A rotation detection system for detecting the rotation of a lock dial includes a magnet coupled to the lock dial to generate a changing magnetic field in response to rotation of the lock dial, a sensor disposed near enough to the magnet to detect the magnetic field and provide a sensor output signal indicative of the magnetic field, and a controller coupled to the sensor for receiving the sensor output signal, the controller providing a controller output signal in response to a change in the sensor output signal. An alarm interface can receive the controller output signal and provide an alarm signal.

An electronic door lock includes a dead bolt moved by a deadbolt transmitting assembly, a spring-loaded latch bolt moved by a latchbolt transmitting assembly, a lock core rotated by a core transmitting assembly, and a spring-loaded prying resisting member. A monitoring unit includes sensors respectively corresponsive to those assemblies and the prying resisting member, and a security controller which performs a security procedure in accordance with position of those assemblies and the prying resisting member sensed by the sensors.

An electronic door lock includes a dead bolt moved by a deadbolt transmitting assembly, a spring-loaded latch bolt moved by a latchbolt transmitting assembly, a lock core rotated by a core transmitting assembly, and a spring-loaded prying resisting member. A monitoring unit includes sensors respectively corresponsive to those assemblies and the prying resisting member, and a security controller which performs a security procedure in accordance with position of those assemblies and the prying resisting member sensed by the sensors.

A lock apparatus including a cylinder lock and an actuation member configured to operate the cylinder lock via rotation of the actuation member with respect to a part of the cylinder lock, wherein: the cylinder lock includes a magnet, and the actuation member includes a smart actuation member circuit, the smart actuation member circuit including: one or more sensors (including one or more magnetic field sensors) configured to sense an action of the smart actuation member circuit with respect to the cylinder lock; and a processor or controller configured to receive information indicative of the sensed action from the or each sensor for use in determining a status of the cylinder lock. Furthermore, smart actuation member circuit, cylinder lock and method of fitting such a cylinder lock are claimed.

An installation-free rechargeable access control system is disclosed which automates the action of locking and unlocking a single-cylinder deadbolt on a door. In various embodiments, the present teachings provide a portable electronic module that can enhance the usage of deadbolts in place, instead of replacing the deadbolt mechanism itself. In various embodiments, the access control system can authenticate users and rotate a deadbolt using one or more peripheral sensing sources and wireless protocols.

A lock monitoring device (10, 70, 80) comprises a sensor (101) configured to sense a rotation degree of a lock with respect to a predefined direction, a controller (103) configured to determine the status of the lock based on the sensed rotation degree from the sensor (101), and a communication module (105) configured to communicate with an external device. The controller (103) is further configured to, upon detecting a change in the status of the lock, control the communication module (105) to transmit the status of the lock to the external device. And a method and system for monitoring a lock are also provided.

A lock including a lock cylinder, at least one sensing module and a processing unit is provided. The lock cylinder is adapted for allowing a unlocking unit to insert therein along an inserting direction. The at least one sensing module detects a movement of the lock cylinder. The processing unit electrically connected to the at least one sensing module. The sensing module generates a sensing signal to the processing unit according to the movement of the lock cylinder.

A rotation detection system for detecting the rotation of a lock dial includes a magnet coupled to the lock dial to generate a changing magnetic field in response to rotation of the lock dial, a sensor disposed near enough to the magnet to detect the magnetic field and provide a sensor output signal indicative of the magnetic field, and a controller coupled to the sensor for receiving the sensor output signal, the controller providing a controller output signal in response to a change in the sensor output signal. An alarm interface can receive the controller output signal and provide an alarm signal.

An installation-free rechargeable access control system is disclosed which automates the action of locking and unlocking a single-cylinder deadbolt on a door. In various embodiments, the present teachings provide a portable electronic module that can enhance the usage of deadbolts in place, instead of replacing the deadbolt mechanism itself. In various embodiments, the access control system can authenticate users and rotate a deadbolt using one or more peripheral sensing sources and wireless protocols.