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(13)

(51)

IPC

B63G5/00(2006-01-01)

B63G6/00(2006-01-01)

B63G9/00(2006-01-01)

F42B22/00(2006-01-01)

(21) (22)

Application

2014109618/11, 2014-03-12

(24)

Start date

2014-03-12

(22)

Actual filing date

2014-03-12

(45)

Published

2015-09-10

(72)

Inventor

Novikov Aleksandr Vladimirovich

(73)

Holder

Rossijskaja Federatsija, Ot Imeni Kotoroj Vystupaet Ministerstvo Oborony Rossijskoj FederatsiiFederal'Noe Gosudarstvennoe Kazennoe Voennoe Obrazovatel'Noe Uchrezhdenie Vysshego Professional'Nogo Obrazovanija Uchebno-Nauchnyj Tsentr Voenno-Morskogo Flota Akademija Imeni Admirala Flota Sovetskogo Sojuza N.G. Kuznetsova"

MINE APPLICATION METHOD Russian patent published in 2015 - IPC B63G5/00 B63G6/00 B63G9/00 F42B22/00

Abstract RU 2562008 C1

FIELD: weapon and ammunition.

SUBSTANCE: in antiairborne mine obstacle a jet ground antiairborne mine is used, for this purpose the required number of mines and their coordinates are calculated. The mine is charged into a launcher (L), using the computing device L targeting angle for mine shooting into a pre-calculated point. Before shooting the mine is pre-configured, L is targeted, mine shooting is performed by powering of pyros of the rocket engine (RE) igniter and simultaneously of the delay unit of RE separation mechanism. After splashdown and collision with water of head part with mine the stabilizing parachute is separated, the state of mine in the mine obstacle is controlled by switching it into positions "dangerous", "safe", "liquidation by blasting" or "liquidation without blasting". For transfer of the coded control signals the carrier is used which delivers to the mine destruction zone the sound transmitting device, the mine is exploded, or mines are set in the position "safe", when antiairborne troop enter the mine destruction zone by the command from CP all mines are exploded at the right time by the signal "liquidation by blasting".

EFFECT: higher efficiency of mine barrage.

2 tbl

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RU 2 562 008 C1

Authors

Novikov Aleksandr Vladimirovich

Dates

2015-09-10—Published

2014-03-12—Filed