RU2152582C1 - Submachine gun - Google Patents

Abstract

FIELD: automatic small arms. SUBSTANCE: submachine gun has a body, barrel, breechblock, trigger and locking mechanisms, mechanism of opposite movement of barrel and breechblock, return spring. The barrel and breechblock are installed for opposite movement relative to the body by pressure of powder gases in the bore and interconnected by the lever-type mechanism of opposite movement, which is installed in the body on an axle. The return spring is installed between the barrel and breechblock for simultaneous action on them. The bore locking mechanism is locked by pressure of powder gases. EFFECT: enhance close grouping of shots and reliability of submachine- gun operation due to simplified design. 3 cl, 3 dwg

Description

 The invention relates to the field of automatic small arms, in particular to submachine guns.

 Known submachine gun containing a housing with a bolt, a barrel, a trigger, a return spring (Patent RU 2095726 C1, 1992).

 The main disadvantage of this weapon is its low accuracy due to the unstable position of the hull during firing.

 Known 7.62 mm aviation machine gun SN. (See Bolotin D.N. "History of Soviet Small Arms and Ammunition", St. Petersburg, Polygon, 1995, p. 233 (2). It contains a housing, a barrel, a bolt, a trigger and a locking mechanism, an opposite movement mechanism barrel and shutter, return spring. In this case, the locking mechanism is mechanical - the locking function is carried out by skewing the shutter with a slider. The barrel is mounted with the possibility of forward movement by means of a gas engine, the elements of which are equipped with a barrel and a body, and return back with a return spring installed between the barrel and the housing.In addition, the surface of the barrel and the slider are partially made in the form of a gear rack and are interconnected by a gear mounted in the housing.This design is a mechanism for the opposite movement of the barrel and the shutter.

 The disadvantages of this weapon also include low accuracy due to the unstable position of the hull during firing. In addition, the design is complex, which leads to a decrease in its reliability.

These shortcomings arise due to the fact that:
firstly, the action of automation is based on the forward movement of the barrel through a gas engine, the elements of which are equipped with a barrel and a weapon body. From this movement there is a powerful, additional impulse of recoil to the body. As a result, the total recoil momentum (from the bullet and from the barrel) significantly increases the force effect on the weapon body, which leads to a decrease in the accuracy of fire;
secondly, the energies of the moving parts of the automatics in extreme positions are extinguished by the weapon body, which also affects the stability of the body and affects the accuracy of fire;
thirdly, the use of a gear-gear mechanism as an opposite movement of the barrel and the shutter complicates the manufacturing technology. In addition, this mechanism is sensitive to contamination, which reduces the reliability of the weapon.

 The closest in technical essence to the invention is known from SU 40193 A, class. F 41 C 3/00, F 41 A 3/68, 1934 (3) a submachine gun comprising a housing, a barrel and a bolt mounted with the possibility of opposite movement relative to the housing and interconnected by a mechanism for opposing barrel movement mounted in the housing and shutter relative to the housing, return spring.

 The disadvantages of this weapon include low accuracy of fire, the complexity of the design, which leads to a decrease in its reliability.

 The main task that the authors set for themselves during the creation of this invention is to increase the accuracy of fire by eliminating the effects of influences on the weapon body from moving parts of automation. Along the way, the task is to simplify the design.

 The problem is solved due to the fact that in a submachine gun containing a body, a barrel and a bolt mounted with the possibility of opposite movement relative to the body and interconnected by a mechanism of the opposite movement of the barrel and the shutter mounted in the body, a return spring, according to the invention, the barrel and the bolt are opposite relative to the housing is provided by the pressure of the powder gases in the bore, and a return spring is installed between the barrel and the shutter with the possibility of simultaneous air ystviya them.

 In this case, the mechanism of the opposite movement of the barrel and the bolt is made lever and consists of a bloodworm and two diametrically opposite connecting rods, one of which is pivotally connected to the barrel, and the other with a bolt, and the central bloodworm part is mounted on the axis of the body with the possibility of rocking motion.

 In addition, the barrel locking mechanism is made lockable by the pressure of the powder gases.

 The mutually opposite movement of the barrel and the bolt relative to the body by means of the pressure of the powder gases in the barrel bore and their interconnection by the opposite movement mechanism, as well as the design of this mechanism when the return spring is placed between the barrel and the bolt, eliminates the influence of forces from moving parts on the weapon body. This is due to the fact that the barrel and the bolt, having the same masses and moving at the same speeds in the process of recharging, acquire equal momenta in magnitude, but opposite in direction. These impulses cancel each other out. In addition, when the barrel and the shutter stop in the extreme positions, their energies are extinguished by blows against each other, without affecting the position of the body.

 The implementation of the mechanism of the opposite movement of the barrel and the bolt as a link between the barrel, bolt and body simplifies the technology of manufacturing weapons and increases its reliability, because the lever mechanism is not sensitive to contamination and easy to manufacture.

 The execution of the barrel locking mechanism using the pressure of the powder gases inhibiting the movement of the barrel and the shutter relative to each other, makes it possible to act on the barrel and the shutter with the same forces that do not upset the balance of forces from the operation of automation, which is zero in total.

The invention is illustrated by drawings, where:
FIG. 1 shows the appearance of a submachine gun with a stock in a folded position;
FIG. 2 shows a diagram of the relative position of the moving parts of the submachine gun at the time of the greatest compression of the return spring;
FIG. 3 shows a diagram of the relative positioning of the moving parts of the submachine gun at the time of least compression of the return spring.

 The submachine gun contains: a housing 1, a barrel 2, a shutter 3, a trigger 4 and a locking mechanism 5, a mechanism 6 for the opposite movement of the barrel 2 and the bolt 3, a return spring 7. The barrel 2 and the bolt 3 are mounted with the possibility of mutually opposite movement relative to the housing 1 by the pressure of the powder gases in the bore 2 and are interconnected by the mechanism 6 of the opposite movement. A return spring 7 is installed between the barrel 2 and the shutter 3 with the possibility of simultaneous impact on them. The mechanism 6 of the opposite movement of the barrel 2 and the shutter 3 is made lever and consists of a bloodworm 8 and two diametrically opposite connecting rods 9, 10, one of which is pivotally connected to the barrel 2, and the other to the bolt 3, and the bloodworm 8, its middle part, mounted on the axis 11 of the housing 1 with the possibility of rocking motion. The barrel locking mechanism 5 of the barrel 2 consists of a gas chamber 12 mounted on the barrel 2 above the chamber and a gas piston 13 mounted on the shutter 3 in such a way that when the shutter 3 is removed from the barrel 2, during the shot, the gas piston 13 moves inside the gas chamber 12 is slowed by the pressure of the powder gases discharged from the bore of the barrel 2 through the hole 14 located behind the chamber of the barrel 2.

 The operation of the submachine gun is as follows.

 In the initial position, the barrel 2 and the shutter 3 are in extreme opposite positions. The return spring 7 has the greatest compression. The gas piston 13 completely entered the channel of the gas chamber 12.

 When the trigger is pressed, the shutter 3 and the barrel 2, under the action of the return spring 7, begin to approach. Their joint movement relative to the housing 1 is synchronized by the mechanism 6 of the opposite movement. Another cartridge is sent to the chamber. When, under the action of the return spring 7, the barrel 2 and the bolt 3 hit each other, a shot will occur. The bullet will start moving. As soon as it passes through the gas outlet 14, the powder gases will rush into the gas chamber 12, forming a pressure in it, which, acting on the gas piston 13 and on the bottom of the gas chamber 12, prevents the barrel 2 and the breech from opening 3. The bore is blocked. At the same time, the pressure of the powder gases in the barrel channel acts on the barrel 2 and on the shutter 3, giving them translational movements in opposite directions. Barrel 2 and shutter 3 diverge. The residual pressure in the gas chamber 12 is used to provide the required rate of fire. Next, the barrel 2 and the shutter 3, compressing the return spring 7, occupy extreme opposite positions, after which the cycle repeats.

Claims (3)

 1. A submachine gun comprising a housing, a barrel and a bolt mounted with the possibility of opposite movement relative to the housing and interconnected by a mechanism for opposing movement of the barrel and the shutter mounted in the housing, a return spring, characterized in that the opposite movement of the barrel and the bolt relative to the housing is provided by pressure of the powder gases in the bore, and a return spring is installed between the barrel and the bolt with the possibility of simultaneous impact on them.  2. The submachine gun according to claim 1, characterized in that the mechanism of the opposite movement of the barrel and the bolt is made lever and consists of a bloodworm and two diametrically opposite connecting rods, one of which is pivotally connected to the barrel, the other with a bolt, and the bloodworm with its middle part mounted on the axis of the housing with the possibility of rocking motion.  3. A submachine gun according to claim 1, characterized in that the barrel locking mechanism is made lockable by the pressure of the powder gases.

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