RU2079100C1 - Fragmentation mine - Google Patents

Abstract

FIELD: land ammunition, in particular, directional fragmentation mines. SUBSTANCE: the offered mine has a guide case, in which the fragmentation ammunition is inserted from the top; the ammunition has a case made, for instance, of a light alloy or plastic, whose front wall is filled in with a set of prefabricated injurious elements, explosive charge and a detonator. Positioned in the cavity between the ammunition bottom and guide case bottom are the powder bursting charge connected through a tube to the fulminating detonator operating under the action of trip pull wire, and a cable connected to the guide case bottom and burster safety pin. The guide case and fragmentation ammunition are made in the form of a flat rectangular parallelepiped, or they are cambered in the direction of propulsion. Cambered fragmentation ammunition layer of explosive on its back side that is installed on the back side of the charge and cambered in the same direction. The plate radius of curvature exceeds the radius of curvature of the charge back side. EFFECT: enhanced wounding effect. 3 cl, 3 dwg

Description

 The invention relates to ammunition, and more particularly to land fragmentation mines exploding after departure from the ground.

 Anti-personnel fragmentation mines with circular and directional fragmentation fields are known. Mines of the first type include the POMZ-2M mine, mines of the second type of the US M18A1 Claymore mine, Austrian mines NM 1000, ARM-2, ARM-3 (see N. Zhukov's article “New Austrian anti-personnel mines”, Foreign Military Review , 1986 N 9, p.21). Directional mines have a flat prismatic forward-facing plastic casing, a matrix (fragmentation element) with several layers of steel balls and an explosive charge located behind it. In the lower part of the body are articulated legs for installing mines on the ground or support with a tripod. The main disadvantage of mines is the difficulty of disguising them.

 As a prototype of the invention adopted fragmentation jumping antipersonnel mine circular destruction of the OZM-4 (see PD Gutenko, GA Matin. Mine weapons. M. DOSAAF USSR, 1988, p. 46). The mine includes a cylindrical body, which is simultaneously a knockout glass, a fragmentation mine, which is actually folded into it, consisting of a body, a layer of ready-made striking elements and an explosive charge, as well as a fuse connected by a cable to the bottom of the knockout glass. The mine is thrown out by an expelling powder charge, driven by an igniter capsule, triggered by the tension of a wire stretch.

 The main disadvantage of this mine, like any ammunition with a circular field, is the low density of the field, and as a consequence, the low probability of destruction.

 The objective of the invention is to remedy this drawback.

 The technical solution to the problem is that the shape of the mine, namely the cylinder, is modified, replaced by a flat rectangular parallelepiped or ammunition in the form of a plate curved in the direction of throwing, consisting of two layers of an explosive layer and a layer of ready-made striking elements (DRE). The specified essential feature is new in relation to the prototype, thus, the claimed device meets the criterion of "novelty."

 Figure 1 shows a General view of a fragmentation mine; figure 2 section of the mine plane of symmetry; figure 3 action mines.

 The mine has a guiding body (glass) 1, in which a fragmentation munition 2 is inserted from above, consisting of a housing 3 made of light alloy or plastic, the front wall of which is filled with a set of ready-made striking elements 4, explosive charge 5, detonation unit 6 and cover 7 On the front wall of the guide body there is a primer 8 with an impact mechanism 9, driven by a tension wire 10. In the space between the bottom of the munition 2 and the bottom of the guide body 1 there is a charge of gunpowder 11 connected to the guide a common tube 12 with an igniter capsule 8, and a cable 13 connected by a lower end to the bottom of the guide body, and the upper end to a pin of the detonation mechanism 14. The cable length is 0.6 0.8 m. To strengthen the strength of the guide case, it can be equipped with stiffeners 15 (shown on part of the surface).

 The action of the mine is shown in figure 3. The mine is installed in the ground flush with its surface. The tension wire 10 is stretched in the direction of throwing the GGE and fixed with an anchor. When the tension wire is touched, an expelling charge is triggered, the combustion products of which fragmentation munition 2 is thrown up. After unwinding the cable 13 to its full length, the munition 2 is undermined with the formation of a directed fragmentation stream, creeping along the surface of the earth. Undermining control can also be carried out from the control panel by wire or by radio signal.

As an example, we give the calculated characteristics of the proposed heavy fragmentation mines designed to destroy unarmored targets. The total mass of the landmine is 20 kg, the mass of the fragmentation munition (ejected part) is 16 kg, the dimensions are 400x250x60 mm, the mass of the explosive charge is 7 kg, the mass of the GGE set is 5 kg. The number of GGE 1000 pcs. the mass of one GGE 5 g, the initial velocity of the GGE of 1700 m / s, the density of the GGE at a distance of 150 m from the place of detonation of 2 fragments / m ² , the thickness of the pierced armor 10.5 and 3 mm, respectively, at a distance of 15.70 and 100 m.

 The use of this invention in mine weapon systems will improve the effectiveness of hitting targets.

Claims (3)

 1. A fragmentation mine containing a guiding body, enclosed fragmentation ordnance with a charge of explosive, a layer of ready-made striking elements and a fuse of tension, connected by a cable to the bottom of the guiding case, and a powder charge placed under the bottom of the fragmentation ordnance, characterized in that the guiding body and the fragmentation munition are made in the form of a flat rectangular parallelepiped.  2. Mine according to claim 1, characterized in that the guide body and the fragmentation munition are made curved in the throwing direction.  3. A mine according to claim 2, characterized in that the curved fragmentation munition is equipped with a metal plate mounted on the back of the charge in the same direction with a layer of explosive and a detonator on its back side, while the radius of curvature of the metal plate is greater than the radius of curvature of the back surface charge and between them a gap is formed for the simultaneous initiation of a charge over the entire surface.

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