UA111496U - MUSHROOMS-COMPENSATOR REDUCTION OF Shotgun Shotgun Shots - Google Patents

Abstract

The muffler to reduce the sound level of a shotgun contains an outer casing in the form of a hollow cylinder, consisting of front and rear, inside which are formed two expansion chambers and the receiver chamber. The first expansion chamber is formed by the inner shell of the front of the casing and the separator with a channel for the passage of the ball, made in the form of a tube, and connected to it a glass facing the inner cavity to the outlet opening of the muffler-compensator. In the tube of the separator along the entire length perpendicular to the axis of passage of the ball made through through holes. The second expansion chamber is formed by a separator glass connected by a thread to the front of the casing and to a central partition made in the form of a glass facing the inner cavity to the inlet of the muffler-compensator, which has a hole for the passage of the ball and the outer thread for connection with the back part of the casing. The receiver chamber is formed by the inner shell of the back of the housing and the system of diffusers, each of which is made in the form of a sleeve having a front part in the form of a cut cone and a cylindrical body to which are rigidly attached to each other two washers with a system of through holes.

Description

The useful model belongs to small-arms firearms, in particular to chamber-type muzzle silencers, and is aimed at creating an effective suppression of the sound of a shot and a significant reduction in the level of recoil of a weapon that uses serial cartridges with supersonic and subsonic bullet speeds.

The reason for the sharp and strong sound of the shot is the high temperature, the pressure of the powder gases in the barrel and the high velocity at its muzzle, which are generated during the shot. In the muzzle section of the barrel, there is a rapid expansion of gases, which is accompanied by a strong sound effect with a level of 90-160 dB. In addition, powder gases when expanding press with equal force on the entire surface of the volume occupied by them. The pressure exerted by the gases on the walls of the bore causes their elastic expansion. The pressure of gases on the bottom of the bullet makes it move quickly along the barrel; the pressure on the bottom of the sleeve, and through it on the bolt, and the receiver is transmitted to the entire weapon and forces it to move back in the direction opposite to the movement of the bullet. That is, when a shot is fired, the force of the powder gases, as it were, throws the weapon and the bullet in different directions. This is the movement of the weapon (barrel) back during the shot and is called the recoil of the weapon. Recoil is felt as a jolt to the shooter's shoulder, hand, or ground. Recoil can greatly affect accuracy, so compensating for recoil is also an important task, as is reducing the sound level of the shot, when creating new designs of small arms, especially those that use large caliber cartridges.

Known compensators for reducing the sound level of a shot according to patent RF Mo 2256865 for an invention, publication date 20.07.2005, and patent RF Mo 2437048 for an invention, publication date 20.12.2011, contain an outer casing in the form of a hollow cylinder, at the end of which a fastening element is installed in the form threads for joining the barrel of the weapon, the main expansion chamber, several additional partitions behind the central partition, forming additional expansion chambers. However, known compensators are quite difficult to manufacture, as they require high precision manufacturing of the mating surfaces of the compensator and the barrel of the weapon to ensure their alignment. This is due to the cantilever attachment of the compensator to the barrel of the weapon. More effective compensators with a fastening element in the form of a thread for connecting to the barrel of a weapon, the muzzle of which is located approximately in the middle part of the casing.

There are known compensators for reducing the sound level of a shot according to the US patent Mo 7832323 for the invention, publication date 00.00.2010, and the US patent Mo 6374718 for the invention, publication date 00.00.2002, which contain an outer casing in the form of a hollow cylinder, inside which a fastening element is installed in the form of a thread for joining the barrel of the weapon, the muzzle of which is located approximately in the middle of the casing and is located in front of the central partition, which forms the main expansion chamber together with the rear partition, located in the muzzle of the barrel and having a number of holes connecting the main expansion chamber a chamber with an annular chamber covering the terminal section of the barrel, several additional partitions behind the central partition forming additional expansion chambers.

The closest analogue is the muffler-compensator for reducing the sound level of a shot according to the US patent No. 4907488, publication date 00.00.1996, the characteristic feature of which is that the central partition is made in the form of a part of a sphere, the concave surface of which faces the inside of the main expansion chamber. Additional partitions are also made in the form of a part of a sphere, the concave surface of which faces outward from the main expansion chamber.

However, known compensators have low efficiency in reducing the sound level of a shot. This is due to a number of reasons. In particular, the design of the known compensator does not ensure a quick and unhindered flow of powder gases from the main expansion chamber to the ring chamber, since holes can be made in the rear partition, the total cross-sectional area of which is approximately 0.4-0.5 of the area of the rear partition. In addition, the central hole in the central partition has a small length, which ensures the quick opening of the main expansion chamber and the exit of powder gases into additional chambers. Another disadvantage is that the powder gases in the chambers mainly move in a straight line, which does not ensure good heat exchange between the gases and the walls of the chambers and does not reduce their pressure and temperature.

In addition, the disadvantage of most known suppressors-compensators is extremely low compensation of the recoil of the weapon when fired or its complete absence.

The task of the proposed useful model is to improve the well-known silencer-compensator by changing its main nodes and their layout to increase the effectiveness of reducing the sound level of the shot and increase the reduction of the recoil of the weapon when fired due to the reduction of the kinetic energy of the powder gases, reducing their pressure and temperature, because intensification of the heat exchange process between the powder gases and the walls of the muffler-compensator.

The task is solved in a silencer-compensator for reducing the sound level of a small-arms shot, which contains an outer casing in the form of a hollow cylinder consisting of front and rear parts, inside which two expansion chambers and a receiver chamber are formed, where the first expansion chamber is formed by the inner shell of the front part casing and separator with a channel for the passage of the bullet is made in the form of a tube and a cup connected to it, the inner cavity facing the output opening of the silencer-compensator, side through holes are made in the separator tube along the entire length perpendicular to the axis of passage of the bullet, the second expansion chamber is formed the separator cup, connected to the front part of the casing and with the central partition made in the form of a cup, the internal cavity facing the inlet of the muffler-compensator, which has a hole for the passage of the ball and an external thread for connection with the rear part of the casing, the receiver chamber Utv plows the inner shell of the rear part of the casing and the diffuser system, each of which is made in the form of a sleeve, having a front part in the form of a truncated cone and a cylindrical body, to which two washers with a system of through holes are rigidly attached parallel to each other, the diffuser system forming additional expansion chambers, the outlet of the rear part of the casing is connected by a thread to the end conical nozzle, which expands.

Around the separator tube to extinguish sparks, reduce the temperature and velocity of the powder gases, a multilayer shell is placed, the material for which is usually a stainless steel mesh, but other suitable materials may be used. Most often, a mesh with a mesh size of 1x1 mm is used for the shell, but there may be other mesh sizes.

An internal thread is made in the front part of the separator tube to connect the silencer-compensator with the barrel of the weapon. And for fastening the front end ring-flange, an external thread is made on the front part of the separator tube.

The following drawing figures, as well as a description of examples of a specific implementation of a muffler-compensator for reducing the sound level of a shot of a small-arms weapon, are given only to illustrate the claimed utility model and do not limit the scope of rights defined by the utility model formula:

Fig. 1 - general view of the muffler-compensator, longitudinal section;

Fig. 2 - general view of the separator in an axonometric projection;

From Fig. C - a general view of the end front ring-flange in an axonometric projection;

Fig. 4 - general view of the central partition in an axonometric projection;

Fig. 5 - general view of the diffuser in an axonometric projection;

Fig. 6 - a general view of the end conical nozzle, which expands, in an axonometric projection;

According to Fig. 1, the muffler-compensator for reducing the sound level of a shot contains an outer casing 1 in the form of a hollow cylinder, consisting of a front 2 and a rear part 3, inside which two expansion chambers 4, 5 and a receiver chamber 6 are formed. The first expansion chamber 4 is formed by the inner shell of the front parts 2 of the casing 1 and the separator 7 with a channel 8 for the passage of the ball, made in the form of a tube 9 and a cup 10 connected to it, facing the outlet of the muffler-compensator. Lateral through holes 11 are made in the tube 9 of the separator 7 along the entire length perpendicular to the axis of passage of the ball (Fig. 1, Fig. 2). In the front part of the tube 9 of the separator 7, an internal thread (not shown) is made for connection with the barrel of the weapon and an external thread (not shown) for fastening the front end ring-flange 12. Around the tube 9 of the separator 7 is placed a multilayer shell 13 made of mesh, made from stainless steel. According to Fig. 1 and Fig. 3, the end front ring-flange 12 has a hole 14 for the passage of the ball, an internal thread (not shown) for fastening on the tube 9 of the separator 7, a skirt 15, which is included in the front part 2 of the casing 1, and an end surface 16, on which the projection is placed 17, having a shape suitable for gripping it with a wrench. The second expansion chamber 5 is formed by the cup 10 of the separator 7, which is connected by an external thread (not shown) to the front part 2 of the casing 1 and by an internal thread (not shown) to the central partition 18, made in the form of a cup, with the inner cavity facing the inlet opening of the muffler. compensator, which has a hole 19 for the passage of the ball and an external thread (not shown) for connection with the rear part C of the casing 1 (According to Fig. 1, Fig. 4). According to Fig. 1 and Fig. 5, the receiver chamber 6 is formed by the inner shell of the rear part of the casing 1 and the system of diffusers 20, each of the diffusers 21 is made in the form of a sleeve, which has an opening 22 for the passage of the ball, a front part in the form of a truncated cone 23 and a cylindrical body 24, to which a rigid two washers 25 with a system of through horizontal holes 26 are attached parallel to each other. At the same time, the diffuser system 20 forms additional expansion chambers. As a rule, the system of diffusers 20 consists of six diffusers 21, but there may be other variants of its implementation. There are various options for fastening the diffuser system 20, in particular, you can use the serial connection of the diffusers 21 to each other by spot welding and spot welding of the diffuser system 20 with the exit of the rear part of the housing 1. You can also use a method in which the individual diffusers 21 do not have a rigid connection connection with each other, and for fixing the diffuser system 20, an additional sleeve is used, the diameter of which is smaller than the inner diameter of the casing 1, which is placed between the rear wall of the central partition 18 and the diffuser system 20. It is clear that there may be other suitable ways of fixing the diffuser system 20 The outlet of the rear part of the housing 1 is connected by an internal thread (not shown) to the end conical nozzle 27, which expands and has an opening 28 for the passage of the ball (Fig. 1, Fig. 6). Spot welding can be additionally used to ensure the rigidity of the fastening and the integrity of the device structure in the places of the threaded connection of the front 2 and rear parts of the cover 1 of the muffler-compensator.

The muffler-compensator for reducing the sound level of a shot works as follows. After the bullet exits the barrel of the weapon, the powder gases through the channel 8 for the passage of the bullet enter the tube 9 of the separator 7, from where they pass through the holes 11 into the first expansion chamber 4, where they expand. When expanding, the powder gases enter the shell 13 from the grid made of stainless steel. Shell 13 extinguishes sparks, reduces the temperature and speed of powder gases. After that, the powder gases enter the second expansion chamber 5, and, using its closed volume, push the silencer and the weapon forward. Leaving the second expansion chamber 5, the powder gases enter the receiver chamber b, where they are divided into two flows, the larger of which passes through the holes 25 in the washers 24 of the diffusers 21, which makes it possible to give the powder gases more turbulence and significantly reduce their speed, and the smaller the flow, passing through the cones 22 of the diffusers 21, is deflected and swirled, which additionally reduces the speed of the powder gases. Through the hole 27 in the end conical nozzle 26, the powder gases exit at a low speed and without a muzzle flame.

As a result of the use of a silencer-compensator, reducing the sound level of a shot of a small-arms weapon according to the claimed utility model, a high degree of sound suppression, an almost complete reduction in the recoil of the weapon during shots, and the complete elimination of the muzzle

From the flame.

Claims (2)

USEFUL MODEL FORMULA 1. Silencer-compensator for reducing the sound level of a shot of small arms, which contains an outer casing in the form of a hollow cylinder, consisting of front and rear parts, inside which two expansion chambers and a receiver chamber are formed, which is characterized by the fact that the first expansion chamber is formed by an inner shell of the front part of the casing and a separator with a channel for the passage of the bullet, made in the form of a tube and a glass connected to it, the inner cavity facing the output opening of the muffler-compensator, side through holes are made in the separator tube along the entire length perpendicular to the axis of passage of the bullet, the second the expansion chamber is formed by a separator cup, connected by a thread to the front part of the casing and to a central partition made in the form of a cup, the inner cavity facing the inlet of the muffler-compensator, which has a hole for the passage of the ball and an external thread for connection to the rear part casing, receiver camera forms an inner shell of the rear part of the casing and a system of diffusers, each of which is made in the form of a sleeve, having a front part in the form of a truncated cone and a cylindrical body, to which two washers with a system of through holes are rigidly attached parallel to each other, while the system of diffusers forms additional expansion chambers, the outlet of the rear part of the casing is connected by a thread to the end conical nozzle, which expands. 2. The muffler-compensator according to claim 1, which is characterized by the fact that a multilayer shell is placed around the separator tube, the material for which is a stainless steel mesh or other suitable material.