The present invention relates to a rocket launching module comprising a base frame (1) comprising at least one rail (2a); a sliding table (3) configured to slide substantially vertically on said rail (2a) when driven by at least one electric linear actuator (11), and a targeting device (4) comprising a turntable (5) on which a pivotable body (6) is mounted, supporting a rocket support portion (7). The sliding table (3) comprises a platform (8) configured to receive the turntable (5) of the targeting device (4).

The present invention relates to a rocket launching module comprising a base frame (1) comprising at least one rail (2a); a sliding table (3) configured to slide substantially vertically on said rail (2a) when driven by at least one electric linear actuator (11), and a targeting device (4) comprising a turntable (5) on which a pivotable body (6) is mounted, supporting a rocket support portion (7). The sliding table (3) comprises a platform (8) configured to receive the turntable (5) of the targeting device (4).

A shooting system includes a platform, a gun installed on the platform, a manipulator connected to the platform and the gun and configured to move the platform, a platform driver configured to drive the manipulator, and a controller configured to control the platform driver to drive the manipulator to move the platform based on transmitting a movement control signal to the platform driver, and determine whether the gun is unable to aim at a target.

A shooting system includes a platform, a gun installed on the platform, a manipulator connected to the platform and the gun and configured to move the platform, a platform driver configured to drive the manipulator, and a controller configured to control the platform driver to drive the manipulator to move the platform based on transmitting a movement control signal to the platform driver, and determine whether the gun is unable to aim at a target.

A weapon mount for controlling targeting of a weapon includes a base, an arm that extends from the base, and an attachment component that is rotatably coupled with the arm. The base is attachable to a platform and is rotatable to control a yaw of the weapon relative to the platform. The attachment component is configured to couple with the weapon and is rotatable to control a pitch of the weapon relative to the platform. The arm is positioned relative to the base so that a recoil vector of the weapon is within 0.5 inches radially of an axis of rotation of the base.

An automated weapons system is comprised of a plurality of weapon subsystems each comprising at least one human transported weapon subsystem. Each of the plurality of weapon subsystems is comprises a barrel, a targeting subsystem, a computational subsystem, positioning means, and a firing subsystem. The barrel is utilized for propelling a munition from each of the plurality of weapon subsystems aimed towards an area of sighting. The targeting subsystem identifies a chosen target for each of said plurality of weapon subsystems in the area of sighting. The computational subsystem, responsive to the targeting subsystem, determines where the chosen target is for each weapon subsystem (out of plurality) and where the respective barrel needs to be aimed for each weapon subsystem (out of plurality) so that the munitions will strike the chosen target. The positioning means adjusts the aim of the munitions for each weapon subsystem, responsive to the computational subsystem, out of plurality of weapons subsystems. The firing subsystem, fires the munitions from at least one to each of said plurality of weapon subsystems at the chosen target for one of the weapons subsystems, responsive to the positioning means from at least one of the plurality of the weapons subsystems.

A corner shot firearm comprises one or more clamp, a trigger actuator, a front grip, an accessory trigger, a pivot stud and an aim control wheel. The clamp includes a first mounting point disposed at a front end of the clamp, wherein the first mounting point is configured to mount a secondary firearm. Additionally, the trigger actuator is connected to the first mounting point. The front grip is attached to a rear end of the clamp. The accessory trigger is connected to the front grip such that the accessory trigger is actuatable by a finger of the human hand holding the front grip. Additionally, the pivot stud is connected to the first mounting point. Further, the aim control wheel is connected to the first mounting point.

Techniques are disclosed for systems and methods for nested gimbal assemblies. A gimbal system may include a base, a yoke, and a gimbal assembly rotatably connecting the yoke to the base. The gimbal assembly may include a motor, a bearing, and a ferrofluid seal. The motor may be configured to rotate the yoke relative to the base about a rotational axis. The bearing may be seated within the base and permit rotation of the yoke relative to the base about the rotational axis. The ferrofluid seal may be positioned to seal an interface between the yoke and the base. The motor may be positioned within an inner diameter of the bearing. The bearing may be positioned within an inner diameter of the ferrofluid seal.

A corner shot firearm comprises one or more clamp, a trigger actuator, a front grip, an accessory trigger, a pivot stud and an aim control wheel. The clamp includes a first mounting point disposed at a front end of the clamp, wherein the first mounting point is configured to mount a secondary firearm. Additionally, the trigger actuator is connected to the first mounting point. The front grip is attached to a rear end of the clamp. The accessory trigger is connected to the front grip such that the accessory trigger is actuatable by a finger of the human hand holding the front grip. Additionally, the pivot stud is connected to the first mounting point. Further, the aim control wheel is connected to the first mounting point.

An adjustable sighting and shooting firearm mounting vise receives a firearm to assist shooters with sighting and discharging the firearm. The firearm mounting vise includes a first base support, a second base support, a pair of positional-adjustment tracks, a forend support, a stock support, a trigger actuator, a trigger switch, a controller housing, a wireless receiver, and a microcontroller. The first base support and the second base support the pair of positional-adjustment tracks. The pair of positional-adjustment tracks allows the forend support, the stock support, and the trigger actuator to translate along each positional-adjustment track to accommodate a plurality of firearms to be secured by the firearm mounting vise. The controller housing protects electrical components including the microcontroller and the wireless receiver. The microcontroller receives control signals through the wireless receiver or directly from the trigger switch to activate the trigger actuator and discharging the firearm.