RU2357178C1 - Barrel-mounted projectile device - Google Patents

Abstract

FIELD: weapons.

SUBSTANCE: invention concerns small arms, particularly heads for submachine gun for hand-grenade projection of various purpose at 100 -120 m distance. Head includes unit of fixation to gun barrel, guide tube and prop for fixation of detonator lever and springs fixating grenade in guide tube. Space between grenade bottom and muzzle is larger than barrel channel space where brake leveling distribution of gunpowder gas flow pressure to grenade bottom is installed.

EFFECT: projection of hand-grenades with plastic case without additional case reinforcement elements.

4 cl, 7 dwg

Description

The invention relates to the field of military equipment and is aimed at creating a barreled nozzle for small arms intended for throwing hand grenades for various purposes (smoke, gas, etc.) at a distance of up to 100 m and more.

Small arms are the main weapons of units in the fight against terrorism and public order. ISPRA (Israel) manufactures ISPRA nozzles (“adapters”) for 7.62-mm and 5.56-mm rifles for firing grenades with tear gas with standard blank cartridges at ranges up to 120 ... 150 m. When using the second type of “adapter” having two varieties, differing in internal diameters, grants are fired with striking elements at ranges from 80 m ... to 180 m depending on the type and weight of the grenade.

In all nozzles, grenades are installed in such a way that between the muzzle of the barrel and the end of the grenade there remains a minimum free volume or it is practically eliminated. This circumstance leads to an uneven effect of the powder gases on the bottom area of the grenade, especially at the initial moment of the expiration of the powder gases from the bore in the nozzle volume. In addition, in this case, the initial overload acting on the grenade becomes large, because with a minimum free volume, the pressure of the powder gases increases. This circumstance leads to the fact that the bottom of individual grenades is protected with a steel plate (UK patent No. 1382184, NCI F3C, F3A, 1975).

The prototype of this invention is the barrel launcher according to the patent of Great Britain No. 1382184, NCI F3C, F3A, 1975

The single-shot barrel thrower is designed for throwing grenades (not manual).

The installation consists of a base, a tubular coupling and a connecting ring. The grenade, pressed into the casing of the base, has a plate in the bottom that protects the grenade from the pressure of gases and bullets. The installation is mounted on the barrel of the weapon using a connecting ring made of brittle plastic. After the grenade leaves the installation, the connecting ring is destroyed by the pressure of the powder gases on the bottom of the nozzle and the nozzle is disconnected from the barrel.

The main disadvantages of this throwing installation is that it is disposable and can only throw special grenades pressed into it.

The objective of the invention is to eliminate the above disadvantages and create a nozzle for small arms, which allows throwing hand grenades with a housing made of plastic or light alloys without using plates.

This problem is solved in that the missile launcher for small arms contains a guide tube with a gun mount for the barrel, a muzzle brake, in which the outlet has a diameter d≥d _n + 0,012l (where d _n is the diameter of the barrel bore in the fields; l - the distance from the muzzle end to the outlet diameter d), and side windows are made in the walls of the brake. A regulator is installed behind the barrel muzzle. To ensure firing live ammunition, it has a through hole with a diameter d _p > d _n . On the body of the guide tube, a sector stop is firmly mounted for the lever of the ignition device of the hand grenade to enter.

The invention is illustrated by drawings, diagrams and graphs, which depict:

Figure 1 is a General view of the throwing installation with a grenade in the context;

Figure 2 is a right view of a missile launcher without a grenade;

Figure 3 is a view a and a section along the cross-section BB of the throwing unit;

Figure 4 is a section along the section bB;

5 is a graph of pressure changes in the nozzle chamber at various initial volumes P ₅ = 5 cm ³ and P ₃₀ = 30 cm ³ as a function of time;

6 is a diagram of the effect of a stream of gases on the bottom of a grenade without a partition;

7 is a diagram of the effects of gases flowing from the windows and the central hole of the brake.

The nozzle consists of a guide pipe 1 with a sleeve 2 and a mounting unit 3 to the barrel of the machine 4. The mounting unit 3 ends with a brake 5 with an outlet "b" and with side windows "a" in the walls, and side grooves "c "figure 3. Behind the muzzle of the barrel, in the attachment point 3, a regulator 8 of FIG. 4 is installed. The regulator has two positions: "B" - combat; "G" - for throwing grenades. Position "G" of figure 1 provides throwing grenades, and "B" - firing from a machine gun with a nozzle live ammunition. To switch the regulator to different positions installed translator regulator 9 of Fig.3. The regulator has a through hole with a diameter d _p > d _n . Perpendicular to the hole, lateral grooves 7 are made in such a way that the barrel bore blocks the partition 10 of FIG. 3. In the body of the guide tube 1, a stop 11 is rigidly mounted for fixing the lever of the ignition device of the hand grenade 12 and two bases 13, in which the springs 14 of Fig. 4 are arranged to fix the grenade. To reduce the pressure inside the nozzle between the bottom of the grenade and the barrel brake outlet, a free volume of the nozzle is formed. The effect of the free volume of the nozzle on the nature of the change in pressure of the powder gases in the nozzle is shown in the graphs of FIG. 5.

The nozzle works as follows.

The nozzle is screwed onto the barrel until it stops and is placed on the spring-loaded lock of the machine. To charge the nozzle, it is necessary to install the grenade 15 in the guide tube 1 until it stops at the base 13, while the lever 12 of the ignition device of the hand grenade must enter the eye of the stop 11, and the springs 14 to fix the grenade in the guide tube. The translator of the regulator should be in position "G" of figure 3. After that, pull out the ignition device check, making sure that its lever 12 is in the eye of the stop 11, and remove the machine fire translator from the fuse if the blank cartridge was charged earlier and the translator is on the fuse, or send the blank cartridge to the machine chamber. When fired by a blank cartridge, powder gases flow from the muzzle of the barrel into the free volume of the nozzle and the pressure in the nozzle begins to increase smoothly (Fig. 7), and not abruptly (Fig. 6). The pressure of the powder gases pushes the grenade 15 out of the guide tube 1, while the lever 12 of the ignition device leaves the eye of the stop 11 and releases the hammer. The drummer, under the action of a war spring, strikes (punctures) the igniter capsule and ignites it. A ray of fire from the igniter capsule ignites the moderator (the remote part of the igniter) and, passing it, is transmitted to the detonator capsule. The detonator capsule explodes and detonates the explosive charge of a grenade. After the end of the moderator’s time, a grenade fuse is fired. For the next shot, you must repeat the above steps. For firing live ammunition from a machine gun with a missile launcher without a grenade, it is necessary to switch the translator of the regulator to position “B”.

Using the proposed constructive solution, it was possible to develop a nozzle for throwing special hand grenades at a distance of 100 ... 120 m, having a body made of low-strength materials (plastics, light alloys, etc.), and also, using a translator, provide firing with live ammunition. The initial volume of the nozzle allowed to significantly reduce the pressure of the gases on the grenade body (Fig. 5) and to provide a more uniform distribution of the pressure of the jet of powder gases at the initial moment of their outflow from the bore to the bottom of the grenade (Fig. 6 and Fig. 7). Side windows of the brake lead to a decrease in gas velocity, which significantly reduces their impact on the bottom of the grenade.

Claims (3)

1. Barrel throwing installation for small arms, containing a guide tube with an attachment to the barrel of the weapon, characterized in that in the guide tube, from the muzzle end of the barrel, a muzzle brake is installed, the outlet of which has a diameter d≥d _n + 0,012l, where d _n is the diameter of the bore in the fields; l is the distance from the muzzle end to the outlet diameter d, and side windows are made in the walls of the muzzle brake. 2. Installation according to claim 1, characterized in that on the guide tube there is a sector stop for the entry of the lever of the ignition device of the hand grenade. 3. Installation according to claim 1, characterized in that in the mount node there is a regulator for firing live ammunition and throwing hand grenades with blank cartridges.

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