RU2192596C1 - Muzzle unit of firearms - Google Patents

Abstract

FIELD: firearms. SUBSTANCE: muzzle unit has chamber formed by two parts: coupling screwed on barrel from front and sleeve screwed on coupling from front. Central hole of coupling houses flaps limited by collars against longitudinal movement. Spring holding flaps open before shot is installed between front butts of flaps and bottom of sleeve. Radial holes whose summary section area is markedly less than section area of bore are made in walls of coupling. Bore of sleeve directing escaping powder gases between sleeve and coupling in direction opposite to motion of bullet creating maximum possible effect braking barrel is located above holes. Slow efflux of powder gases allows level of sound pressure and flaming to be considerably reduced. EFFECT: reduced recoil pulse of barrel and weapon as whole, increased accuracy and density of hits, diminished visibility of muzzle flash and level of sound pressure. 2 dwg

Description

 The invention relates to firearms, and more specifically to devices that increase accuracy and accuracy of fire, reduce recoil and reduce the unmasking signs of a shot (sound, flame) when shooting.

 Known muzzle devices of firearms, which, as a rule, perform limited functions, the most important for this type of weapon. These include muzzle brakes, compensators, flame arresters, roll-up amplifiers, see, for example, the book: Theory and Calculation of Automatic Weapons / Ed. Kirillova V.M. - Penza: Penza Artillery Higher School, 1973, p. 454-449.

 The performance of private functions by a muzzle device in known cases adversely affects other factors of the shot, which include: recoil momentum, sound impact, fiery, unmasking weapon and blinding arrow. For example, the installation of powerful muzzle brakes leads to a large flame area and a high sound pressure level at the location of the shooter or the installation of a nozzle flame arrester increases the recoil momentum of the weapon. A comprehensive improvement of these factors is a difficult technical task due to the physics of the shot process and a number of limitations in the design of weapons (weight, dimensions, health standards, etc.).

 Known muzzle brake (see RF patent 2155309, class F 41 A 21/32; F 41 A 21/36 from 1999), which contains a chamber mounted on the muzzle of the barrel with side windows for the expiration of powder gases and a shutter installed with the possibility displacements until the central window completely overlaps under the influence of the pressure of the powder gases during the aftereffect, which led to a significant decrease in the longitudinal component of the recoil energy.

A disadvantage of the known device is the insufficiently high efficiency of the use of energy of powder gases during the aftereffect, because only the longitudinal component of the energy of the powder gases is quenched, and the powder gases flowing out at high pressure and speed in the lateral direction at an angle of ~ 90 ^° create high sound pressure and flame.

 The proposed invention solves the problem: the creation of a muzzle device with advanced technical capabilities, which would combine the functions of a muzzle brake, a flame arrester and a silencer.

 The technical result obtained by carrying out the invention is to reduce the recoil momentum of the barrel and the entire weapon as a whole, and thereby increase the accuracy and accuracy of fire while reducing the sound pressure level and reducing the visibility of the muzzle flame.

 The specified technical result is achieved in that in a muzzle device of a firearm, consisting of a chamber fixed to the muzzle of the barrel with side openings for the expiration of powder gases and a central window in the front wall of the chamber for passing a projectile, a shutter installed with the possibility of displacement under the influence of pressure of the powder gases until the central window is completely closed during the aftereffect, it is new that the shutter is made in the form of two (or several) movable leaves installed inside the chamber and mutually closing after the passage of the projectile until the central chamber window is completely closed and opening up the access of the powder gas to the side openings of the chamber, the total cross-sectional area of which is much smaller than the cross-sectional area of the barrel channel, while the expiration of the powder gases in the direction opposite to the projectile movement is ensured, and fixing the movable flaps in the pre-shot position with the central chamber window open, provided with a spring installed inside or outside the chamber.

 Compared with the prototype, the claimed technical solution has the following differences: the shutter is made in the form of two or more valves that are installed inside the chamber, and the total cross-sectional area of the side openings is much smaller than the cross-sectional area of the barrel bore and the outflow of powder gases during the aftereffect is directed in the opposite direction movement of a bullet (shell). The fixation of the movable flaps before the shot with the open central window of the camera is provided by a spring placed inside or outside the camera.

 Thus, the proposed technical solution has a novelty and inventive step.

 The invention is illustrated by drawings, where in Fig.1 shows a muzzle device in section and shows the position of the wings and springs before firing; figure 2 - after the passage of a bullet (projectile).

 The chamber of the muzzle device is formed by two parts - the clutch 2, screwed on the front of the barrel 3, and the glass 1, screwed on the clutch 2 in front. Sash 5 and 6 are installed in the central hole of the coupling 2, limited from longitudinal movement by collars. Between the front ends of the flaps 5 and 6 and the bottom of the cup 1, a spring spring 4 is installed, which holds the flaps in the open position before firing. The central hole in the cup 1, spring 4, and also formed by the walls of the wings 5 and 6 are made somewhat larger than the barrel for free passage of a bullet (projectile). Radial holes 7 are made in the walls of the coupling 2, the total area of which is much smaller than the cross-sectional area of the bore. Above the openings 7 is a bore of the glass 1, directing the outgoing powder gases between the glass and the sleeve 2 in the direction opposite to the movement of the bullet (projectile).

 During the shot during the passage of the bullet (projectile) inside the muzzle device, the powder gases penetrate into the cavity between the walls of the clutch 2 and the flaps 5 and 6, the pressure of the powder gases on the rear surfaces of the flaps causes them to turn forward relative to the diametrically opposite parts of the flanges, and also to move forward, compressing spring 4. As a result of the movement of the wings, they are aligned along the beveled planes, and their front ends are pressed through the spring 4 to the bottom of the cup 1. The central hole of the cup 1 becomes practically and closed. The remaining powder gases continue to flow further through the openings 7, then through the nozzle channel between the cup 1 and the sleeve 2, creating a forward driving force for the barrel. Thus, the entire remaining mass of powder gases flows out of the bore in a direction close to the inverse with respect to the movement of the bullet (projectile), creating the maximum possible braking effect on the barrel (weapon), and slow (due to reduction in area) the outflow of powder gases can significantly reduce sound pressure level during firing and flame (glow of powder gases).

Claims (2)

 1. The muzzle device of a firearm, consisting of a chamber mounted on the muzzle of the barrel with side openings for the expiration of powder gases and a central window in the front wall of the chamber for passing a projectile, a shutter installed with the possibility of displacement under the influence of pressure of the powder gases until the central window is completely closed in aftereffect period, characterized in that the shutter is made in the form of two or more movable leaves installed inside the chamber and mutually closing after the passage of the projectile to full overlapping of the central chamber window and opening up access to the powder gases to the side openings of the chamber, the total cross-sectional area of which is much smaller than the cross-sectional area of the bore, while the flow of powder gases in the direction opposite to the projectile movement is ensured.  2. The muzzle device according to claim 1, characterized in that the fixing of the movable flaps before firing with the central camera window open is provided with a spring located inside or outside the camera.

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