RU2123164C1 - Rocket launcher - Google Patents

Abstract

FIELD: firearm, in particular, rocket launchers intended to prevent snow-slips, landslides, etc. SUBSTANCE: flow-through chambers having lateral openings are made in the housing behind the muzzle end of the barrel. Holes are made in barrel walls, through which powder gases pass the space behind the shell to the housing and further to its flow-through chambers. EFFECT: enhanced range of fire and reduced dimensions of hand rocket launcher. 6 dwg

Description

 The invention relates to the field of firearms and is aimed at creating tools for the prevention of avalanches, landslides, etc. in mountainous areas.

 Currently, to prevent snow avalanches or mudflows, as well as to prevent hail, conventional artillery anti-aircraft guns or rocket launchers of the Alazani type are used, which from the point of view of economic importance is an expensive undertaking, as shells for these installations and their delivery to the place of proposed activities are very laborious. To reduce the cost of preventing these natural disasters and promptly resolving these issues, it is advisable to use light manual (i.e., carried by one person) weapons such as a grenade launcher that provides firing at ranges up to 1000 ... 1200 meters.

However, to date, there are no such weapons, because to increase the firing range to 1000 meters with a grenade mass of 0.28 - 0.38 kg, it is necessary to increase the initial speed of the grenade to 120-140 m / s, but this is associated with the following technical difficulties:
a large recoil momentum does not allow firing from the shoulder from a relatively light hand weapon (6-10 kg) due to the unacceptable impact of the recoil force when firing at the shooter;
reducing the speed of the grenade by reducing the length of the barrel to 10-30 mm with a shot (cartridge) length of 130-160 mm leads to a high muzzle pressure of the powder gases and, therefore, to unacceptably high values of excessive (sound) pressure acting on the shooter, and high fire when shooting.

 The prototype of the invention is a hand grenade launcher (see AS No. 1654637, class F 41 C 27/06, 1991), which consists of a body, a mobile receiver, a trigger mechanism.

 The disadvantage of this grenade launcher is the relatively small firing range, which does not allow it to be used to prevent the above natural disasters.

 The technical result of the invention is to increase the firing range and reduce the dimensions of a hand grenade launcher, which are achieved due to the following.

The impact of the weapon on the shooter is determined not only by the ballistic characteristics of the ammunition used, but also to some extent by the design parameters of the weapon (mass, stiffness of the back plate and shock absorbing devices, the use of a muzzle brake, etc.). Calculations show that with a constant power of retarded recoil (121.5 kgm / s), the mass of a grenade launcher with various design schemes for a shot at an initial speed of v ₀ = 180 m / s and grenade mass Q = 0.38 kg is equal to:
without depreciation (one degree of freedom) - 17 - 19 kg;
with rubber butt pad (two degrees) - 13 - 14 kg;
with a rubber butt pad and a long depreciation stroke - 11 - 12 kg.

 A further decrease in the mass of the grenade launcher is necessary by reducing the initial speed of the grenade and using a muzzle brake. The table shows the estimated external ballistic parameters of the grenade at various initial speeds.

The table shows that to increase the maximum range to 900-1000 m, the initial speed of the grenade is 120-140 m / s. This speed is provided on the length of the threaded part of the barrel of only 38 mm with a muzzle pressure of more than 33000000 Pa (330 kg / cm ² ), which will lead to unacceptably high sound pressure and fire flame.

 In addition, the grenade protrudes from such a barrel by about 2/3 of its length, i.e., it will not practically be guided by the barrel, which will lead to an increased spread of trajectories.

 However, the use of the discharge of powder gases from the area of the chamber and their transfer through the tube to the muzzle device will not only increase the effectiveness of the muzzle brake, but also ensure the speed of the grenade up to 120-140 m / s at a barrel length of 80-120 mm and provide an acceptable shot sound, t .to. the muzzle pressure will be less than 6,000,000 Pa.

 The essence of the invention lies in the fact that the barrel group is movable relative to the box and kinematically connected with it by elastic connections (spring or hydraulic brake) during the entire rollback of the barrel group, a casing with flow chambers and side windows in them behind the barrel muzzle is installed on the barrel, and in the walls of the barrel, holes are made for the passage of the powder gas from the shell space of the barrel into the casing.

Theoretical studies show that only with this solution will a hand grenade launcher have a minimum mass, for example, when using a shot with v ₀ = 120-140 m / s and Q = 0.380 kg, its mass will be 9 kg (7.5 kg barrel group and 1.5 kg box), and the force impact on the shooter will be equivalent to the impact of a 14.5 mm Degtyarev anti-tank rifle (PTRD) with an allowable sound impact, because the design characteristic of the muzzle brake in this case, taking into account the preliminary discharge of powder gases from the projectile space, will be equal to 0.0-0.25.

 The invention is illustrated by drawings, where schematically depicted in FIG. 1 is a general view of a schematic diagram of a grenade launcher with the necessary cuts; FIG. 2 - section AA on the mirror of the shutter; FIG. 3 - section BB along the axis of rotation of the receiver group relative to the receiver; FIG. 4 - section BB on the bolt assembly and barrel lock; FIG. 5 - graphs of the movement of the arrow (1), box (2), barrel (3) and the rollback speed of the arrow (4) during a shot (until the moment when the rollback speed of the arrow (4) becomes negative) as a function of time (t); FIG. 6 - graphs of the grenade speed (v) and pressure (P) changes in the projectile space as a function of the grenade path (l) without discharge (solid lines) and with gas discharge (dotted line).

 The grenade launcher consists of a box 1, in which a receiver 2 with a receiver group 3 is placed. A trigger mechanism 4 is installed in the receiver 2, a barrel and cocking mechanism for the strike mechanism with a cocking handle 5. Bipods are installed on the box 6. Between the receiver 2 and box 1 has a shock absorber spring 7 (instead of a spring 7, an ideal hydraulic brake can be located). The receiver group 3 includes a barrel 8 with openings "G" for gas discharge, a casing 9 with flow chambers 10 and side windows 11. Side windows 11 are made behind the muzzle of the barrel 8. The barrel lock 12 is included in the grooves of the receiver 2 and the receiver group 3. The box 1 has a rubber butt pad 13. The buffer spring 14 is located between the receiver 2 and the box 1.

 The grenade launcher works as follows.

 To load the grenade launcher, it is necessary to retract the platoon of the percussion mechanism by the platoon handle 5, as a result of which the mainspring is compressed, the barrel lock 12 comes out of the grooves of the receiver group 3 and the receiver group 3 leans back, allowing the weapon to be loaded. When the platoon of the percussion mechanism 5 is retracted, the mainspring is cocked and the sear is mounted on the combat platoon. When folding the receiver group 3, the lock 12 locks the bore, and the percussion mechanism remains cocked. When you press the trigger, the trigger mechanism breaks the capsule of a grenade launcher shot. Powder gases tell a grenade a certain speed, because excess gases leave the projectile space through the discharge holes "G" and then through the casing 9 and the muzzle brake. The receiver group 3 together with the receiver 2 rolls back, testing the resistance of the spring 7 (instead of the spring 7, an hydraulic brake can ideally be installed), the force of which, in turn, is transmitted to the box 1 and the arrow through the rubber recoil pad 13, which significantly reduces the recoil force and increases the time of transfer of kinetic energy from the weapon to the arrow (Fig. 5). When the receiver is returned to the front position, it is braked by the buffer spring 14. The bipod 6 is designed to improve the usability of the grenade launcher, as its mass is relatively large.

 The graphs of FIG. 5 show the possibility of creating this type of weapon, since the relative movements of the barrel group and boxes with bipods are within acceptable limits (120-140 mm).

Claims (1)

 A grenade launcher containing a box with a barrel group made movable relative to the box and kinematically connected with elastic ties during the entire rollback of the barrel group, a trigger mechanism and a casing mounted on the barrel, characterized in that flow chambers are made behind the muzzle end of the barrel in the casing with side windows in them, and in the walls of the barrel, openings are made for the passage of powder gases from the barrel space into the casing, and then into its flow chambers.

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