An exemplary electric strike includes a housing and a keeper pivotally mounted in the housing. The strike also includes a plunger having an extended position and a retracted position, a cage including an aperture, and a locking element movably seated in the aperture. The locking element is engaged with the plunger, and the plunger is structured to urge the locking element radially outward as the plunger moves from an extended position toward a retracted position. The strike also includes a sleeve, a transmission engaged with the sleeve, and a motor drivingly coupled to the transmission. The sleeve is structured to selectively prevent radially outward movement of the locking element and retraction of the plunger. The strike also includes at least one of a lost motion connection and an anti-tamper mechanism.

A wireless electronic lockset comprising a processing unit, a locking bolt, a motor, a wireless communication tag, and a wireless interface is disclosed. The lockset is capable of connecting to a mobile device via a first communication protocol and/or a second communication protocol. The lockset sends a value to the mobile device via the first communication protocol and receives an actuation command via the second communication protocol if the mobile device has been verified by a server. The actuation command causes the lockset to lock or unlock the door.

An electromechanical locking system includes one or more moveable locking elements and one or more actuators configured to move each of the one or more moveable locking elements between positions. The system includes a receptacle configured to receive a key, a sensor, a processor; and a computer-readable storage medium. The processor causes the sensor to scan the key and detect one or more features of the key, identify a first code that corresponds to the detected features of the key, and apply one or more functions to the first code to yield a second code. The second code includes one or more characters that each character corresponds to one of the plurality of positions. The processor causes the one or more actuators to move the one or more movable locking elements to the positions that correspond to the one or more characters of the second code.

Described herein is a wireless electronic lockset comprising a processing unit, a locking bolt, a motor, a wireless communication tag, and a wireless interface. The lockset is capable of connecting to a mobile device via a first communication protocol and/or a second communication protocol. The lockset sends a value to the mobile device via the first communication protocol and receives an actuation command via the second communication protocol if the mobile device has been verified by a server. The actuation command causes the lockset to lock or unlock the door.

Provided are a lock and a storage cabinet. The storage cabinet includes a lock catch and the preceding lock. The lock is configured to be mated with the lock catch. The lock includes a housing, a lock hook, a locking member, and a drive assembly. The lock hook and the locking member are pivotally attached to the housing. The lock hook has a locking position where the lock hook is mated with the lock catch and an unlocking position where the lock hook is separated from the lock catch. The locking member has a first position for locking the lock hook at the locking position and a second position for unlocking the lock hook at the locking position. The drive assembly includes a motor and a driving member. The driving member is in transmission connection with the output shaft of the motor.

An electromechanical locking system includes one or more moveable locking elements and one or more actuators configured to move each of the one or more moveable locking elements between positions. The system includes a receptacle configured to receive a key, a sensor, a processor; and a computer-readable storage medium. The processor causes the sensor to scan the key and detect one or more features of the key, identify a first code that corresponds to the detected features of the key, and apply one or more functions to the first code to yield a second code. The second code includes one or more characters that each character corresponds to one of the plurality of positions. The processor causes the one or more actuators to move the one or more movable locking elements to the positions that correspond to the one or more characters of the second code.

A vertical door latch assembly includes a housing and a bolt movably attached to the housing having a catch portion. A drive motor is located within the housing and is configured to selectively move a lock assembly between a locked position preventing movement of the bolt and an unlocked position allowing movement of the bolt. A controller is in electrical communication with the drive motor and is configured to direct the actuator lock assembly between the locked position and the unlocked position. A force sensor is in electrical communication with the controller configured to measured when a force exceeds a predetermined threshold.

An exemplary electric strike includes a housing and a keeper pivotally mounted in the housing. The strike also includes a plunger having an extended position and a retracted position, a cage including an aperture, and a locking element movably seated in the aperture. The locking element is engaged with the plunger, and the plunger is structured to urge the locking element radially outward as the plunger moves from an extended position toward a retracted position. The strike also includes a sleeve, a transmission engaged with the sleeve, and a motor drivingly coupled to the transmission. The sleeve is structured to selectively prevent radially outward movement of the locking element and retraction of the plunger. The strike also includes at least one of a lost motion connection and an anti-tamper mechanism.

A lock system is described which includes a range monitoring system including a computer processor to monitor the proximity of the bin to a base station; a collection monitoring module including a computer processor to monitor when the bin is being collected. Also described is a computer-controlled method of inhibiting bin access to unauthorised persons, the method includes the steps of monitoring proximity of a bin to a base station with a range monitor having a computer processor to monitor the proximity of the bin; monitoring bin collection movement with a computer processor having a lift monitor, and unlocking a bin lock with a computer controller when the range monitor detects that the bin is proximal a base station and locking the bin lock when the range monitor detects that the bin is distal the base station.

Motorized actuators for pivoting fenestration units that include both lock and open/close actuation, are addressed. Such actuators, and associated fenestration systems and methods, may achieve a variety of potential advantages, including egress functionality, ease of operation, active position control, aesthetically pleasing features (e.g., minimal design impact), intuitive controls, and others.