RU2000100033A - FIREARMS - Google Patents

Claims (12)

1. A method of minimizing misfires or minimizing their consequences in a barrel of the type described, comprising supplying at least each locking projectile with a sealing part located around the conical part of the body and moving with it to expand and enter into tight contact with the barrel bore, and providing disconnecting means for operatively disconnecting the sealing portion from the housing upon ignition of the propellant charge of the corresponding projectile.  2. The method according to claim 1, carried out to minimize the effect of a protracted shot, in which the means of separation is an extension of the housing in the form of a rod, placing the body of the projectile in one column with the body of the adjacent head projectile to increase the resistance to the translational movement of the closing body and provide the sealing part of the possibility of advancing along the housing for operational separation from the specified housing.  3. The method according to claim 2, in which the elongation of the housing includes a central front extension column extending to the front end of the sealing portion, and a central rear extension column extending outside the sealing portion and defining a propellant charge combustion chamber between adjacent projectiles adjacent to each other.  4. The method according to claim 1 to minimize the effect of a protracted shot, in which the disconnecting means consists of a pressure-sensitive lever system installed between the body and the sealing part, which is triggered when the pressure in the barrel behind the projectile exceeds a safe working pressure, and move the sealing portion along the housing to the disconnect position.  5. The method according to claim 1, providing an effective departure of shells loaded with a high adhesion force to the barrel, in which the disconnecting means consists of a striker mounted with the possibility of free movement forward into the cavity formed in the open end of the housing so that the striker is set in motion upon ignition of the corresponding propellant charge and transfers its energy to the housing upon impact in order to bring the housing out of working contact with the sealing part.  6. The method according to claim 5, in which each shell includes a conical sealing part in the form of a ductile metal cage surrounding an additional conical part so that the translational movement of the housing relative to the sealing part leads to the operative separation of the housing from the sealing part.  7. The method according to claim 5, in which the cavity into which the striker enters is a deaf cavity, made in such a way that when the propellant is ignited in the operating mode, the striker strikes the end wall of the deaf cavity.  8. The barrel of the described type, characterized in that each locking projectile has a sealing part made around the conical part of the body and is in close contact with the barrel channel and moving forward along the channel for operational release from the body; the rod extending from each body and setting the body parts into the column with respect to the barrel, and the rear part of each projectile is open for the impact of the propelling charge to move relative to the sealing part of the body when resisting the translational movement of such a part.  9. The barrel of the described type, characterized in that each shell includes a sealing part made around the conical part of the body and loaded into the barrel in tight contact with the bore of the barrel with relative translational movement of the sealing part along the body; each projectile includes a projectile mounted for free forward movement into a cavity formed in the open end of the body, and each projectile is exposed to an ignited propellant charge for forward acceleration to transfer its energy to the body by means of an impact to bring the body out of working contact with sealing part.  10. The barrel according to claim 9, characterized in that each shell includes a conical sealing part in the form of a ductile metal cage, placed around an additional conical part of the body, and the cavity in which the firing pin is installed is a blind cavity, and when operating after ignition of the propellant charge, the striker strikes the end wall of the deaf cavity.  11. The barrel of the described type, characterized in that each projectile includes a sealing part located around the conical part of the body and loaded into the barrel by relative forward movement of the sealing part along the part of the body; each shell includes a pressure-sensitive lever system installed between the body and the sealing part and triggered when the pressure in the barrel behind the shell exceeds the safe working pressure, while the lever system takes the sealing part back along the body part to the disconnect position.  12. The barrel assembly, mainly as described above with reference to any of the accompanying drawings.