RU100607U1 - Cumulative charge - Google Patents

Abstract

 A cumulative charge containing an axisymmetric explosive bomb with an open cavity in the form of a spherical segment in the body of the bomb, a cladding adjacent to the surface of the cavity made of a plastic material of copper or a copper alloy, and a detonator at the end of the shell opposite the cladding, characterized in that on the outer surface of the cladding facing the explosive block, an aluminum-magnesium alloy overlay fixed in the form of a bonded adhesive is fixed spherical segment, completely covering the surface of the lining, the lining thickness is equal to: h = 0.2 ... 0.3hobl, where hobl is the thickness of the lining.

Description

The invention relates to military equipment, in particular, to the device of cumulative charges.

Known explosive device consisting of a housing, explosive charge (EXPLOSIVES), initiating device and facing facing its apex toward the detonator made in the form of a set of ring sections, the transverse profile of each of which has the shape of a half-shape [Utility model No. 99118037, IPC F42B 1 / 028, 2001].

The disadvantage of this device is the complexity of the charge assembly and the lack of efficiency in initiating a shielded explosive.

The closest analogue is the cumulative charge and its lining, [Utility Model Patent No. 76707, IPC F42B 1/028, 2007]. A cumulative charge containing an axisymmetric explosive bomb with an open cavity in the form of a spherical segment in the body of the bomb, a cladding adjacent to the cavity surface made of an inert material, and an intermediate detonator at the end of the shell opposite the cladding, which is made hemispherical with a flared edge, tightly pressed to the inner side of the casing and forming a gap between the casing and the lining, in which the explosive is pressed, the lining can be met llicheskoy of plastic material of copper or copper alloy.

The disadvantage of the closest analogue is the lack of effectiveness in initiating a shielded explosive.

An object of the invention is to increase the efficiency of the initiating action of the cumulative charge on a shielded explosive due to the penetration of an aluminum-magnesium alloy having high initiating properties directly into the explosive.

The essence of solving this technical problem lies in the fact that the cumulative charge contains an axisymmetric explosive bomb with an open cavity in the form of a spherical segment in the body of the bomb, a cladding adjacent to the cavity surface made of metal made of plastic material of copper or an alloy of copper and a detonator at the end of the case opposite facing. In this case, the cladding is made in the form of a segment of a sphere on the outer surface of which, facing the explosive block, it is fixed mainly with an adhesive joint, an overlay of aluminum-magnesium alloy made in the form of a sphere segment completely covering the surface of the cladding, and the thickness of the lining is:

h = 0.2 ... 0.3h _about. ,

where h _about. - thickness of the lining.

The invention is illustrated by drawings, where in Fig.1 shows a cumulative charge device; figure 2 the mechanism of formation of the striking element.

The cumulative charge consists of a case - 1, a detonator - 2 located at the end of the case, an axisymmetric explosive bomb - 3, with a recess in the form of a spherical segment in the body of the bomb - is placed in the housing. In the recess placed cladding - 4, located behind the explosive device. On the outer surface of the cladding is fixed a pad of aluminum-magnesium alloy - 5.

The cumulative charge works as follows.

The initial pulse from the detonator - 2, is transmitted through the explosive device - 3 detonation wave. The detonation wave reaches the center of the lining - 4 made in the form of a segment of a sphere with a lining located on its outer surface - 5. At the same time, the lining begins to deform together with the lining. Under the influence of the energy of the explosion, a damaging element is formed, consisting of a lining - 4 and a lining - 5, and the lining of aluminum-magnesium alloy in the process of forming the damaging element is on the inner surface of the formed damaging element. In the process of movement on the trajectory, the shape of the striking element changes, while the aluminum-magnesium alloy remains inside the element (figure 2). At the beginning of the impact of the striking element on the barrier, the cladding material is spent on breaking through the barrier, and the aluminum-magnesium alloy, which has high initiating properties, already penetrates into the charge of the explosive.

Moreover, the proposed ratio of the thickness of the lining depending on the thickness of the lining obtained experimentally:

H = 0.2 ... 0.3h _about. ,

where h _about. - the thickness of the lining, ensures the optimal operation of the proposed cumulative charge.

With a ratio of h <0.2h _vol. , there is insufficient efficiency in the operation of the cumulative charge, and at h> 0.3h _vol. the weight of the shell increases and the efficiency of the initiating action of the cumulative charge also deteriorates.

Thus, the proposed technical solution allows to increase the efficiency of the initiating action of the cumulative charge on the shielded explosive by the location of the lining in the cumulative charge so that all the alloy in the formed striking element is consumed to excite detonation in the explosive due to the supply of aluminum-magnesium alloy directly into the area of contact with the explosive.

Claims (1)

A cumulative charge containing an axisymmetric explosive bomb with an open cavity in the form of a spherical segment in the body of the bomb, a cladding adjacent to the surface of the cavity made of a plastic material of copper or a copper alloy, and a detonator at the end of the shell opposite the cladding, characterized in that on the outer surface of the cladding facing the explosive block, an aluminum-magnesium alloy overlay fixed in the form of a bonded adhesive is fixed a spherical segment, completely covering the surface of the liner, wherein the lining thickness is equal to: h = 0.2 ... 0.3h _reg , where h _region - the thickness of the lining.