RU2310811C2 - Method for rendering safe of camouflaged radio controlled explosive devices - Google Patents

Abstract

FIELD: terrorism fighting by hardware components, rendering safe of camouflaged radio controlled explosive devices on transport lines, may find a wide application.

SUBSTANCE: the method consists in production of a moving pulse electromagnetic radiation in the zone of the predicted location of the radio controlled explosive devices.

EFFECT: the method provides for rapid rendering safe of radio controlled explosive device on transport lines, on sheets of settlements, squares, stadia, without humanvictins.

3 cl

Description

The invention relates to the field of combating terrorism by technical means, in particular to the disposal of disguised radio-controlled explosive devices, and can be widely used.

A known method of disposal of explosive objects, including the detection of a dangerous object using a camera, recognition and shooting using a targeting unit (see REGNUM. RU website).

The disadvantages of this method are:

- the need to detect an explosive object;

- the difficulty of detecting a disguised explosive object;

- the difficulty of recognizing a disguised explosive object;

- the need to shoot a dangerous object.

There is also known a method of neutralizing radio-controlled explosive devices in the baggage of air passengers, including isolating passengers' luggage in the localizer and exposing it to pulsed electromagnetic radiation (see application No. 2005118455/22 for a utility model with a priority dated June 14, 2005).

Despite the advantages consisting in the absence of the need to search for an explosive device in the baggage of air passengers, its recognition and shooting, the method has serious disadvantages:

- neutralization is carried out in a closed volume, providing isolation of the explosive device;

- the disposal of explosive devices is carried out under stationary conditions, for which all baggage in which the laying of the explosive device is predicted has to be passed through the explosion locator;

- unsuitability of the method for ensuring the safety of roads, streets, squares, etc.

Despite the above disadvantages, the specified technical solution, as the closest analogue, can be taken as a prototype.

The objective of the invention is the creation of a method that provides a technical result, consisting in:

- ensuring the safety of roads, highways, streets, residential and administrative buildings, pedestrians, river marinas, stadiums, etc .;

- rapid disposal of radio-controlled explosive devices;

- disposal of radio-controlled explosive devices with minimal material damage.

This technical result according to the proposed application for the invention is achieved by creating moving electromagnetic radiation in the area of the predicted bookmark of radio-controlled explosive devices: along roads, highways, streets and marinas, in squares and stadiums. In the presence of radio-controlled explosive devices in such areas, its radio receiver is rendered unusable or destroyed.

Terrorists use cell phones or other standard receivers, such as electronic toys, the output of which is connected to an electric detonator, as a receiving device for actuating an electric detonator of radio-controlled explosive devices.

The proposed method is carried out, for example, in the following way.

On any vehicle: a car, tractor, boat, and in some cases on a miniature airplane, on a self-propelled robot, a source of pulsed electromagnetic radiation is placed and by moving this means create a moving pulsed electromagnetic radiation. In this case, the vehicle is protected by a casing resistant to fragments during the explosion of a radio-controlled explosive device. Since terrorists are laying a radio-controlled explosive device on roadsides and highways, near buildings, along the streets, electromagnetic pulsed radiation is carried away from the chassis of the transport device.

The frequency of the pulsed electromagnetic radiation is coordinated with the speed of its movement. As a result, along the entire path of movement of pulsed electromagnetic radiation, the forecasted laying area of the radio-controlled explosive device is completely blocked. If it is present, currents are induced in the electrical circuits of its receiver along the path of pulsed electromagnetic radiation, the hit of which at the inputs of the sensitive elements of the receiver puts them out of order, and, therefore, the receiver as a whole. The power of the moving pulsed electromagnetic radiation within the boundaries of the settlement is limited in order to disable only the receiver of the radio-controlled explosive device, to exclude human casualties and destruction. Changing the receiver in the village on the street is problematic. Outside the settlements, the power of the moving pulsed electromagnetic radiation is increased with the calculation of the induced currents in the electrical circuits of the receiver at its output, and therefore on the electric detonator in order to destroy the explosive device. In this case, the source of pulsed electromagnetic radiation can be damaged, but human lives are guaranteed to be preserved and the main intentions of terrorists are frustrated. The movement of pulsed electromagnetic radiation is controlled remotely by radio.

Thus, the method, including the creation of moving pulsed electromagnetic radiation in the zone of the terrorists' predicted laying of a radio-controlled explosive device, makes it possible to neutralize it and eliminate human casualties in the preparation of terrorist acts.

Claims (3)

1. The method of disposal of masked radio-controlled explosive devices, which consists in creating a moving pulsed electromagnetic radiation in the area of the predicted installation of radio-controlled explosive devices. 2. The method according to claim 1, characterized in that the frequency of the pulsed electromagnetic radiation is coordinated with the speed of its movement. 3. The method according to claim 1, characterized in that the power of the moving pulsed electromagnetic radiation is regulated depending on the nature of the zone being tested for the absence of explosive devices.