RU2324141C1 - Cartridge - Google Patents

Abstract

FIELD: weapons and ammunition; non-lethal ammunition.

SUBSTANCE: cartridge contains two-chamber shell with propellent charge and a grenade, which is connected to the shell with a bond, destructed at firing. The grenade comprises plastic case, base detonating fuse, main charge and its fragmentation charge. The fragmentation charge is placed in the head of plastic case, before the main charge. The fragmentation charge is done as disc of outer diameter equal to internal diameter of case. Along the axis of main charge a detonation pulse transmitter is set, which transfers the detonation pulse from base detonating fuse to fragmentation charge. Transmitter is done from explosive. The diameter of transmitter is bigger than critical diameter for this explosive, but less than than fragmentation charge diameter. A safety stop is installed before fragmentation charge, which prevents destruction of barrier surface, which triggers the grenade. The stop is done from significantly less firm material, than the barrier.

EFFECT: decrease of antipersonnel, high-explosive and acoustic exposure on people.

1 dwg

Description

The invention relates to cartridges used by law enforcement agencies of almost all countries when firing hand grenade launchers for non-lethal struggle against riots and individual, including armed, illegal elements, namely, cartridges with explosive grenades and in equipment with smoke compositions, irritants, and t .P.

The well-known Romanian smoke-burning cartridge PG-4, INC for M79 and M203 hand grenade launchers (see Jane's Ammunition Handbook Edited by Terry J Cander and Charles Q Cutshaw Ninth Edition 2000-2001, p.570), accepted by the authors and applicant of the present invention as its analogue, consists of a two-chamber sleeve with a propelling charge and a grenade that is destroyed when fired and connected to it. The grenade has a thin-walled metal case, a bottom fuse, the main equipment in the form of a red phosphorus dash and a central explosive charge placed in the channel of the main equipment and scattering its burning pieces on the target.

The disadvantages of this grenade are:

- the presence of large striking fragments from the main equipment of the metal body and fuse due to the small bursting charge;

- a decrease in efficiency due to the influence of the microrelief of the surface of the target, because due to the kinetic energy of the projectile’s movement, fragments from the main equipment fly not only to the sides, but also forward, in the direction of the grenade’s movement.

These deficiencies are partially eliminated in the design of the American PG-4 IRIS cartridge for the same hand grenade launchers (see Jane's Ammunition Handbook Edited by Terry J Cander and Charles Q Cutshaw Ninth Edition 2000-2001, p.577), selected by the authors and applicant of the present invention as its prototype and consisting of a two-chamber sleeve with a propelling charge and a grenade attached to it, which is destroyed when fired by a shot.

The grenade consists of a plastic case, inside of which there is a combat (main) charge (CS product), an explosive explosive charge and a bottom fuse.

The execution of the plastic case and the use of a powerful explosive charge made it possible to crush the grenade’s body practically into dust, eliminating the formation of damaging fragments from the body parts, however, the range of expansion of large fragments of the fuse and the bottom in the direction of the shooter increased sharply.

In addition, a powerful explosive charge led to a significant increase in the acoustic and high-explosive action when a grenade was triggered, and finely dispersed crushing of the main composition (to dust particles) led to the fact that they began to be screened to a greater extent by microroughnesses in the relief.

The technical task of the present invention is to eliminate the disadvantages of the known cartridges, namely the elimination of the ejection of the main equipment with a high degree of crushing on the surface of the obstacle on which the grenade fires, almost complete exclusion of fragmentation and reduction of high-explosive and acoustic effects.

According to the present proposed invention, the solution of the technical problem is achieved by the fact that in a cartridge containing a two-chamber sleeve with a propelling charge and fastened with it by a grenade that is destroyed by firing, including a plastic case, a ground fuse, main equipment and its explosive charge from an explosive, an explosive charge placed in the head of the plastic casing in front of the main equipment and made in the form of a disk with an outer diameter equal to the inner diameter of the casing, the axis is basically about the equipment there is a detonation pulse translator from the detonator of the bottom fuse to the explosive charge, made of explosive and having a diameter greater than the critical diameter of this explosive, but smaller than the diameter of the explosive charge, and before the explosive charge there is a fuse for destroying the obstacle surface on which the grenade fires made of much less durable than the barrier material.

In a particular case, the high-pressure chamber of the two-chamber sleeve is made open from the side of the grenade, and the grenade is equipped with a bottom protrusion recessed into the high-pressure chamber of the sleeve, while the bottom protrusion is formed by a hollow plug installed in the bottom of the plastic case of the grenade, and the bottom fuse is partially or completely located in the cavity of the tube and is separated from the main equipment by a partition with an opening in front of its detonator.

The essence of the invention is illustrated by the drawing, where in a section illustrating its complete device, a cartridge according to the present invention is presented.

The cartridge consists of a two-chamber sleeve 1, in the high-pressure chamber 2 of which a propellant charge 3 is placed, and a grenade 4 glued into the sleeve.

The grenade 4 consists of a plastic bottom 5 and a thin-walled plastic shell 6 connected by glue and forming its body.

The bottom 5 has a blind axial and threaded hole, forming a partition 7 in it from the side of the shell 6, and on its outer surface in front of the sleeve 1 a molded leading belt 8.

A hollow plug 9 is screwed into the bottom hole 5, forming a bottom protrusion 10 of the grenade 4, recessed into the high-pressure chamber 2 of the sleeve 1. In the cavity of the plug 9, a bottom fuse 11 is fixed on the adhesive, in front of the detonator 12 of which a hole 13 is made in the partition 7.

In the cavity of the plastic shell 6 between its bottom and the partition 7 is placed connected to each other by glue:

- the main equipment 14 in the form of a channel checker, which is adjacent to the partition 7 and can be formed by a smoke composition, an irritant or any other substance that provides non-lethal damage to the attacked;

- explosive charge 15 of an explosive in the form of a disk adjacent to the end face of the main equipment 14 and having an outer diameter equal to the inner diameter of the shell 6;

- fuse 16 destruction by a bursting charge 15 of the surface of the barrier on which the grenade is fired, placed between the bursting charge and the bottom 17 of the shell 6 and made of a material less durable than the barrier, for example, of foamed polyethylene, foam, foamed epoxy composition, etc. ;

- the translator 18 of the detonation pulse from the detonator 12 of the bottom fuse 11 to the explosive charge 15, located in the channel of the main equipment 14 and made of explosive. The diameter of the translator to exclude the attenuation of the detonation pulse from the detonator 12 is slightly larger than the critical diameter for the explosive that forms it, but significantly less than the diameter of the explosive charge 15.

The work of the cartridge when firing from a hand grenade launcher after ignition of the propellant charge 3 of the sleeve 1 is as follows:

- under the influence of excess pressure of the powder gases from the propellant charge 3, burning in the high-pressure chamber 2 of the sleeve 1, to the end of the protrusion 10 of the grenade 4 is disconnected from the sleeve 1, cuts into the grooves of the grenade launcher leading belt 8 and accelerates in the circumferential and longitudinal directions: first intensively on the length of the entry of the protrusion 10 into the high-pressure chamber 2 under the influence of increasing pressure of the powder gases in it, and then less intensively on the length of the barrel of the grenade launcher - under the influence of the expanding powder gases in it. This ensures a stable muzzle velocity of the grenade 4 and its insignificant dependence on the temperature of the propellant charge and the material part;

- after departure from the barrel of the grenade launcher grenade 4, stabilized by rotation, stably flies to the target, where it meets its surface with the bottom 17 of the shell 6;

- when a grenade 4 collides with an obstacle (target), the bottom 17 of the shell 6 and the fuse 16 are deformed, slowing down the grenade as a whole and causing the fuse 11 to fire;

- after the detonator 12 of the fuse 11 is triggered, its pulse through the hole 13 in the partition 7 initiates the explosive of the translator 18 and is transmitted to the explosive charge 15 and initiates its explosive, while the detonation products of the translator, expanding in the radial direction, partially destroy the shell 6 and the main equipment 14, creating cracks in the latter and substantially increasing the channel in which the translator is located:

- upon operation of the bursting charge 15:

- the detonation wave directed to the obstacle due to deformation and destruction of the fuse 16 and the bottom 17 of the shell 6 and, as it were, the spreading of their materials in this case is partially damped in the radial direction, which eliminates the brisant and significantly reduces the high explosive charge on the obstacle surface. This, on the one hand, eliminates the destruction of the target’s surface and, consequently, the formation of damaging fragments from its material, and, on the other hand, ensures the expansion of a larger number of detonation products of a bursting charge towards the main equipment 14;

- detonation products, expanding in the radial direction, destroy the dust adjacent to the explosive charge wall of the plastic shell 6 without the formation of damaging fragments;

- detonation products expanding towards the main equipment 14, i.e. towards the translational energy of the main equipment, the remaining part of the shell 6, bottom 5, hollow plug 9 and fuse 11, cause bilateral compression of the main equipment and its intensive spreading in the radial direction and back with the destruction of the shell 6 and small dispersion of the main equipment, which is further facilitated by the penetration of products detonation of the explosive charge into cracks and the channel in it, formed by the actuation of the translator 18. In this case, the main equipment is a damper that prevents direct blisant impact and reducing the high-explosive effect on the pressing mass formed by the bottom 5, plug 9 and fuse 11 of the grenade, thanks to which this pressing mass continues to move toward the target without scattering after scattering the main equipment or flies back in the opposite direction at a low speed, eliminating the trauma of the bombarded.

From the description of the device and the operation of the cartridge of the present invention, it follows that:

- in it, for dispersion and dispersion of the main equipment, the translational energy of the grenade as a whole to the target is used, which allows to reduce the explosive charge and at the same time eliminate the release of the main equipment to the target surface and significantly reduce the fragmentation, high-explosive and acoustic hazardous effects on the fired;

- the grenade may not have a bottom protrusion, then the high-pressure chamber will be separated from the grenade, as in the prototype, with a perforated baffle, but in this case the stability of the muzzle velocity of the grenade and, therefore, the stability of the process of triggering the grenade on the target will be compromised, which may reduce its effectiveness and increase the risk of injury.

Claims (2)

1. A cartridge containing a two-chamber sleeve with a propelling charge and fastened with it by a grenade that is destroyed during firing, including a plastic case, a bottom fuse, main equipment and an explosive charge of explosive, characterized in that the explosive charge is placed in the head of the plastic case in front of the main equipment and made in the form of a disk with an outer diameter equal to the inner diameter of the body, the detonation pulse translator from the detonator of the bottom fuse is placed along the axis of the main equipment to the explosive charge, made of explosive with a diameter exceeding the critical diameter of this explosive and smaller than the diameter of the explosive charge, and before the explosive charge, a barrier for breaking the grenade for firing a grenade, made of a material less durable than the barrier, is installed. 2. The cartridge according to claim 1, characterized in that the high-pressure chamber of the two-chamber liner is made open from the side of the grenade, and the grenade is equipped with a bottom protrusion recessed into the high-pressure chamber of the liner, while the bottom protrusion is formed by a hollow plug installed in the bottom of the plastic case of the grenade and the bottom fuse is partially or completely placed in the cavity of the tube and is separated from the main equipment by a partition with an opening in front of its detonator.