RU2164334C1 - Automatic weapon gas pressure control mechanism - Google Patents

Abstract

FIELD: weaponry, in particular, automatic weapon gas pressure control mechanisms providing for automatic control of the piston speed to the required value for shooting by cartridges producing different pressures in the bore. SUBSTANCE: mechanism has a gas cylinder with a piston and a rod passing through the central hole in the front wall of the gas cylinder. A valve, having a tapered shape and provided with an obturating ring, is installed in the gas-exhaust chamber. The gas-exhaust port is formed by a gap between the rod and the central hole, and one end of the spring rests on the valve, while the other, on the centering member. EFFECT: enhanced reliability of mechanism functioning use of the underbarrel magazine with a variable capacity for a larger quantity of cartridges. 2 dwg

Description

 The invention relates to weapons technology, and in particular to gas control mechanisms for automatic weapons, which automatically adjusts the piston speed to the required value when firing cartridges that create various gas pressures in the barrel.

 A known mechanism for adjusting gases (see patent N 3968727, USA, CL 89/191 A, IPC F 41 D 5/08) containing a gas cylinder in which a piston with a rod is placed. At the end of the stem there is a barrel stop with a spring-loaded valve located in it.

 A disadvantage of the known device is that its design does not allow to increase the capacity of the store, the function of which is performed by the stock.

 There is also a known mechanism for adjusting the gas of a gun "Beretta Mod.AL 390 (see the catalog of the company" Beretta "," 470 VEARS ", 1997, p. 14), containing a gas cylinder, a gas outlet chamber, a piston with a rod passing through the central bore of the gas cylinder , the surface of which is a centering element.The valve is made in the form of a flat disk, and the emphasis with which the valve spring interacts is in the form of a nut fastening the barrel to the gun box.

 The known mechanism, taken as a prototype, does not have sufficient reliability, because in the event that unburned particles of gunpowder fall between the flat surface of the valve and the front wall of the gas cylinder, in which gas vents of small diameter are made, the possibility of non-return of the shutter is not ruled out. In addition, with long-term operation of the weapon without cleaning the gas vents, their small size can significantly decrease due to soot of powder gases, which leads to an increase in recoil and a decrease in the service life of the weapon. The known mechanism is cleaned with incomplete disassembly of the weapon, and the valve and its spring may be lost.

 The essence of the claimed invention lies in the fact that in the gas control mechanism of an automatic weapon containing a gas cylinder with a gas outlet, a gas outlet chamber, a piston with a rod passing through the central opening of the gas cylinder, a spring-loaded valve and a centering element, the gas outlet is formed by a gap between the rod and the central a gas cylinder hole, the valve is made in a conical shape and is provided with an obturating ring, and the valve spring abuts against the centering element.

 Using the claimed invention allows you to have an under-barrel magazine with a variable magazine capacity for a large number of rounds (up to 10 rounds or more). The conical shape of the valve ensures its reliable fit to the edge of the gas outlet and allows you to remove carbon deposits or unburned powder particles from the contact zone. The formation of soot in the gas outlet changes its initially large diameter very slightly, and therefore, the shutter speed does not change, i.e. the recoil of the weapon does not increase and its service life does not decrease. In addition, the design of the claimed mechanism allows cleaning without disassembling it, which greatly increases the usability of the weapon.

The invention is illustrated in the drawing, which shows:
FIG. 1 is a sectional general view of the device with the valve closed;
in FIG. 2 - the same, with the valve open.

 The mechanism comprises a housing 1 (Fig. 1) with a gas cylinder 2 and a gas exhaust chamber 3. A piston 4 is installed in the gas cylinder 2. The rod 5 passes through the piston 4, the central hole 6 in the front wall of the gas cylinder 2 and through the gas exhaust chamber 3. The gas outlet 7 (Fig. 2), having the shape of an annular gap between the stem 5 (Fig. 1) and the central hole 6, is closed by a valve 8, preloaded by a spring 9. The valve 8 has a conical shape, which ensures full fit of the valve to the edge of the gas outlet. And the obturating ring 10, which is equipped with a valve 9, prevents the breakthrough of gases between the stem 5 and the valve 8. In the exhaust chamber 3 there are windows 11 that are used to discharge gases into the atmosphere, and a centering element 12 is placed, which, in addition, ensures the alignment of the stem 5 with the gas cylinder 2, also serves as a stop with which the spring 9 of the valve 8 interacts.

 The mechanism works as follows. After the shot, the pressure of the powder gases is created in the gas cylinder 2. And when this pressure reaches a value greater than the force of the spring 9, the gases squeeze the valve 8 from the edge of the gas outlet 7 (Fig. 2). Through the resulting gap, the gases enter the exhaust chamber 3 and through the windows 11 exit into the atmosphere. When the pressure of the powder gases in the gas cylinder 2 (Fig. 1) becomes less than the force of the spring 9, the latter tightly presses the valve 8 against the edges of the gas outlet of the gas cylinder 2, preventing a further decrease in gas pressure in the gas cylinder. The piston 4 begins its movement under the influence of gas pressure in the gas cylinder at a speed that ensures reliable and durable operation of the weapon, because the values of the speed of the piston 4 with each shot differ little from each other even when fired with cartridges that create a normal (60 MPa) and increased (more than 90 MPa) gas pressure.

Claims (1)

 A mechanism for adjusting the gas pressure of an automatic weapon, comprising a gas cylinder with a gas outlet, a gas chamber, a piston with a rod passing through the central hole of the gas cylinder, a spring-loaded valve and a centering element, characterized in that the gas outlet is a gap between the rod and the central hole of the gas cylinder , the valve is made in a conical shape and is provided with an obturating ring, and the valve spring is supported in the centering element.

Images