RU2120594C1 - Noise muffler for automatic firearms - Google Patents

Abstract

FIELD: firearms, muffling of noise, change of character and intensity of factors unmasking shots. SUBSTANCE: noise muffler includes gas conduit and device for preliminary tapping of powder gases with expansion chamber joined to it which has partitions and evaporating heat exchanger forming gas dynamic vibration generator, device for release of gases having diameter bigger than that of gas conduit which has hole in end face partition that is uniaxial to outlet hole. Device is linked to gas conduit by means of adapter-diffuser. Space of expansion chamber and diameter of outlet hole can be regulated. EFFECT: noise muffler ensures depression and change of character of noise, change of character and intensity of unmasking factors of shots in visible and infrared regions. 4 cl, 1 dwg

Description

 The invention relates to firearms and can be used to dampen the noise of shots of automatic weapons.

 Reactive-type silencers are known, comprising a housing and a number of chambers located therein, communicating with the internal volume of the gas duct. Silencers of this type are used to reduce the noise level with pronounced discrete components in the low-frequency region (see, for example, pp. 55 - 58 in the book by Timofeenko LP, Usok VF, Noise Reduction in Industrial Enterprises. - K .: Technique, 1980), including to reduce the noise level of a shot from an automatic firearm (see, for example, pp. 130 - 133 in the book by V. Murakhovsky, EA Slutsky. Special Purpose Weapons: Reference Book. - M .: Elakos, 1995).

 The disadvantages of these silencers are bullet-ahead supersonic flow of part of the powder gases from the silencer, which reduces its effectiveness, the presence of unmasking factors in the visible (in the absence of a flame arrester) and infrared ranges. To eliminate these shortcomings, rubber plugs are installed at the exit from the muffler and special cartridges are used for firing with a subsonic initial bullet speed (see p. 130 in the book by V. Murakhovsky, E. A. Slutsky. Special Purpose Weapons: Reference. - M .: Elakos, 1995). The disadvantage of this device is the rapid aging of rubber (a cork made of natural rubber can withstand no more than 100 shots). Various heat absorbers are used to reduce the energy of powder gases, however, after several bursts from the machine, the cooling elements are heated, the pressure of the powder gases increases and the efficiency of the silencer decreases sharply (see p. 133 in the book by V. Murakhovsky, B. A. Slutsky. Weapon special purpose: Handbook. - M .: Elakos, 1995).

 The closest technical solution, selected as a prototype, is a muffler with preliminary removal of powder gases, containing a gas duct with coaxial inlet and outlet openings for the passage of the bullet and consisting of two parts: the back - in the form of a device for preliminary removal of powder gases, made in the form of a tubular a gas duct with an opening that communicates the internal volume of the gas duct with an expansion chamber, and a check valve is installed in the hole, and the front with an outlet device for the release of powder gases, filled in the form of a multi-chamber expansion volume (see Silencer with preliminary removal of powder gases from the bore, p. 131 in the book by V. Murakhovsky, E. Slutsky. Special Purpose Weapons: Reference Book. - M .: Elakos, 1995) .

 When firing, powder gases are partially removed from the barrel into the rear expansion chamber through an opening with a non-return valve, and partially pass into the front multi-chamber part of the silencer, where their movement energy is damped when flowing from the chamber to the chamber.

 Common essential features of the known device and the claimed technical solution is the presence of a gas duct with coaxial inlet and outlet openings for the passage of the bullet, a device for preliminary removal of powder gases with a separate expansion chamber and an output device for the release of powder gases.

 In the prototype device, after passing through the bullet, part of the gases is discharged from the gas duct through a special opening with a check valve into a special (rear) expansion chamber, where it is cooled, reduced in volume and can be released outside by any known method. Due to the unorganized nature of the flow and the small diameter of the hole, only a small fraction of the gases can be diverted to the rear chamber of the expander, which, together with its limited volume and total heat capacity, does not provide a noticeable “discharge” in the working process of the front multi-chamber part of the muffler. In this regard, the vast majority of the gases, partially ahead of the bullet, are thrown out through the muffler outlet at supersonic speed, reducing the effectiveness of the noise muffler. To prevent this, it is necessary to increase the dimensions and mass of the muffler.

 The basis of the invention is the task of improving the silencer of shots from automatic firearms, in which by introducing new structural elements and the connections between them a more complete organized removal of powder gases moving after the bullet through the gas duct to the expansion chamber, their effective cooling and subsequent use is provided for the formation of the flow of powder gases from the outlet of the muffler in the form of sequentially moving vortex rings. This allows you to reduce the noise level, change its nature, as well as the nature and intensity of thermal radiation, which is a significant unmasking factor, which extends the functionality of the muffler and its rational use.

 The problem is solved in that in the silencer of shots from an automatic firearm containing a gas duct with coaxial inlet and outlet openings, a device for preliminary removal of powder gases with an expansion chamber and an output device for the release of powder gases connected to it, according to the invention, the gas duct is made with hydraulic the diameter of the channel is larger than the diameter of the outlet of the barrel of a firearm automatic weapon, and the device for preliminary removal of powder gases and the gas duct is made in the form of a gas duct outlet inclined towards the side and a pipe connected to it with a smoothly convex shaped element located in its inlet, the other end of which is connected to an expansion chamber, on the inner surface of which there is a layer of material with a capillary-porous structure filled with liquid refrigerant and a hole for filling refrigerant is provided in the chamber wall, equipped with a stopper. In this case, the outlet device of the gas duct is made in the form of a nozzle of a larger hydraulic diameter with an end wall at the outlet containing an outlet opening coaxial with the inlet, which is connected to the gas duct through an adapter in the form of a diffuser.

 In addition, partitions are installed inside the expansion chamber, which form interconnected and with the internal volume of the chamber gas duct.

 In addition, the expansion chamber is configured to change its volume.

 In addition, the end wall of the output device is made in the form of an adjustable iris diaphragm.

Comparative analysis with the prototype shows that the inventive device is characterized in that:
1) the gas duct is made with a hydraulic diameter of the channel larger than the diameter of the outlet of the barrel of the weapon, and the device for the preliminary removal of powder gases from the gas duct is made in the form of an outlet bent to the side and connected to it with a pipe with a smoothly convex shaped element located in its input part, the other end of which is connected to an expansion chamber, on the inner surface of which there is a layer of material with a capillary-porous structure filled with liquid refrigerant, and in the wall the chamber has an opening provided with a stopper; wherein the silencer outlet device is made in the form of a nozzle of a larger hydraulic diameter than the gas duct with an end wall at the outlet containing an outlet opening coaxial with the inlet, which is connected to the gas duct through an adapter in the form of a diffuser;
2) inside the expansion chamber, partitions are installed that form interconnected with each other and with the internal volume of the chamber gas duct;
3) the expansion chamber is configured to change its volume;
4) the end wall of the exhaust silencer’s output device is made in the form of an adjustable iris diaphragm.

 The combination of 1) these significant distinguishing features is sufficient in all cases to which the requested amount of legal protection applies, and the remaining distinguishing features characterize the invention in some cases of its implementation.

 The implementation of the gas duct with a hydraulic diameter larger than the diameter of the barrel of the weapon and the installation on it of a device for preliminary removal of powder gases in the form of a gas duct bent towards the outlet and a pipe connected to it with a smoothly convex profiled element located in its inlet allows deflection and removal of the jet powder gases flowing out of the barrel after the bullet exits into the expansion chamber located on the other end of the nozzle due to the Coanda effect, which provides adhesion to Rui to a closely located wall and, as a result, a more complete removal of gases compared to the prototype (Lebedev I.V., Treskunov S.V., Yakovenko V.S. Elements of inkjet automation. - M .: Mashinostroenie, 1973, p. 143) . Expansion vessel is a reactive silencing system. Placing a layer of material with a capillary-porous structure filled with liquid refrigerant on its inner wall provides effective cooling of powder gases by evaporating a refrigerant with a high value of heat of vaporization, for example, for water, ≈600 kcal / kg. In this case, the capillary-porous structure distributes the liquid refrigerant evenly over the heating surface, which monitors the uneven supply of heat to the layer during the movement of powder gases through the chamber (see Derya V.G., Guraev N.V., Mumer V.M. Surface forces. - M .: Nauka, 1985). The presence of a hole with a plug in the wall of the expansion chamber provides the possibility of feeding a layer of capillary-porous material with liquid refrigerant. Since the proposed embodiment of the device for preliminary removal of powder gases together with the expansion chamber forms a gas-dynamic oscillation generator that converts the outflow of a stream of powder gases from the barrel into rectangular flow pulses of the gas cooled in the expansion chamber (see L. Zalmanzon. Aerohydrodynamic methods for measuring input parameters of automatic systems . - M .: Nauka, 1973, p. 162, 169), then the execution of the output device of the gas duct in the form of a nozzle of a large hydraulic parameter with an end wall n and the outlet containing the outlet coaxial with the inlet, which is connected to the gas duct through an adapter in the form of a diffuser, ensures the formation of vortex rings at the outlet of the silencer, which are characterized by significantly lower noise levels compared to flooded jets (see V.F. Tarasov Experimental studies of turbulent vortex rings, dissertation for the scientific degree of candidate of physical and mathematical sciences, Novosibirsk, Institute of Hydrodynamics SB RAS, 1975) and lower intensity of unmasking radiation.

 Additional silencing of the noise of the shots is achieved by installing inside the expansion chamber partitions forming a chamber connected to each other and to the internal volume of the gas duct.

 The implementation of the expansion chamber of the preliminary gas removal device with the possibility of changing its volume, as well as the execution of the end wall of the output device in the form of an adjustable iris diaphragm that allows you to adjust the diameter of the gas outlet (see S.V. Kulagin, A.S. Gomenyuk, V. N .Dikarev et al. Optical-mechanical devices: Textbook for technical schools. - M.: Mashinostroenie, 1984, p.150-151), allows you to expand the functionality of the muffler due to its simple adaptability to samples of automatic weapons with time personal rate of fire and the mass of the powder charge in the cartridge, because a change in the chamber volume directly affects the frequency of generating flow pulses and, therefore, vortex rings coming out of the muffler in turn with bullets (see Zalmanzon L.A. Aerohydrodynamic methods for measuring input parameters of automatic systems. - M .: Nauka, 1973, p.162 , 169).

 The invention is illustrated in the drawing, which shows a schematic diagram of a muffler.

 The muffler contains a gas duct 1 and a device for preliminary removal of powder gases, made in the form of a pipe 2, inclined to the outlet of the gas pipe, at the inlet of which a smoothly convex shaped element 3 is placed. The output end of the pipe 2 is connected to an expansion chamber 4, configured to change the volume of using the regulator 5. Inside the expansion chamber, partitions 6 are installed, forming communicating chambers, and on the inner wall of the chamber 4 there is a layer of material 7 with a capillary-porous Keturah filled with liquid refrigerant. An opening with a plug 8 for filling refrigerant is made in the wall of the chamber.

 The output device 9 is made in the form of a nozzle 10 of a larger hydraulic diameter with an end wall 11 with an opening 12 coaxial to the input 13, which is connected to the gas duct by an adapter 14 in the form of a diffuser. The end wall is made with an adjustable hole 12 in the form of, for example, an iris diaphragm. Silencer works as follows.

 At the entrance of the jet of powder gases into the gas duct 1, the latter, as a result of the sticking of the jet to a nearby wall (Coanda effect), flows around the profiled element 3 and enters the expansion chamber 4 through the inclined pipe 2, where it dissipates the energy of its movement and is cooled by evaporation of the refrigerant. When filling the expansion chamber 4 and creating due to this backpressure in it, the gas jet detaches from the surface of the profiled element 3, is sent to the output device 9 in the form of a flow pulse and expires from it, forming a vortex ring. The chamber 4 is partially emptied, the pressure in it decreases and the stream of powder gases of the next shot again adheres to the surface of the profiled element, etc., generating self-oscillating flow rates at the entrance to the output device 9 with a frequency equal to the rate of fire. This frequency can be controlled by changing the volume of the chamber 4. The diameter of the generated vortex rings is changed by changing the size of the outlet 12 of the end wall 11, made, for example, in the form of an adjustable iris diaphragm.

Claims (4)

 1. The silencer of shots from automatic firearms, containing a gas duct with coaxial inlet and outlet openings, a device for preliminary removal of powder gases with an expansion chamber and an output device for the release of powder gases, characterized in that the gas duct is made with a hydraulic diameter exceeding the diameter of the outlet of the barrel of the weapon, and the device for preliminary removal of powder gases is made in the form of a gas duct tilted towards the outlet and the connection a pipe with a smoothly convex shaped element located in its inlet, the other end of which is connected to an expansion chamber, on the inner surface of which there is a layer of material with a capillary-porous structure filled with liquid refrigerant, and an opening provided with a plug in the chamber wall the exhaust device of the muffler is made in the form of a nozzle with a larger hydraulic diameter than the gas duct and with an end wall at the outlet containing an outlet opening coaxial with the inlet, which is connected to the gas duct through an adapter in the form of a diffuser.  2. The device according to claim 1, characterized in that inside the expansion chamber of the device for preliminary removal of powder gases, partitions are installed that form interconnected and with the internal volume of the chamber gas duct.  3. The device according to paragraphs. 1 and 2, characterized in that the expansion chamber is configured to change its volume.  4. The device according to paragraphs. 1 to 3, characterized in that the end wall of the output device for the release of powder gases is made in the form of an adjustable diaphragm.