RU2472094C1 - Variable-length muzzle brake - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: muzzle brake comprises chamber with gas escape holes made on side surface and means to attach it to gun barrel. Besides, it comprises, at least, one extra section to be secured at chamber face and provided with gas escape holes on side surface. Chamber surface and that of every extra section are provided with adjusting locking rings arranged to overlap, at least, partially said gas escape holes.

EFFECT: decreased recoil, dampened sound.

8 cl

Description

The invention relates to gas devices for barrel weapons and can find application in the design of effective muzzle devices for firearms, mainly small arms, designed to reduce undesirable effects associated with the excess energy of the powder gas and reduce the unmasking factors of the shot.

Known (US, 4,530,417) is a silencer of the sound of a shot used in small arms. Known muffler consists of a tubular casing, which is attached to the muzzle end of the barrel with the formation of a cavity covering a portion of the trajectory of the bullets when leaving the barrel. In the casing along the cavity length there are elements of absorbing material, which are affected by the gases formed during combustion. Between the neighboring elements, partitions are made in the form of triangles, impervious to gas flow. Partitions contain rounded protruding sections. Between the rounded sections of the partition are straight sections. The sections of the elements located between the rectilinear sections of the partitions and the inner surface of the casing remain uncovered, allowing gases to pass into the indicated elements, as a result of which their energy is reduced.

The disadvantage of this device is its structural complexity, as well as the inability to use it when choosing the optimal design of a muzzle brake compensator for a specific application, determined by the design of the barrel of the firearm and the characteristics of the cartridge used.

Known (US patent 3748956) silencer for firearms. Known silencer contains a hollow cylindrical shell, closed front and rear with plugs having coaxial holes through which the bullet passes. Partitions located in the shell divide it into chambers, of which at least one is made in such a way that the gas flow is disrupted in the opposite direction. Partitions contain holes through which a bullet flies. The edges of the holes in the partitions are sawtooth and bent in the direction of the rear tube of the muffler shell. The bullet and combustion products of the powder charge pass through the chamber, in which the gas flow turns in the opposite direction, through a tube having radial openings.

The disadvantage of this device is its structural complexity, as well as the inability to use it when choosing the optimal design of the muzzle brake compensator for a specific application, determined by the design of the barrel of the firearm and the characteristics of the cartridge used.

It is also known (US patent 5036747) a muzzle device for a firearm. The known device comprises a mount on the barrel of the weapon, a cylindrical body with transverse partitions, each of which is equipped with a projectile window, and the inner space of the body communicates with nozzles directed to the breech of the barrel through openings located between the transverse partitions. In this device, the efficiency of each of the nozzles decreases in the direction of the shot, because the flow is inhibited by the partitions, and the pressure in the critical part of each of the subsequent nozzles is less than in the previous one, so that it is minimal at the last nozzle. At the same time, the pressure in the critical part of the first nozzle is reduced due to the holes connecting the interior of the casing with subsequent nozzles. Thus, in the device, several identical nozzles operate from a single pressure source of limited power, which reduces its effectiveness as a jet muzzle brake and leads to significant dimensions and weight.

The disadvantage of this device is its structural complexity, as well as the inability to use it in choosing the optimal design of a muzzle brake compensator for a specific application, determined by the design of the barrel of the firearm and the characteristics of the cartridge used.

The closest analogue of the developed technical solution can be recognized (RU, patent 2228504) a muzzle device containing an attachment to the barrel of a weapon, a camera with a projectile window, which is in communication with the barrel channel in its muzzle part and is equipped with internal partitions with holes for passing the projectile, nozzle, connecting the interior of the chamber with the atmosphere, the nozzle being made with a profile of an expanding annular gap connecting with the atmosphere of the inner chamber in front of the first baffle along the projectile oh, and is equipped with elements connecting in a single node the parts of the muzzle device, separated by an annular gap.

According to the text of the invention, the known device, as well as the developed device, can be used in the design of effective muzzle devices of firearms, mainly small arms, designed to reduce undesirable effects associated with the excess energy of the powder gas and reduce the unmasking factors of the shot.

The known device operates as follows. After the projectile (bullet) leaves the barrel, the outflow of powder gas into the chamber of the muzzle device begins. Gunpowder gas can only flow out of the chamber through the nozzle until the projectile has passed through the projectile window, because until this moment, the camera is locked axially by a projectile. After this, the powder gas has the ability to flow out through the nozzle and through the projectile window at the same time, and gas flows through the projectile window passing through the system of internal partitions, i.e. with high gas-dynamic resistance, which ensures its low speed at the exit from the projectile window, on the one hand, and its preferential flow through the nozzle, on the other hand. The nozzle forms a jet stream of powder gas directed to the breech of the barrel, which ensures traction, aimed at reducing the recoil momentum.

The disadvantage of this device is its structural complexity, as well as the inability to use it when choosing the optimal design of a muzzle brake compensator for a specific application, determined by the design of the barrel of the firearm and the characteristics of the cartridge used. In addition, from the materials of the patent it is not clear how the implementation of the known design contributes to the construction of effective muzzle devices of firearms

The technical problem solved by the developed design is to develop a muzzle brake to compensate for the new design.

The technical result obtained by the implementation of the developed device is to reduce the development time of the design of the muzzle brake compensator for a specific use case.

To achieve the specified technical result, it is proposed to use a muzzle brake compensator of the developed design. It contains a chamber with holes for the discharge of gases of combustion of gunpowder made on the side surface of the chamber, as well as means for mounting the chamber on the barrel of a firearm. The specified tool can be threaded, in addition, can be used for fastening to the barrel by means of a collet clamp or pressing on the barrel in a hot state. In addition, it additionally contains at least one additional section, made with the possibility of fixing it at the end of the chamber and containing on the side surface of the hole for the exit of powder gases. On the surface of the chamber and additional sections are placed with the possibility of movement with subsequent fixation of the adjustment rings installed with the possibility of at least partial overlapping of the holes for the exit of powder gases. Mostly the length of the chamber is not sufficient to fully extinguish the recoil of firearms and the sound of a shot. In a preferred embodiment of the developed technical solution, the muzzle brake compensator contains many additional sections of various widths and with a different number of openings for the exit of powder gases. Advantageously, each additional section comprises an external thread at one end for screwing into an opening for passing a projectile in the chamber or into a channel for passing a projectile in another additional section, and at the other end, an internal thread for connecting to another additional section. However, the connection of additional sections can be carried out in another way. The movement of the rings on the surface of the chamber and the additional sections is preferably made using threaded connections, when an external thread is made on the outer surface of the chamber or additional sections and an internal thread is made on the inner surface of the rings, and the rings are moved along the threaded connection. For a more accurate adjustment of the condition of the muzzle brake-compensator, in addition to additional sections of different widths, it is possible to use rings of different widths, which provide overlapping, if necessary, of different openings. It is desirable that the total area of the holes for the exit of the powder gases obviously exceeds the area of the holes, providing a decrease in recoil and sound of the shot. The holes in the chamber and additional sections can be made of various shapes, which also provides a decrease in recoil and at least partially withdraw the barrel of the weapon from the line of sight.

The developed design of the muzzle brake compensator operates as follows.

After the projectile is launched from the bore, the outflow of powder gas into the chamber of the muzzle device begins. Gunpowder gas can flow out of the chamber only through openings in the chamber until the projectile passes through the projectile window, because until this moment, the camera is locked axially by a projectile. Since the length of the chamber is usually insufficient to dampen recoil and divert the barrel from the line of sight, at least one additional section is attached to the chamber. In a subsequent shot, powder gases expire not only through the openings in the chamber, but also through the openings in the additional section. Having selected the total length of the additional sections by selecting them, more precisely, the design of the muzzle brake-compensator is selected by closing / opening part of the holes on the chamber and additional sections. After obtaining the optimal result for specific shooting conditions (type of weapon, cartridge characteristics), the resulting length of the muzzle brake-compensator is recorded, as well as the number, location and shape of the holes in the chamber and additional sections.

Thus, the development time of the design of the muzzle brake silencer for a specific case of a firearm is reduced to 50 times due to the exclusion of time for physical modeling of numerous design options for the muzzle brake compensator.

Claims (8)

1. Muzzle brake - a compensator of variable length, containing a chamber with holes for the discharge of combustion gases of gunpowder made on the side surface, as well as means for attaching it to the barrel of a firearm, characterized in that it further comprises at least one additional section made with the possibility of fixing it at the end of the chamber and containing holes on the lateral surface for the exit of powder gases, while on the surface of the chamber and the surface of each of the additional sections are placed with the possibility of rooms with subsequent fixing adjustment rings installed with the possibility of at least partial overlapping of the holes for the exit of powder gases. 2. The muzzle brake according to claim 1, characterized in that it contains more than one additional section, each of which is configured to be mounted on the end surface of the chamber and the additional section. 3. The muzzle brake according to claim 1, characterized in that the camera is made with the possibility of screwing onto the barrel of a firearm. 4. The muzzle brake according to claim 1, characterized in that the camera is made with the possibility of fixing on the barrel by means of a collet clamp or pressing on the barrel in a hot state. 5. The muzzle brake according to claim 1, characterized in that each additional section is made with the possibility of screwing into the hole for the passage of the missile projectile of the camera or other additional section. 6. The muzzle brake according to claim 1, characterized in that a threaded connection is used to move the adjusting rings on the surface of the chamber and additional sections. 7. The muzzle brake according to claim 1, characterized in that the total area of the holes for the exit of the powder gases is obviously greater than the area of the holes, providing a decrease in recoil and sound of the shot. 8. The muzzle brake according to claim 1, characterized in that the used adjusting rings are made of different widths.