RU152255U1 - ANTI BLASTING DEVICE - Google Patents

Abstract

1. An anti-personnel explosive device containing an anti-tank anti-track mine, a hitch of ready-made striking elements placed on the bottom of the mine, and a metal bracket, characterized in that a detonating device DU-62 with an electric detonator is installed in the socket under the mine fuse, or the socket is filled with plastic explosive in which the electric detonator is placed. 2. An anti-personnel explosive device according to claim 1, characterized in that the anti-tank anti-track vehicle is made with the possibility of installation in a vertical position on a horizontal surface and on various local objects using a metal bracket with the bottom toward the enemy. 3. The anti-personnel explosive device according to claim 1, characterized in that for the destruction of manpower, ready-made damaging elements of the hitch and fragments from the fragmentation of the shell of the mine, thrown by the products of the explosion are used.

Description

The utility model relates to ammunition for the destruction of moving manpower (biological objects) and can be used in physical protection systems of important state and military objects.

Known engineering fragmentation antipersonnel ammunition [1], inflicting defeat on manpower with both ready-made striking elements-fragments (for example, mines of the MON series, O3M-72), and fragments formed during the explosion of ammunition by crushing its shell (for example, the POM3-2M mine )

Known engineering anti-tank anti-caterpillar mines of class TM (TM-46, TM-57, TM-62 and its modifications) [2], affecting tracked and wheeled vehicles. Defeat to cars is caused by the destruction of their chassis when the rink (wheel) of the machine is hit by a mine push cover and a mine explosion.

The disadvantage of TM class anti-tank mines during combat operations is the extremely low probability of hitting the undercarriage of modern equipment, sharply limiting their use as anti-track mines, as well as the inability to use them to destroy other targets.

The technical result of the utility model is the implementation of the anti-personnel action of this class of mines, which consists in the possibility of defeating manpower.

The technical result achieved is achieved by adding to the anti-tank mine without a detonator a fragmentation mount placed on the mine’s bottom made of ready-made striking elements and a metal bracket, and the recess for the mine’s detonator is used to install a DU-62 detonating device with an electric detonator EDP-r or is filled with plastic explosive (PVV-4, PVV-5, EVV-11, etc.), which houses the electric detonator. Coarse shots, bolts, nuts, notched thick wire, nails and similar metal objects can be used as damaging elements.

In FIG. 1 shows the layout of the hitch on the TM-62 anti-track mine: mine body (1); the bottom of the mine (2), a hitch of ready-made striking elements (3); recess under the fuse (4), filled with a plastic explosive, with an electric detonator (5) and wires (6) placed in it; additional detonator (7).

To ensure a tight fit of the hinge (3) to the mine body, the hinge can be fixed on the mine with hardening adhesives (such as EDP epoxy glue), adhesive tape (adhesive tape) or placed together with the mine in a dense fabric closure.

To ensure the installation of mines in a vertical position, a pre-made bracket is used. In FIG. 2 shows the components of the bracket: stand (a), bracket (b), nails (c), pin (d) - and their main elements: the threaded hole of the stand for the shank (1), holes for nails (2), the handle (3 ), shank (4), clips (5), belt (6), ribs (7), support (8), threaded hole for the pin under the shank (9). The stand with a bracket is used to install mines on the ground and various horizontal surfaces. To do this, the shank of the bracket is screwed into the threaded hole of the stand, and a mine is placed in the bracket itself in a vertical position. Nails are designed to mount the stand on the ground. The pin is used to install mines on local objects (trees, poles, crevices of rocks, etc.). The belt is used to fix the mines in the bracket.

The installation diagram of an anti-personnel explosive device on the ground is shown in FIG. 3: stand (1), nails (2), bracket (3), mine (4), hitch (5), wire line for undermining control (6). The anti-tank anti-tank mine is installed with the bottom towards the enemy.

The installation diagram of an anti-personnel explosive device on a tree is shown in FIG. 4: pin (1), tree trunk (2), bracket (3), mine (4), hitch (5), wire line for undermining control (6).

Anti-personnel explosive device operates as follows.

When a signal is issued to the wire control line, an electric detonator (electronic-pin element) is activated, which is installed in the recess for screwing the mine fuse (DU-62 detonating device), which leads to detonation of the mine explosive. At the same time, ready-made striking elements of the hitch and fragments from the crushing of the mine’s body, thrown by the products of the explosion, defeat the living force.

It is possible to install several anti-personnel explosive devices in a controlled form using a non-contact explosive device NVU-P "Hunting".

Preliminary estimates of the possible area of damage to the device show the preservation of the damaging effects of fragments at distances up to 100 m with a width of the affected area of up to 60 m

Information sources:

1. Means of building and overcoming mine-explosive barriers. Textbook on the material part and the application of M: VIU, 2001

2. Engineering ammunition. Guidance on material and application. Book one. Military publishing house of the Ministry of Defense of the USSR. Moscow. 1976

Claims (3)

1. An anti-personnel explosive device containing an anti-tank anti-track mine, a hitch of ready-made striking elements placed on the bottom of the mine, and a metal bracket, characterized in that a detonating device DU-62 with an electric detonator is installed in the socket under the mine fuse, or the socket is filled with plastic explosive in which the electric detonator is placed. 2. Anti-personnel explosive device according to claim 1, characterized in that the anti-tank anti-track vehicle is made with the possibility of installation in a vertical position on a horizontal surface and on various local objects using a metal bracket with the bottom toward the enemy. 3. An anti-personnel explosive device according to claim 1, characterized in that for the destruction of manpower, ready-made damaging elements of the hitch and fragments from the fragmentation of the mine’s hull, thrown by the products of the explosion, are used.

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