The locking system is provided for controlling the unlocking of a door by an electronic key. The locking system has a first pack configured to be received within a first recessed area of the door, the first pack having an actuator configured and adapted to move a bolt slidingly housed in the lock pack; a second pack configured to be received within a second recessed area of the door; a reader interface adapted to receive an input from the electronic key and a controller adapted to receive the input from the reader interface, authenticate the input, and control the actuator based on the authentication.

A high security electromechanical lock has a lock assembly configured to extend or retract a locking member. The lock assembly includes a first microcontroller communicatively coupled to an electronic storage memory. An electronic key input assembly is electrically and mechanically coupled to the lock assembly. The electronic key input assembly includes an electronic dial ring base having a base plate and a communications hub circuit. The base plate has a side wall. The communications hub circuit has a plurality of communications ports arranged around a periphery of the base plate that are accessible through the side wall. Each of the plurality of communications ports is configured to communicate with a respective peripheral electronic device of a plurality of peripheral electronic devices. The base plate is configured to mechanically removably mount each of the plurality of peripheral electronic devices around the periphery of the side wall of the base plate.

An exemplary lockset is configured for installation in a standard door preparation, and includes an exterior assembly, an interior assembly, and a center assembly connecting the exterior and interior assemblies. The exterior assembly includes an exterior escutcheon which houses a credential reader assembly including a multi-tech credential reader. The interior assembly includes an interior escutcheon which houses a control system. The center assembly includes a chassis, an outer surface of which may define a channel. The credential reader assembly is in communication with the control assembly via a wire harness, a portion of which may pass through the channel.

The locking system is provided for controlling the unlocking of a door by an electronic key. The locking system has a first pack configured to be received within a first recessed area of the door, the first pack having an actuator configured and adapted to move a bolt slidingly housed in the lock pack; a second pack configured to be received within a second recessed area of the door; a reader interface adapted to receive an input from the electronic key and a controller adapted to receive the input from the reader interface, authenticate the input, and control the actuator based on the authentication.

An electronic lock includes a latch assembly that has a latch housing and a bolt. The bolt is movable between an extended position and a retracted position. The electronic lock includes a controller connected to a circuit board. The controller is configured to electronically control movement of the bolt between the extended position and the retracted position. The electronic lock includes an exposed conductive touch member. The conductive touch member is in electrical communication with the controller. The electronic lock includes an insulating arrangement positioned between the conductive touch member and the circuit board. The electronic lock includes a housing at least partially surrounding the conductive touch member. The housing is electrically isolated from the conductive touch member by at least a portion of the insulating arrangement.

An intelligent door lock system is provided with a push notification. A sensor is configured to be coupled to a drive shaft of a lock. The position sensing device senses position of the drive shaft to assist in locking and unlocking a lock of a lock. An engine with a memory is coupled to the positioning sensing device. The engine and an energy source are coupled to the circuit. A push notification is provided to a dwelling user when a lock of the intelligent door lock system is manually opened.

A lockout system includes a hasp assembly and a plurality of tags. The hasp assembly has a back plate defining slots each sized and shaped to receive a tag. The back plate and tags each have openings that align when a tag is received in a slot. A first hasp portion on the back plate defines part of a closed loop. A longitudinal locking bar is slidable along the back plate and has notches shaped to receive ends of the tags. Moving the locking bar between an unlocked position and a locked position operates the second hasp portion between an open position and a closed position. In the closed position, the first and second hasp portions complete and define the closed loop, where one or more tags can be installed in slots with the first end of the tag engaging a notch to lock closed the hasp portion.

An electronic lock assembly includes a latch assembly with a bolt along a first axis and a drive shaft extending along a second axis. The drive shaft selectively rotatable around the second axis to drive the movement of the bolt. A first assembly includes a wiring harness having a first connector extending therefrom. A second assembly is coupled to the drive shaft and includes a second connector configured to receive the first connector. The second assembly includes a housing having a surface configured to face a door when the housing is mounted to the door and a recess is defined within the surface. A connector holder clip is pivotably supporting the second connector and disposed at least partially within the recess. The second connector being movable between at least a first position whereby the second connector is parallel to the second axis and a different second position.

The current document is directed to an improved, remotely controlled, internally powered electronic padlock with enhanced security features that, when mechanically compromised, automatically generate alarms. The improved padlock can be opened via a key card placed in proximity to the improved padlock and can additionally be opened in response to receiving a command from a remote controller via network communications. A remote controller can configure the improved padlock, update the configuration of the improved padlock, unlock the improved padlock, and query the state of the improved padlock. A rotating switch, in combination with a translating latch plate and control logic implemented by stored microprocessor instructions and a microprocessor, detects various types of mechanical compromise and initiates generation of an audible alarm.

An intelligent door lock system is provided with a push notification. A sensor is configured to be coupled to a drive shaft of a lock. The position sensing device senses position of the drive shaft to assist in locking and unlocking a lock of a lock. An engine with a memory is coupled to the positioning sensing device. The engine and an energy source are coupled to the circuit. A push notification is provided to a dwelling user when a lock of the intelligent door lock system is manually opened.