A self-locking bolt assembly is provided having a short stroke allowing the assembly to be contained within the receiver. The assembly has a base plate, a recoil rod with a spring, a bolt body, a bolt and a locking mechanism. The bolt is internally (i.e. lockable onto itself) lockable when the bolt is in battery. The locking mechanism, for example, can be a roller bearing, a lever lock, a cam rotary lock or a roller. The locking mechanism engages to recoil rod and prevents rearward motion of the bolt. Blowback and reciprocation of the bolt are temporarily delayed after a shot is fired until after the bolt is unlocked. Rearward movement of the bolt body due to inertia causes the locking mechanism to be disengaged to unlock the bolt and to allow for reciprocation of the bolt.

A reciprocating bolt assembly has delayed blowback and a firing pin block. Features prevent out-of-battery firing, when the bolt assembly is not fully engaged to the firing chamber or barrel face, a movable member within a bolt body functions as a blocking member that blocks the firing pin and prevents the firing pin from striking a cartridge. In embodiments, the firing pin has two stop portions that the movable member can engage depending on the cycle status of the firearm. A reverse cam mechanism associated with the firing pin blocking provides a resistance to and delays blowback.

A reciprocating bolt assembly has delayed blowback and a firing pin block. Features prevent out-of-battery firing, when the bolt assembly is not fully engaged to the firing chamber or barrel face, a movable member within a bolt body functions as a blocking member that blocks the firing pin and prevents the firing pin from striking a cartridge. In embodiments, the firing pin has two stop portions that the movable member can engage depending on the cycle status of the firearm. A reverse cam mechanism associated with the firing pin blocking provides a resistance to and delays blowback.

This patent relates to a smooth bore barrel, replaceable magazine fed, semi-automatic pistol weighing at least 5 pounds for discharging of slug, shot, or crowd control/specialty loads of at least 12-gauge (18.5 mm), 1.75-inch (42 mm) shell loads with a recoil energy less than 45 ft-lbs.

This patent relates to a smooth bore barrel, replaceable magazine fed, semi-automatic pistol weighing at least 5 pounds for discharging of slug, shot, or crowd control/specialty loads of at least 12-gauge (18.5 mm), 1.75-inch (42 mm) shell loads with a recoil energy less than 45 ft-lbs.

A rotating gun bolt assembly includes a main body subassembly and a head subassembly. The main body subassembly including a helical receiving pocket. The head subassembly includes a head end and a rear end. The rear end of the head subassembly includes a helical tang extending from the rear end and mated with the helical receiving pocket in the main body subassembly. The helical tang includes a straight side, a distal edge and a helical side. The straight side extends perpendicular from the rear end of the head subassembly. The distal edge extends perpendicular to the straight side, where the distal edge is parallel with the rear end of the head subassembly. The helical side extends helically from the rear end of the head subassembly to the distal edge of the helical tang.

A rotating gun bolt assembly includes a main body subassembly and a head subassembly. The main body subassembly including a helical receiving pocket. The head subassembly includes a head end and a rear end. The rear end of the head subassembly includes a helical tang extending from the rear end and mated with the helical receiving pocket in the main body subassembly. The helical tang includes a straight side, a distal edge and a helical side. The straight side extends perpendicular from the rear end of the head subassembly. The distal edge extends perpendicular to the straight side, where the distal edge is parallel with the rear end of the head subassembly. The helical side extends helically from the rear end of the head subassembly to the distal edge of the helical tang.

Delayed action magazine-based self-loading firearm with gas piston action. Delay action prevents the movement of the self-loading firearm's slide and lock during the actual shot and will keep them closed. The construction of the delayed action stores the energy from the powder gas either mechanically or pneumatically, to be used later for the operation of the firearm's load-lock mechanism. The delayed action mechanism of a delayed action firearm consists of the body (E) and a guide (C) with its openings (D) placed inside it, through which the high-pressure powder gas escapes through the firearm's barrel (A) onward to the gas piston (F), which moves pierced by a pole (H), with the pole (H) being attached to the bottom piece (I). A spring (G) may be connected to the pole (H), with the pressure of the powder gas compressing either the spring (G) or alternatively the air by the gas piston (F) against the bottom piece (I). The retainer (K) stops the gas piston (F) into its back position leaving the spring (G) or air into compression. Through the action of the shooter or a separate automatic mechanism on the releaser (M) the bottom piece (I) is allowed to dash backwards with the help of the spring (G) or air. The bottom piece (I) is fixed to the firearm's slide (O), which uses the firearm's load and lock mechanism to perform the cartridge case removal and loading actions.

Delayed action magazine-based self-loading firearm with gas piston action. Delay action prevents the movement of the self-loading firearm's slide and lock during the actual shot and will keep them closed. The construction of the delayed action stores the energy from the powder gas either mechanically or pneumatically, to be used later for the operation of the firearm's load-lock mechanism. The delayed action mechanism of a delayed action firearm consists of the body (E) and a guide (C) with its openings (D) placed inside it, through which the high-pressure powder gas escapes through the firearm's barrel (A) onward to the gas piston (F), which moves pierced by a pole (H), with the pole (H) being attached to the bottom piece (I). A spring (G) may be connected to the pole (H), with the pressure of the powder gas compressing either the spring (G) or alternatively the air by the gas piston (F) against the bottom piece (I). The retainer (K) stops the gas piston (F) into its back position leaving the spring (G) or air into compression. Through the action of the shooter or a separate automatic mechanism on the releaser (M) the bottom piece (I) is allowed to dash backwards with the help of the spring (G) or air. The bottom piece (I) is fixed to the firearm's slide (O), which uses the firearm's load and lock mechanism to perform the cartridge case removal and loading actions.

A rotating gun bolt assembly includes a main body subassembly and a head subassembly. The main body subassembly including a helical receiving pocket. The head subassembly includes a head end and a rear end. The rear end of the head subassembly includes a helical tang extending from the rear end and mated with the helical receiving pocket in the main body subassembly. The helical tang includes a straight side, a distal edge and a helical side. The straight side extends perpendicular from the rear end of the head subassembly. The distal edge extends perpendicular to the straight side, where the distal edge is parallel with the rear end of the head subassembly. The helical side extends helically from the rear end of the head subassembly to the distal edge of the helical tang.