Disclosed is a firearm configuration for a handgun. The firearm configuration is designed to reduce the recoil forces encountered by a user upon firing the weapon. It further includes a recoil plate that absorbs forces generated by the slide during firing. Recoil forces are reduced by lowering the firearm's center of mass and by aligning a recoiling mass with the user's arm and trigger finger. The firearm configuration further includes a locking block which prevents rotational and lateral movement of the barrel upon firing.

Disclosed is a firearm configuration for a handgun. The firearm configuration is designed to reduce the recoil forces encountered by a user upon firing the weapon. It further includes a recoil plate that absorbs forces generated by the slide during firing. Recoil forces are reduced by lowering the firearm's center of mass and by aligning a recoiling mass with the user's arm and trigger finger. The firearm configuration further includes a locking block which prevents rotational and lateral movement of the barrel upon firing.

Disclosed is a firearm configuration for a handgun. The firearm configuration is designed to reduce the recoil forces encountered by a user upon firing the weapon. It further includes a recoil plate that absorbs forces generated by the slide during firing. Recoil forces are reduced by lowering the firearm's center of mass and by aligning a recoiling mass with the user's arm and trigger finger. The firearm configuration further includes a locking block which prevents rotational and lateral movement of the barrel upon firing.

The invention relates to a firearm comprising a housing (1) with a rigid barrel (2) arranged therein, a magazine that can be mounted in the receptacle of the housing (1) and provided with cartridges (4), a closure (3) that can be moved with respect to the housing (1) in the longitudinal direction of the barrel (2) and that is used to guide cartridges (4) from the magazine into a cartridge holder (5) or for ejecting empty cartridge cases. The closure (3) is mounted completely inside the housing (1) over its entire movement path. A sear frame (6) is coupled to the closure (3) which is tensioned by means of a closing spring (7) in the direction of the front closed position of the closure (3). The invention also relates to a locking block (8) coupled to the closure (3) when the closure is in the front closed position. The locking block (8) can be tensioned by a locking spring (9) in the direction of said position, and the locking block (8) can be moved when triggering a shot through the closure (3) by compressing the locking spring (9) only for one part of the movement path of the closure (3) until the decoupling position is reached together with the closure (3).

A bolt assembly for firearms utilizing a blowback type operating system. The bolt assembly comprises a non-rotatable bolt slideably disposed in the receiver for forward and rearward movement and a dead blow weight assembly slideably coupled to the bolt. The dead blow weight assembly may be two-piece comprising a dead blow weight and dead blow top member. These parts are separate components movable independently of each other, but functionally interacting and cooperating under recoil after discharging the firearm to eject a spent cartridge casing and chamber a new cartridge as the action is reset. When the firearm discharged, a two-stage felt recoil force is generated by this mechanism, thereby advantageously producing peak forces which are less in magnitude than the single strong felt recoil force experienced by users with conventional one-piece bolt used in many blowback type firearms.

A bolt assembly for firearms utilizing a blowback type operating system. The bolt assembly comprises a non-rotatable bolt slideably disposed in the receiver for forward and rearward movement and a dead blow weight assembly slideably coupled to the bolt. The dead blow weight assembly may be two-piece comprising a dead blow weight and dead blow top member. These parts are separate components movable independently of each other, but functionally interacting and cooperating under recoil after discharging the firearm to eject a spent cartridge casing and chamber a new cartridge as the action is reset. When the firearm discharged, a two-stage felt recoil force is generated by this mechanism, thereby advantageously producing peak forces which are less in magnitude than the single strong felt recoil force experienced by users with conventional one-piece bolt used in many blowback type firearms.

The invention relates to a firearm comprising a housing (1) with a rigid barrel (2) arranged therein, a magazine that can be mounted in the receptacle of the housing (1) and provided with cartridges (4), a closure (3) that can be moved with respect to the housing (1) in the longitudinal direction of the barrel (2) and that is used to guide cartridges (4) from the magazine into a cartridge holder (5) or for ejecting empty cartridge cases. The closure (3) is mounted completely inside the housing (1) over its entire movement path. A sear frame (6) is coupled to the closure (3) which is tensioned by means of a closing spring (7) in the direction of the front closed position of the closure (3). The invention also relates to a locking block (8) coupled to the closure (3) when the closure is in the front closed position. The locking block (8) can be tensioned by a locking spring (9) in the direction of said position, and the locking block (8) can be moved when triggering a shot through the closure (3) by compressing the locking spring (9) only for one part of the movement path of the closure (3) until the decoupling position is reached together with the closure (3).

Firearms with recoil mitigation have a frame with a connected slide, the slide configured to reciprocate relative to the frame along a slide reciprocation path, the slide having a ramp surface angularly offset from the slide reciprocation path by a first angle, a follower element connected to the frame and configured to reciprocate with respect to the frame along a follower path, the follower being biased toward the slide, and the follower having a slide contact portion configured to contact the ramp surface of the slide, such that reciprocation of the slide generates reciprocation of the follower element. The reciprocation of the slide may define a horizontal plane. The ramp surface may face downwardly and rearwardly. The slide may include a top panel and opposed downwardly-depending side panels each having lower edges. The ramp surface may be formed in a cutout above the lower edge of a side panel.

Disclosed is a firearm configuration for a handgun. The firearm configuration is designed to reduce the recoil forces encountered by a user upon firing the weapon. It further includes a recoil plate that absorbs forces generated by the slide during firing. Recoil forces are reduced by lowering the firearm's center of mass and by aligning a recoiling mass with the user's arm and trigger finger. The firearm configuration further includes a locking block which prevents rotational and lateral movement of the barrel upon firing.

Disclosed is a firearm configuration for a handgun. The firearm configuration is designed to reduce the recoil forces encountered by a user upon firing the weapon. It further includes a recoil plate that absorbs forces generated by the slide during firing. Recoil forces are reduced by lowering the firearm's center of mass and by aligning a recoiling mass with the user's arm and trigger finger. The firearm configuration further includes a locking block which prevents rotational and lateral movement of the barrel upon firing.