RU2658480C2 - Automation of small-arms weapon - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to the field of armament, namely the automation of small arms. Automation of small arms includes a frame of arms with the focus of the return spring and the emphasis of the short stroke of the trunk with the receiver, trunk with a receiver, bolt with a shutter frame, return spring. Claimed automation with a short stroke of the barrel with the receiver is designed in such a way that, at the time of the shot, the trunk, with the receiver, the bolt and the shutter frame, move together until the stop is touched by the stop of the short stroke arm on the weapon frame, then the shutter frame moves by inertia, turning the bolt, and when the shutter's warheads come out from behind the trunks of the receiver, ensuring that the bolt is unlocked, the bolt and the bolt frame move together, compressing the return spring. When rolling back, the return spring moves the bolt frame with the bolt to the breech part of the barrel, the bolt stops, the shutter frame continues to move, turning the bolt, while the shutter's warheads are installed behind the trunks of the trunk with the receiver.

EFFECT: it is possible to maintain the reliability of automation with simplifying the design, reducing the number of parts.

1 cl, 1 dwg

Description

The invention relates to the automation of self-loading and automatic small arms such as a submachine gun, machine gun.

As an analogue and prototype, automation can be represented [2]. In front of the receiver there are cut-outs for which the bolt is locked by its combat projections, the rear walls of these cut-outs are, thus, combat stops. The bolt frame is fixedly connected to the gas piston rod, has a cylindrical hole and a figured groove for placement, installation of the shutter with a figured protrusion in the frame. The bolt has a cylindrical part, a figured protrusion, which ensures the rotation of the bolt in the bolt frame and combat protrusions, which, when the bolt is rotated, enter the special cutouts or screw cutouts of the receiver, which helps to lock the barrel. Unlocking occurs after the bolt frame moves back to the length of the free stroke, the curly groove in it will begin to interact with the leading protrusion of the shutter, turning it counterclockwise. In this case, the combat protrusions of the shutter exit due to the combat stops of the receiver, which ensures the unlocking of the shutter, then the shutter and the bolt frame move together. When locked, everything happens in the reverse order.

This is extremely reliable automation, but for a machine gun, submachine gun, you can use it without a gas system and rod with a piston, but with a movable barrel with a receiver, a similar version of automation, but simplified.

The objective of the invention is, while maintaining the advantages of such a prototype as the reliability of automation, offering it from parts of a similar simple shape while reducing their number.

The specified technical result is achieved by the fact that the automation works on the principle of recoil of the barrel with its short stroke. The inventive automation of small arms consists of a weapon frame with an emphasis on the return spring and emphasis on the short stroke of the barrel with the receiver; barrel with a receiver and barrel stop; shutter with shutter frame. The shutter has a cylindrical part, a figured protrusion, which provides rotation of the shutter in the shutter frame, having a corresponding curly groove. At the time of the shot, a rollback occurs, a short stroke of the barrel with the receiver, bolt and bolt frame to the stop of the barrel on the weapon frame. Further, the bolt frame moves by inertia, turning the bolt, and when the combat protrusions of the bolt come out from the battle lugs of the receiver, ensuring the bolt is unlocked, the bolt and the bolt frame move together. When locked, everything happens in the reverse order. In the claimed automation there is no gas system and rod with a piston and complex parts less than that of the prototype, but there is a movable, for a short stroke, barrel with a receiver. Therefore, the number of complex parts is reduced in comparison with the prototype, the reliability will increase, the cost of automation will decrease.

Comparable analysis with the prototype allows us to conclude that the claimed automation of small arms is simpler in design and more reliable in comparison with the prototype. The author is not aware of such a design of automation when the barrel rolls back with its short stroke. Therefore, the claimed solution meets the criterion of "novelty."

Comparison of the proposed solutions with the prototype allowed us to identify signs that distinguish the claimed solution from the prototype, which allows us to conclude that the criterion of "Inventive step".

The essence of the technical solution is confirmed by the drawing (Fig. 1), which shows the design of the automatics of the inventive weapon using the example of a submachine gun consisting of a barrel with a receiver 1 and a barrel stop 2, a bolt 3 with warheads 4, a bolt frame 5, a weapon frame 6 with the emphasis 8 of the short stroke of the barrel and the emphasis 7 of the return spring 9. At the time of the shot during the rollback, the barrel moves together with the receiver 1, the bolt 3 and the bolt frame 5 until they touch. with the emphasis of the barrel 2 of the short-stroke stop 8 on the weapon frame, then the bolt frame 5 moves by inertia and the bolt 3 rotates with its grooves on the protrusions of the bolt frame 5 until the battle lugs 4 exit from the battle lugs 10 of the barrel with the receiver 1. Then they move together along of inertia, the shutter frame 5 with the shutter 3, compressing the return spring 9 to its stop 7. When rolling, the return spring 9 moves the shutter frame 5 with the shutter 3 and everything repeats in the reverse order. Using an additional, front support on the weapon frame for the movable barrel, the claimed automation can be used in a machine gun. Therefore, the claimed automation is easily adaptable to many types of small arms lineup, there is no gas exhaust system and a piston rod in comparison with the prototype. Consequently, the reliability of automation will increase, its cost will decrease.

To understand the essence of the technical solution proposed by the author, a detailed description of the design and operation of the claimed automation of small arms is given. In FIG. 1 shows the design of the automatics of the claimed weapons by the example of a submachine gun, where the barrel with a receiver 1 and a barrel stop 2, a bolt 3 with battle lugs 4, a bolt frame 5, a weapon frame 6 with an emphasis 8 of the short stroke of the barrel and a stop 7 of the return spring 9. At the moment of the shot during the rollback, the barrel moves together with the receiver 1, the bolt 3 and the bolt frame 5 until the barrel 2 touches the short-stroke stop 8 on the weapon frame, then the bolt frame 5 moves by inertia and the bolt 3 rotates with its grooves on the protrusions of the bolt frame 5 until the protrusions, curly or screw 4, exit the warps 10, curly or screw, the barrel with the receiver 1. The combat protrusions fall into the horizontal grooves of the receiver, and the bolt frame 5 with the shutter 3 together move by inertia, compressing the return spring 9, all the way to its stop 7. When rolling, the return spring 9 moves the bolt frame 5 with the shutter 3 to the breech of the barrel, the bolt 3 stops, the bolt frame 5 continues to move by turning the bolt 3, while the combat protrusions of the bolt 4 are set for the combat pack Ore 10 of the barrel with a receiver 1. Using an additional, front support on the weapon frame for a movable barrel with a receiver, the claimed automation can be used in a machine gun. Therefore, the claimed automation is easily adapted to many types of small arms layout, there is no gas exhaust system and a piston rod in comparison with the prototype. Consequently, the reliability of automation will increase, its cost will decrease.

Therefore, the range of application is expanding, the reliability of automation will increase, its cost will be reduced in comparison with the prototype. What will make the use of the claimed AUTOMATICS OF RUNNING WEAPONS in the production of weapons cost-effective.

Sources of information taken into account when writing

1. F.K. Babak. Pistols and revolvers of the world. - M .: Polygon. 2005.640 s.

2. Kalashnikov assault rifle. - Wikipedia.

Claims (1)

Small arms automation includes a weapon frame with a return spring stop and a short-stroke emphasis of the barrel with a receiver, a barrel with a receiver and a barrel stop, a bolt with a bolt frame, a return spring, a bolt has a cylindrical part, a figured or helical protrusion that allows the bolt to rotate in a bolt frame having a corresponding curly or helical groove, characterized in that the inventive automation with a short stroke of the barrel with the receiver and is made in such a way that at the time of the shot when opening athe move the barrel together with the receiver, the bolt and the bolt frame until the barrel stops touching the short stroke stop on the weapon frame, after which the bolt frame moves by inertia, turning the bolt, and when the bolt’s protrusions come out from the barrel’s battle lugs, ensuring unlocking the shutter, the shutter and the shutter frame move together, compressing the return spring, and when rolling, the return spring moves the shutter frame with the shutter to the breech, the shutter stops, the shutter frame continues to move, p Returning the shutter, the shutter lugs mounted to the receiver for fighting barrel stops.

Images