FIELD: self-defense systems of transport facilities, mainly of tanks, against attacking projectiles.
SUBSTANCE: the system uses anti-projectile guidance unit to the point of destruction and orientation of it at the moment of destruction. The anti-projectile uses impulse trajectory and aiming correction motors. The impulse trajectory correction motors are located in the area of the center of mass of the ant-projectile. The impulse motors of trajectory correction in the directions perpendicular to the larger lateral sides of the anti-projectile are made in a single unit positioned inside the explosive charge and coming out to both mentioned sides. Each motor is made in the form of a barrel containing a ballast load and an igniter.
EFFECT: enhanced functional potentialities of the system.
9 cl, 5 dwg
| Title | Year | Author | Number |
|---|---|---|---|
| VEHICLE SELF-DEFENSE SYSTEM | 1995 |
|
RU2102678C1 |
| AMMUNITION FOR HITTING OF SHELLS NEAR PROTECTED OBJECT | 1994 |
|
RU2127861C1 |
| ANTI-BALLISTIC MISSILE SELF-DEFENCE SYSTEM FOR LAUNCHING SILOS | 2004 |
|
RU2326327C2 |
| "INROG" VEHICLE SELF-DEFENSE SYSTEM | 2006 |
|
RU2339898C2 |
| TANK CASSETTE MULTIFUNCTION PROJECTILE "UDOMLYA" WITH CROSSWISE SCATTER OF SUBPROJECTILES | 2012 |
|
RU2515950C1 |
| METHOD FOR ACTIVE PROTECTION OF THE OBJECT FROM THE SIDE OF THE UPPER HEMISPHERE FROM MULTIPLE UAV ATTACKS | 2022 |
|
RU2784092C1 |
| "VESYEGONSK" SPLITER-IN-BEAM HOLLOW-CHARGE PROJECTILE | 2008 |
|
RU2363913C1 |
| METHOD FOR ACTIVE PROTECTION OF OBJECT FROM UPPER HEMISPHERE | 2020 |
|
RU2755951C1 |
| PROJECTILE WITH READY-MADE INJURIOUS MEMBERS | 1998 |
|
RU2148244C1 |
| ACTIVE PROTECTION SYSTEM OF ARMORED OBJECTS | 2018 |
|
RU2740417C2 |
