RU209946U1 - GAS OUTLET SYSTEM OF AUTOMATIC FIREARMS - Google Patents

Abstract

The utility model relates to a powder gas venting system for hand-held automatic firearms. The gas exhaust system shown in this utility model makes it possible to exclude the effect of powder gas pressure on the barrel structure, i.e. exclude elastic deformation of the barrel, which positively affects the accuracy. Installing an adjusting screw on the end of the working chamber allows you to smoothly adjust the operation of the automation, achieving optimal operation of the automation on various types of ammunition equipment, as well as depending on the ambient temperature.

Description

The utility model relates to semi-automatic and automatic firearms, the principle of operation of which is based on the removal of gas for the operation of automation, namely, the system for removing gases from the bore into the working chamber.

A well-known gas exhaust system for powder gases of a Kalashnikov assault rifle /Yandex/NSD AK-74, page 19/ using a camera rigidly fixed to the barrel structure with pins. The disadvantage of this design is that when the pressure of powder gases is applied to the front of the chamber, there is an elastic deformation of the barrel in the form of a bend, which reduces the accuracy of the shots.

A well-known gas exhaust system for powder gases of the Swedish rifle Ljungman m42 /Yandex/ FIPS/ patent rifle Ljungman m42 / powder gases from the vertical channel through the exhaust tube attached to the barrel enter the piston chamber. The disadvantage of this design is that when the pressure of the powder gases is applied to the front part of the gas outlet tube, the barrel is elastically deformed in the form of a bend, which reduces the accuracy of the shots. This design is taken as a prototype of the invention.

When creating the claimed utility model, the task was to obtain a technical result, which consists in excluding the effect of powder gas pressure on the bend of the barrel and providing the ability to regulate the operation of the gas system.

The solution of this problem is achieved by the fact that the powder gases from the barrel through a vertical hole (10) enter the gas outlet tube (3) fixed on the barrel (1), then they enter the working chamber through the tube. It differs in that the working chamber (5) is fixed in the barrel block (7) on the receiver, and the gas outlet tube (3) fixed on the barrel is configured to supply powder gases perpendicular to the axis of the working chamber (5) through the side hole (11), moreover the gas outlet tube (3) has the ability to slide relative to the body of the working chamber (5), thereby eliminating the transfer of load from the operation of the gas outlet system to the barrel (1). The adjusting screw (4) allows you to smoothly change the working volume of the chamber and adjust the pressure without changing the stroke of the piston (6).

The technical result is achieved due to the fact that the gas vent system of semi-automatic and automatic firearms, consisting of a vent body, a vent pipe, a working chamber, has a working chamber configured to supply powder gases perpendicular to its axis through a side hole, and the vent pipe is able to slide relative to the body working chamber, which at the same time contains an adjusting screw.

Figure 1 shows a General view of the exhaust system,

Figure 2 shows the details of the system,

Figure 3 shows a section of the discharge channel,

Figure 4 shows a section of the inlet channel,

In figure 5, the position of the adjusting screw at a minimum amount of pre-expansion (maximum pressure),

In Fig.6 the position of the adjusting screw at the maximum amount of pre-expansion (minimum pressure).

The gas exhaust system consists of: barrel 1, exhaust housing 2, exhaust pipe 3, adjusting screw 4, working chamber 5, piston 6, barrel block 7, pins 8, 9, exhaust channel 10, inlet channel 11.

The complex of these solutions makes it possible to exclude all elastic deformations of the barrel from the operation of the gas system and to achieve optimal operation of the weapon automation.

Claims (1)

A gas exhaust system for semi-automatic and automatic firearms, consisting of a gas exhaust body, a gas exhaust tube, a working chamber, a piston, characterized in that the working chamber housing, mounted on the receiver, is configured to supply powder gases perpendicular to its axis through a side hole, and the gas exhaust tube has the ability to slide relative to the body of the working chamber, which at the same time contains an adjusting screw.

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