RU2437048C1 - Silencer - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: silencer includes threaded part to be connected to barrel; casing; separator with conical partitions and central hole for bullet passage. Silencer housing is made of double-wall casing between the walls of which vacuum is created.

EFFECT: reducing the report of a gun, gun jump and eliminating muzzle flash.

1 dwg

Description

The invention relates to small arms, in particular to chamber-type muzzle mufflers, and is aimed at creating effective silencing of the sound of a shot for weapons using serial cartridges with supersonic bullet speed.

The reason for the sharp and strong sound is the powder gases formed during the firing, more precisely their high temperature, pressure in the bore and high speed at its muzzle. At the muzzle of the barrel there is a rapid expansion of gases, which is accompanied by such a characteristic sound effect with a level of 100-125 dB.

Known muzzle silencer and flame arrester for firearms (US patent No. 403445, 1984. F41C 21/18) having an outer casing and an inner hollow tube with radial channels for the removal of powder gases, and the cavity between the vertical tube and the outer casing is filled with a mesh.

One more technical solution of this type is known (German application No. 2448865, 1967. F41C 21/18). The silencer consists of an outer casing and a hollow tube located inside it, forming a chamber for discharging powder gases from the bore.

The above types of silencers reduce the sound volume of the shot due to the pressure drop of the powder gases due to their friction on the grid or turbulence of the gas stream. Turbulence of the gas stream, as you know, significantly increases the transfer of heat from gas to the walls of the muffler.

The disadvantages of the above silencer designs are the high muzzle pressure of the powder gases and the low cooling of the device, which leads to strong heating of the silencer parts and loss of its strength.

Known muffler (US patent No. 3776093, 1973. F41C 21/18), containing a threaded part for connection to the barrel of the weapon, a casing, a partition having a Central hole for the passage of the bullet, forming successive expansion chambers. The silencer also has an expanding conical nozzle at the outlet.

The disadvantage of this design is that the partition in the silencer is perpendicular to its axis, therefore, the silencer is ineffective from the point of view of silencing sound. In addition, the partition is installed with the help of the bushings included in the silencer casing, therefore, during intensive shooting, the bushings become very hot and lengthen, which causes an unacceptably high voltage in them.

Known silencer for the sound of a shot used in small arms (US patent No. 4530417, 1985. F41C 21/18), consisting of a tubular casing, which is attached to the muzzle end of the barrel so that it forms a cavity covering the portion of the flight path of the bullets upon departure from the barrel. In the casing along the length of the cavity there are elements of absorbing material, which are affected by the gases generated during the firing. Between adjacent elements there are partitions in the form of triangles, impervious to gas flow. Partitions have rounded protruding sections. Between the rounded sections of the partitions are rectangular sections.

The disadvantage of the described construction is that the sections of the elements located between the rectangular sections of the partitions and the inner surface of the casing remain uncovered, allowing gases to pass into these elements, resulting in a decrease in their energy.

Known silencer for firearms (US patent No. 0107273, 1984. F41C 21/18), which contains an outer casing and an inner hollow tube with radial channels. Between the tube and the housing there is a packing of sound-absorbing material.

The disadvantage of the described technical solution is its structural complexity.

Known silencer for firearms (US patent No. 3748956, 1973. F41C 21/18), consisting of a hollow cylindrical shell. Partitions located in the shell divide it into chambers, of which at least one is made in such a way that provides a gas flow cut in the opposite direction of the rear tube of the silencer shell. The bullet and combustion products of the powder charge pass through the chamber, in which the gas flow is reversed in the opposite direction, through a tube having radial openings.

The disadvantage of the described invention is the structural and technological complexity.

Known muzzle silencer for firearms (patent RU No. 2104457, 1998. F41A 21/30), which consists of an inner casing in the form of a stepped cylinder, on which the casing in the form of a hollow cylinder. A divider is placed inside the casing, on the protruding part of the casing of which a brake compensator is fixed in the form of a cup with a side window. Part of the powder gases, leaving the bore, enters the chamber, where they expand and pass through the perforated partition into another chamber. Another part of the powder gases passes through the divider and the brake-compensator.

The disadvantage of this design is that the flames during the shots are not eliminated.

Closest to the technical nature of the claimed technical solution is a silencer shot, selected as a prototype (patent RU No. 2089815, 1997. F41A 21/30), consisting of a casing and a separator, which is made of partitions formed by the inclined walls of the windows perpendicular to the central muffler axles. Partitions form expansion chambers, and a conical flame arrester is made at the outlet of the muffler. Upon exiting the muzzle of the barrel, the powder gases enter the expansion chambers, where they expand and lose their speed with a decrease in pressure.

The disadvantage of the prototype is that this design of the muffler does not eliminate the muzzle flame during shots, the location of the fastener - the threaded part on the separator impairs the centering of the muffler relative to the axis of the weapon, which necessitates an increase in the bullet channel and, accordingly, reduces the efficiency of muffling sound.

The objective of the technical solution is to reduce the sound level of the shot in the front hemisphere from the firing position, reduce recoil and eliminate the muzzle flame both during the first and subsequent shots with serial cartridges with supersonic bullet speed.

This task is achieved by the fact that in order to reduce the sound level of a shot and eliminate muzzle flames during shots, the silencer body is made of a double-walled casing, between the walls of which the air is removed, a vacuum is created.

The invention is illustrated in the drawing, which shows a longitudinal section of a muffler.

For mounting on a weapon, the muffler 1 is screwed onto the threaded connection of the barrel 2-a until it stops at the stage 1-a of the preliminary expansion chamber A, thus centering it on the barrel 2 of the weapon. When fired, the powder gases flow from the bore to the preliminary A and flow chambers B and B of silencer 1. The gases in the flow chamber B, when filled, pass through the side openings β to the main chamber D, continuing to move along the walls of the silencer body 1. During gas flow through the main channel α, lateral β and longitudinal d openings, gases enter the separator chambers G. Due to the cone-shaped separator partitions G-1 with openings g, imparting vortex motion to the gases and passing into adjacent compartments, gas flows, meeting When interchanging, they carry out mutual extinguishment when particles collide with each other, increasing the cooling rate. Given that the diameters of the openings of the walls of the chambers of the main channel α are made minimal, ensuring a free passage of the bullet, and the diameters of the holes β, g and d in the walls of the chambers B, C, D are made symmetrically relative to each other, the powder gases fill each chamber more fully. Thus, in the chambers the pressure of the powder gases is minimized due to the loss of speed during expansion, heat transfer and mutual extinguishing of the particles of the powder particles flow.

The mass of the silencer of the sound of the shot increases the moment of inertia of the barrel, thereby reducing the throw angle both when shooting in single and short bursts, which positively affects the accuracy. Also, a muffler in the period of aftereffect of powder gases significantly reduces the path of action of powder gases on a bullet, which also positively affects the accuracy of fire.

Silencer shot sound works as follows.

The shock wave emerging from the bore 2-b after the bullet enters the preliminary chamber A, where it undergoes a partial change due to limited expansion and meeting with the front baffle 1-a. After passing through the preliminary chamber A, the shock wave passes into the flow chamber B, expanding, transfers energy to its walls B-1 and partially to the walls E-1 of the main building E, as well as to the conical partition B-2 of the flow chamber B, thereby additionally losing the sound pulse. A further decrease in the amplitude of the shock wave is due to the passage of the second flow chamber B into the chamber C and separator compartments G. Throughout the movement, the shock wave transfers energy to the main body E of the muffler 1. But due to the fact that the walls E-1 of the muffler 1 are made double-walled, inside of which air is removed, thereby creating an airless space (vacuum), the internal transmission of a sound pulse to the surrounding air does not occur.

Thus, the claimed design of a silencer for the sound of a shot provides a high degree of silencing of the sound, reducing the recoil of the weapon during shots and eliminating the muzzle flame.

Claims (1)

A shot silencer containing a threaded portion for attaching a weapon to the barrel, a casing, a separator with conical baffles and a central hole for the passage of a bullet, characterized in that the silencer body is made of a double-walled casing, between which the vacuum is created between the walls.