CZ32683U1 - Muzzle device, primarily for air guns - Google Patents

Description

Muzzle device especially for air weapons

Field of technology

The technical solution relates to a device enabling, after firing, primarily from an air weapon, to close the space of the muzzle of the barrel and thus preserve a sufficient amount of propellant for recharging.

Prior art

Air or gas weapons use either a pre-compressed propellant to fire the projectile from the barrel, or they include a mechanism that manually compresses the propellant. A mechanism is also known in which a resilient element is used which accumulates the mechanical energy required for firing and, when the weapon is fired, transfers this energy to the piston, which exerts pressure on the propellant. The disadvantage of the above solutions is the fact that in the vast majority of such equipped weapons have a relatively low muzzle energy of the projectile and there is not enough pressure medium after firing, which would be sufficient to recharge the air rifle without closing the muzzle space. A typical example are air rifles with muzzle energy up to 16 J or up to 7.5 J.

Another known solution are self-loading air guns, which currently work mainly at higher power muzzle energy of the projectile, especially around 30 to 40 J and more, when there is already enough pressure medium without closing the pressure medium in the barrel. However, this concept does not work at lower performances.

Regardless of the type of propellant, these weapons are hereinafter referred to as air weapons in the application.

Another disadvantage of the known solutions is the fact that after the shot there is a leakage of pressure medium from the muzzle of the barrel, which can destabilize the projectile after leaving the barrel, not only with air weapons.

The essence of the technical solution

The above-mentioned shortcomings, especially for weapons with lower muzzle energy, are largely solved by muzzle device according to this technical solution, where this device closes the muzzle space mainly after firing, thus allowing to capture a sufficient amount of pressure medium for reloaded rifles shot. By closing the mouth of the muzzle, especially after the shot, it is possible to separate more flue gas or pressure medium from the projectile and thus increase the accuracy of shooting, even with non-air weapons.

Muzzle device design: the muzzle of the barrel is a muzzle device consisting of a spring which presses the piston against the body of the muzzle device. A piston is preferably mounted on the piston and is rotatably connected to the closing cylinder. In the basic state, the closing cylinder is off the axis of the bore of the barrel and allows free passage of the projectile. When fired, after the projectile has left the barrel and passed through the body of the muzzle device, the increased pressure from the pressure medium and / or flue gases in the space in front of the piston increases the pressure relative to the atmospheric pressure behind the piston to create a compressive force spring to the stopper, the movement of the piston moving the rod with the closing cylinder so as to close the opening adjacent to the opening of the barrel. The closing cylinder moves in the groove of the body.

- 1 CZ 32683 UI

Explanation of drawings

The technical solution will be explained in more detail with the aid of the drawing, where in Fig. 1 the section of the mouthpiece device is in the open position and in Fig. 2 the section is in the closed position.

Examples of technical solution

Attached to the muzzle of the barrel 8 is a muzzle device consisting of a spring 4 for pressing the piston 1 against the body 5 of the muzzle device. A rod 2 is rotatably mounted on the piston 1, rotatably connected to the closing cylinder 3. In the basic state, the closing cylinder 3 is off the axis of the bore of the barrel 8 and allows the free passage of the projectile. When fired, after the projectile leaves the barrel 8 and passes through the body 5, the increased pressure from the pressure medium and / or flue gases in the space in front of the piston 1 increases the pressure relative to the atmospheric pressure behind the piston to create a compressive force which pushes the piston 1 and a spring 4 to the stopper 6, the movement of the piston 1 moving the rod 2 with the closing cylinder 3 so as to close the opening of the mouthpiece adjoining the opening of the barrel 8. The closing cylinder 3 moves in an oblique groove of the body 5.

After the pressure in the space of the mouth of the barrel 8 is reduced, the compressive force decreases and the spring 4 moves the piston 1 with the rod 2 and the closing cylinder 3 back to its original position.

Industrial applicability

This technical solution can be used especially in the field of sports air weapons.

Claims (1)

CLAIMS FOR PROTECTION Muzzle device, in particular for air weapons, characterized in that the muzzle device consists of a body (5), a piston (1) on which a rod (2) connected to the closing cylinder (3) is mounted, the spring (4) pressing the piston (1) to the body (5) of the mouthpiece device and the rod (2) is rotatably connected to the closing cylinder (3) for moving the assembly along an oblique groove formed in the body (5).