RU2529557C1 - Shock cartridge - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: shock cartridge comprises long cartridge case, propellant charge, gas seal, hitting elements and wad. Hitting elements are fitted in cylindrical case. Gas seal is composed of a collar from resilient material. Said case is made of resilient plastic. Case is jointed with gas seal and furnished with lengthwise through slits. Said slits extend from case open end to gas seal.

EFFECT: higher muzzle velocity.

4 cl, 3 dwg

Description

The invention relates to means of combating police riots, and in particular to grenade launchers of non-lethal shock-shock action with a long sleeve.

A fairly large nomenclature of such cartridges is known, presented in the "Jane's Ammunition Handbook Edited by Terry J Cander and Charles Q Cutshaw Ninth Edition 2000-2001" (pp. 575-578 and 581).

According to the authors and the applicant of the present invention, its analogue may be an American cartridge 40F, described on page 575.

It consists of a long sleeve with a propelling charge, a gas seal in the form of a cuff made of elastic material (plastic or rubber), a fiberglass sleeve in which there are three shock elements made of foam rubber, each weighing 11.5 g. A gas seal and a fiberglass sleeve with shock elements secured in the sleeve of the wad.

Cartridge equipment: gas seal, fiberglass sleeve and three shock elements are fired from a hand grenade launcher at a speed of 99 m / s and can be effectively used against crowds of offenders armed with stones, sticks, knives and firearms, at ranges from 15.2 m to 30, 5 m. At a shorter firing range, all cartridge equipment flies compactly and meeting them at this range is fraught with severe injury to them with serious injuries and even death. This is due to the lack of special design solutions in the equipment aimed at their forced and quick separation into parts without braking of the shock elements, but with significant braking at the same time of the most traumatic elements: gas seal and fiberglass sleeve.

In another well-known American Rubber Ball (Stinger) cartridge for hand grenade launchers, described there on page 576 and adopted by the authors and applicant of the present invention with its prototype, the minimum safe firing range at the same speed as that of the analogue is reduced to 10.9 m for shock elements in the form of balls with a diameter of 7.65 mm and remained the same as that of the analogue for balls with a diameter of 15.2 mm This allows us to draw the same conclusion, as in the case with the analogue, that the reason for the large minimum safe firing range is the lack of a prototype device for rapid forced braking of the most traumatic elements and separation from them without loss of speed of spherical shock elements. This conclusion is all the more true that both the prototype and analog have the same design and differ from each other only in the shape and size of the shock elements.

The technical task of the present invention is to eliminate the disadvantages of the known shock-shock cartridges, namely increasing the muzzle velocity of the fired parts of the cartridge, reducing the minimum firing range and, as a consequence, the absence of fatal injuries of one of the fired.

The solution of the technical problem in accordance with the present invention is achieved by the fact that in the known shock-shock cartridge containing a long sleeve with a propelling charge and a gas seal in the form of a cuff of elastic material sequentially installed in it, shock elements placed in a cylindrical container and pressing them to the bottom of the wad sleeve, the new one is that the container for percussion elements is made of elastic plastic, bonded to a gas seal and provided with longitudinal through grooves extending from its open end to the gas seal.

In special cases:

- gas seal and container for percussion elements are molded together;

- against each longitudinal through groove in the container for percussion elements, a radial hole is made in front of the gas seal, the diameter of which is substantially larger than the width of the longitudinal through groove;

- longitudinal through grooves in the container for percussion elements are made inclined in the direction of its rotation when fired.

The essence of the invention is illustrated by drawings, in which Fig. 1 shows a shock-shock cartridge in a section, Fig. 2 shows a container for shock elements combined with a gas seal, in a state after departure from the barrel, and Fig. 3 is a section along A- And in figure 1.

The shock-shock cartridge consists of a long sleeve 1 with a propelling charge 2, in which there is a gas seal 3 molded in the form of a cuff made of polyethylene, a container 4, for shock elements, for example rubber balls 5, molded in the form of a glass made of polyethylene and bonded with gas seal 3. The connection of the gas seal 3 with a container 4 for impact elements 5 can be performed by any known method, for example, an annular protrusion on the inner surface of the container, installed in the ring groove corresponding to it a gas seal or gas seal forming container 3 and 4 together in a single tool in their manufacture. The gas seal 3 with a capacity of 4 and shock elements 5 are fixed in the sleeve 1 with compression to its bottom wad 6, made in the form of a disk made of cardboard. Mounting wad 6 in the sleeve 1 and sealing the joint between them was done with mastic or sealant of any brand. In the tank 4 for impact elements 5, through longitudinal grooves 7 are made, inclined in the direction of rotation of the container after it leaves the barrel of the grenade launcher. At the base of each groove 7 in front of the gas seal 3 there are made radial holes 8, the diameter of which is significantly larger than the width of the grooves 7 and which form weakened sections of the longitudinal parts of the tank 4 formed by the grooves 7.

Impact elements in this cartridge can be of any shape and can be made of any material used in known shock-shock cartridges: sandbags or metal shots, disks made of rubber, plastic or wood, balls made of plastic and rubber, etc. .

The work of the cartridge of the present invention is as follows. When the propellant gas presses a propellant charge 2 onto the gas seal 3 and the container 4 with shock elements 5, they knock out the wad 6 and begin to move along the rifled barrel of the grenade launcher, acquiring the necessary translational and angular velocities along its length. After departure from the trunk, the petals of the tank 4, formed by longitudinal grooves 7, under the action of centrifugal force diverge in the radial directions, deforming (bending) mainly along the weakened sections between the radial holes 8. Due to the increase in the area of resistance to the incoming air flow of the longitudinal petals of the tank 4, gas the seal 3 and the container 4 are intensively braked, and the shock elements 5 are torn away from them and fly away in the direction of fire. The inclination of the longitudinal grooves 7 in the direction of rotation contributes to a faster opening of the lobes of the container 7 between these grooves due to the additional action of the incoming air flow associated with the rotation of the gas seal and the container connected to it with shock elements.

From the description of the operation and device of the patentable cartridge, it is seen that it provides rapid braking of the gas seal and the container for the shock elements immediately after they leave the grenade launcher barrel, which excludes the possibility of causing serious injury to one of the cartridge parts fired by the whole mass.

Claims (4)

1. The shock-shock cartridge containing a long sleeve with a propelling charge and a gas seal in the form of a cuff made of elastic material, shock elements placed in a cylindrical container and pressing them to the bottom of the sleeve of the wad, characterized in that the container for The impact elements are made of elastic plastic, bonded with a gas seal and provided with longitudinal through grooves extending from its open end to the gas seal. 2. The shock-shock cartridge according to claim 1, characterized in that the gas seal and the container for the shock elements are molded together. 3. The shock-shock cartridge according to claim 1, characterized in that against each longitudinal through groove in the container for shock elements, a radial hole is made in front of the gas seal, the diameter of which is substantially larger than the width of the longitudinal through groove. 4. The shock-shock cartridge according to claim 1, characterized in that the longitudinal through grooves in the container for shock elements are made inclined in the direction of its rotation when fired.

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