RU2014154190A - Method of firing rockets of a multiple launch rocket system in counter-battery conditions - Google Patents

Abstract

A method of firing rockets (PC) of multiple launch rocket system (MLRS) in counter-battery conditions, which consists in pointing the launcher (launcher) in a horizontal plane in the direction of the target, lifting the guides from the PC to a predetermined launch angle in the vertical plane (VP), turning on the solid propellant rocket engine and starting up the PC with subsequent flight along a predetermined ballistic trajectory, the deviation from which is eliminated by controlling the pitch and yaw angles of the PC using gas-dynamic rudders according to commands from autonomous flight path correction (SAKT) PC systems, characterized in that before starting the PC along a predetermined ballistic path, the PC is first launched at a small angle in the VP along the initial portion of the flight path (UTP) PC, after the estimated PC flight time over the initial portion the trajectory, the value of which is entered into SAKT before starting the PC, transfer the PC to a new trajectory with a large angle in the VI, and the minimum value of the initial angle of start of the PC in the VI is limited by the technical characteristics of the PU and the relief fom of the terrain in the area of deployment of the launcher, and the maximum - by the conditions of non-detection of PC at the initial portion of the trajectory of the enemy's radar station (radar) counter-battery combat (KBB), after which the flight of the PC is carried out along a predetermined ballistic trajectory that simulates the launch of the PC from fictitious point F, remote from the launcher to a safe distance L, eliminating its defeat by enemy artillery fire according to the results of noticing the KBB radar of the MLRS start position, while the conjugation of all sections of the PC flight path is carried out so that the PC moving along given ballistic trajectory,

Claims (1)

A method of firing rockets (PC) of multiple launch rocket system (MLRS) in counter-battery conditions, which consists in pointing the launcher (launcher) in a horizontal plane in the direction of the target, lifting the guides from the PC to a predetermined launch angle in the vertical plane (VP), turning on the solid propellant rocket engine and starting up the PC followed by flight along a predetermined ballistic trajectory, the deviation from which is eliminated by controlling the pitch and yaw angles of the PC using gas-dynamic rudders according to commands from autonomous flight path correction (SAKT) PC systems, characterized in that before starting the PC along a predetermined ballistic path, the PC is first launched at a small angle in the VP along the initial portion of the flight path (UTP) PC, after the estimated PC flight time over the initial portion the trajectory, the value of which is entered into SAKT before starting the PC, transfer the PC to a new trajectory with a large angle in the VI, and the minimum value of the initial angle of start of the PC in the VI is limited by the technical characteristics of the PU and the relief fom of the terrain in the area of deployment of the launcher, and the maximum - by the conditions of non-detection of PC at the initial portion of the trajectory of the enemy's radar station (radar) counter-battery combat (KBB), after which the flight of the PC is carried out along a predetermined ballistic trajectory that simulates the launch of the PC from fictitious point F, remote from the launcher the safe distance L _without precluding its defeat the enemy artillery fire on the results of radar serifs HEC starting position MLRS, the conjugation of all sections of the trajectory PC flight carried out so that the PC, moving l along a predetermined ballistic trajectory, hit the target designated for destruction, and changing the PC flight path using gas-dynamic rudders according to commands from SAKT, which form, in accordance with the required law, changes in the pitch angle of the PC, which ensures the conjunction of the initial UTP with the flight path with a large angle in VP and USP along a ballistic trajectory, while the values of the flight time PC along the initial USP t _I and USP with a large angle in VP t _{II are} determined by the formulas:

Where

N _without - safe flight altitude of the PC, excluding its detection of radar KBB; D _RS , D _radar - removal of PU and radar from the front line (LF), respectively; β is the minimum viewing angle of the radar KBB in the vertical plane (VP); α _pF is the fictitious launch angle of the PC from point F, at which the flight of the PC along the USP III is ensured; α _pm is the start angle of the PC in the airspace at which the PC, moving in a straight line, crosses the bottom of the KBB radar at a height of H _without ; θ is the angle of the velocity vector PC; Δ is the correction to the start angle of the PC, necessary for pairing the II UTP with I and III UTP PC taking into account permissible PC overloads in the VP; V, n _y - PC flight speed and allowable PC overload in the airspace, respectively; g is the acceleration of gravity.