A device for a controlled locking or release of a safety-relevant, movable component (2), such as a protective door, protective cover of the like, with a movable blocking element (51) and with a self-locking drive unit (5, 17, 19, 21, 23, 27) controlling adjustment movements of the blocking element (51) between a locked position and a released position is characterized in that an actuator (33) is provided that can be moved by the drive unit (5, 17, 19, 21, 23, 27), said actuator being mechanically coupled to the blocking element for a transfer of the blocking element (51) into the released position brought about by the drive unit (5, 17, 19, 21, 23, 27) and being capable of decoupling for a transfer of the blocking element (51) into the released position brought about independently of the drive unit (5, 17, 19, 21, 23, 27).

An illustrative access control system includes a locking assembly operable in locked and unlocked states, and a drive assembly operable to actuate the locking assembly. The drive assembly includes an electromechanical actuator, and energy storage device, and a control system. The electromechanical actuator is operable, upon receiving power, to transition the locking assembly between the locked state and the unlocked state. The energy storage device is electrically coupled to the electromechanical actuator, and configured to store electrical power from the power supply when the drive assembly is coupled to the power supply. The control system is configured to couple the drive assembly to the power supply in response to a first condition, and to thereafter transmit energy only from the energy storage device to power the electromechanical actuator, based at least in part upon a level of energy stored in the energy storage device.

A door lock system includes a knob and an apparatus that controls transmission of displacement or rotational mechanical energy. A bolt is coupled to a door, an input rod and an output rod. At least one of an interior or exterior knob is coupled to the bolt and the apparatus that controls transmission of displacement or rotational mechanical energy. An energy source is coupled to the apparatus that controls transmission of displacement or rotational mechanical energy. The mobile device provides authorization to engage the apparatus that controls transmission of displacement or rotational mechanical energy and allows a door user to manually open the door.

A printer management system includes one or more printing devices having a printing area for printing according to a digital file, an access area through which a user may access the printing area, and a locking mechanism configured to lock the access area preventing access to the printing area. A management server is communicatively coupled to the one or more printing devices over a communication network and is configured to receive a print request from one or more user devices or one of the one or more printing devices to print the digital file, transmit the digital file to one of the one or more printing devices, and transmit commands to lock and unlock the locking mechanism of the one or more printing devices. In one embodiment the management system is configured to update a printing status of each of the one or more printing devices.

An assembly includes a frame and a linear actuator coupled thereto. A link, lever, spring (LLS) subassembly may be coupled to the frame and may include a short link, a long link, a lever, and a spring. A lockbolt subassembly may further be coupled to the frame. The lockbolt subassembly may comprise a latch, a bolt housing, and a lockbolt.

An electronic latch assembly includes a latch bolt movable between an extended position and a retracted position; and a motor having a rotatable output shaft arrangement that is either directly or indirectly connected to the latch bolt for moving the latch bolt between the extended and retracted positions and rotating the output shaft arrangement between a first angular position in which the latch bolt is capable of being translated to the retracted position and a second angular position in which the latch bolt is locked and not capable of being translated to the retracted position.

The invention relates to a concealed pivot hinge assembly [10] suitable for hingedly mounting a door [12] to a frame, particularly, although not exclusively, for connecting doors of storage, shipping and cargo containers, such as those which may be used on ships, rail lines and trucks, to a container in order to protect against theft. The concealed pivot hinge assembly [10] is characterised therein that it comprises a continuous, elongate hinge extending between and pivotably secured at two opposing ends thereof to the frame such that the hinge assembly [10] also constitutes a door post about which the door [12] is swiveled. The hinge assembly [10] comprises an internal axle shaft [18] which is secured at two opposing ends thereof to the frame; and an external load-bearing shaft [20] which extends coaxially with the internal shaft [18] and is pivotally secured at two opposing ends thereof to the frame such that the external shaft [20] is pivotable relative to the internal shaft [18], the arrangement being such that the door [12] is secured to the external shaft [20] so that pivoting of the external shaft [20] swivels the door [12] between a closed and an open position. The invention extends to a door [12] and a container [44] including such a concealed hinge assembly [10]. The invention also includes a remotely operable locking mechanism [56] for use in connection with such doors [12].

The present invention provides an improved electric lock that allows for electrically controlled retraction of latch bolt to allow for opening of the door in which the lock is installed. The components that allow for retraction are primarily internal to the lock and have means for conducting electrical signals to the lock to allow for remote control of the latch retraction. In some embodiments, the locks comprise an electrically controllable actuator and at least one retraction lever configured to retract the latch bolt against an applied bias. In other embodiments, the actuator can be housed within a separate housing can be configured to retract the latch bolt directly without using a retraction lever.

A cabinet lock for protecting merchandise within a merchandise display cabinet having an inner door and an outer door. The cabinet lock includes a strike plate affixed to the inner door and a lock housing affixed to the outer door such that the cabinet is in a locked configuration that prevents access to the merchandise when the lock housing is operably engaged to the strike plate. A programmable electronic key communicates a security code with the cabinet lock and transfers electrical power to the cabinet lock to operate a lock mechanism between the locked configuration and an unlocked configuration. An indicator is provided for indicating whether the cabinet lock is in the locked configuration or the unlocked configuration. The indicator includes a first segment and a second segment that can be energized to visually indicate the status of the cabinet lock.

The invention relates to an electronic lock that defines an open position and a closed position and includes a mobile carriage moveable in a linear manner. The mobile carriage is coupled to a closure element and to an actuation mechanism. A first spring is provided between the mobile carriage and the closure element and is configured to move in relation to the mobile carriage. A lock sensor is provided for controlling the position of the closure element. An electronic control module is connected to the sensor for identifying non-authorised manipulations of the lock when it should be closed. The lock sensor detects when the closure element is in the open position or, if it should be open, the lock sensor does not detect when the closure element is in the open position.