 14. The method according to item 13, wherein the rotation of the armored cylinder control the frequency of rotation of the armored cylinder 15. The method according to item 13, wherein the rotation of the armored cylinder control the angular position of the armored cylinder ..