An omni-directional recoil energy absorption mechanism has a slipping disk supported by a support plate carrying a weapon; and a cover plate covering the slipping disk and capturing it to create a sandwich structure of cover plate, slipping disk and support plate. Bolts act in conjunction with pressure springs to press the cover plate to the slipping disk toward the support plate and create friction forces in a plane of the slipping disk. Tension springs connect the slipping disk to the support plate under recoil force configured to return the slipping disk and the weapon to an initial position, in a center of the support and cover plates. The springs are preloaded to a pre-defined level to oppose, flexibly, the recoil forces in any vertical and radial directions, while absorbing the recoil energy by allowing the slipping of the slipping disk in between the cover and support plates.

An omni-directional recoil energy absorption mechanism has a slipping disk supported by a support plate carrying a weapon; and a cover plate covering the slipping disk and capturing it to create a sandwich structure of cover plate, slipping disk and support plate. Bolts act in conjunction with pressure springs to press the cover plate to the slipping disk toward the support plate and create friction forces in a plane of the slipping disk. Tension springs connect the slipping disk to the support plate under recoil force configured to return the slipping disk and the weapon to an initial position, in a center of the support and cover plates. The springs are preloaded to a pre-defined level to oppose, flexibly, the recoil forces in any vertical and radial directions, while absorbing the recoil energy by allowing the slipping of the slipping disk in between the cover and support plates.

A system is disclosed for extending a recoil impulse of a gun. The system elongates the recoil impulse to spread the recoil energy over time and reduce felt (i.e., peak) recoil force. Although the system adds weight to a gun, the system reduces felt recoil beyond what is possible by simply adding weight to a gun by using an inertial weight on a spring to absorb and release energy. To prevent shaking, the inertial weight system is tuned to a gun so that the inertial weight hits a pair of stops at certain points in the gun's discharge action cycle.

A system is disclosed for extending a recoil impulse of a gun. The system elongates the recoil impulse to spread the recoil energy over time and reduce felt (i.e., peak) recoil force. Although the system adds weight to a gun, the system reduces felt recoil beyond what is possible by simply adding weight to a gun by using an inertial weight on a spring to absorb and release energy. To prevent shaking, the inertial weight system is tuned to a gun so that the inertial weight hits a pair of stops at certain points in the gun's discharge action cycle.

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. 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 various detail of the present disclosure, and the manner in which they interrelate, will be described in greater detail hereinafter.

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. 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 various detail of the present disclosure, and the manner in which they interrelate, will be described in greater detail hereinafter.

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. The various details of the present disclosure, and the manner in which they interrelate, will be described in greater detail hereinafter.

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. The various details of the present disclosure, and the manner in which they interrelate, will be described in greater detail hereinafter.

An active soft recoil control system that provides a bi-directional recoil containment and double strike prevention, which improves recoil force management, reduces the potential for short rounds, results in a more compact and lighter weight weapon, and increases the uniform performance of the heavy weapon at temperature extremes and steep cants. Furthermore, the present system provides for a mechanism that enables safer firing pin retraction and reduces the potential for unintentionally striking the primer and initiating the round during misfire operations.

An active soft recoil control system that provides a bi-directional recoil containment and double strike prevention, which improves recoil force management, reduces the potential for short rounds, results in a more compact and lighter weight weapon, and increases the uniform performance of the heavy weapon at temperature extremes and steep cants. Furthermore, the present system provides for a mechanism that enables safer firing pin retraction and reduces the potential for unintentionally striking the primer and initiating the round during misfire operations.