RU2064153C1 - Fire shot noise suppressor - Google Patents

Abstract

FIELD: suppression of noise of arms fire shot. SUBSTANCE: the noise suppressor uses a housing accommodating the central tube with radial holes shut off by a check valve, and with an obturating duct. At a shot the bullet passes the muzzle, and powder gases get into the cavity of the central tube, force out the check valve and get into the annular cavity between the housing and central tube up to the moment of balancing of pressure in both cavities. To build up a higher pressure in the cavity of the central tube and maintain it for a longer period of time, provision is made for a temporary complete shut-off of the tube due to the presence of bullet in the obturating duct. Various versions of the obturating duct and check valve are probable. Powder gases can be gradually released from the annular cavity through an orifice. EFFECT: enhanced efficiency. 9 cl, 9 dwg

Description

 The invention relates to the field of small arms, namely, devices for jamming the sound of a shot.

 Known muffler [1] which is mounted on the muzzle of the barrel and in the housing of which there is a muzzle cavity, an axial obturating channel, an annular cavity covering the obturating channel, connected by openings with the muzzle cavity, and annular partitions located in series in the housing between the obturating channel and the outlet. In this muffler, at the moment the bullet passes through the obturating canal, an excess pressure of powder gases is created in the muzzle cavity of the muffler, which are diverted through the hole into the annular cavity. The disadvantage of this muffler is that the area of the holes on one side must be sufficient to have time to divert the powder gases into the annular cavity, and on the other hand, slowly remove the powder gases from the annular cavity when the bullet exits the obturation channel. In any case, this contradiction leads to the outflow of exhaust gas from the silencer after the bullet, which limits the decrease in the sound of the shot.

 The silencer selected as a prototype is mounted on the muzzle of the barrel and has a central pipe forming an annular cavity with the housing communicating with the atmosphere through openings. The device has a more rational arrangement of cavities and radial openings, providing a phased removal of powder gases into isolated annular cavities. However, this muffler has the same drawback as its counterpart: powder gases either do not have time to be discharged into the annular cavity at the moment of passage of the bullet through the septum walls due to the small areas of the radial openings, or freely expire from the annular cavities after the bullet with large values of the areas of the radial openings , which limits the sound reduction of the shot.

 The objective of the present invention is to reduce the sound of the shot, due to the cutoff of part of the powder gases with their subsequent long etching.

 For this, a muffler mounted on the muzzle of the barrel, having a body, a central pipe with radial holes, forming an annular cavity communicating with the body of the holes, is provided with an obturating channel, and the radial holes lie in the same plane perpendicular to the axis of the muffler, shifted to the muzzle of the barrel , and equipped with a check valve.

 The obturating channel and non-return valve can have various designs.

 For example, the obturating channel and the non-return valve can be made in the form of a sleeve with an external centering belt installed in the central pipe with the possibility of axial movement and spring-loaded from the side of the exhaust outlet of the muffler, and the side surface of the belt in the normal position overlaps the radial holes.

 In this design, the movable sleeve plays the role of both the obturating channel and the non-return valve. The obstructing channel can also be formed by a section of the central pipe located between the exhaust outlet of the muffler and the radial openings or in the form of a sleeve fixed in the central pipe and overlapping it between the exhaust outlet of the muffler and the radial openings. In this case, the check valve can be made, for example, in the form of a gas-tight elastic ring enclosing the central pipe, fixed at least at one point and in the normal position, covering the radial holes, or in the form of radially spring-loaded plates, or in the form elastic plates, one end of which is fixed on the central pipe or on the housing, and overlapping radial holes in the normal position.

 The obturating channel can be formed by a sleeve fixed in the central pipe with its overlap and the formation of an annular gap between the sleeve and the central pipe facing the muzzle. In this case, the check valve can be made, along with the above options, in the form of an axially spring-loaded piston ring placed in the annular gap between the central tube and the sleeve, the lateral surface of which overlaps the radial holes, or in the form of an elastic material placed in the said gap interacting with the end surface with a rigid ring installed in the same gap from the side of the muzzle hole with the possibility of axial movement, while the elastic material in normal In the position it closes the radial holes.

 The design of the check valves is not limited to the above options.

 The invention is illustrated by the following drawings.

 In FIG. 1 shows a general view of a silencer with a fixed bushing forming an obturating channel. In FIG. 2, 3 silencer with a movable sleeve-valve. In FIG. 4, an embodiment of the obturating channel and the central pipe portion, in FIG. 5, 6, 7, 8 design options for the check valve. In FIG. 9-section AA of FIG. 5.

 The muffler (Fig. 1) is mounted on the muzzle of the barrel 1 by means of an adapter 2 with threaded connections and consists of a housing 3, inside of which a central pipe 4 with radial holes 5 is fixed, blocked by a valve 6 with a spring 7. Inside the pipe 4, a sleeve 8 is fixed, overlapping it is behind the radial holes 5 in the direction of the bullet and having an obturating channel 9, coaxial with the barrel 1. At the outlet of the muffler, ring baffles 10 with central holes 11 coaxial with the outlet 12 of the housing 3 are installed.

 The valve 6 is installed in such a way that allows gases to flow only from the muzzle cavity 13 inside the pipe 4 into the annular cavity 14 formed by the housing 3 and the pipe 4. The cavity 14 is connected to the atmosphere via a throttling hole 15.

 The muffler works as follows, when firing a bullet, the muzzle of the barrel 1 passes and the powder gases enter the cavity 13, with an increase in which the valve 6 is depressed and the powder gases enter the annular cavity 14 until the pressure in both cavities is equal and the spring 7 will not return valve 6 to its original position, thereby cutting off part of the powder gases.

 To create pressure in the cavity 13 and its longer retention, temporary complete overlapping of the pipe 4 is provided due to the bullet entering the obturating channel 9. This overlapping is carried out by rational choice of the diameter "D" of channel 9, and the duration of the obturation effect depends on the length of the channel "L". After the bullet exits the obturating channel 9, it passes through the holes 1 of the annular partitions 11, where the sound power of the exit of the powder gases bursting after the bullet is extinguished, and leaves the muffler through the outlet 12.

 Powder gases, closed in the cavity 14, are gradually vented through the throttle hole 15.

 In the embodiment of FIG. 2, 3, the device consists of a movable sleeve 16 installed in the central pipe 4, with an obturating channel 9 and an external centering belt overlapping in the normal position the radial holes 5. The sleeve from the side of the outlet 12 is spring-loaded 17. The movement of the sleeve 16 to the barrel 1 restricts stopper 18.

 The device operates as follows.

 When fired, the powder gas after the bullet leaves the barrel 1 and hits the sleeve 16, moving it forward and compressing the spring 17. Moving the sleeve 16 leads to the opening of holes 5 and the gas from the cavity 13 enters the annular cavity 14 and this happens until the bullet is in the obturating channel 9. When leaving the channel 9, the pressure on both sides of the sleeve 16 is equalized, and under the action of the spring 17 it returns to its original position, blocking the holes 5, which leads to the closure of the powder gas in the cavity 14. Further operation of the muffler analog ANT previous versions. The execution of the obturating channel 9 in one piece with the pipe 4 according to the scheme of FIG. 4 reduces the number of parts of the muffler.

 The design of the check valve by means of an elastic ring 19, (Fig. 5) covering the Central pipe 4 and the overlapping hole 5, simplifies the design of the check valve.

 With increasing pressure in the cavity 13, the gases through the holes 5 stretch the ring 19 (Fig. 9) and enter the cavity 14 until the pressure in the cavities is equal and the ring 19 under the action of elastic forces returns to its original position, blocking the holes 5 and cutting off gases in the cavity 14. Further muffler operation is similar to the previous version.

 The check valve can be made in the form of elastic plates 20 (Fig.6), mounted on the outer surface of the pipe 4 or on the inner surface of the housing 3 so that their free ends in the normal position overlap the holes 5.

 The device works similarly to the muffler in figure 1, only the valve acts as one plate 20 instead of two in the first embodiment.

 The check valve variant according to the scheme of Fig. 7, essentially similar to the solution of Fig. 2, consists of a movable ring 21 located between the pipe 4 and the outer surface of the sleeve 8, overlapping the holes 5 in the initial position. The ring 21 from the outlet side of the muffler is pressed by a spring 22, abutting the second end against the stationary sleeve 8.

 When fired, the powder gases hit the ring 21 from the barrel side, the ring moves, compressing the spring 22, and the gases through the holes 5 come from the cavity 13 into the annular cavity 14. After alignment of the forces acting on the sides of the ring 21, it returns under the action of the spring 22 in the initial position, closes the hole 5 and cuts off the gas in the annular cavity 14. In the initial position, the ring 21 is limited from moving to the barrel 1 by the stopper 18. Further operation of the muffler is similar to the previous options.

 The check valve can be made of elastic material 23 (Fig. 8), placed in the annular gap between the pipe 4 and the movable sleeve 8, so that the elastic material 23 in its initial position overlaps the hole 5. From the side of the barrel 1, the elastic material is limited by the ring 24 and stopper 18.

 When fired, the powder gases hit the ring 24, move it as the bullet moves, while the elastic material 23 is compressed, and the holes 5 open. The powder gas flows from the cavity 13 into the cavity 14 until the pressure on the ring 24 has weakened and the elastic material has returned to its original position, blocking the openings 5 and locking the gas in the annular cavity 14. The further operation of the muffler is similar to the previous options.

 Thus, the claimed design of a silencer for a shot sound, equipped with a channel and a non-return valve, makes it possible to split the powder gas into two streams, cut off one stream from the other and significantly increase the time for bleeding gases from the silencer, which reduces the sound of the shot. YYY2 YYY4 YYY6 YYY8

Claims (9)

 1. A silencer of shot sound, comprising a housing and a central tube with radial openings, forming an annular cavity communicating with the housing through openings, characterized in that it is provided with an obturating channel, and the radial openings lie in one plane perpendicular to the muffler axis, shifted to the muzzle cut the barrel, and equipped with a check valve.  2. The muffler according to claim 1. characterized in that the obturating channel and the non-return valve are made in the form of a sleeve with an external centering belt installed in the central pipe with the possibility of axial movement and spring-loaded from the side of the exhaust outlet of the muffler, while the side surface of the belt in the normal position overlaps the radial holes.  2. The muffler according to claim 1, characterized in that the obturating channel is formed by a narrowed section of the central pipe located between the radial openings and the exhaust outlet of the muffler.  4. The muffler according to claim 1, characterized in that the obturating channel is made in a sleeve fixed in the central pipe between the radial openings and the exhaust outlet of the muffler by means of an annular protrusion and forming an annular gap with the central pipe.  5. A silencer according to claim 3 or 4, characterized in that the check valve is made in the form of a gas-tight elastic ring covering the central pipe, fixed at least at one point and blocking radial holes in the normal position.  6. A muffler according to claim 3 or 4, characterized in that the check valve is made in the form of radially spring-loaded plates overlapping radial openings in the normal position.  7. A muffler according to claim 3 or 4, characterized in that the check valve is made in the form of elastic plates, one end of which is fixed to the central pipe or housing, and the second ends in normal position overlap the radial holes.  8. The muffler according to claim 4, characterized in that the check valve is made in the form of a spring-loaded piston ring located in the annular gap, mounted with axial movement, the outer cylindrical surface of which in the normal position overlaps the radial holes.  3. The muffler according to claim 4, characterized in that the check valve is made in the form of an elastic porous material placed in the annular gap, while its end surface located closer to the exhaust outlet of the muffler is limited from longitudinal movement, and the end surface located closer to the muzzle of the barrel, interacts with a rigid ring mounted on the sleeve with the possibility of axial movement, and the elastic material in the normal position blocks the radial holes.

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