RU149426U1 - DEVICE FOR TRAILING AND DISPOSAL OF EXPLOSIVE HAZARDS IN SEMI-CONDUCTING MEDIA - Google Patents

Abstract

1. A device for trawling and disposing of explosive objects containing a source of electrical energy, a device for monitoring its parameters and an electromagnetic field source, which is an inductor, characterized in that it includes an adjustable autotransformer. 2. The device according to claim 1, characterized in that the electromagnetic coupling between the inductor and the fuse is provided by an adjustable autotransformer. 3. The device according to claim 1, characterized in that the electromagnetic field source, which is an inductor, is removable.

Description

DEVICE FOR TRAILING AND DISPOSAL OF EXPLOSIVE HAZARDS IN SEMI-CONDUCTING MEDIA

The utility model relates to a device for remotely initiating an explosion and disposing of engineering and artillery ammunition, including unexploded artillery shells and aerial bombs on the territory of a former or former arena of military operations.

The device can be used for humanitarian demining, in the fight against terrorism and the disposal of aviation, artillery and engineering ammunition.

The well-known source “Instructions for cleaning areas and objects from explosive objects”: Military Publishing House of the USSR Ministry of Defense. M .: 1975, which implements methods for the destruction of explosive objects (GP) through the use of an overhead charge of explosives, hydro and electric shock.

The disadvantage of such methods is the difficulty in performing operations to destroy GPs located in the thickness of the semiconducting layer (soil, sea and fresh water). In addition, modern improvised explosive devices have special devices that undermine the GPs when trying to defuse it. Therefore, when performing an operation to extract GP from the ground, there is a high probability of self-detonation of personnel engaged in mine clearance and disposal of GP.

In addition, acoustic and induction methods for trawling GPs in an aqueous medium are known. Their disadvantage is selectivity in the impact on the GPs only with acoustic, induction or magnetometric target sensors.

A known method of disposal of GPs due to the evaporation of explosives, however, it is also not applicable when the GPs are in a semiconducting medium.

The technical result of the utility model is the possibility of remote trawling and disposal of GPs located in semiconducting environments due to induction heating of the conductive surfaces of fuses for all types of ammunition. Induction heating of the fuse to a certain temperature will allow the ignition of a highly sensitive initiating explosive in the fuse.

The technical result is achieved due to the induction heating of the conductive surfaces of the fuses of ammunition arising from the electromagnetic effect on the GP.

It is known that induction heating is used for melting metals, in induction cookers, etc.

In FIG. 1 shows a block diagram of a device.

A device for trapping a GP in a semiconducting medium contains an electric energy source (1), a device for controlling the parameters of an electric energy source (2), an adjustable autotransformer (3), a replaceable electromagnetic field source (inductor) (4).

The trawling device operates as follows.

The inductor (4), fed from the source (1), forms a low-frequency electromagnetic field, regulated by means of the device (3), heats the conductive surface of the fuse VOP (5). The latter, in turn, upon reaching a critical temperature causes the initiation of an explosive in the fuse and the subsequent destruction of the GPs remotely.

Information sources:

1. Instructions for cleaning areas and objects from explosive objects: Military Publishing House of the USSR Ministry of Defense. M .: 1975

Claims (3)

1. A device for trawling and disposing of explosive objects, containing a source of electrical energy, a device for monitoring its parameters and an electromagnetic field source, which is an inductor, characterized in that it includes an adjustable autotransformer. 2. The device according to p. 1, characterized in that the electromagnetic coupling between the inductor and the fuse provides an adjustable autotransformer. 3. The device according to claim 1, characterized in that the source of the electromagnetic field, which is an inductor, is removable.

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