RU2652392C1 - Hollow-charged projectile - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to military equipment, munitions and, in particular, to artillery projectiles, as well as to cruise missiles, bombs, mines and other similar kinds of hollow-charged munitions. Hollow-charged projectile includes a cylindrical shell, a main explosive charge and a detonator. Detonator has a cylindrical shape and is placed in the lower part of the main explosive charge, a bottom baseboard is placed between the bottom and the wall of the cylindrical shell. It has a height that is 1.5 times the height of the detonator and is designed in a way that a detonation wave, caused by the detonator explosion and reflected from the bottom baseboard, is able to completely cover the volume of the main explosive charge, excite the main explosive charge and increase the efficiency of the explosion of the projectile.

EFFECT: increase in the explosion efficiency of a hollow-charged projectile with a cylindrical shell due to an increase in the reliability of detonation wave coverage at the explosion of the detonator of the main explosive charge.

1 cl, 1 dwg

Description

The invention relates to military equipment, to ammunition and, in particular, to artillery shells, as well as cruise missiles, bombs, mines and other similar types of cumulative munitions having a shell of cylindrical shape.

In the explosion of a cumulative projectile, the detonation wave begins to move, exciting the main explosive charge - the explosive projectile from the flat surface of the detonator to the inner wall of the shell. Due to the fact that the detonator wall and the inner wall of the projectile are structurally in parallel planes in a typical projectile, the detonation wave instead of exciting the entire explosive charge volume returns to the detonator. There is a process of partial excitation of the main explosive charge, instead of a full one, with a sharp decrease in projectile power.

Known cumulative projectile, including the shell, the main explosive charge and the detonator in the lower part of the main explosive charge (see book. IV Minin and others. Cumulative charges, Novosibirsk, SGTA, 2013, p. 27, Fig. 19a), s . 37-38, fig. 26).

A disadvantage of the known solution is the need to perform a conical shaped-shaped shell shell, which complicates the technology of its manufacture and increases the cost of such manufacture. In addition, the known solution does not stipulate the parameters of the conicity of the shell and its relationship with other parameters of the cumulative projectile. As a result, the required reliability of coating the main explosive charge with a detonation wave during detonator explosion is not expected — the excitation (activation) of the said charge. As a result, the explosion of a cumulative projectile of this configuration is not effective enough.

Cumulative shells with a cylindrical shell are more technologically advanced in serial production, but are characterized by even lower explosion efficiency.

The technical result of the invention is to increase the explosion efficiency of a cumulative projectile with a cylindrical shell by increasing the reliability of the detonation wave coating during the explosion of the detonator of the main explosive charge.

The necessary technical result of the invention is achieved in that the cumulative projectile includes a cylindrical shell, the main explosive charge, a cylindrical detonator in the lower part of the main explosive charge, a bottom plinth between the bottom and the wall of the cylindrical shell with a height that is one and a half times the height of the detonator, while it is possible covering the volume of the main explosive charge by the detonation wave reflected from the baseboard during detonator explosion, excitation of the main explosive charge by this wave and increasing the effect vnosti said projectile explosion.

The figure shows a diagram of a cumulative projectile.

Position 1 - detonator.

Position 2 - “baseboard”.

Position 3 - the direction of the shock wave of the detonator.

Position 4 - direction of the detonation wave.

Position 5 - the main explosive charge of the cumulative projectile.

The cylindrical shell of the shell has a bottom plinth 2 between the bottom and the wall with a height exceeding one and a half times the height of the detonator 1.

After the initiation of detonator 1, detonation wave 4 moves along the main explosive charge 5 from detonator 1 to the baseboard 2 and, being reflected from it, continues to move along the entire main explosive charge, providing its necessary excitation - activation. As a result, an increase in the efficiency of the explosion of a cumulative projectile with a cylindrical shell is provided.

Claims (1)

A cumulative projectile including a cylindrical shell, the main explosive charge, a cylindrical detonator in the lower part of the main explosive charge, a bottom plinth between the bottom and the wall of the cylindrical shell with a height that is one and a half times the height of the detonator, while it is possible to completely cover the volume of the main explosive charge reflected from the baseboard of the detonation wave during the detonator explosion, the excitation of the main explosive charge by this wave and an increase in the explosion efficiency of the said projectile.

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