RU2110750C1 - Shaped-charge ammunition - Google Patents

Abstract

FIELD: military equipment, applicable for piercing various obstacles and producing a fragmentation field. SUBSTANCE: the body accommodates an explosive charge and an initiating device in the axis of ammunition symmetry. A shaped recess is made on the charge plane surface. At least one annular shaped recess with a V-shaped section is made on the charge lateral surface, its angle bisector passes through the center of the initiating device. Stress concentrators are made on the shaped recess facing. EFFECT: enhanced efficiency. 4 cl, 2 dwg

Description

 The invention relates to military equipment, in particular to the design of cumulative ammunition, the task of which includes, in addition to breaking through various kinds of obstacles, the creation of a fragmentation field.

 To solve this kind of problems, various types of cumulative charges are known, consisting of a body, explosive (explosive) charge with a cumulative recess, a cumulative sign facing and an initiating device [1]. Their common drawback is the ineffective fragmentation effect.

 Known cumulative ammunition containing a shell, explosive charge, fragment shell, cumulative notch made on the end surface of the explosive charge, and at least one V-shaped cumulative ring notch made on the side surface of the explosive charge, initiating means located on the axis of symmetry of the ammunition [2]. The disadvantage of this ammunition is that the efficiency of the fragmentation field formed from the lining of the V-shaped cumulative annular recesses is insufficient, since the axis of symmetry of their profiles do not pass through the initiating device, which leads to asymmetric compression of the lining and casts doubt on the normal functioning.

 The objective of the invention is to increase the efficiency of the fragmentation effect of cumulative ammunition.

 To solve the problem in a known munition containing a shell, explosive charge, a cumulative notch made on the end surface of the explosive charge, and at least one annular cumulative notch with a V-shaped section profile made on the side surface of the explosive charge, facing cumulative notches and the initiating device located ns the axis of symmetry of the munition, the bisector of the angle of the sectional profile of the V-shaped annular cumulative recess passes through the center of the initiating device, and on its lining along the generatrices total stress concentrators.

In addition, at least one additional V-shaped annular cumulative recess can be made on the lateral surface of the explosive charge, while the bisector of the angles of the cross-sectional profiles of all annular cumulative recesses are located at angles to the axis of symmetry of the munition, ranging from 25 to 155 ^o , and pass through the center of the initiating device; stress concentrators are made on the facings of additional V-shaped annular cumulative recesses along their generators; stress concentrators are made on the side surface of the housing.

 In FIG. 1 shows a general view of a cumulative ammunition; in FIG. 2 is a view of an ammunition with three annular cumulative recesses with a V-shaped section profile.

A cumulative munition containing a housing 1, an initiating device 2, located on the axis of symmetry 3 of the munition, explosive charge 4, a cumulative recess 5 with a lining 6, made on the end surface 7 of the explosive charge 4, an annular cumulative recess 8 with a V-shaped section profile with a lining 9, made on the lateral surface 10 of the explosive charge 4, the bisector 11 of the section angle of the profile of which passes through the center of the initiating device 2. On the lateral surface 10 of the explosive charge 4, several annular cumulative recesses 8 with a V-shaped pr filem section with liners 9 arranged at angles α _1, α _2, α ₃ to the axis of symmetry 3 of ammunition lying in the range 25 - 155 ^o, 11 bisectors of angles profiles of the cross sections which intersect at a single point. Facing 9 annular cumulative recesses 8 are made with stress concentrators 12 along their generators. On the side surface of the housing 1 is made of stress concentrators 13.

 The operation of the cumulative ammunition will be examined using the design shown in FIG. 1. When the initiating device 2 is triggered, the explosive charge is detonated 4. The detonation products resulting from this act on the lining 9, and this effect is carried out along the entire circumference of the V-shaped annular cumulative lining: on the cumulative lining 6 and the housing 1. As a result of the impact of detonation products formed: from lining 6 - cumulative stream, providing penetration of the barrier; from an annular cumulative lining 9 with a V-shaped sectional profile - an annular cumulative shell. A fragmentation field of fragments of the required mass is formed from the casing 1 (with voltage concentrators 13 applied to it), which performs the function of a shell with half-finished fragments of a given crushing. During the movement of the annular cumulative shell along the trajectory, it stretches along the reverse and in the radial direction due to the presence of a velocity gradient along its length and the angle between the symmetry axis of the munition 3 and the bisector of the angle of the V-shaped profile of the cross section of the cumulative recess 8. As a result of the exhaustion of plastic possibilities of the shell material along the generatrix of the annular cumulative shell is destroyed into several shells, which are destroyed by segments under the action of circumferential tensile stresses field applying stress concentrates 12. Thus, along with osklochnym field formed from the body 1 of the munition, shrapnel generated field directivity. If on the side surface 10 of the charge of explosive 4 there are several cumulative cumulative notches 8 (Fig. 2), the munition functions similarly to the construction discussed above, but several fragmentation fields of directional action are formed.

 Cumulative ammunition made according to the invention has an increased fragmentation effect, which makes its use more effective.

Claims (4)

 1. Cumulative munition containing a shell, explosive charge, a cumulative recess made on the end surface of the explosive charge, and at least one annular cumulative recess with a V-shaped section profile made on the side surface of the explosive charge, the lining of the cumulative recesses and an initiating device located on the axis of symmetry of the munition, characterized in that the bisector of the angle of the sectional profile of the V-shaped annular cumulative recess passes through the center of the initiating devices, and on its facing along the generators voltage concentrators are made. 2. The ammunition according to claim 1, characterized in that at least one additional V-shaped cumulative recess is made on the side surface of the explosive charge, while the bisectors of the profile angles of the sections of all the cumulative annular recesses are located at angles to the axis of symmetry of the munition within 25 - 155 ^o , and pass through the center of the initiating device.  3. The ammunition according to claim 2, characterized in that stress concentrators are made on the lining of the additional V-shaped annular cumulative recesses along their generators.  4. Ammunition according to any one of claims 1 to 3, characterized in that stress concentrators are made on the side surface of the housing.

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