RU2021574C1 - Self-loading gas gun - Google Patents

Abstract

FIELD: shooting weapons. SUBSTANCE: partition is mounted in channel of barrel made in form of a plate with length of 5-8 calibres and with thickness of 0.3-0.4 calibres at distance of 0.8-1.6 calibres from the cartridge-chamber. Back edge of the plate is cut along the width at angle, which does not exceed 30 deg.. EFFECT: improved reliability. 1 dwg

Description

 The invention relates to small arms, in particular to gas pistols.

 A self-loading gas pistol is known, including a barrel, in the channel of which a short longitudinal partition is installed. Such a partition prevents the use of bullet cartridges, but does not provide optimal crushing of the wad of gas charge and the reliable operation of automation when firing low-pulse cartridges.

The technical problem to which the invention is directed is to eliminate the disadvantages inherent in the known gun. This problem is solved by the fact that in a self-loading gas pistol, including a barrel with a baffle, the baffle is made in the form of a plate 5 ... 8 gauge long and 0.3 ... 0.4 gauge thick with an end face cut along the width from the side facing to the chamber at an angle of no more than ^about 30, and in the fortified walls of the barrel at a distance of 0.8 ... 1.6 caliber of the chamber.

 The drawing shows the design of the gun, a longitudinal section.

 The gas self-loading pistol contains a flat frame 1 with a pistol grip, a bolt 2, a magazine 3, a sear 4, a lever 5 and a whisper 6 spring, a trigger 7, a store feeder spring 8, a trigger 9, its spring 10, a feeder 11, a fuse 12, the ejector 13, the hammer 14, the mainspring 15, its guide 16, the return spring 17 and the barrel 18 with a partition 19.

 The gun works as follows.

 Before firing, the cartridge is in the chamber, the bolt 2 is in the extreme forward position, the hammer 14 is in the rear position in meshing with the sear 4. The mainspring 15 is preloaded. Another cartridge in the magazine 3 under the influence of the spring 8 abuts against the bolt. The fuse 12 is off, the lower part of the trigger 7 is in its extreme forward position. When you press your finger on the trigger 7, the latter rotates on its axis and moves the trigger lever 9 back. The latter acts on the lower shoulder of the lever 5 of the sear 4, which puts the sear 4 down with the other shoulder and disengages it with the hammer 14. The hammer 14 under the influence the spring 15 moves forward and hits the igniter cartridge. A shot is taking place. The trigger lever 9 with further movement out of the interaction with the lever of the sear 4, which under the influence of the spring 6 tends to rise. After breaking the igniter capsule, the powder gases act on the bottom and walls of the liner. The gas pressure at the bottom of the sleeve is transmitted to the shutter 2 and it moves back together with the sleeve held by the ejector 13. The shutter 2, when moving backward, acts on the hammer 14, moving it back and compresses the return spring 17. The hammer 14 in the rear position abuts against the guide flange 16 combat spring 15. With a further movement of the shutter 2 back, the striker of the striker 14 protrudes beyond the shutter mirror and reflects the sleeve out. The shutter 2, reaching the extreme rear position, under the action of the return spring 17 returns to the front position, the hammer 14 in this case engages with the sear 4 and is held on it. When moving forward, the shutter 2 captures the next cartridge from the magazine 3 and sends it to the chamber. At the end of the shutter stroke, the catch of the ejector 13 slides into the groove of the sleeve. The next cartridge under the influence of the spring 8 feed 11 is fed up to the stop in the shutter. For the next shot, release the trigger 7, which, under the action of the spring 10, together with the release lever 9 moves forward, and the protrusion of the release lever 9 extends beyond the lower arm of the lever 5 whispered 4, and press it again.

The functioning of a gas cartridge during firing differs significantly from the functioning of a conventional cartridge for small arms. The used gas cartridge has a small powder charge (about 0.08 g) compared to conventional bullet cartridges, and the main part in the cartridge is occupied by the gas composition, which in turn is fixed in the wad cartridge. Therefore, the cartridge has a small recoil momentum, so for the normal functioning of the automation, the mass of the shutter and other parts of the automation should be small. To increase the reliability of the automation, in the barrel 18 of the proposed gas gun to create an additional pulse of pressure of the powder gases and to break the wad, a partition 19 was made, the coordinates of which were optimized and their sizes. When the partition is placed less than 0.8 gauge from the chamber (size l), the impulse of the pressure force of the powder gases is excessively large, which leads to high speeds and rapid wear of the moving parts of the gun. When l is more than 1.6 gauge, the impulse of the pressure force of the powder gases does not ensure the operation of automation, especially in difficult conditions (dusting, icing, etc.). When choosing the length L of the baffle less than 5 calibers, the velocity of the gas outflow behind the muzzle of the barrel decreases, which leads to a reduction in the range of the directional propagation of the gas-smoke cloud. When L is more than 8 calibers, the rate of gas outflow increases and emissions of wad residues over a considerable distance are possible, which can lead to injuries of a living object. When choosing the thickness δ of the baffle less than 0.3 caliber, the outflow of gases from the bore occurs for too short a period of time, which does not provide the magnitude of the pulse pressure force of the powder gases required for reliable operation of the automation. With δ greater than 0.4 gauge, the momentum will be too large. For reliable wad break into smaller pieces on the rear end of the jumper is made an angle of not more than ³⁰ °. If the angle is greater than ³⁰ degrees, the wad is broken into large particles and the departure from the trunk of a risk of injuries by fragments of live objects.

 The use of a baffle in the barrel with the specified dimensions and placement allows you to get an effective and reliable gun firing gas cartridges.

Claims (1)

SELF-LOADED GAS GUN, comprising a barrel with a baffle in its channel, characterized in that the baffle is made in the form of a plate 5 to 8 gauge long and 0.3 to 0.4 gauge thick with an end cut across the width from the side facing the chamber at an angle not more than 30 ^o and fixed in the walls of the barrel at a distance of 0.8 - 1.6 caliber from the chamber.

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