RU2235260C1 - Locking mechanism of combat small arms for powerful live cartridge with a cylindrical flange-free cartridge case - Google Patents

Abstract

FIELD: small arms production; locking mechanisms of combat rifled small arms, that use a powerful live cartridge.

SUBSTANCE: the invention is dealt with a locking mechanism of a combat small arms - automatic pistols, pistols -submachine guns, that use a powerful live cartridge with the cylindrical flangeless cartridge case. The invention provides, that the cartridge-chamber of the locking mechanisms of combat rifled small arms is made by the elongated in respect to the length of the cartridge case by a distance necessary for reliable locking-up of the barrel at the enlarged backward motion of the cartridge case during its extraction. At that the cartridge-chamber walls are supplied with the threading grooves. The technical result of the invention is increased reliability of a small arms barrel locking-up, improved balance, increased grouping of shots and power of the small arms.

EFFECT: the invention allows to increase reliability of locking-up a small arms barrel, to improve balance, to increase grouping of shots and power of the small arms fire.

5 dwg

Description

The invention relates to weapons technology, and in particular to locking mechanisms of combat rifles - automatic (self-loading) pistols and submachine guns under a powerful cartridge with a cylindrical wafer sleeve.

The design of the domestic PM pistol is known, consisting of a barrel and a free shutter case, in which the barrel bore is locked and the sleeve extraction is slowed by a heavy free shutter case (Manual on a shooting case. - M., Military Publishing House, 1985, p. 575.).

The disadvantage of this mechanism is that its operation is limited by the use of a weak PM cartridge, since when shooting with a powerful cartridge during extraction, the barrel can be unlocked prematurely and the sleeve can deform or rupture due to the fact that the cartridge is large outside the chamber when it is shot back the probability of deformation or rupture of its walls under the pressure of powder gases.

The closest technical solution and the author accepted for the prototype is the design of the Mauser HSc pistol, consisting of a barrel and a free shutter, in which the extraction of the sleeve is inhibited using the transverse grooves on the walls of the chamber (Journal of the Third Reich Infantry Weapon, 2001, No. 2 , p. 5).

The disadvantage of this device when firing a powerful cartridge, despite a slight slowdown in the extraction of the cartridge case, is also the high probability of deformation and rupture of the cartridge case, as well as a breakthrough of powder gases in the shutter area before the bullet leaves the barrel for the same reasons as with the PM pistol. In addition, during serial shooting in the transverse grooves of the chamber, accumulation of combustion products, spent grease and metal chips is possible, which will inevitably lead to a decrease in the efficiency of the device.

The aim of the invention is to increase the reliability of locking the bore of a small arms barrel under a powerful cartridge with a cylindrical wafer sleeve, improve the balance of such weapons and increase the accuracy of fire, as well as increase the power of a weapon without significantly complicating its design and production technology by increasing the reverse stroke of the cartridge case and slowing it down extraction.

This goal is achieved by using a locking mechanism, including a free piston-type bolt and a barrel with an elongated chamber equipped with helical rifling, the chamber length being such that when the cartridge is located in a forward position from the bottom of its sleeve to the rear cut of the chamber, there remains a distance that, when a shot under the influence of powder gases passes through the chamber of the cartridge case from the initial phase of the shot until the bullet leaves the barrel.

The fixed barrel of a rifled small arms under a cartridge with a cylindrical wafer sleeve has an elongated chamber, the walls of which are equipped with screw rifling. The chamber is equipped with a longitudinal groove for the extractor, so it is reinforced in the area of the rear cut to increase the strength characteristics. The device uses a free piston-type shutter for releasing the cartridge when loading to its extreme forward position in an elongated chamber, where the cartridge is at the initial moment of the shot. In this case, the bottom of the sleeve is located at a distance from the rear cut of the chamber, which, when fired under the influence of powder gases, passes back along the chamber from the initial phase of the shot until the bullet leaves the barrel. During the whole time, while the sleeve moves back in the chamber, and the bullet to the front cut of the barrel, the barrel itself remains locked. The number, pitch and length of the rifling is determined by the capacity of the intended cartridge. In the well-known design of the Berettta M92 pistol, designed for the powerful 9 mm Parabellum cartridge, the barrel, when moving backward under the influence of recoil, passes 8 mm before disengaging with the bolt.

Rotational movement of the sleeve along the cuts of the chamber during the reverse stroke slows down the extraction, and also prevents the deformation of the sleeve under the influence of powder gases in the area of the groove for the extractor, since when the sleeve rotates, the pressure inside it is evenly distributed on its walls. The elongated chamber along with rifling in it to slow the extraction contribute to the fact that until the bullet leaves the barrel, it remains locked. During extraction, the sleeve rotates along the rifling in the direction opposite to the direction of rotation of the bullet along the rifling of the barrel, which to some extent compensates for the rotational moment communicated by the bullet to the barrel. Slowing down the movement of the cartridge case to the rear cut of the chamber is determined by the number, length and pitch of the grooves, but in such a way that the shutter cover acquires the energy necessary for the extraction and automatic reloading of the pistol (submachine gun).

Figure 1 shows the barrel of a pistol with a cartridge in the chamber; figure 2 - the barrel without a cartridge; figure 3 is a longitudinal section of the mechanism of the gun in a charged state (the trigger is not cocked); figure 4 - the barrel with a cartridge in the chamber and the shutter; figure 5 is a General view of the barrel from the chamber.

The locking mechanism includes a barrel 1 with an elongated chamber 2, in which a groove 3 (Figs. 1, 2, 4, 5) for the extractor 4 (Fig. 4) is made, and a free piston shutter 5 (Figs. 3, 4), when charging sending the sleeve 6 with the bullet 7 to the extreme forward position in the chamber 2 (Fig.1, 3, 4) and motionlessly connected to the casing 8 (Fig.3). On the walls of the chamber 2 screw cuts 9 are made (Fig. 2), the length of the elongated chamber 2 exceeds the length of the liner 6 by a distance a necessary for reliable locking of the barrel with increased reverse stroke of the liner in the elongated chamber during its extraction (Figs. 1, 3) . Under the number 10 is the rear cut of the chamber 2 (figure 1).

The locking mechanism of small arms combat under a powerful cartridge with a cylindrical wafer sleeve works as follows. When loading, a free piston shutter 5 sends the sleeve 6 with the bullet 7 (Figs. 3, 4) to the elongated chamber 2 to its extreme forward position (Figs. 1, 3, 4), while the extractor 4 enters the groove for the extractor 3 (Fig. 4). When fired under the influence of powder gases, the walls of the sleeve 6 (FIGS. 1, 3, 4) expand, pressing into the grooves 9 in the chamber 2, and the sleeve 6 begins a rotational-translational movement towards the rear cut 10 of the chamber 2 (FIG. 1). From the initial moment of the shot, during the reverse stroke, the sleeve 6 passes a distance a along the chamber 2 (Figs. 1, 3), during this movement the sleeve 6 accelerates a free piston lock 5, which is fixedly connected to the casing 8, while the bullet 7 passes through the bore 1 and leaves him (figures 1, 3). Thus, until the end of the shot cycle and at the time of the highest pressure development of the powder gases, the barrel 1 remains locked and the sleeve 6 is in the chamber 2 (Figs. 1, 3), which excludes its deformation or rupture. The rotation of the sleeve 6 along the grooves 9 (Fig. 1, 2) slows down the extraction, which, along with the sleeve 6 passing the distance a to exit the elongated chamber 2 (Fig. 1, 3), provides conditions under which the barrel 1 remains locked until it leaves the bullet 7 (figures 1, 3). Further extraction occurs in the usual way for structures with a free shutter - using an extractor 4 (Fig. 4) due to the kinetic energy of a free piston shutter 5 with a casing 8, acquired by it from a sleeve 6 moving backward due to powder gases (Figs. 1, 3) .

The invention in comparison with the prototype and other known technical solutions has the following advantages:

- Using the proposed mechanism makes it possible to create designs of pistols with a fixed barrel under a powerful cartridge.

- The use of the proposed locking mechanism makes it possible to create pistols with a free shutter under a powerful cartridge without significantly complicating the design compared to PM (the number and nomenclature of parts of the barrel-shutter assembly are the same for PM and the proposed mechanism).

- In the designs of pistols and submachine guns with a free piston lock and an elongated chamber with helical rifling, there is no possibility of rupture and deformation of the sleeve during extraction when shooting with a powerful cartridge.

- Due to the use of a free piston shutter and an elongated chamber with helical rifling in pistols and submachine guns, the mass of a free shutter can be significantly reduced, which will positively affect the accuracy of fire in automatic mode (bursts).

- The creation of small arms with a free piston bolt and with an elongated chamber equipped with helical rifling, does not require technological innovations and can be carried out on currently used equipment.

Claims (1)

The locking mechanism of a small arms weapon under a powerful cartridge with a cylindrical wafer sleeve, containing a free piston lock and a barrel chamber, characterized in that the chamber is elongated with respect to the length of the barrel by the distance necessary for reliable locking of the barrel with an increased reverse stroke of the sleeve in the elongated chamber in the time of its extraction, and the walls of the chamber are equipped with helical rifling.

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