CZ2009874A3 - Firearm for deformable projectiles - Google Patents

Abstract

Firearm for deformable missiles, especially for rubber bullets, containing a chamber and at least one restraining device, extending into the cavity cross section, particularly in the space between the chamber and the mouth of the firearm. The weapon comprises at least one gas channel (14) connecting the inner space of the chamber to the outside of the weapon, wherein the gas channel (14) is provided with a closure opening the undesirable increased gas pressure expanding when the bullet is fired in the chamber chamber. In the event that the weapon was charged with a bullet with a metal bullet and a shot was attempted, the restraining means would prevent the bullet from going into the barrel and thus the shot, and by increasing the pressure of the expanding gas well above the normal value, corresponding to the shot of the deformable bullet, opens the gas channel (14), thereby allowing gas to escape.

Description

Firearm for deformable missiles

Technical field

Firearm for deformable projectiles, especially for rubber projectiles, X comprising a cartridge chamber and at least one restricting means extending into the cavity cross-section mainly in the space between the cartridge chamber and the barrel of the firearm.

BACKGROUND OF THE INVENTION

X In a wide range of small firearms, a relatively large group of weapons are not intended to kill humans. While one of their areas of application is human intervention, it is an intervention intended to discourage an individual or group of people from, for example, illegal activity, but should not cause serious injury. For such purposes, as well as, for example, for some sporting activities, guns firing deformable missiles made mostly of rubber are used.

However, the design of such weapons must ensure that a metal bullet with a lethal effect cannot be fired under any circumstances. In some countries, for example, the legal prohibition on the free sale of X firearms for metal bullets from a certain diameter, such as a diameter of 4 mm or more.

The solution according to DE 1032464 U1 and its analogy EP 1544569 B1 proposes a weapon which comprises, between the firing position of the projectile and the muzzle, a barrel cross-section limiting means which limits the path of the projectile from the firing position Xi to the mouth. to the direction of movement of the projectile less clear width than the weapon in the firing position in each direction perpendicular to the direction of movement of the projectile.

Obstacles in the cavity barely prevent the metal bullet and other solutions, such as RU 2253816 C1, RU 2243472 C1. Normal passage X missile barrel is impossible here, but with a very steep rise in pressure gsassocg expanding after the initiation of the shot acts on the missile so great driving force that the missile does not leave the muzzle, but may damage the interior of the barrel and thereby practical depreciation of the weapon.

Another limitation to which the deformable missile weapons are subject is the maximum allowable amount of energy the missile has when it is swept from the barrel. Typically, this limit is an energy density of 0.5 µm ² .

The solution according to RU 2263269 C2 discloses a firearm for firing with a bullet with elastically deformable bullet. The cross-section of the barrel cavity is increased, for example, by a longitudinal groove with rounded edges, at a certain distance from the chamber. The rubber bullet deforms in the region of these longitudinal grooves, filling the grooves and sealing the space with compressed expanding gases behind the bullet. When using a metal bullet, the grooves do not close, but create channels through which a large part of the compressed gases escape and thus does not give the bullet energy sufficient for the life-threatening effect of fire. However, the missile leaves the barrel jX and due to its characteristics, within the range of shorter range can cause serious injury.

The object of the invention is to eliminate or further reduce the shortcomings of the prior art, in particular not to allow the metal bullet to leave the barrel of the weapon intended for firing by deformable bullets, while avoiding damage to the weapon by accidentally charging the weapon with the metal bullet.

SUMMARY OF THE INVENTION

The object of the invention is achieved by a deformable projectile firearm comprising at least one gas channel connecting the interior of the cartridge chamber with the space outside the weapon, wherein the gas channel is provided with a closure openable to unwanted elevated pressure of gases expanding upon firing a chamber chamber.

The pressure of the expanding gases, which is significantly higher when the metal / bullet cartridge is fired than when the bullet is fired, for example, with a rubber bullet, causes the gas channel cap to open and the cartridge chamber to connect to the outer

atmosphere. After the gas leak through the gas channel, the pressure in the cartridge chamber drops and the missile does not leave the weapon.

Preferably, the gas channel is arranged in the wall of the chamber. In this case, the channel is short, which simplifies the installation of the closure.

In this case, it is advantageous if the gas channel is arranged in the upper region of the chamber. Preferably, the closure comprises a cylindrical plug inserted into the inlet portion of the gas passage, wherein the outer diameter of the cylinder plug is greater than the diameter of the gas passage opening in the region of the inserted plug and / or the edge of the gas passage opening from the outer face of the plug is plastically deformed. toward the center of the gas channel opening. When the gun is held in the outstretched hand when firing, the plug is pushed out by the high pressure of the gas when attempting to shoot the metal bullet upwards, eliminating the possibility of injury to the shooter by flying through the plug.

If the firearm is a revolver, the cartridge chamber is formed by cavities in a turret rotatably mounted in the body of the weapon, each of its cavities for receiving a cartridge having a connection opening forming an inlet portion of the gas channel connecting the inner space of the cavity with the outer cylindrical surface of the turret. wherein the longitudinal axis of the connection port always has a direction of a substantially radial line with respect to the axis of the drum, and in the rest position X of the drum before each shot the respective connection port is situated opposite the opening of the adjacent gas channel arranged in the cartridge chamber wall in the weapon body. This ensures a rapid increase in the pressure of the gases under the plug of the gas channel closure and a rapid opening of this channel.

yf Overview of figures in the drawing

1 shows a side view of a partial sectional revolver, FIG. 2 a longitudinal section of a drum, FIG. 3 a front view of a partial sectional drum, FIG. 4 a front view of a barrel of a partial weapon; 5 is a front view of the barrel of the weapon; and FIG. 6 is a longitudinal section through a closed gas duct.

• • • ·············· 4, -

DETAILED DESCRIPTION OF THE INVENTION

The firearm of the invention in the exemplary embodiment shown in FIG. 1 is a six-pistol revolver.

The revolver of the known arrangement comprises a frame 1 and a barrel body 2. The main components of the frame 1 are the handle 11, the trigger guard 12 and the body 13. A barrel 21 is inserted in the barrel body 2, in which a locking insert 22 is arranged in the inlet part.

The body 13 accommodates in some known manner a drum 3 having six substantially cylindrical cavities in a known manner regularly distributed on a pitch circle whose center lies on the longitudinal axis 31 of the drum 3.

In the inlet part of each cavity there is a chamber 32 for receiving a not shown cartridge. In a drum weapon, this chamber 32 forms a cartridge chamber. The chamber 32 is connected to the bullet inlet channel 33, which in the exemplary embodiment is slightly conical, tapering towards the intermediate barrel 21. The axis of the bullet inlet channel 33 is parallel to the axis of the chamber 32, the distance between these axes being 0.5 mm. Each chamber 32 is connected through a through connecting hole 34 to the outer periphery of the drum 3.

In an exemplary embodiment, the axis of the connection hole 34 has a radial direction with respect to the longitudinal axis 31 of the drum 3 and the diameter of the connection hole 34 is 4.5 mm.

The connection opening 34 is an inlet part of the gas channel 14, the adjacent part X 15 of which is formed in the upper part of the revolver body 13.

The intermediate barrel 21 immediately follows the drum face, the longitudinal axis of which is identical to the longitudinal axis of the chamber 32 in which the cartridge is ready to be fired.

The blocking insert 22 is in the exemplary embodiment formed by a tube, in which, for example, two protruding protrusions 23 directed towards each other into the tube cavity are formed by pressing. The projection 23 is shown in cross-section by the locking insert 22 in FIG. 4.

The locking insert 22, with its face facing the barrel mouth, rests on a shoulder 24 in the cavity of the barrel 21. After the shoulder 24, the bore 25 of the barrel 21 tapered thereafter, then continues with the cylindrical portion and expands conically in the region of the barrel 26. The bore 25 of the intermediate barrel 21 is provided with longitudinal straight grooves 27. A front view of the orifice 25 of the intermediate barrel 21 is shown in Fig. 5, which also schematically illustrates the arrangement of the grooves 27.

The intermediate barrel 21 is positioned in the body 13 and secured by a pin 28.

The downstream portion 15 of the gas passage 14 at the top of the body 13 is a through hole whose longitudinal axis is radial to the longitudinal axis of the cylindrical cavity for positioning the drum 3. The inlet opening position of the downstream portion 15 of the gas passage 14 is positioned in the body 13 so that it an opening 34 connecting the interior of the respective chamber 32 of the drum 3, in which a cartridge ready for the actual firing is placed. In an exemplary embodiment, the downstream portion 15 of the gas passage 14 has a diameter of 6 mm.

FIG. 6 shows a detail of the opening of the gas channel opening 14. A metal plug 16 is pressed into the connection opening 34 of the gas channel 14. The plug is fastened in the channel by overlapping the diameter of the plug 16 relative to the diameter of the connection opening 34 (FIG. half of the axial section through the connecting hole 32) and / or by rolling the edge 17 of the outer hole of the connecting hole 34 into contact with the periphery of the plug 16, which may possibly be supported by its lower edge on the notched shoulder of the connecting hole 34 (FIG. 321

Upon initiation of the bullet when the deformable projectile is fired, the pressure of the expanding gases in the chamber of the chamber, here the chamber 32 of the drum 3, imparts kinetic energy to the projectile and drives it toward the barrel. The gas pressure is large enough to allow the bullet to elastically deform and pass through the eccentrically arranged inlet duct 33, the labyrinth of the protrusions 23 of the locking insert 22 and the tapered bore 25 of the barrel 21, leaving the orifice 26 of the barrel 21. however, the resistance of the missile to the said obstacles in its path is less than the value at which it would exert the force necessary to push the plug 16 out of the connecting hole 32.

If for any reason a bullet with a metal bullet was placed in the chamber 32, the bullet is also propelled into the barrel at the start of the firing by the pressure of the expanding gases. Since the projectile material does not allow its missile to be used. · ······ * ··

Practical deformation, after contact of the projectile with obstacles formed by the already eccentric inlet channel 33, the projectile retardation causes a sharp increase in pressure of expanding gases in the chamber 32 and thus immediately below the plug 16. The resulting axial force acting on the plug 16 overcomes

The force securing the plug 16 in the connection opening 34 pushes it out of it, whereupon the plug is ejected by the downstream part 15 of the gas channel 14 outside the gun. The expanding gases escape through the open gas channel 14 without the projectile being swept from the weapon. Since the outer orifice of the downstream portion 15 of the gas passage 14 is situated in the upper portion of the weapon and the axis of the passage is vertical, the plug 16 is pushed upward from the gas passage 14 and substantially does not compromise the firing.

The gas channel 14 may be reconditioned after such an emergency and calibrated to close the new, possibly abnormal, plug 16.

It will be understood that the exemplary embodiments described do not limit the scope of protection X defined by the claims below. It is possible to envisage another embodiment of barriers arranged in the barrel, another embodiment of the gas pressure safety lock, a different cartridge magazine and the associated other configuration of the cartridge chamber and gas channel parts, etc.

The solution according to the invention prevents the use of a weapon with a bullet equipped with a metal bullet. In an accidental attempt to shoot a metal bullet, this will not leave the barrel of the weapon, and there is no serious damage to the weapon.

List of reference marks

X 11

X 16

X 23

X 28 frame handle trigger guard body gas duct connecting part of gas duct plug (gas duct) shoulder (gas duct) barrel barrel insert barrel locking insert protrusion (lock inserts) bore (insert barrel) bore (insert barrel) grooves (insert) in the bore inserted barrel) drum pin longitudinal axis of the drum

X 34 chamber inlet channel (bullets) connecting hole

Claims (5)

Firearm for deformable projectiles, in particular for rubber projectiles, comprising a cartridge chamber and at least one restricting means extending into the cavity cross-section mainly in the space between the cartridge chamber and the barrel of the firearm, characterized in that it comprises at least one gas channel (14) connecting the inner chamber of the cartridge chamber with the space outside the weapon, wherein the gas channel (14) is provided with a closure openable to an undesirable increased pressure of gases expanding upon firing of the cartridge with a metal bullet in the chamber chamber. Firearm according to claim 1, characterized in that the gas channel (14) is arranged in the wall of the cartridge chamber. Firearm according to claim 2, characterized in that the gas channel (14) is arranged in the upper region of the cartridge chamber. Firearm according to claim 2 or 3, characterized in that the closure is formed by a cylindrical plug (16) inserted into the gas passage (14), the outer diameter of the plug (16) being greater than the diameter of the opening of the gas passage (14) in the region of the inserted cylindrical plug (16) and / or the edge of the opening of the gas channel (14) is plastically deformed towards the center of the opening of the gas channel (14) on the side of the outer face of the inserted plug (16). X Firearm according to any one of claims 1 to 4, characterized in that the cartridge chamber is formed by cavities in a turret rotatably mounted in the body of the weapon, each of its cavities for receiving a cartridge having a connection opening (34) forming an inlet part of the gas a channel (14) which interconnects the interior of the cavity (32) with the outer cylindrical surface X of the drum (3), the longitudinal axis of the connecting aperture (34) always having a substantially radial straight line with respect to the axis of the drum (3); of the drum (3), before each firing, the respective connection opening (34) is situated opposite the opening of the adjacent part (15) of the gas channel (14) arranged in the cartridge chamber wall in the weapon body 13.