RU209815U1 - LOCKING MECHANISM FOR SMALL ARMS - Google Patents

Abstract

The utility model relates to small arms, namely to locking mechanisms with a sliding half-free shutter. The technical task is to increase the accuracy of fire by reducing the vibration of the weapon by compensating for the movements of the center of mass of the moving parts and obtaining the effect of balanced automation. The technical problem is solved in the locking mechanism of small arms by the fact that the bolt has the ability to interact with the rear part with a two-arm lever separated by an axis of rotation fixed in the weapon box, and at one end of the two-arm lever, which can rotate, a bolt frame with a spring is installed, and at the other the end of the lever additionally installed inertial body with the ability to move in the box guides. In addition, the inertial body has its own spring, and the bolt frame and the inertial body are additionally provided with protrusions directed at each other with the ability to collide at the moment of their complete separation from different sides. When colliding with equal impulses, we get the effect of balanced automation.

Description

The utility model relates to small arms, namely to locking mechanisms with a semi-free sliding bolt.

A known locking mechanism of a semi-free shutter (Patent RU No. 2002195 C1 / IPC ⁸ F41A 3/36, published 30.10.93, Bull. No. 39-40), containing a shutter frame, a shutter that is movably connected to it and has the possibility of angular movements when unlocking , as well as a two-arm locking lever, one shoulder connected to the frame, and the other interacts with the receiver.

The disadvantage of this device is the complexity of the design.

Closest to the utility model is a device (RF Patent No. 2636186, F41A 3/36, published on 11/21/2017) containing a bolt and a bolt carrier with a rotary one-shoulder lever mounted on it, which can interact with the combat stop of the receiver. A thrust ledge is mounted on a single-shoulder rotary lever with the possibility of installation in several fixed positions relative to the lever, and having the ability to interact with the rear of the bolt.

The disadvantage of this and other devices with a semi-free sliding shutter is the low accuracy of fire due to the fluctuation of the weapon due to the change in the center of mass of the weapon when the shutter and bolt frame are moved.

The technical task is to increase the accuracy of fire by reducing the oscillation of the weapon by compensating for the movements of the center of mass of the moving parts and obtaining the effect of balanced automation.

The technical problem is solved in the locking mechanism of small arms by the fact that the bolt has the ability to interact with the rear part with a two-arm lever separated by an axis of rotation fixed in the weapon box. At one end of the two-arm lever, which is capable of rotation, a bolt frame with a spring is installed, and an inertial body is additionally installed at the second end of the two-arm lever with the possibility of moving in the box guides. In this case, the inertial body has its own spring, fixed on one side in the box on the opposite side from the frame spring fastening relative to the two-arm lever.

In addition, the bolt frame and the inertial body on the sides directed towards each other can be additionally provided with protrusions, with the possibility of colliding with each other at the moment of their complete separation in different directions.

The ability to collide with moving parts in weapon automation is used to reduce sample oscillations when firing (for example, the device of the well-known AEK-971 machine gun). A balancer has been added to the assembly of such automation, corresponding in mass to the bolt group. The bolt carrier and balancer are connected through racks and pinion, the axis of which is fixed in the receiver. The frame and balancer pistons play the role of the front and rear walls of the gas chamber. At the moment of the shot, under the pressure of powder gases, they begin to move simultaneously in opposite directions with equal speeds, and the impulses of their movement compensate each other. As a result, the displacement of the weapon caused by the operation of automation is minimal. The accuracy of firing in bursts from unstable positions is noticeably improved, surpassing that of the AK74M assault rifle by 1.5-2 times. This effect is called balanced automation. In the locking mechanism of small arms, a variant is possible when the masses of the bolt frame and the inertial body are equal, provided that the axis of rotation is located in the center of the two-arm lever.

The device of the locking mechanism of small arms is illustrated by drawings, where in Fig. 1 is a diagram of the mutual arrangement of parts, in Fig. 2 - movement of the bolt carrier and inertial body with colliding ledges.

The locking mechanism of small arms contains a barrel 1 with a cartridge 2, a bolt 3, a bolt frame 4 and a two-arm lever 5 connected with it by one side. fixed on the base 9. At the second end of the two-arm lever 5 there is an inertial body 10 connected to the spring 11.

Additionally, the bolt frame 4 can be provided with a protrusion 12, and the inertial body 10 with a protrusion 13, which can collide with each other in the rearmost position of the moving parts.

The locking mechanism works as follows. When fired in the barrel 1, the cartridge case 2 begins to transfer force to the shutter 3, which in turn transmits it to the side of the two-arm lever 5 from the side of the bolt frame 4. In this case, the two-arm lever 5 rotates around the fixed axis 8, mounted on the base 9, and moves bolt frame 4 in the guide box 6 back, resulting in compression of the spring 7, and the second side of the two-arm lever 5 moves the inertial body 10 associated with it forward, which compresses the spring 11. In addition, on the bolt frame 4 and the inertial body 10, additional protrusions 12 and 13 should be made, located in the plane of movement of the moving parts on the sides directed towards each other, with the possibility of colliding at the moment of their complete separation in different directions.

In addition, with the correct selection of the masses of the bolt frame 4 and the inertial body 10, when their momentum at the moment of impact is equal, the most effective, reduced oscillation of the weapon is obtained.

In addition, a variant is possible when the masses of the bolt frame 4 and the inertial body 10 are equal, provided that the axis of rotation is located in the center of the two-arm lever.

The mutual movement of the frame with the inertial body in different directions reduces the oscillation of the weapon and lightens the mass of the frame, which increases the accuracy of fire, and with their mutual impact in the rear position and correctly selected masses, the effect of balanced automation occurs without the impact of the frame on the weapon box.

Claims (4)

1. The locking mechanism of small arms, placed in a box, containing a shutter, having the ability to interact with the rear part with a swing lever, at the end of which a bolt frame with a spring is installed, characterized in that the swing lever is made of two arms with a separating axis of rotation fixed in the weapon box, and on the second end of the two-arm lever, an inertial body is additionally installed with the possibility of moving in the guides of the box, in which the spring is fixed in the box on the opposite side from the fastening of the bolt frame spring. 2. The mechanism according to claim 1, characterized in that the bolt frame and the inertial body on the sides directed towards each other are additionally provided with protrusions with dimensions that allow them to collide at the moment of complete separation in different directions. 3. The mechanism according to claim 2, characterized in that the mass of the inertial body is selected from the condition of the same momentum of motion relative to the bolt frame at the time of their collision. 4. The mechanism according to claim 2, characterized in that the masses of the bolt frame and the inertial body are equal, provided that the axis of rotation is located in the center of the two-arm lever.

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