A firearm stabilization device is described that can be attached to a firearm to improve, increase, or maintain the stability of a firearm. The firearm stabilization device may include an electric motor configured to rotate a flywheel about an axis of rotation and a power source powering the electric motor. The electric motor, the flywheel, and the power source may be positioned within a housing. The fire arm stabilization device may include an engagement structure positioned on an outer surface of the housing for attaching (releasably or permanently) the firearm stabilization device to a firearm.

A firearm stabilization device is described that can be attached to a firearm to improve, increase, or maintain the stability of a firearm. The firearm stabilization device may include an electric motor configured to rotate a flywheel about an axis of rotation and a power source powering the electric motor. The electric motor, the flywheel, and the power source may be positioned within a housing. The fire arm stabilization device may include an engagement structure positioned on an outer surface of the housing for attaching (releasably or permanently) the firearm stabilization device to a firearm.

A dual bidirectional input to single bidirectional output transmission (or gear box) comprising of unique gear ratios between each of the bidirectional inputs and the single, or common, bidirectional output is disclosed. The gear box has a gear train design with two bidirectional inputs and one (or common) bidirectional output. The device is configured to enable torque to be transmitted through either one or both of the bidirectional inputs to the bidirectional output. The gear train may be a constant mesh system which eliminates sliding splines, dog clutches or synchronizers to switch between operational modes. A locking feature/component/element allows the power or torque to be transmitted from a first bidirectional input to the common bidirectional output using a second bidirectional input as a fixed rotation reference. Similarly power or torque from the second bidirectional input to the common bidirectional output may use the first bidirectional input as a fixed rotation reference. The disclosure may also include a planetary gear set load combiner to cause both bidirectional inputs to transmit torque or power to the common output simultaneously. Additionally, the locking feature/component/element enables the transfer of torque from either inputs independently without back driving the other input.

A firearm stabilization device is described that can be attached to a firearm to improve, increase, or maintain the stability of a firearm. The firearm stabilization device may include an electric motor configured to rotate a flywheel about an axis of rotation and a power source powering the electric motor. The electric motor, the flywheel, and the power source may be positioned within a housing. The fire arm stabilization device may include an engagement structure positioned on an outer surface of the housing for attaching (releasably or permanently) the firearm stabilization device to a firearm.

A firearm stabilization device is described that can be attached to a firearm to improve, increase, or maintain the stability of a firearm. The firearm stabilization device may include an electric motor configured to rotate a flywheel about an axis of rotation and a power source powering the electric motor. The electric motor, the flywheel, and the power source may be positioned within a housing. The fire arm stabilization device may include an engagement structure positioned on an outer surface of the housing for attaching (releasably or permanently) the firearm stabilization device to a firearm.

A magazine for storing and launching countermeasures arranged in cartridges, comprising a plurality of longitudinal cartridge cases forming the magazine, where each cartridge case comprises side walls and a front opening and a centre axis, where the magazine is adapted to be mounted on an aircraft, where the side walls of two adjacent cartridge cases are arranged to each other in a slidable manner in a longitudinal direction, and where the magazine comprises a tilting means adapted to tilt the cartridge cases, such that the openings of the cartridge cases can be directed in a selected direction. The advantage of the invention is that a countermeasure can be directed in a desired angle before it is launched.

A dual-mode turret system includes a turret base operable by a motor drive of the turret system, a cylindrical sleeve secured to the turret base, a mounting cylinder disposed in the cylindrical sleeve, and a frame secured to the mounting cylinder, wherein the frame is adapted to hold a weapon. The dual-mode turret system also includes a locking apparatus that when engaged prevents the mounting cylinder from rotating independently of the cylindrical sleeve, a controller, and an input device coupled to the controller. Rotation of the frame is manually adjustable when the locking apparatus is disengaged, and the rotation of the frame is adjusted by the controller in response to commands received from the input device when the locking apparatus is engaged.

A mounting system alternatively configurable as either a mount for a remotely operated weapon, or as a defensive fighting position, including a container portion and a platform assembly portion disposed within the container portion. The platform assembly portion includes a vertically moveable platform selectively attachable to which is a remotely operated weapon mount or a plurality of ballistic wall and roof panels, and frame members for supporting the panels. A lift mechanism is operably connected to the platform, and the platform is moveable by the lift mechanism from a first vertical position to a second vertical position located above the first vertical position. The mounting system has a fully deployed state in the second vertical position in which either the weapon mount or the defensive fighting position structure is supported by the platform and is disposed above the container portion.

A mounting system alternatively configurable as either a mount for a remotely operated weapon, or as a defensive fighting position, including a container portion and a platform assembly portion disposed within the container portion. The platform assembly portion includes a vertically moveable platform selectively attachable to which is a remotely operated weapon mount or a plurality of ballistic wall and roof panels, and frame members for supporting the panels. A lift mechanism is operably connected to the platform, and the platform is moveable by the lift mechanism from a first vertical position to a second vertical position located above the first vertical position. The mounting system has a fully deployed state in the second vertical position in which either the weapon mount or the defensive fighting position structure is supported by the platform and is disposed above the container portion.

A dual-mode turret system includes a turret base operable by a motor drive of the turret system, a cylindrical sleeve secured to the turret base, a mounting cylinder disposed in the cylindrical sleeve, and a frame secured to the mounting cylinder, wherein the frame is adapted to hold a weapon. The dual-mode turret system also includes a locking apparatus that when engaged prevents the mounting cylinder from rotating independently of the cylindrical sleeve, a controller, and an input device coupled to the controller. Rotation of the frame is manually adjustable when the locking apparatus is disengaged, and the rotation of the frame is adjusted by the controller in response to commands received from the input device when the locking apparatus is engaged.