RU2053481C1 - Automatic fire-arms - Google Patents

Abstract

FIELD: small arms. SUBSTANCE: automatic firearms with drive from pressure of powder gases has barrel and coupling with gas cylinder put on it. Gas cylinder is positioned in parallel to barrel. It includes gas piston with return spring and its front part houses end-cap. Gas piston has head which diameter is smaller than inner diameter of cylinder, separated from main part of piston by means of annular groove. Gas exhaust duct arranged with displacement from butt of piston towards breach end of barrel and at acute angle to axis of bore facing breach end is formed in barrel, coupling and gas cylinder. Duct is brought out to ares of annular groove of piston. EFFECT: enhanced operational reliability. 1 dwg

Description

 The invention relates to weapons, in particular, to designs of automatic small arms driven by exhaust powder gases.

 A known design of the AKMS assault rifle [1] The operation of automation in it is based on the principle of the removal of part of the powder gases from the bore. In the AKMS automatic machine, the powder gas from the bore through the exhaust channel formed by coaxial holes in the side wall of the barrel and the gas chamber enters the gas chamber, where, acting on the gas piston and the bolt attached to it, it throws the latter back, activating the automation parts . A gas tube is put on the front end of the gas chamber, which serves to direct the movement of the gas piston when it rolls back and forth. The gas outlet channel enters the gas chamber directly in front of the piston end face.

 In the overwhelming majority of both domestic [2] and foreign [3] analogues, the removal of powder gases from the barrel through the gas outlet channel is carried out directly in front of the piston end face.

 In the aforementioned analogues, the piston is fastened to the bolt frame, and its length (minimum) is determined from the calculation so that with maximum rollback the piston does not leave the gas tube (gas cylinder).

 When developing small-sized samples of automatic weapons for a cartridge with low ballistic parameters, the removal of powder gases from the barrel directly in front of the piston end does not provide the necessary operation of the automatic power of the gas exhaust engine. In this regard, the removal of threshold gases in these samples must be carried out in the higher pressure zone, i.e., the gas outlet in the barrel should be offset from the end of the piston towards the breech of the barrel.

Known automatic small arms, which includes a single gas cylinder and a gas piston with a rod. The piston is equipped with a head separated from the main part of the piston by an annular groove. At the initial position of the automation, the gas outlet channel goes to the area of this groove and is made at right angles to the axis of the barrel channel and the gas cylinder. At the location of the head, the cylinder has a narrowing with longitudinal grooves, which serves to guide the head [4]
In the above design, the powder gas on the way from the bore through the gas outlet to the pre-piston space twice changes its direction at right angles. The latter circumstance leads to a decrease in the thermal efficiency of the gas drive due to losses from the narrowing of the jet of exhaust powder gases, which reduces the reliability of the weapon. The presence of a gas cylinder with a blind stepped hole complicates the design and makes the process of cleaning the gas cylinder from powder deposits difficult.

 The aim of the invention is to increase the reliability of weapons while simplifying the design.

 This is achieved by the fact that in an automatic small arms driven by the extracted powder gases, comprising a barrel, a coupling fixed thereto with a gas cylinder parallel to the barrel, a gas piston with a head separated from the main part of the piston by an annular groove and having a diameter smaller than the internal diameter of the gas a cylinder, and a return spring, the gas outlet channel being formed by coaxial holes in the side wall of the barrel, the coupling and the gas cylinder and goes into the region of the annular groove of the gas cylinder n with a smooth inner surface and provided with a front cap: exhaust duct disposed at an acute angle to the bore axis, facing the breech ring.

 The foregoing is illustrated by the drawing, where: a cross section is shown along the exhaust duct and the gas cylinder.

 Automatic small arms driven by the exhaust powder gases contains a barrel. Clutch 2 is mounted on the barrel with a gas cylinder 3 located parallel to the barrel. A plug 4 is installed at the front of the gas cylinder. A gas piston is placed in the gas cylinder with head 5 separated from the main part of the piston by an annular bore b. The piston head has a diameter smaller than the inner diameter of the gas cylinder, as a result of which an annular gap c is formed. The gas outlet channel a, formed by coaxial holes in the side wall of the barrel, the sleeve and the gas cylinder, extends into the region of the annular groove of the piston b. The gas outlet channel is made at an acute angle a to the axis of the bore, facing the breech. The gas piston is fastened to the bolt frame and a return spring 6 is placed in their central hole.

 After the shot, the bullet moves under the action of the powder gases along the bore of the barrel 1. As soon as it passes through the exhaust channel, part of the powder gases passes through the exhaust channel a through the annular groove on the piston b and the annular gap c enters the pre-piston space d. Powdered gas, acting on the gas piston 5, throws back the gas piston and the bolt frame connected to it, compressing the return spring 6. The bolt frame, moving backwards, drives the automation mechanisms. In the forward position, the shutter frame and gas piston 5 are returned under the action of the return spring 6.

 The implementation of the proposed design of automatic small arms driven by the pressure of the powder gases of a gas cylinder with a smooth inner surface equipped with a front plug: a gas outlet located at an acute angle to the axis of the bore, facing the breech, improved the reliability of the weapon by increasing thermal efficiency gas drive (reduced losses from narrowing the jet of exhaust powder gases in the exhaust pipe) while simplifying the design.

Claims (1)

 AUTOMATED SHOOT WEAPONS driven by exhausted powder gases, comprising a barrel, a coupling fixed thereto with a gas cylinder parallel to the barrel, a gas piston with a head separated from the main part of the piston by an annular groove and having a diameter smaller than the internal diameter of the gas cylinder, and a return spring moreover, the gas outlet channel is formed by coaxial holes in the side wall of the barrel, the sleeve and the gas cylinder and goes into the area of the annular groove of the piston, characterized in that the gas cylinder It is filled with a smooth inner surface and equipped with a front plug, and the gas outlet channel is located at an acute angle to the axis of the barrel channel facing the breech.

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