RU2100738C1 - Automatic small arms - Google Patents

Abstract

FIELD: automatic small arms, in particular, machine guns with an optical or night sight. SUBSTANCE: a hollow case-screen is rigidly fastened on the barrel section behind the gas chamber, the case - screen is connected to the barrel muzzle by means of a sleeve which is made with an eccentricity relative to the barrel so as to provide for calibration of all pairs of barrels on the machine gun. The moment of resistance to bending of the case-screen exceeds the moment of resistance to bending of the barrel. EFFECT: improved design. 2 cl, 1 dwg

Description

 The invention relates to defense technology and is aimed at improving automatic small arms, in particular machine guns with an optical or night sight.

 In well-known unified machine guns of the PKM type, when firing under heavy conditions, as the barrel heats up, it bends, making it difficult to conduct aimed fire, and there is a significant increase in the number of misses to the target.

 This drawback is especially noticeable when using an optical or night sight on a machine gun. If the mechanical sight is less sensitive to thermal leads of the barrel due to partial compensation of the lead by shifting the fly towards the side of the lead, then the optical sight does not change its direction as the barrel heats up, so the mismatch between the direction of shooting and the aiming line increases.

 As practical shooting shows, depending on the quality of the trunks after 50-100 shots, their bending affects the aiming so much that it reduces the effectiveness of shooting up to 0.

An analysis of the leash shows that their most significant causes are:
1) uneven temperature distribution over the trunk as a result of:
a) convective cooling,
b) wind, especially crosswind,
c) snow, rain;
2) residual stresses in the metal of the barrel that arose during its manufacture and, above all, reduction;
3) a change in the physical properties of the material of the barrel as a result of significant heating, sagging barrel.

 The closest in technical essence analogue is a single machine gun with a quick-changeable barrel of the PKM type (Manual on a shooting case, 7.62 mm Kalashnikov machine gun. M. Military Publishing House of the USSR Ministry of Defense, 1971, pp. 57-65) with bipods on the gas chamber and not having a power casing along the entire length of the barrel (as in German Mσ). The part of the barrel from the gas chamber to the muzzle is the least protected from the causes causing the barrel to leash (according to items 1 and 3), since it has the smallest cross section and is not protected from the bottom from convective cooling (at least by a gas pipe).

 The barrel section from the gas chamber to the nozzle has a larger external section, part of the load from the barrel weight is transmitted through the gas chamber to the gas pipe and then to the bipod when firing from the bipod or to the receiver when firing from the machine. Free convection in this section starts from the gas tube, so somewhat warmed air is already approaching the barrel, which reduces the temperature difference between the upper and lower layers of the barrel metal. All of these factors greatly affect the accuracy of firing from a PKM machine gun, significantly reducing its effectiveness.

 The aim of the invention is to increase the effectiveness of weapons in the process of firing by reducing the magnitude of the thermal leashes of the barrel. This is achieved by the fact that in the section of the barrel behind the gas chamber a casing-screen is pressed, and the muzzle of the barrel is connected to the casing-screen through a sleeve, while the moment of resistance of the casing-screen to bend is greater than the moment of resistance of the barrel. In addition, the sleeve is made with an eccentricity relative to the barrel.

 This design allows you to eliminate the bending of the barrel after heating it during the firing process, since the casing screen protects the barrel from all external influences. Moreover, the excess of the casing stiffness on bending over the stiffness of the barrel eliminates the bending by residual stresses after heating the barrel in the process of firing.

 Figure 1 shows the design of weapons made according to the proposed scheme; in Fig.2 node I in Fig.1.

 The design of the weapon includes optical 1 and night 2 sights, a barrel 3, a receiver with a cover 4, moving parts of the automation, retention elements 5, trigger 6, return and cartridge-feeding mechanisms, a casing-screen 7, a sleeve 8.

 The barrel under the casing along the entire length, except for the landing under the casing of the place, is made of a minimum thickness to reduce weight and lateral stiffness, in order to ensure tensile strength.

 The operational strength of the barrel in this section is provided by a casing-screen located behind the gas chamber at a length of 1.5-3 diameters. In this case, the barrel can be cooled by forced pumping of air or by pouring liquid or salt heat carrier into the space between the casing and the barrel through the casing screen, for example, by an ejector.

 Weapons of this design were manufactured and tested. Reducing the size of the lead for heating in 120 shots ranged from 2 to 3 times depending on the number of the barrel compared to the trunks of a traditional design. At the same time, the mass of the trunks did not increase in comparison with the classical variants of the trunks.

 Higher stiffness of the casing in comparison with the stiffness of the retained part of the barrel was maintained, even increased during firing, since the heating temperature of the casing was significantly lower than that of the barrel.

 The installation of a protective casing significantly improved the possibilities of aimed firing from a machine gun, since the haze in front of the sight of a weapon with the proposed casing is much less than that of a weapon made according to the classical scheme.

So, if on a summer sunny day (May-June) at an air temperature of 18-25 ^o C when firing with a conventional barrel after 50-60 shots, aiming firing was difficult due to the flickering of the image, then when using the proposed design flickering of a similar intensity occurred after 150-200 shots.

 The use in the proposed design of the casing with stiffness greater than that of the barrel made it possible, due to the eccentricity of the muzzle bushing, to make almost one hundred percent shoot of all pairs of trunks on machine guns.

 Moreover, the machine guns A064M N 1501 and N 1443 had 6 interchangeable and shot at one barrel of the optical sight. This allowed the installation on each machine gun of any of the 6 barrels without additional sighting.

 Thus, the number of equally shot barrels due to the proposed design is not limited, which eliminates the need for serial production of the selection of a pair of trunks with the same battle for each machine gun in the case of setting an optical or night sight.

Claims (2)

 1. Automatic small arms containing an optical or night sight, a barrel with a gas chamber, a receiver with a lid, moving parts of automation, trigger, return and cartridge-feeding mechanisms, characterized in that a hollow casing shield is rigidly fixed to the gas chamber in the barrel section, connected to the muzzle of the barrel with a sleeve, while the moment of resistance of the casing-screen to bend more than the moment of resistance of the barrel.  2. The weapon according to claim 1, characterized in that in it the sleeve is made with an eccentricity relative to the barrel.

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