The present invention relates generally to mechatronic locks and more specifically, and preferably, wireless mechatronic smart lock systems for locking doors which can be operated by a mechanical tool after positive authentication of the user. In a first aspect, there is provided a mechatronic lock system arranged for actuating a door lock operating member for locking and unlocking a door upon activation of said system comprising: an outside lock interface, comprising means for receiving a mechanical tool, arranged for operating said door lock operating member by a user of said lock system upon receiving said mechanical tool; an inner assembly, comprising: a wireless communication unit, arranged for wireless communication with a wireless communication device for authorizing said user; a control unit, in communicative connection with said wireless communication unit and arranged to activate said system for unlocking said door by activating a mechatronic clutch arranged for coupling said outside lock interface to said door lock operating member; wherein said mechatronic clutch is activated upon positive authorization of said user for opening said door by operating said outside lock interface.

A locking device with a bolt movable between a locked position and an unlocked position. The locking device includes an electronic controller for selectively controlling movement of the bolt between the locked and unlocked position. At least two input devices are provided, such as a keypad, a biometric input, etc., which communicate an authentication code to the controller. The controller controls movement of the bolt based on a valid authentication code received from any of the at least two input devices.

Certain aspects of the technology disclosed herein include an apparatus and method for storing energy in a electromechanical lock. The electromechanical lock can include a main housing and a deadbolt. The main housing can be configured to extend a deadbolt along a path to lock and/or unlock a door. The deadbolt can have a hollow inner region configured to receive an energy storage device. The energy storage device within the deadbolt can be electrically connected to the main housing. The energy storage device can be used to power an actuator and/or accelerometer in the main housing.

A presence detection system includes a support layer operable to act as an underlying surface for supporting object(s), a sensor layer disposed beneath the support layer and operable to output readings indicating the presence of object(s) supported on the support layer and a controller for receiving the presence readings from the sensor layer and determining, based on the readings, an indicator of the occupancy status and/or an occupancy level of the support layer. The presence detection system can be used within an access gate system whereby the access gate is operated to a blocking position upon the presence detection system detecting more than one human supported on the support layer, this operation overriding a reading of an authenticated user token. The presence detection system can also be used within an elevator system wherein the elevator door subsystem and the elevator displacement subsystem are controlled based on an occupancy level detected by the detection system. Methods for detecting object are also contemplated.

A system is described for controlling an actuating unit that restricts physical access such as a motorized garage door actuator unit. The system comprises a mobile wireless communication device, an electro-mechanical access control security device, and a receiving unit controlling the electro-mechanical access control security device, the receiving unit paired with the mobile wireless communication device for receiving user input for activating the electro-mechanical access control security device via a peer-to-peer communication directly with the mobile wireless communication device, and a pre-authorization of communication of the receiving unit with the mobile wireless communication device, the mobile wireless communication device receiving the pre-authorization from a central security server.

An access manager determines whether access will be granted to a guarded species or space utilizing a controller including a digital processor with a memory for storing an ID library and a transducer block coupled with the processor for accessing a plurality of different ID types and an actuator block coupled with the processor for unblocking a normally locked portal to the guarded space.

The present invention relates to a door-lock device (100) for locking and unlocking a door of a household appliance, such as a washing machine, a dishwasher and the like, comprising a first (110) and a second (120) electrical connecting terminal, a closing switch (130) series connected to said first connecting terminal (110) or to said second connection terminal (120), and arranged to close when the door of said household appliance is closed, an actuator (140), connected to said first (110) and second (120) connecting terminals, comprising at least one coil (141, 142), suitable to generate a magnetic field capable of causing the locking and unlocking of said door, and a Hall sensor (151) connected between said first (110) and said second (120) terminal, arranged in parallel with said actuator (140), said Hall sensor (151) being arranged so as to detect said magnetic field of said actuator (140).

The invention provides a digital lock (100, 1001, 1002) including at least two magnets. One magnet is a semi hard magnet (310) and the other magnet is a hard magnet (320). The hard magnet (320) is configured to open or close the digital lock (100, 1001, 1002). The semi hard magnet (310) and the hard magnet (320) are placed adjacent to each other. A change in magnetisation polarisation of the semi hard magnet (310) is configured to push or pull the hard magnet (320) to open or close the digital lock (100, 1001, 1002).

Systems and methods of delivering an item to a mobile delivery receptacle are disclosed. A method of delivering an item to a mobile delivery receptacle can include receiving from a mobile delivery receptacle a location of the mobile delivery receptacle. Based on a cross-referencing credential, the method can include verifying the location of the mobile delivery receptacle. The method may include identifying a mobile delivery unit and determining a position of the mobile delivery unit. The method can include calculating a delivery route from the position of the mobile delivery unit to the mobile delivery receptacle and passing the location of the delivery resource and the delivery route to the mobile delivery unit.

Various disclosed embodiments include illustrative systems, structures, and methods for performing authenticated access to a structure. An illustrative system includes a connector configured to be operably connected to a personal electronics device and to receive an electric charge from the personal electronics device, a controller couplable to an electromechanical locking device and the connector, and a memory. The memory is configured to store computer-executable instructions configured to cause the controller to receive first authentication information, receive second authentication information from the personal electronics device, authenticate the personal electronics device responsive to the first authentication information and the received second authentication information, and activate an electromechanical locking device to unlock responsive to the electric charge and a successful authentication.