A lock for a door of the rebated type, comprises a containing box body, that is suitable for being housed in a cavity of the door, a latch that is movable between an extracted position and a retracted position in the box body and a driving device that is movable by means of a control handle, along an opening direction to move the latch from the extracted position to the retracted position. The driving device is movable, by a key-locking-member, along a locking direction opposite the opening direction, to reach a disengaged position in which the driving device is not engageable by the control handle so as to prevent driving of the latch. A bolt is provided that is movable, by means of the key-locking-member, from a non-operative position, in which it is retracted into the box body, to an operative position protruding outside the box body. The driving device comprises a locking arrangement shaped for locking the latch in the extracted position, preventing forced movement thereof from the outside to the retracted position, when the driving device is in the disengaged position in which is not engageable by the control handle.

A steering column switch for a vehicle includes a switching lever that operates by pivoting in relation to a housing. The lever has a locking pin which assumes a stable position on a switching gate when the lever is not operated and is guided into an unstable position by operation of the lever. The switching gate guides the pin back into the stable position when operation of the lever ceases. A permanent magnet on a body of the lever is brought against an electromagnet on the housing by pivoting the lever into the unstable position. The lever is held in the unstable position by magnetic attraction between the magnets for a time in which a function associated with the lever being actuated into the unstable position is active. Afterwards, the electromagnet produces a counter magnetic field which interrupts the magnetic attraction so that the lever returns to the stable position.

A latching mechanism selectively joins two surfaces and/or objects and includes a latch and a catch. The latch includes a pivoting locking member with respect to the latch that pivots between a locked position and an unlocked position. First and second electromagnetic coils housed within the latch are selectively energized to cause pivotal movement of the locking member. The catch defines at least one pocket for receiving a portion of the locking member when the locking member is in the locked position and the latch and the catch are engaged.

An actuator-controlled strike comprising a housing disposable within a doorframe and including a chamber for receiving a spring latch and a dead latch of a mortise-type lockset. A keeper is pivotably mounted within the chamber to restrain the spring latch. A pivotable spring latch lifter is positively driven by the keeper, and a pivotable dead latch release platform is supported by the keeper when the spring latch is locked within the strike. The keeper is released by the actuator and then may be rotated which causes rotation of the dead latch release platform, allowing the dead latch to enter the chamber. The keeper positively drives the spring latch lifter to lift the spring latch onto the external ramp of the strike. In an alternate embodiment, an internal ramp feature may be used instead of the spring latch lifter to positively lift the spring latch out of the chamber.

An electronic locking apparatus for an entryway, having a linkage coupled to an entryway frame case, and a solenoid associated with the case, the solenoid is configured to selectively engage with the linkage. The linkage is movable between a locked position blocking movement of a latch bolt from the latched position to the unlatched position and an unlocked position allowing movement of the bolt to the unlatched position.

A key box (1) has a housing (10) and a cooperating door (11) which, in combination, form a secured space (9) when the door (11) is closed, wherein the door (11) is locked by means of an electric locking system. The locking system comprises an electric locking mechanism (21), an electronic control unit (22) and a wireless communication unit (23). The electronic control unit (22) is configured to communicate wirelessly with a mobile unit (40) by means of the wireless communication unit (23). The electronic control unit (22) is configured to verify access rights relative to the mobile unit (40) and, if the access rights are authenticated, to cancel the locking effect of the locking mechanism (21). The control unit (22) and the wireless communication unit (23) are accommodated within the secured space (9).

An actuating assembly of a locking system (200) to operate a displaceable component of a latching system (210), includes: (i) a first member (24) which is connected or connectable to the displaceable component of the latching system (210); (ii) a second member (26), the first and second members (24, 26) being disconnectably connectable to each other, with the first and second members (24, 26) being in an inoperative configuration when they are disconnected from each other such that the second member (26) is displaceable independently of the first member (24), and the first and second members (24, 26) being in an operative configuration when they are connected to each other such that displacement of the second member (26) causes the first member (24) to be displaced; (iii) a first actuating sub-assembly (46) including a first key receiver (230) for receiving a non-mechanical first key in the form of a predetermined electromagnetic signal transmitted via a cellular telecommunications network from the communications facility (224) of a monitoring facility (227) to an electronic controller (228); (iv) a second actuating sub-assembly (52) which is operable by a second key (226), the second actuating sub-assembly (52) being operably connected to the second member (26) and being configured, when actuated by the second key (226), to cause the second member (26) to be displaced, thereby to cause the first member (24) to be displaced when the first and second members (24, 26) are in their operative configuration; and (v) a timer for determining the time from receipt of a first key by the first actuating sub-assembly (46), wherein the first actuating subassembly (46) is configured, upon: (i) receipt of the first key, to cause the first and second members (24, 26) to assume their operative configuration; and (ii) elapse of a preset time stored in a storage means (236) measured by the timer from receipt of a first key by the first actuating sub-assembly (46), to cause the first and second members (24, 26) to assume their inoperative configuration.

An actuator-controlled strike comprising a housing disposable within a doorframe and including a chamber for receiving a spring latch and a dead latch of a mortise-type lockset. A keeper is pivotably mounted within the chamber to restrain the spring latch. A pivotable spring latch lifter is positively driven by the keeper, and a pivotable dead latch release platform is supported by the keeper when the spring latch is locked within the strike. The keeper is released by the actuator and then may be rotated which causes rotation of the dead latch release platform, allowing the dead latch to enter the chamber. The keeper positively drives the spring latch lifter to lift the spring latch onto the external ramp of the strike. In an alternate embodiment, an internal ramp feature may be used instead of the spring latch lifter to positively lift the spring latch out of the chamber.

An actuating assembly of a locking system (200) to operate a displaceable component of a latching system (210), includes: (i) a first member (24) which is connected or connectable to the displaceable component of the latching system (210); (ii) a second member (26), the first and second members (24, 26) being disconnectably connectable to each other, with the first and second members (24, 26) being in an inoperative configuration when they are disconnected from each other such that the second member (26) is displaceable independently of the first member (24), and the first and second members (24, 26) being in an operative configuration when they are connected to each other such that displacement of the second member (26) causes the first member (24) to be displaced; (iii) a first actuating sub-assembly (46) including a first key receiver (230) for receiving a non-mechanical first key in the form of a predetermined electromagnetic signal transmitted via a cellular telecommunications network from the communications facility (224) of a monitoring facility (227) to an electronic controller (228); (iv) a second actuating sub-assembly (52) which is operable by a second key (226), the second actuating sub-assembly (52) being operably connected to the second member (26) and being configured, when actuated by the second key (226), to cause the second member (26) to be displaced, thereby to cause the first member (24) to be displaced when the first and second members (24, 26) are in their operative configuration; and (v) a timer for determining the time from receipt of a first key by the first actuating sub-assembly (46), wherein the first actuating subassembly (46) is configured, upon: (i) receipt of the first key, to cause the first and second members (24, 26) to assume their operative configuration; and (ii) elapse of a preset time stored in a storage means (236) measured by the timer from receipt of a first key by the first actuating sub-assembly (46), to cause the first and second members (24, 26) to assume their inoperative configuration.

A vertical door latch assembly includes a bolt that has a catch portion located adjacent a distal end of the bolt. A latch has a retention feature for engaging the catch portion of the bolt. An electro-mechanical locking assembly secures the latch between a locking position preventing movement of the bolt and a non-locking position allowing movement of the bolt. A controller is in electrical communication with the electro-mechanical locking assembly and is configured to direct the electro-mechanical locking assembly between the locking position and the non-locking position.