The present invention discloses an artificial and intelligent anti-terrorism strike device for stopping ongoing crime, comprising a network heavy-load cradle head, a nonfatal strike weapon mounting box, a high-definition network video camera and computer devices, wherein the adopted network heavy-load intelligent cradle head is well-known and mature technology like adopting the omnidirectional network intelligent heavy duty pan tilt of model HDS3081 to control movements, the nonfatal strike weapon mounting box is made of sheet metal, the inside of the mounting box is provided with fastening frame of the nonfatal strike weapon and trigger levers of magnetic controlled buckle (the adopted nonfatal strike weapons are well-known products such as gun type tear gas riot device of model ZD-A1-64, anesthesia gun of imitation model 54, etc.), the adopted high-definition network video camera is generally known product in the market, the adopted computer system is the commonly known product in the market to cooperate with the public security network, the face intelligent recognition software program and the monitoring platform, and utilizes the transmission system to control network heavy duty pan tilt, so as to realize the remote control over the nonfatal strike weapons, stop and carry out quick and effective strike on terrorist crimes. The present invention changes the status quo of using nonfatal weapons manually, deters and captures the terrorists before the police reach the scene of crime, thereby reducing the casualties and public losses.

In one aspect the invention features a weapon maintenance stand cover. The cover has a top cover plate, a wall structure, and a flange. The wall structure extends away from an outer edge of the top cover plate in a direction substantially perpendicular to a bottom surface of the top cover plate. The flange extends outward from a bottom edge of the wall structure and around a perimeter of the wall structure and is sized to mate with a support flange of a weapon maintenance stand. The flange defines a first plurality of holes extending therethrough, where the first plurality of holes are arranged in a spaced-apart pattern around the flange that aligns with a subset of a second plurality of holes arranged around the support flange of the weapon maintenance stand. First and second lifting structures are attached to the top cover plate.

In one aspect the invention features a weapon maintenance stand cover. The cover has a top cover plate, a wall structure, and a flange. The wall structure extends away from an outer edge of the top cover plate in a direction substantially perpendicular to a bottom surface of the top cover plate. The flange extends outward from a bottom edge of the wall structure and around a perimeter of the wall structure and is sized to mate with a support flange of a weapon maintenance stand. The flange defines a first plurality of holes extending therethrough, where the first plurality of holes are arranged in a spaced-apart pattern around the flange that aligns with a subset of a second plurality of holes arranged around the support flange of the weapon maintenance stand. First and second lifting structures are attached to the top cover plate.

Apparatus and associated methods relate to a motor-less cartridge ring gear engagement module (CRGEM) for a turret-rotating system that includes a main drive gear configured to rotate in a rotation plane, a manual input shaft that extends substantially orthogonal relative to the rotation plane, and a drive shaft that extends substantially orthogonal relative to the rotation plane, where the drive shaft and the manual input shaft extend substantially parallel to one another. In an illustrative example, both the main drive gear and a hand crank may be located on a top surface of the CRGEM. In some embodiments, a manual drive cap may be hingedly coupled to the gearbox and configured to rotate in a vertical plane that is substantially orthogonal to the rotation plane. At least some examples may provide for a hand-operated, manual traverse unit that advantageously does not require electrical power to operate.

Apparatus and associated methods relate to a motor-less cartridge ring gear engagement module (CRGEM) for a turret-rotating system that includes a main drive gear configured to rotate in a rotation plane, a manual input shaft that extends substantially orthogonal relative to the rotation plane, and a drive shaft that extends substantially orthogonal relative to the rotation plane, where the drive shaft and the manual input shaft extend substantially parallel to one another. In an illustrative example, both the main drive gear and a hand crank may be located on a top surface of the CRGEM. In some embodiments, a manual drive cap may be hingedly coupled to the gearbox and configured to rotate in a vertical plane that is substantially orthogonal to the rotation plane. At least some examples may provide for a hand-operated, manual traverse unit that advantageously does not require electrical power to operate.

Apparatus and associated methods relate to a motor-less cartridge ring gear engagement module (CRGEM) for a turret-rotating system that includes a main drive gear configured to rotate in a rotation plane, a manual input shaft that extends substantially orthogonal relative to the rotation plane, and a drive shaft that extends substantially orthogonal relative to the rotation plane, where the drive shaft and the manual input shaft extend substantially parallel to one another. In an illustrative example, both the main drive gear and a hand crank may be located on a top surface of the CRGEM. In some embodiments, a manual drive cap may be hingedly coupled to the gearbox and configured to rotate in a vertical plane that is substantially orthogonal to the rotation plane. At least some examples may provide for a hand-operated, manual traverse unit that advantageously does not require electrical power to operate.

Apparatus and associated methods relate to a motor-less cartridge ring gear engagement module (CRGEM) for a turret-rotating system that includes a main drive gear configured to rotate in a rotation plane, a manual input shaft that extends substantially orthogonal relative to the rotation plane, and a drive shaft that extends substantially orthogonal relative to the rotation plane, where the drive shaft and the manual input shaft extend substantially parallel to one another. In an illustrative example, both the main drive gear and a hand crank may be located on a top surface of the CRGEM. In some embodiments, a manual drive cap may be hingedly coupled to the gearbox and configured to rotate in a vertical plane that is substantially orthogonal to the rotation plane. At least some examples may provide for a hand-operated, manual traverse unit that advantageously does not require electrical power to operate.

An ammunition supply system includes a weapon mounted on an exterior of a fighting vehicle; a magazine loading unit mounted on the exterior of the fighting vehicle and configured to load a magazine for the weapon; a hatch unit configured to form an entrance to allow a combatant to enter and exit the fighting vehicle; and a hatch lifting unit configured to supply power to the hatch unit to move in a vertical direction with respect to the fighting vehicle. The hatch unit includes: a hatch door unit through which the combatant enters and exits the fighting vehicle, and a hatch passage part forming a passage for connecting the hatch door unit and an interior of the fighting vehicle. The hatch passage part includes a first opening facing the magazine loading unit so that the magazine is transferred from the interior of the fighting vehicle to the magazine loading unit without the combatant being exposed to the exterior of the fighting vehicle.

An ammunition supply system includes a weapon mounted on an exterior of a fighting vehicle; a magazine loading unit mounted on the exterior of the fighting vehicle and configured to load a magazine for the weapon; a hatch unit configured to form an entrance to allow a combatant to enter and exit the fighting vehicle; and a hatch lifting unit configured to supply power to the hatch unit to move in a vertical direction with respect to the fighting vehicle. The hatch unit includes: a hatch door unit through which the combatant enters and exits the fighting vehicle, and a hatch passage part forming a passage for connecting the hatch door unit and an interior of the fighting vehicle. The hatch passage part includes a first opening facing the magazine loading unit so that the magazine is transferred from the interior of the fighting vehicle to the magazine loading unit without the combatant being exposed to the exterior of the fighting vehicle.

An ammunition supply system includes a weapon mounted on an exterior of a fighting vehicle; a magazine loading unit mounted on the exterior of the fighting vehicle and configured to load a magazine for the weapon; a hatch unit configured to form an entrance to allow a combatant to enter and exit the fighting vehicle; and a hatch lifting unit configured to supply power to the hatch unit to move in a vertical direction with respect to the fighting vehicle. The hatch unit includes: a hatch door unit through which the combatant enters and exits the fighting vehicle, and a hatch passage part forming a passage for connecting the hatch door unit and an interior of the fighting vehicle. The hatch passage part includes a first opening facing the magazine loading unit so that the magazine is transferred from the interior of the fighting vehicle to the magazine loading unit without the combatant being exposed to the exterior of the fighting vehicle.