A security monitoring system and device comprising a turret apparatus or device configured for embedded placement into a position below the ground surface near a location or a perimeter of a location the device or system of the device is intended to monitor. The singular device is most generally provided in an assembly that can be considered modular, wherein the device is provided in a complete assembly that can be placed into a ground surface or structure for monitoring an area surrounding the device. Accordingly, the device comprises a silo defining an interior space, a movable platform and actuator, a camera, an actuator, a defense mechanism, a shielded dome, and a control system.

A security monitoring system and device comprising a turret apparatus or device configured for embedded placement into a position below the ground surface near a location or a perimeter of a location the device or system of the device is intended to monitor. The singular device is most generally provided in an assembly that can be considered modular, wherein the device is provided in a complete assembly that can be placed into a ground surface or structure for monitoring an area surrounding the device. Accordingly, the device comprises a silo defining an interior space, a movable platform and actuator, a camera, an actuator, a defense mechanism, a shielded dome, and a control system.

Spent cartridges router means in a configuration of a four bars or four bar linkage mechanism for routing spent cartridges ejected from a chain fed automatic weapon towards means for gathering cartridges that is installable as an ad-on and independent (stand alone) mechanism on a weapon station of the type that comprises a base assembly that is rotatable for traverse motion, a cradle assembly that is located on the base assembly and linked with it in axial (pivotally) manner and chain fed automatic weapon that is affixable on the cradle assembly in a manner that it will be rotatable for elevation and lowering around the cradle's axis.

The present disclosure provides a mounting assembly for a primary firearm, which may include a non-recoil reducing cradle pivotably coupled to a carriage configured to mount a selectively removable shield assembly. The mounting assembly includes a quick release pintle adaptor locking mechanism, which aids in the rapid mounting and dismounting of a secondary firearm to the mounting assembly.

The present disclosure provides a mounting assembly for a primary firearm, which may include a non-recoil reducing cradle pivotably coupled to a carriage configured to mount a selectively removable shield assembly. The mounting assembly includes a quick release pintle adaptor locking mechanism, which aids in the rapid mounting and dismounting of a secondary firearm to the mounting assembly.

The technology disclosed herein can include a motor unit having a motor with a motor gear to rotate a drive shaft and a drive gear. A manual input shaft can also be configured to transmit rotation to the drive shaft. The motor can have a central axis that forms an angle of less than 90 degrees with a plane substantially defined by an outer surface of a gear box coupled to the motor. A mounting bracket is configured to allow mechanical communication between the motor unit and an internal ring gear. The internal ring gear can be mounted to a vehicle and a turret can be pivotably disposed within the internal ring gear. A motor unit is mounted on the turret and a drive gear is rotatably mounted on the motor unit and in direct engagement with the internal ring gear.

The technology disclosed herein can include a motor unit having a motor with a motor gear to rotate a drive shaft and a drive gear. A manual input shaft can also be configured to transmit rotation to the drive shaft. The motor can have a central axis that forms an angle of less than 90 degrees with a plane substantially defined by an outer surface of a gear box coupled to the motor. A mounting bracket is configured to allow mechanical communication between the motor unit and an internal ring gear. The internal ring gear can be mounted to a vehicle and a turret can be pivotably disposed within the internal ring gear. A motor unit is mounted on the turret and a drive gear is rotatably mounted on the motor unit and in direct engagement with the internal ring gear.

A turret system for allowing remote aiming and/or discharging of a hand-held weapon includes a base assembly and a rotatable frame, carried by the base assembly. The rotatable frame is capable of rotating relative to the base assembly about a vertical axis. A carrying ring is carried by the base assembly, the carrying ring capable of rotating relative to the base assembly about a horizontal axis. Attachment structure is associated with the carrying ring, the attachment structure operable to allow attachment of a hand-held weapon to the carrying ring to thereby allow the carrying ring to alter a position of the hand-held weapon relative to the base assembly.

A turret system for allowing remote aiming and/or discharging of a hand-held weapon includes a base assembly and a rotatable frame, carried by the base assembly. The rotatable frame is capable of rotating relative to the base assembly about a vertical axis. A carrying ring is carried by the base assembly, the carrying ring capable of rotating relative to the base assembly about a horizontal axis. Attachment structure is associated with the carrying ring, the attachment structure operable to allow attachment of a hand-held weapon to the carrying ring to thereby allow the carrying ring to alter a position of the hand-held weapon relative to the base assembly.

The present invention is a remotely controlled weaponized vehicle, comprising: a vehicular base comprising, a mobilized vehicular device, a first computing system, wherein the first computing system controlled the vehicle device, a weapon system attached to the vehicular base, wherein the weapon system comprises, a mounting system connected to the vehicular base, a weapon mount attached to the mounting system, a weapon attached to the weapon mount, an ammunition feeding system connected to the weapon, a second computing system, wherein the second computing system controls the mounting system, the weapon mount, the weapon, and the ammunition feeding system; a plurality of sensors collecting data from the vehicular base and the weapon system, wherein data collected from the plurality of sensors is sent to the first or the second computing systems.