RU2629025C1 - Tank high-explosive fragmentation projectile - Google Patents

Abstract

FIELD: weapon and ammunition.

SUBSTANCE: projectile contains a body with a thin-walled ogive part, an explosive, a remote impact-remote exploder and a bow block with ready-made attack elements. This unit is connected externally to the head of the projectile body. The bow block is made with a spatial truss located in the form of an axial column with conical shaped shelves placed on it. These shelves are inclined to the axis in the direction of the head of the projectile. The spatial truss is made of ready-made striking elements fastened together.

EFFECT: improved effectiveness of the projectile.

1 dwg

Description

The invention relates to ammunition, namely to high-explosive shells.

A high-explosive fragmentation projectile is known that contains a body with a thin-walled animated part, an explosive, a remote-impact bottom fuse, and a nose unit attached externally to the head of the body, the fragmentation unit made in the form of a set of ready-made striking elements (GGE). The projectile creates two lesion fields in the target area: the axial field of the finished striking elements and the circular field of fragments of natural fragmentation of the hull (patent US 6983699 B1, 01/10/2006).

The disadvantage of this design is the low power of the axial fragmentation field due to the circular dispersion of part of the finished striking elements of the nose block, which generally reduces the effectiveness of the projectile’s action on the target, especially with flat firing trajectories, which is typical for tank artillery.

A well-known high-explosive fragmentation projectile containing a shell with a thin-walled animated part, an explosive, a remote-impact bottom fuse and a nose unit with ready-made striking elements attached externally to the head part of the shell, the nose unit being made with a lightweight spatial truss located inside an alloy based on aluminum or titanium in the form of an axial strut with conical shelves placed on it, tilted to the axis towards the head of the projectile (RF patent on the invention s №2442100, application №2010137892 / 11 dated 14.09.2010, IPC: F42B 12/32 - prototype).

The specified shell operates as follows. When the projectile fuse is fired remotely in the target area, the main projectile breaks and the GGE of the fragmentation block is released. When the shell of the main projectile breaks, as a result of its fragmentation, a circular fragmentation field is created at the point of detonation, and the release of the GGE of the fragmentation block creates an axial field with a static meridional angle of the half-solution of the GGE flow of not more than 90 °, which ensures a significant increase in the fragmentation field in depth and hitting targets located in front of the shell.

The disadvantages are the insufficiently high efficiency of the projectile, due to the fact that part of the volume of the shell of the projectile is occupied by an axial strut with conical shaped shelves placed on it, tilted to the axis towards the head of the projectile.

The objective of the invention is to remedy these shortcomings and increase the efficiency of the projectile by increasing the number of ready-to-use striking elements in the shell of the projectile with constant mass-dimensional characteristics.

The solution to the problem is achieved by the fact that in the proposed tank high-explosive fragmentation projectile containing a body with a thin-walled animated part, an explosive substance, a bottom remote-impact fuse and a nose unit with ready-made striking elements attached externally to the head part of the shell, while the nose unit is made with an inside truss in the form of an axial strut with conical shelves placed on it, tilted to the axis towards the head of the projectile, according to the invention GOVERNMENTAL farm made of prefabricated submunitions, suitably fastened together.

The invention is illustrated in FIG. 1, where a schematic diagram of the construction of the nose block with ready-made striking elements attached to the head of the main body of the main high-explosive fragmentation projectile is shown schematically.

The proposed high-explosive high-explosive projectile contains a shell 1 with a thin-walled animated part 2, an explosive 3, a bottom remote-impact fuse 4 and a nose unit 5 with ready-made striking elements (GGE) 6. The nose unit 5 is connected externally to the head of the shell 1. The nose unit 5 is made with a spatial truss located inside in the form of an axial strut 7 with conical shaped shelves 8 placed thereon, tilted to the axis towards the head of the projectile. The spatial truss is made of ready-made striking elements 6, fastened appropriately to each other.

The fragmentation block is made in the form of a set of GGE 6 placed in a thin-walled conical-cylindrical shell of a thin-walled animated part 2 having an internal thread intended for connection with the housing 1.

GGE 6 are made of steel or heavy alloys based on tungsten, tantalum, in a shape that allows them to be densely packed in a block (in Fig. 1, for the sake of clarity, GGEs are shown in rhombic shape). The connection of GGE 6 in the bag is made using an epoxy compound or other binder. To ensure the strength of the block and create a dense wide-angle axial field, a spatial truss is located inside it, made of steel or heavy alloys based on tungsten, tantalum, in the form of an axial strut 7 with conical shelves 8 connected to it, tilted to the axis towards the head parts of the projectile.

The proposed projectile operates as follows. With the remote operation of the bottom remote-impact fuse of 4 projectiles in the target area, the main projectile ruptures and the GPE 6 is fired from the fragmentation block. When the shell 1 of the main projectile breaks, as a result of its crushing, a circular fragmentation field is created at the point of detonation, and the release of the GGE 6 of the fragmentation unit, including ready-made damaging elements 6, bonded appropriately to each other and forming a spatial truss in the form of an axial strut 7 s placed on it cones of the conical shape 8, creates an axial field with a static meridional angle of the half-solution of the GGE flow of not more than 90 °, which provides a significant increase in the fragmentation field in depth and hitting targets, located ennyh front of the projectile. To ensure the density of the GGE field, the mass of the fragmentation block, according to the calculated data for a 125-mm tank shell, should be within 2-4 kg.

Using the proposed technical solution will improve the effectiveness of the action of a high-explosive high-explosive fragmentation projectile by increasing the number of ready-to-use striking elements in the shell of the projectile.

Claims (1)

A high-explosive fragmentation projectile containing a shell with a thin-walled animated part, an explosive, a remote-impact bottom fuse, and a nose unit with ready-made striking elements attached externally to the head of the projectile body, while the nose unit is configured with an axial truss located inside racks with conical-shaped shelves placed on it, tilted to an axis towards the head of the projectile, characterized in that the spatial truss is made of ready-made striking ele ENTOV fastened together.

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