A device for securing a weapon with a safety, the device having a safety body adapted to contact a sear of the safety, and a movable actuating element between a first position and a second position; wherein The actuating element and the safety body are adapted to make the device configurable between at least: a firing state wherein the actuating element is in the first position, causing the sear to slide through the safety body; and a safe state wherein the actuating element is in the second position, causing the sear not to slide through the safety body. Also, a trigger mechanism housing and a weapon which include the device and, a method for securing a weapon by a safety of the weapon and a device for securing a weapon.

A device for securing a weapon with a safety, the device having a safety body adapted to contact a sear of the safety, and a movable actuating element between a first position and a second position; wherein The actuating element and the safety body are adapted to make the device configurable between at least: a firing state wherein the actuating element is in the first position, causing the sear to slide through the safety body; and a safe state wherein the actuating element is in the second position, causing the sear not to slide through the safety body. Also, a trigger mechanism housing and a weapon which include the device and, a method for securing a weapon by a safety of the weapon and a device for securing a weapon.

A remote weapon station (RWS) system for an unmanned ground vehicle (UGV) includes a dedicated weapon, multi-axis gimbal and ammunition handling capabilities with all operations functioning remotely and wirelessly. The RWS system is a gas powered, or self-powered, belt fed, rotating bolt lock weapon. In addition, the RWS is man-portable and air-droppable as the major subsystems may be latched together in the field without tooling or needing to make electrical connections.

A remote weapon station (RWS) system for an unmanned ground vehicle (UGV) includes a dedicated weapon, multi-axis gimbal and ammunition handling capabilities with all operations functioning remotely and wirelessly. The RWS system is a gas powered, or self-powered, belt fed, rotating bolt lock weapon. In addition, the RWS is man-portable and air-droppable as the major subsystems may be latched together in the field without tooling or needing to make electrical connections.

The present invention proposed a method to achieve the caseless ammunition firing with liquid propellant for automatic weapons. The weapons with this method were driven by a servo motor that led a slider (9) for linear reciprocating motion, and then the slider (9) drove a combustion chamber (3) and a rotary lock (4) to complete the projectile loading and the combustion chamber (3) locking. The combustion chamber (3) locking was done with the help of a fixed plunger (7).

A separated binary liquid gunpowder was used as a propellant. The constant liquid propellant injection pressure was maintained by a constant pressure regulator; and an electronic fire control unit (EFCU) precisely control two solenoid valves opening time in order to control the injection amount of the mixture. The gunpowder was injected through the nozzle on the plunger (7), and was ignited by an electronic igniter to launch the projectile.

The present invention proposed a method to achieve the caseless ammunition firing with liquid propellant for automatic weapons. The weapons with this method were driven by a servo motor that led a slider (9) for linear reciprocating motion, and then the slider (9) drove a combustion chamber (3) and a rotary lock (4) to complete the projectile loading and the combustion chamber (3) locking. The combustion chamber (3) locking was done with the help of a fixed plunger (7).

A separated binary liquid gunpowder was used as a propellant. The constant liquid propellant injection pressure was maintained by a constant pressure regulator; and an electronic fire control unit (EFCU) precisely control two solenoid valves opening time in order to control the injection amount of the mixture. The gunpowder was injected through the nozzle on the plunger (7), and was ignited by an electronic igniter to launch the projectile.

A weapon having a barrel cluster, having at least one, preferably multiple, weapon barrel(s) and having a bolt, and only one of the weapon barrels is oriented in alignment with the single bolt and interacts therewith for the purposes of firing. The barrel cluster has a front, muzzle-side barrel holder and has a rear, bolt-side barrel holder, and has, in a partial region, a control body with a control cam which is incorporated on the circumference. By way of said control cam, the barrel cluster can be adjusted as a whole and independently of the firing of the weapon. The control body is preferably electronically rotated, for which purpose a pin of the actuator engages into the control cam of the control body.

A weapon having a barrel cluster, having at least one, preferably multiple, weapon barrel(s) and having a bolt, and only one of the weapon barrels is oriented in alignment with the single bolt and interacts therewith for the purposes of firing. The barrel cluster has a front, muzzle-side barrel holder and has a rear, bolt-side barrel holder, and has, in a partial region, a control body with a control cam which is incorporated on the circumference. By way of said control cam, the barrel cluster can be adjusted as a whole and independently of the firing of the weapon. The control body is preferably electronically rotated, for which purpose a pin of the actuator engages into the control cam of the control body.

A device for securing a weapon with a safety, the device having a safety body adapted to contact a sear of the safety, and a movable actuating element between a first position and a second position. The actuating element and the safety body are adapted to make the device configurable between at least: a firing state wherein the actuating element is in the first position, causing the sear to slide through the safety body; and a safe state wherein the actuating element is in the second position, causing the sear not to slide through the safety body. Also, a trigger mechanism housing and a weapon which include the device and a method for securing a weapon by a safety of the weapon and a device for securing a weapon.

A device for securing a weapon with a safety, the device having a safety body adapted to contact a sear of the safety, and a movable actuating element between a first position and a second position. The actuating element and the safety body are adapted to make the device configurable between at least: a firing state wherein the actuating element is in the first position, causing the sear to slide through the safety body; and a safe state wherein the actuating element is in the second position, causing the sear not to slide through the safety body. Also, a trigger mechanism housing and a weapon which include the device and a method for securing a weapon by a safety of the weapon and a device for securing a weapon.