RU184797U1 - ANTI-TANK Grenade Launcher Shot With HEAD ON TYPE "SHOCK CORE" - Google Patents

Abstract

An anti-tank grenade launcher with a warhead of the type "shock core" refers to the field of anti-tank ammunition and is intended to destroy tanks, lightly armored vehicles and self-propelled guns from above. An anti-tank grenade launcher shot with a “shock core” type head unit (Figure 1), consisting of a head part 2, a jet engine 6 and a powder charge 7. The head part consists of: a “strike core” type warhead 1 with a parachute 9, explosive substance 5, the detonator of the safety-performing mechanism 3, the infrared homing head 10, the distant tube 11. During the flight of an anti-tank shot, a distant tube is triggered on the trajectory. As a result, there is a separation of the warhead of the type of "shock core". The warhead, rotating in a parachute in a spiral, scans the area with an infrared homing head. When a target is detected, the detonator of the safety-performing mechanism is triggered, which detonates the explosive. The lining of the funnel forms a "shock core", ensuring the defeat of the tank from above.

Description

The proposed anti-tank grenade launcher with a warhead of the type of "strike nucleus" is designed to destroy tanks, lightly armored vehicles and self-propelled guns from above.

Until now, the term "anti-tank grenade launcher" itself was supposed to have a tank as its main target. The modernization and creation of new types of tanks includes, as one of the main areas, the improvement of their armor protection. Some characteristics of the latter types of foreign tanks indicate that there is a tendency to increase the equivalent of armor protection and it is expected that the developed promising tanks of the USA and Germany will have it up to 1.5 m. The armor penetration of existing grenade launchers in service does not exceed 900 mm .

Modern anti-aircraft grenade launcher, with the existing caliber, is able to hit the tank only in the side, rear projection or from above. Grenade shots, which are part of the combat kit, do not solve the assigned task (defeat, tank from above).

A known prototype anti-tank grenade launcher with a head part of the type "shock core", consisting of a head part of the type of "shock core" with a parachute, explosive and detonator safety-carrying mechanism, a jet engine and a starting charge (RU 2118788, 09/10/1998) . In addition, rockets and aerial bombs with warheads of the “strike core” type are known, which provide for the destruction of tanks, self-propelled artillery installations and lightly armored vehicles from above in the source areas and on the march. The disadvantage of such ammunition is that they can not be used near their troops and direct contact with the enemy.

The technical problem of the utility model is an anti-tank grenade launcher with a head part of the type of "strike nucleus", designed to destroy tanks from above with a probability of destruction of 0.9.

The specified technical task is achieved by the fact that to defeat the tank from above, an anti-tank grenade launcher is used with a “shock core” type head unit (Figure 1), consisting of a head part 2, a jet engine 6 and a powder charge 7. The head part consists of: a warhead parts of the type "shock core" 1 with a parachute 9, explosive 5, detonator safety mechanism 3, infrared homing 10, remote tube 11.

During the flight of an anti-tank shot, a distance tube is triggered on the trajectory. As a result, there is a separation of the warhead. The warhead, rotating in a parachute in a spiral, scans the area with an infrared homing head. When a target is detected, the detonator of the safety-performing mechanism is triggered, which detonates the explosive. The lining of the funnel forms a "shock core", ensuring the defeat of the tank from above.

Claims (1)

An anti-tank grenade launcher shot with a "shock core" type warhead, consisting of a warhead with a parachute, explosive and detonator, a jet engine and a starting charge, characterized in that the shot has a distance tube that allows the warhead to be separated on the flight path of the shot, while the warhead is made to rotate in a parachute in a spiral and scan the terrain with an infrared homing head, and the detonator is configured to undermine an explosive still when detecting a tank.

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