RU2788425C1 - 5.45mm kalashnikov automatic individual sighting device control kit - Google Patents

Abstract

FIELD: testing devices.

SUBSTANCE: invention relates to devices for testing or checking sights and can be used to determine the consistency of the axis of the sights of a 5.45-mm Kalashnikov assault rifle with the axis of the bore. The kit contains a laser cartridge for cold sighting, including a cylindrical body made in the form of a cartridge case body with dimensions corresponding to the dimensions of the cartridge case of a standard assault rifle cartridge, with a cylindrical laser module placed in a cylindrical body, containing a lens and a laser diode, a laser diode driver electrically connected to battery by means of a spring, a back cover with a power switching device containing a sleeve rigidly fixed in the center of the back cover and made of insulating material, inside of which there is a plunger protruding beyond the surface of the back cover by an amount not exceeding the length of the spring compression stroke, contacting the element supply, radial threaded holes made in a cylindrical body in the area of ​​the laser module and located along two circumferences of the body along the edges of the laser module, in the amount of six, three holes per circle, with angles between the axes of the holes of 120 degrees ov, adjusting screws screwed into the threaded holes; a battery consisting of a set of batteries; a device for limiting the deviation of the laser beam, while the cylindrical body is made with an internal threaded connection on the muzzle of the sleeve.

EFFECT: improving accuracy when checking the consistency of the axis of the sighting devices of 5.45-mm Kalashnikov assault rifles with the axis of the bore, ensuring the control of sighting devices, taking into account the peculiarities of the manufacture of the bore and its curvature during long-term operation, the possibility of adjusting the direction of the laser beam, reducing the size and weight of the kit, the possibility of using the kit individually and complete with each machine.

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Description

The invention relates to devices for testing or checking sights and can be used to determine the consistency of the axis of the sights of a 5.45 mm Kalashnikov assault rifle with the axis of the bore.

From the prior art, cold sighting tubes of various calibers are known (Arrangement of weapons and its combat use. Textbook. - Novosibirsk: ed. NVVKU, 2018; Butrimov I.S. Development and research of an optoelectronic complex for monitoring the position of the line of sight of sights. Diss. on competition for the academic degree of KTN - Novosibirsk, 2016). Cold sighting tubes are designed to align sighting devices and check the alignment of the line of sight of sights with the axis of the weapon's bore. The cold sighting tube is a telescopic sighting system, rigidly connected to a cylindrical shank mounted in the front of the bore. The principle of operation of the product is to combine the sighting mark of the studied sight with the aiming point on the alignment target, removed by the distance established by the technical documentation, and then determine the amount of deviation of the line of sight relative to the control point applied to the same alignment target. The cold sighting tube allows you to check the alignment of the line of sight of the sights with the axis of the bore of the weapon, however, there is no information on the industrial production of cold sighting tubes with a caliber of 5.45 mm, which requires the manufacture of an adapter sleeve from a different caliber. Significant disadvantages of the cold zeroing tube are: checking the alignment of the sight line of the sight only with the front part of the bore axis of the weapon, which does not take into account errors in the manufacture of the bore and its distortion during long-term operation, the presence of an unreasonably complex design, as well as large sizes and weight, which do not allow equipping each serviceman with a 5.45-mm Kalashnikov assault rifle as a personal weapon with a cold sighting tube.

A barrel collimator (product 1P61) is known from the prior art (Weapon design and its combat use. Textbook. - Novosibirsk: ed. NVVKU, 2018; Butrimov I.S. Development and research of an optical-electronic complex for monitoring the position of the line of sight of sights. Dissertation for the academic degree of KTN - Novosibirsk, 2016). The barrel collimator is designed to align sighting devices and check the alignment of the line of sight of rifle sights with the axis of the weapon's bore. The barrel collimator is an optical collimator rigidly connected by means of an adapter bracket with a fixing axle installed in the front part of the weapon barrel. The principle of operation of the barrel collimator is to form an image of a coordinate grid with a target uniquely associated with the fixing axis, and then to align the line of sight of the controlled sight with it. The product has disadvantages similar to the cold sighting tube.

A laser sighting device is also known from the prior art, for example, a Rubin laser sighting device (Weapon device and its combat use. Textbook. - Novosibirsk: ed. NVVKU, 2018; Butrimov I.S. Development and research of an optical-electronic complex for monitoring the position of the line of sight of sights. Dissertation for the competition of the academic staff of KTN. - Novosibirsk, 2016). The laser sighting device is also designed to align sighting devices and check the alignment of the line of sight of the sights with the axis of the weapon's bore. SUBSTANCE: laser sighting device contains a cylindrical body with a laser module forming a laser beam, batteries installed in the body, a power button, a barrel rod mounted to the end wall of the body opposite from the laser beam, and a reconciling light-reflecting target remote at a distance. The barrel rod is installed in the front part of the barrel bore of the weapon and is a metal axis with centering belts made of fluoroplastic. To adjust the laser beam relative to the body of the product in the end part of the body at an angle of 120 degrees, there are three adjusting screws with one side resting on the body of the product, and the other on the spring-loaded laser module. The principle of operation of the product is based on the formation of a laser beam along the front part of the axis of the bore of a small arms and subsequent alignment of the line of sight of the studied sight and the laser beam with the corresponding points in the plane of the alignment target. Significant disadvantages of the laser sighting device are: checking the alignment of the line of sight of the sight only with the front part of the axis of the bore of the weapon, which does not take into account errors in the manufacture of the bore of the barrel and its curvature during long-term operation of the weapon and the absence of a special device for adjusting the direction of the laser beam relative to longitudinal axis of the cylindrical body.

As a prototype, a laser cartridge for cold sighting is considered (patent RU 147939 U1, published on November 20, 2014), containing a cylindrical body made in the form of a cartridge body with dimensions corresponding to the caliber of small arms, with a cylindrical laser module containing a lens and a laser diode, wherein the laser module is made of two parts, a laser diode body and a lens body, slidably coupled; a laser diode driver electrically connected to the laser module via a spring; a battery isolated from the body of the cartridge and consisting of a set of batteries; a back cover with a power-on device containing a bushing rigidly fixed in the center of the back cover and made of insulating material, inside which there is a plunger protruding beyond the surface of the back cover by an amount not exceeding the length of the spring compression stroke, which is in contact with the battery; radial threaded holes made in a cylindrical body in the area of the laser module and located along two circumferences of the body along the edges of the laser module, in the amount of six, three holes per circle, the angles between the axes of the holes are 120 degrees; adjusting screws screwed into the threaded holes. From the description of the operation of the device, it follows that the laser module, which includes a lens, a laser diode, placed in a housing consisting of separate mating housing parts and a laser diode driver, generates a narrow visible laser beam. Adjustment of the direction of the laser beam relative to the longitudinal axis of the cartridge in order to combine the beam and the axis of the cartridge is made using the adjusting screws in the "special tool". The device makes it possible to observe the precession of the laser beam around the axis of the cartridge during the rotation of the cartridge around its own axis. Further, adjusting screws achieve such a position of the laser module inside the cartridge body, at which the precession radius tends to zero and the precession itself becomes imperceptible. The laser beam of the cartridge, passing along the axis of the barrel of small arms, forms a bright light spot on the target - a mark. "Zeroing" a weapon using a laser cartridge consists in setting the targeting devices on the weapon to a laser mark.

In the course of studying the descriptions of the prototype and its analogues, including an example of the implementation of the prototype, it was found that:

in the description there is no information about a “special device” that makes it possible to observe, when the cartridge rotates around its own axis, the precession of the laser beam around the axis of the cartridge and, accordingly, it is not clear who, when and on what equipment should achieve such a position of the laser module inside the cartridge body with adjusting screws, at which the precession radius will tend to zero and the precession itself will become invisible;

in the design of the prototype and its analogues, there is no technical possibility to take into account errors during the manufacture of the bore and its curvature during long-term operation.

The main technical problems of the prototype are:

- lack of a special device for adjusting the direction of the laser beam relative to the longitudinal axis of the cartridge;

- lack of technical ability to take into account the error during the manufacture of the bore and its curvature during long-term operation.

The preparation of weapons for firing in order to ensure their trouble-free operation in combat is carried out on the eve of firing, and in the course of hostilities in the intervals between battles. It includes cleaning, lubricating and inspecting weapons and sights, aligning sights, checking combat and bringing small arms to normal combat, inspecting and laying ammunition (Arrangement of weapons and its combat use. Textbook. - Novosibirsk.: ed. NVVKU, 2018) . The practical use of laser cartridges for cold zeroing in the course of preparing assault rifles for firing shows that the deviation of the laser beam for a 5.45 mm Kalashnikov assault rifle at a distance of 100 m can reach 0.65 m, which does not provide the required accuracy when checking the consistency of the axis of sighting devices 5 .45 mm Kalashnikov assault rifles with bore axis. The distance of 100 m is due to the requirements for reconciling the sights of 5.45 mm Kalashnikov assault rifles. For reference: In the course of bringing to normal combat and checking the combat of 5.45-mm Kalashnikov assault rifles, a test target No. 1 is used, tucked in by 0.13 m (Weapon device and its combat use. Textbook. - Novosibirsk.: ed. NVVKU, 2018 .; The course of firing from small arms, combat vehicles and tanks of the Ground Forces (KS SO BM and T SV). - M .: GK SV, 2019), the accuracy dimension should not exceed 0.15 m (Weapon device and its combat application. Textbook. - Novosibirsk: ed. NVVKU, 2018; Manual on shooting. 5.45 - mm Kalashnikov assault rifle (AK-74). - M .: Voenizdat, 1976).

The calculation scheme for determining the maximum deviation of the laser beam at the target installation distance is shown in Fig. 3. According to the calculation scheme, the maximum deflection angle of the laser beam at the muzzle of the machine will be determined by the dependence α=arctg(0.5⋅d/l), where: α - maximum deflection angle of the light beam, deg; l - the length of the barrel of the machine, m; d -- weapon caliber, m. Then the maximum deflection of the light beam at the target installation distance will be calculated h=tg(α)⋅(l+m). After substitution, we get h=0.5⋅d⋅(m/l+1), where: h is the maximum deviation of the light beam at a distance m (to the target), m; m - distance from the muzzle of the machine to the target, m.

Based on the above:

a special device for adjusting the direction of the laser beam relative to the longitudinal axis of the laser cartridge for cold sighting must take into account the features of alignment of sights, the features of bringing to normal combat and checking the combat of small arms for which the laser cartridge is made;

the alignment device must take into account the peculiarities of the manufacture of the bore, as well as its curvature during long-term operation;

the alignment device must be reliable, have minimum dimensions and weight, allowing it to be operated individually and as a set with each machine.

The purpose of the proposed technical solution is to eliminate the shortcomings in the above devices.

The objective of the invention is: improving the accuracy when checking the consistency of the axis of the sighting devices of 5.45-mm Kalashnikov assault rifles with the axis of the bore; control of sighting devices, taking into account the peculiarities of the manufacture of the bore and its curvature during long-term operation; the ability to adjust the direction of the laser beam; the minimum dimensions and weight of the kit, allowing it to be operated individually and complete with each machine.

The specified technical result is achieved by using, when checking the consistency of the axis of the sighting devices of a 5.45-mm Kalashnikov assault rifle with the axis of the bore, a set of non-firing control of sighting devices of a 5.45-mm Kalashnikov assault rifle, individual, containing:

a modernized laser cartridge for cold sighting, including a cylindrical body made in the form of a cartridge case body with dimensions corresponding to the dimensions of the standard rifle cartridge case, with an internal threaded connection on the case mouth for mounting a laser beam deflection limiting device, with a cylindrical laser module placed in the cylindrical body containing a lens and a laser diode, a laser diode driver electrically connected to the power element by means of a spring, a back cover with a power-on device containing a sleeve rigidly fixed in the center of the back cover and made of insulating material, inside which there is a plunger protruding beyond the surface of the back covers by an amount not exceeding the length of the compression stroke, a spring in contact with the battery, radial threaded holes made in a cylindrical body in the area of the laser module and located along two circumferences of the body along the edges of the laser module, in the amount of six, three holes per circumference, with angles between the axes of the holes of 120 degrees, adjusting screws screwed into the threaded holes; a battery consisting of a set of batteries; a device for limiting the deviation of the laser beam, made in the form of a jet with a calibrated hole diameter of 0.001 m, on the outer side of which there is an external threaded connection for mounting to the cylindrical body of the modernized laser cartridge for cold sighting, an emphasis on the muzzle of the machine gun, a barrel sleeve with a counterpart, corresponding to the caliber of the assault rifle with one or more O-rings made of polymeric materials installed in the grooves of the barrel sleeve.

In particular, the emphasis on the muzzle of the machine gun has a diameter exceeding the caliber of the weapon.

Brief description of the drawings.

In FIG. 1 shows a general view of the set of non-shooting control of the sights of a 5.45-mm Kalashnikov assault rifle individual from the side in section.

In FIG. 2 shows a diagram of the operation of a set of non-shooting control of sights of a 5.45-mm Kalashnikov assault rifle individual.

In FIG. 3 shows the calculation scheme for determining the maximum deviation of the laser beam at the target installation distance.

The figures indicate: 1 - laser cartridge for cold shooting; 2 - battery; 3 - device for limiting the deflection of the laser beam; 4 - cylindrical body; 5 - internal threaded connection on the muzzle of the sleeve; 6 - cylindrical laser module; 7 - lens; 8 - laser diode; 9 - laser diode driver; 10 - spring; 11 - back cover; 12 - bushing; 13 - plunger; 14 - radial threaded holes; 15 - adjusting screws; 16 - batteries; 17 - calibrated hole; 18 - external threaded connection; 19 - emphasis on the muzzle of the machine; 20 - receiver sleeve; 21 - sealing rings; 22 - bores of the receiver bushing; 23 - laser beam; 24 - bore; 25 - muzzle; 26 - store; 27 - chamber; 28 - rear sight; 29 - front sight; 30 - projection of the laser beam; 31 - goal.

A set of non-firing control of sighting devices of a 5.45 mm Kalashnikov assault rifle is an individual device consisting of two or more parts interconnected by assembly operations that are in functional structural unity (assembly units), while interconnected by assembly operations, including including screwing, providing structural unity and implementation of a device of general functional purpose: a laser cartridge for cold sighting 1, a battery 2 and a device for limiting the deviation of the laser beam 3. At the same time, a laser cartridge for cold sighting 1 contains a cylindrical body 4, made in the form of a body cartridge cases with dimensions corresponding to the dimensions of the standard machine cartridge case, with an internal threaded connection on the case mouth 5, designed for mounting a laser beam deflection limiting device 3, with a cylindrical laser module placed in a cylindrical body 6, containing a lens 7 and a laser diode 8, a laser diode driver 9 electrically connected to the battery 3 by means of a spring 10, a back cover with a power switch 11, containing a sleeve 12 rigidly fixed in the center of the back cover and made of insulating material, inside which there is a plunger 13 protruding beyond the surface of the back cover by an amount not exceeding the length of the compression stroke of the spring, in contact with the battery 2, radial threaded holes 14 made in a cylindrical body in the area of the laser module and located along two circumferences of the body along the edges of the laser module , in the amount of six, three holes per circumference, with angles between the axes of the holes of 120 degrees, adjusting screws 15 screwed into the threaded holes. The battery 2, consisting of a set of batteries 16, is installed in the body of the cartridge 4 through the back cover 11. The device for limiting the deflection of the laser beam 3 is made in the form of a jet with a calibrated hole diameter 17 equal to 0.001 m. 18 for mounting to the cylindrical body of the laser cartridge for cold sighting 1, an emphasis on the muzzle of the machine gun 19 and a barrel sleeve 20 with a counterpart corresponding to the caliber of the machine gun with one or more sealing ring 21 made of polymer materials installed in the grooves of the barrel sleeve 22. Stop 19 in the muzzle of the machine has a diameter exceeding the caliber of the machine.

A set of non-shooting control of sights of a 5.45-mm Kalashnikov assault rifle individually works as follows. The shooter separates the muzzle brake compensator from the machine gun, unscrews the device for limiting the deviation of the laser beam 3 from the laser cartridge for cold sighting 1 and installs it with the barrel sleeve 20 into the bore of the machine gun 24 from the side of the muzzle 25 until it stops at the muzzle of the machine gun 19. O-rings 21, made of polymeric materials and installed in the grooves of the barrel sleeve 22 provide reliable fixation of the device for limiting the deflection of the laser beam 3 in the bore 24. Next, the shooter installs the laser cartridge for cold sighting 1 in the magazine 26, retracts the bolt carrier to the rearmost position and sends the laser cartridge for cold zeroing into the chamber 27. If necessary, it is possible to install a laser cartridge for cold zeroing 1 into the chamber 27 manually, without using the magazine 26. or a night sight) and determines the target 31 (remote point, target) aiming point, so that the point of impact -r projection of the laser beam 30 of the laser cartridge for cold sighting 1 is in the center of the target 31. If necessary, adjustment of the sights is possible. The laser beam 23, passing along the entire length of the bore of the machine gun 24, is calibrated by a calibration hole 17 with a size of 0.001 m, located in the center of the device for limiting the deflection of the laser beam 3, installed in the bore 24, from the side of the muzzle 25 and gives an accurate projection of the laser beam 30 on targets 31, taking into account the features of the barrel bore 24. At the same time, the use of the device for limiting the deflection of the laser beam 3 not only allows you to take into account the peculiarities of the manufacture of the barrel and the shot of the weapon, but also to increase the accuracy when checking the consistency of the axis of the sighting devices of the 5.45-mm Kalashnikov assault rifle with the axis of the barrel bore , by limiting the deflection of the laser beam at the muzzle by more than 5 times. If the laser cartridge for cold sighting 1 is in good condition and there is no passage of the laser beam 23 through the calibration hole 17, the device for limiting the deflection of the laser beam 3 installed in the bore of the machine gun 24, the cylindrical laser module 6 is calibrated relative to the calibration hole 17 in the following sequence. The device for limiting the deflection of the light beam 3 is screwed all the way into the internal threaded connection on the muzzle of the sleeve 5 of the laser cartridge for cold sighting 1 with the power source 2 installed. By pressing the plunger 13, we close the circuit of the laser cartridge for cold sighting 1. radial threaded holes 14 located along two circumferences of the body along the edges of the laser module, in the amount of six, three holes per circle, with angles between the axes of the holes of 120 degrees, we adjust the position of the cylindrical laser module 6 relative to the cylindrical body 4 of the laser cartridge for cold sighting 1 and calibration hole 17 of the light beam deflection limiting device 3. In this case, the gradual unscrewing of the light beam deflection limiting device 3 should not affect the dimensions of the projection of the laser beam 30 of the cold arrows 1. The set has been adjusted. In the stowed position, the set, by means of installation in a cylindrical body 4 of the battery 2 through the back cover 11 and threaded connections 5 and 18, is assembled into a single device, protected from mechanical influences by manufacturing the components of the set from durable materials. In this case, the power supply circuit of the laser cartridge for cold sighting 1 will be closed only at the moment the shutter of the machine comes into contact with the plunger 13 located on the back cover 11, as well as when the plunger 13 is mechanically pressed during adjustment. In the absence of formation by a cylindrical laser module 6, containing a lens 7 and a laser diode 8, a laser diode driver 9 and electrically connected to a battery 2, consisting of a set of batteries 16 through a spring 10 - batteries 16 of the battery 2.

An example of achieving a technical result.

In accordance with the claimed technical solution, a set of non-firing control of sighting devices of a 5.45-mm Kalashnikov assault rifle was made individually by upgrading a laser cartridge for cold sighting 1 with a size of 5.45 × 39, a cylindrical body 4 and a back cover 11 of which is made of brass. The wavelength of the radiation, which is -650 nm, the radiation power is 2.5 mW. Moreover, only the neck of the sleeve was affected by the modernization - boring and cutting the internal threaded connection on the mouth of the sleeve 5. Before performing turning work, the laser cartridge for cold zeroing 1 was completely disassembled, followed by assembly. Batteries LR-41, 3 pcs. were purchased separately. which make up the battery 2. Further, from brass, according to the drawing shown in Fig.1, a device for limiting the deviation of the light beam 3 was made. After assembly, the cylindrical laser module 6 was adjusted relative to the cylindrical body 4 of the laser cartridge for cold sighting 1 and the calibration hole 17 of the device for limiting the deflection of the light beam 3. The operability of the kit was tested on 5.45 mm Kalashnikov assault rifles AK-74 and AK-12 obtained with warehouse to provide military recruitment in 2021. A set of non-shooting control of sighting devices of a 5.45 mm Kalashnikov assault rifle was used immediately before firing. The laser cartridge for cold sighting 1 was installed in the magazine 26 and sent to the chamber 27. The device for limiting the deflection of the laser beam 3 was installed in the bore 24 at the muzzle 25. The point of impact displayed by the projection of the laser beam 30 was used to determine the aiming point on the target set at a distance 100 meters. The results of the first shooting of the 2021 recruitment personnel were 15-20 percent higher than the results of the military personnel of previous years. At subsequent firing, an individual set of non-firing control of sighting devices of the 5.45-mm Kalashnikov assault rifle was used for cold zeroing in of machine guns fixed in the PS-51 sighting machine, followed by adjustment of sighting devices 28 and 29. The maximum deviation of the laser beam projection is 0.12 m at a distance The 100 meters provided by the 0.001 m calibration hole 17 was more than enough to subsequently bring the weapon to normal combat in a series of 4 shots at the test target No. 1 tucked in 0.13 m and set at a distance of 100 m. when bringing to normal combat a 5.45 mm Kalashnikov AK-74M assault rifle with a night sight (1PN-93-2. The maximum deviation of the laser beam - 0.12 m at a distance of 100 meters, provided by a calibration hole 17 with a size of 0.001 m was more than enough for subsequent bringing the weapon to normal combat in a series of 4 shots in test target No. 1 tucked in by 0.21 m, installed at a distance of 100 m. For the first time, it became possible to align a night sight to a remote point or target at night. In addition, an unexpected technical result was established - practice has shown that there is no need to check the battle of a night sight after adjusting the sight reticle according to the projection of the laser beam 30 passing through the bore 24 through the calibrated hole 17 in the device for limiting the deflection of the laser beam 3 installed in the bore 24 from the side of the muzzle 25.

Rationale for achieving the technical result.

The practical application of a set of non-firing control of sighting devices of 5.45 mm Kalashnikov assault rifles made it possible to: improve the accuracy when checking the consistency of the axis of sighting devices of 5.45 mm Kalashnikov assault rifles with the axis of the bore due to the development and application of a device for limiting and deflecting a laser beam with a calibrated hole diameter 0.001 m more than 5 times; control sighting devices, taking into account the peculiarities of the manufacture of the bore and its curvature during long-term operation through the development and application of a device for limiting and deflecting the laser beam with a calibrated hole with a diameter of 0.001 m with an accuracy of 0.12 m at a distance at 100 m;

to independently adjust the direction of the laser beam, for example, after cleaning or repair, by developing and using a device for limiting and deflecting the laser beam with a calibrated hole with a diameter of 0.001, which increases the reliability and durability of the kit.

develop a kit with minimum dimensions and weight not exceeding the dimensions and weight of a regular cartridge that meets the minimum requirements for measurement accuracy, allowing it to be operated individually and complete with each assault rifle, by analogy with the armament of military vehicles, where each unit of armament has a portable set for alignment of sighting devices - a tube of cold sighting s according to the caliber of weapons and an alignment target.

Claims (3)

1. A set of non-firing control of sighting devices of a 5.45-mm Kalashnikov assault rifle, individual, containing a laser cartridge for cold shooting, including a cylindrical body made in the form of a cartridge case body with dimensions corresponding to the dimensions of the cartridge case of a standard assault rifle cartridge, with a cylindrical laser placed in a cylindrical body a module containing a lens and a laser diode, a laser diode driver electrically connected to the power element by means of a spring, a rear cover with a power switch containing a bushing rigidly fixed in the center of the rear cover and made of insulating material, inside which a plunger protruding beyond the surface is located rear cover by an amount not exceeding the length of the compression stroke of the spring in contact with the battery, radial threaded holes made in the cylindrical body in the area of the laser module and located along two circumferences of the body along the edges of the laser module, in the amount there are six, three holes on a circle, with angles between the axes of the holes of 120 degrees, adjusting screws screwed into the threaded holes; a battery consisting of a set of batteries; a device for limiting the deviation of the laser beam, characterized in that the cylindrical body is made with an internal threaded connection on the muzzle of the sleeve. 2. The set according to claim 1, characterized in that the device for limiting the deflection of the laser beam is made in the form of a jet with a calibrated hole diameter of 0.001 m, on the outer side of which an external threaded connection is made with dimensions corresponding to the internal threaded connection on the barrel mouth, an emphasis in the muzzle of the machine gun, the barrel sleeve with a counterpart corresponding to the caliber of the machine gun with one or more sealing rings made of polymeric materials placed in the grooves of the barrel sleeve. 3. The set according to claim 2, characterized in that the emphasis on the muzzle of the machine is made with a diameter exceeding the caliber of the weapon.

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