RU2461783C1 - Mechanism to control gas pressure in automatic weapon - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: mechanism comprises a gas chamber (1), where a piston (3) is installed, on the external surface of which there is a stop nut (4), a valve (5), a valve spring (6) and a control nut (7). A gas channel consisting of serially joined circular channel (9), arranged in the piston (3), radial holes (10) in the piston (3) and a circular bore (11), arranged in the stop nut (4), is closed with the valve (5), pressed with the valve spring (6). A discharge channel (14) is arranged in the form of a gap between the external surface of the valve (5) and the internal surface of the gas chamber (1). The control nut (7) serves as a support for the valve spring (6) and is fixed against spontaneous slippage by a spring-loaded fixator (15).

EFFECT: higher reliability and durability of a weapon, provides for reliable operation in an automatic mode with cartridges of different capacity.

3 cl, 2 dwg

Description

The invention relates to weapons technology, and in particular to mechanisms for adjusting the gas pressure in the automatic weapons engine of an automatic weapon.

A known mechanism for adjusting the gas pressure of automatic weapons (patent RU No. 2164334, class F41A 5/28), comprising a gas cylinder, a piston with a rod, a conical valve, a valve spring abutting against the centering element, and a gas outlet representing a gap between the rod and the center hole of the gas cylinder.

A disadvantage of the known mechanism is its large dimensions and mass, which reduce the operational characteristics of the weapon.

A known mechanism for adjusting the gas pressure of automatic weapons (US patent No. 5429034, class 89/193, IPC F41A 5/18), taken as a prototype, containing a cylinder with a gas outlet, a gas chamber and a piston with radial openings and an annular channel, and Valve located in the piston with valve spring, discharge channel and lock nut.

Placing parts of the mechanism for adjusting the gas pressure inside the piston significantly complicates the cleaning of the mechanism, which must be done after prolonged use of the weapon. An insufficiently well-conducted cleaning leads to an increase in recoil, a decrease in the service life of the weapon and a decrease in reliability. In addition, the design of the known device does not have high versatility, because it does not allow with high accuracy to adjust the piston speed to the required value when firing cartridges that create various pressures in the barrel.

The objective of the claimed invention is the creation of a universal weapon with high reliability and durability.

The problem is solved in that the mechanism for adjusting the gas pressure of an automatic weapon, comprising a gas chamber, a piston with radial holes and an annular channel, a valve with a valve spring, a discharge channel and a lock nut, is equipped with a gas channel consisting of an annular channel made in the piston, radial holes in the piston and an annular groove made in the locking nut on the valve side, while the valve, valve spring and locking nut are installed on the outer surface of the piston, and the discharge channel a valve clearance between the outer surface and the inner surface of the gas chamber. The mechanism is equipped with an adjusting nut mounted on the piston and abuts against the valve spring. The adjusting nut is equipped with a spring clip.

The use of the claimed invention will improve the reliability and durability of the weapon, as well as expand its versatility, ensuring reliable operation in automatic mode with different power cartridges.

Placing the adjusting nut, valve, valve spring and locking nut on the outer surface of the piston greatly simplifies and increases the efficiency of the process of cleaning the mechanism for adjusting gas pressure from unburned particles and powder gas deposits, thereby increasing the reliability and service life of the weapon.

The presence of a gas channel, consisting of an annular channel, radial holes in the piston and an annular groove in the locking nut, as well as a valve with a valve spring, ensures a stable speed of the moving parts of automatic weapons. The presence of an adjusting nut mounted on the piston provides an increase in the accuracy of adjusting the gas pressure when using cartridges that create different pressures in the bore.

The invention is illustrated by drawings, which depict:

figure 1 is a General view of the device in section with the valve closed;

figure 2 is the same with the valve open.

The mechanism comprises a gas chamber 1 (Fig. 1) with gas vents 2. In the gas chamber 1 there is a piston 3, on the outer surface of which a locking nut 4, valve 5, valve spring 6 and adjusting nut 7 are installed. Stem 8 passes through piston 3 and the Central hole in the front wall of the gas chamber 1. A gas channel consisting of a series-connected annular channel 9 (Fig.2) made in the piston 3, radial holes 10 in the piston 3 and an annular groove 11 made in the lock nut 4 on the valve side 5 closes the valve Anom 5, preloaded by the valve spring 6. The locking surface of the valve 5 (figure 1) has a conical shape, providing a snug fit of the valve 5 to the edge of the gas outlet (to the edge of the groove 11 in the locking nut 4). The obturating ring 12, which is equipped with a locking nut 4, prevents the breakthrough of gases between the gas chamber 1 and the locking nut 4. The obturating ring 13, which is equipped with a valve 5, prevents the breakthrough of gases between the piston 3 and valve 5. The discharge channel 14 (figure 2), designed to discharge gases into the atmosphere, made in the form of a gap between the outer surface of the valve 5 and the inner surface of the gas chamber 1. The adjusting nut 7 (figure 1) serves as a stop for the spring 6 of the valve 5 and is fixed from spontaneous rotation by a spring-loaded clamp 15.

The mechanism works as follows. After the shot in the gas chamber 1, the pressure of the powder gases is created. Powder gases passing through the annular channel 9 (figure 2) in the piston 3, the radial holes 10 in the piston 3 and the annular groove 11 in the locking nut 4 act on the valve 5. When the pressure reaches a value greater than the force of the valve spring 6, the gases squeeze the valve 5 from the edge of the annular groove 11 in the locking nut 4. Through the opened discharge channel 14, the gases enter the atmosphere. When the pressure of the powder gases in the gas chamber 1 (FIG. 1) becomes less than the force of the valve spring 6, the latter tightly presses the valve 5 against the edge of the annular groove 11 in the lock nut 4, preventing a further decrease in pressure in the gas chamber. Under the influence of the pressure of the powder gases on the piston 3 and on the locking nut 4, the piston 3 begins to move, reaching a speed that ensures reliable and durable operation of the weapon. To ensure more reliable firing of cartridges with a minimum impulse or more comfortable firing of cartridges with a maximum impulse, the speed of the piston is controlled by rotating the adjusting nut 7. To do this, press the spring-loaded clamp 15 and, rotating the adjusting nut 7, change the preload of the valve spring 6. As a result, the pressure of the powder gases changes, at which the valve 5 opens and the speed of the piston 3 changes.

Claims (3)

1. The mechanism for adjusting the gas pressure of automatic weapons, comprising a gas chamber, a piston with radial holes and an annular channel, a valve with a valve spring, a discharge channel and a lock nut, characterized in that it is equipped with a gas channel consisting of an annular channel made in the piston, radial holes in the piston and an annular groove made in the lock nut on the valve side, while the valve, valve spring and lock nut are installed on the outer surface of the piston, and the discharge channel is made in the form of a gap between the outer surface of the valve and the inner surface of the gas chamber. 2. The mechanism according to claim 1, characterized in that it is equipped with an adjusting nut mounted on the piston and abuts against the valve spring. 3. The mechanism according to claim 1, characterized in that the adjusting nut is equipped with a spring clip.

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