RU2565800C2 - Automatics of small-arms weapon - Google Patents

Abstract

FIELD: armaments and ammunition.

SUBSTANCE: automatics of small-arms weapon includes sleeve with screw-type or shaped shoulders, and combat shoulders of barrel breech, having screw-type or shaped and parallel facets. The sleeve is secured on the weapon frame, where barrel moves along its axis, rotating around it by screw-type or shaped slots in its breech. The combat shoulders of the barrel breech are in the screw-type or shaped slots of the casing-breechblock or in rectangular slots of the casing-breechblock during automatics operation.

EFFECT: improved reliability and simplifying of automatics design.

2 dwg

Description

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

As an analogue, one can imagine the automatics of a pistol of the company “Shteyer” M1912 [1.89-97 p.]. Automation works on the principle of recoil of the barrel with its short stroke. Locking, unlocking of the barrel channel is carried out by turning the barrel around its axis with a screw protrusion on the barrel in the screw groove of the frame, the combat projections of the barrel entering the grooves, leaving the grooves of the shutter casing. Automation has identified many parts of complex shape.

As an analogue, AK-47 M.T. Kalashnikov. 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 shutter has a cylindrical part, a figured protrusion, which provides a turn of the shutter in the shutter frame and two combat projections, which, when the shutter is rotated, enter the special cutouts of the receiver, thereby achieving locking of the barrel channel. 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 pistol, submachine gun, you can use it without a gas system and a piston rod, but with a movable barrel, a similar version of automation, but simplified. The barrel of the weapon has an automatic device similar to the AK-47 shutter, a frame sleeve similar to the AK-47 shutter frame, and a shutter cover similar to the AK-47 receiver of the automatic gearbox.

The closest in technical essence or prototype is the automatic pistol GS-18 [1, 457-459 pages], the automation of which works due to the recoil of the barrel during its operation. The barrel is locked by turning it around the longitudinal axis with the help of combat stops located on the surface of the barrel in the form of two crowns that engage with the combat stops of the shutter bushing. The design of automation with two crowns of combat stops and a sleeve at the muzzle end of the barrel, a sleeve with combat stops involves a return spring with a rod under the barrel, separately, a bolt and a combat larva, a trigger mechanism of the shock type. Consequently, automation determines the complex and expensive design of the gun.

The objective of the invention is, while maintaining the advantages of the prototype, such as the principle of automatic recoil of the barrel with its short stroke, rollback of the barrel along the line of sight, increasing the reliability of automation, offering it from simple parts with a decrease in 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 sleeve with screw or figured protrusions, mounted on the frame of the weapon, where it moves along its axis, turning around it, a barrel with screw or figured grooves in the breech. Locking, unlocking of the barrel channel is carried out by turning the barrel around its axis with the help of screw or figured grooves on the barrel in the screw or figured protrusions of the frame sleeve, with the combat projections of the barrel entering the grooves, coming out of the grooves of the shutter casing.

With a short stroke during rolling, the barrel is screwed, twisted into the sleeve and the shutter-casing, and during the rollback it is unscrewed, twisted out of the sleeve and the shutter-casing using screw or figured protrusions and grooves.

Therefore, the claimed automation involves a weapon frame with a sleeve, a barrel with military protrusions in the breech, a return spring on the barrel, a casing-bolt with grooves for the military protrusions of the barrel, trigger-type trigger mechanism with an open trigger. Therefore, the number of 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 claimed weapons using the example of a pistol, where the barrel 1 with screw or figured grooves 3 and combat projections 5 included in the screw or figured groove of the shutter-casing 4. Return spring 7 located on the barrel 1 and is pressed by the casing-shutter 4 to the sleeve 2, mounted on the frame 6 of the gun. The sleeve 2 has screw or figured protrusions 9 included in the screw or figured grooves 3 of the breech portion of the barrel 1 with combat projections 5 included in, coming out of the screw or figured groove 8 of the shutter-case 4. When the rollback moves together, the shutter-case 4 with the barrel 1, which with its screw or figured grooves 3 is rotated by the screw or figured protrusions 9 of the sleeve 2 before the fighting stops 5 come out of the screw or figured groove 8 of the shutter case 4. This is a short stroke of the barrel. As soon as the fighting stops 5 come out of the screw or figured groove 8, one casing shutter 4 will continue to move back to the stop, and the barrel 1 will stop in the rear position. When rolling, only the casing-shutter 4 moves forward to the breech of the barrel 1, which is in the extreme rear position, at this moment the fighting stops 5 go into the screw or curly grooves 8 of the casing-shutter 4, then forward movement will continue together barrel 1 and the casing-shutter 4. At the same time, the barrel 1 with its screw or figured grooves 3 is rotated by the screw or figured protrusions 9 of the sleeve 2, and the combat projections 5, moving along the screw or figured grooves 8, firmly, against the stop, press the shutter-casing 4 to the breech of the barrel 1.

Using the additional front support on the weapon frame for the movable barrel, the claimed automation can be used in a submachine gun and machine gun. Therefore, the claimed automation is easily adapted to many types of small arms layout, consists of actually three parts, instead of four prototype ones. Consequently, the reliability of automation will increase, its cost will decrease.

To understand the essence of the technical solution proposed by the author, I will give a detailed description of the design and operation of the claimed automation of small arms. In FIG. 1 shows the design of the automatics of the claimed weapons by the example of a pistol, where the barrel 1 with screw or figured grooves 3 and combat protrusions 5 included in the screw or figured grooves 8 of the shutter case 4. The return spring 7 is located on the barrel 1 and is pressed by the shutter case 4 to sleeve 2, mounted on the frame 6 of the gun. The sleeve 2 has screw or figured protrusions 9 included in the screw or figured grooves 3 of the breech portion of the barrel 1 with combat protrusions 5 included in, coming out of the screw or figured grooves 8 of the shutter-case 4. When the rollback moves together, the shutter-case 4 with the barrel 1, which with its screw or figured grooves 3 is rotated by the figured screw protrusions 9 of the sleeve 2 before the fighting stops 5 come out of the screw or figured grooves 8 of the shutter case 4. This is a short stroke of the barrel. As soon as the fighting stops 5 do not come out of the screw or figured grooves 8, one casing shutter 4 will continue to move back to the stop, and the barrel 1 will stop in the rear position. When rolling, only the casing-shutter 4 moves forward to the breech of the barrel 1, which is in the extreme rear position, at this moment the fighting stops 5 go into the screw or curly grooves 8 of the casing-shutter 4, then forward movement will continue together barrel 1 and the casing-shutter 4. At the same time, the barrel 1 with its screw or figured grooves 3 is rotated by the screw or figured protrusions 9 of the sleeve 2, and the combat projections 5, moving along the screw or figured grooves 8, firmly, against the stop, press the shutter-casing 4 to the breech of the barrel 1. In FIG. 2, the claimed automation is presented in more detail, where the barrel 1 with coarse or grooved grooves 3 large steps and combat projections 5. Each combat projection 5 has parallel faces 10 and screw or curly edges 11. With a short course of the barrel 1, rollback or coast, combat projection 5 located in a screw or figured groove 8 with a small step of the shutter-casing 4, determining the unlocking or locking of the shutter-casing 4. When the combat protrusion 5 comes out of the screw or curly groove 8, it enters a rectangular groove 12 parallel to the axis of the barrel 1, the rear position is fixed e of the barrel 1 and the casing-bolt 4 is rolled back or rolled when the barrel 1 stops. The size of the gaps between the screw or curly faces 11 of the military projections 5 and the screw or curly grooves 8, parallel faces 10 of the military projection 5 and a rectangular groove 12 for tight locking of the barrel 1 casing shutter 4 little effect. The size of the gaps between the screw or figured grooves 3 of the barrel 1 and the screw or figured protrusions 9 of the sleeve 2 does not affect the operation of the claimed automation. Therefore, the claimed automation is slightly sensitive to dust and pollution. The manufacturing accuracy, the gap between the cylindrical parts of the sleeve 2 and the breech of the barrel 1 determines the deviation of its axis at the time of short stroke. Using the additional front support on the weapon frame for the movable barrel, the claimed automation can be used in a submachine gun and machine gun. Therefore, the claimed automation easily adapts to many types of small arms layout, consists of actually three parts, instead of four complex parts of the prototype, it does not impose special requirements on the accuracy of manufacturing parts. The automatic control element for locking the bore, using combat protrusions with screw or curly faces, twisting completely into the screw or curly grooves of the receiver, can even be used in the AK-47.

Consequently, the range of applications is expanding, the reliability of automation in dusty conditions will increase, its cost will be reduced in comparison with the prototype, which will make the use of the claimed AUTOMATICS OF RUNNING WEAPONS in the production of weapons cost-effective.

Information sources

1. F.K. Babak. Pistols and revolvers of the world. - M.: Polygon, 2005, 640 p.

2. Kalashnikov assault rifle. - Wikipedia.

Claims (1)

Automation of small arms, characterized in that it includes a sleeve with screw or figured protrusions, mounted on the frame of the weapon, where the barrel moves along its axis, turning around it with screw or figured grooves in its breech; combat projections of the breech of the barrel having helical or curly and parallel faces located in the helical or curly grooves of the shutter-case or rectangular grooves of the shutter-case during automatic operation.

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