RU2015114263A - METHOD AND DEVICE OF ANTORPORPEDOUS PROTECTION OF A SHIPBOAT SHIP - Google Patents

Abstract

1. A method of anti-torpedo protection of a surface ship, including detecting an enemy torpedo using a ship’s sonar station, determining its coordinates and movement parameters, performing a torpedo maneuver by the ship, bringing the torpedo to the aft course angles and increasing the speed, calculating the point and time of the bombing, based on the expected speed of approach of the torpedo with the ship from the moment of its last observation, after the ship arrives at the calculated point, dropping from the stern bomb-dropping Devices of a series of depth bombs with a predetermined (estimated) time interval, characterized in that they use depth bombs equipped with a deepening device, a non-contact fuse, a power source and an elimination device, when calculating the time of the start of the discharge of depth bombs, they take into account the time that the bombs entered combat state after the reset immersed depth bombs to a depth corresponding to the expected depth of the torpedo travel, for which, prior to discharge, regulate the operation of the deepening device, after the bomb is dropped into water with compressed gas blow the float located in the burial device and connected to the bomb body with a cable wound on a view, unwind the cable to the length corresponding to the required burial of the bomb, energize the non-contact fuse and bring the bomb to the firing position, while passing a torpedo within the radius of the contact fuse, undermine the charge depth bomb explosives, destroy the torpedo hull and / or its control devices and prevent the torpedo from entering the ship, using the liquidation device through the installed e time

Claims (2)

1. A method of anti-torpedo protection of a surface ship, including detecting an enemy torpedo using a ship’s sonar station, determining its coordinates and movement parameters, performing a torpedo maneuver by the ship, bringing the torpedo to the aft course angles and increasing the speed, calculating the point and time of the bombing, based on the expected speed of approach of the torpedo with the ship from the moment of its last observation, after the ship arrives at the calculated point, dropping from the stern bomb-dropping Devices of a series of depth bombs with a predetermined (estimated) time interval, characterized in that they use depth bombs equipped with a deepening device, a non-contact fuse, a power source and an elimination device, when calculating the time of the start of the discharge of depth bombs, they take into account the time that the bombs entered combat state after the reset immersed depth bombs to a depth corresponding to the expected depth of the torpedo travel, for which, prior to discharge, regulate the operation of the deepening device, after the bomb is dropped into water with compressed gas blow the float located in the burial device and connected to the bomb body with a cable wound on a view, unwind the cable to the length corresponding to the required burial of the bomb, energize the non-contact fuse and bring the bomb to the firing position, while passing a torpedo within the radius of the contact fuse, undermine the charge depth bomb explosives, destroy the torpedo hull and / or its control devices and prevent the torpedo from entering the ship, using the liquidation device through the installed After the reset, the non-contact fuse is switched off, the bomb is put into a safe state, its buoyancy is violated and it is flooded. 2. The anti-torpedo protection device of a surface ship, which is a means for destroying a torpedo hull and / or its control devices, made in the form of a depth bomb, dropped from a stern bomb-dropping device and equipped with an explosive charge, characterized in that the device is equipped with a non-contact fuse, a power source , a deepening device and a liquidation device, a non-contact fuse is designed to detonate the explosive charge of a bomb when physically exposed to it fields of the torpedo (acoustic, electromagnetic, hydrodynamic, etc.), the fuse response radius corresponds to the destructive effect of the explosive charge on the torpedo, the power source ensures the operation of the non-contact fuse, the burial device serves to hold the bomb at a given depth, it includes a float that creates positive buoyancy , a gas generator inflating the float with compressed gas, a cable connecting the float to the device body, a view on which the cable is wound, a liquidator and it is intended to transfer the bomb to a safe state and its drowning, it disables the electrical circuit of the non-contact fuse and the brake (stopper) of the view holding the cable with the float, after unwinding the view the bomb is released from the float and drowns.