Abstract: The present device is an electronically controlled safety system for use in firearms, comprising a shape memory actuator configured to connect a mechanical locking interface to a trigger mechanism interface comprising a point of connection to a firearm's trigger mechanism. This shape memory actuator can be controlled by use of an authentication system comprised of an RFID module and a control module. The user of the firearm can provide authorization to place the firearm in the armed position by placing an RFID tag having an activation code near the RFID module, which can then activate the shape memory actuator through the control module. When the mechanical locking interface is connected to the trigger mechanism interface a firearm's trigger mechanism is locked in place and the firearm is in a safe position and when the mechanical locking interface is not connected to the trigger mechanism is in an armed position.
Abstract: The present device is an electronically controlled safety system for use in firearms comprising a shape memory actuator configured to connect a mechanical locking interface to a trigger mechanism interface comprising a point of connection to a firearm's trigger mechanism. This shape memory actuator can be controlled by use of an authentication system comprising an RFID module and a control module. The user of the firearm can provide authorization to place the firearm in the armed position by placing an RFID tag having a certain activation code near the RFID module, which can then activate the shape memory actuator through the control module. When the mechanical locking interface is connected to the trigger mechanism interface a firearm's trigger mechanism is locked in place and the firearm is in a safe position and when it is not connected to the trigger mechanism it is in an armed position.