An electric door lock uses an interface to receive a credential to disengage a door lock. The interface is disposed on the user-graspable handle. The interface may comprise a sensor that receives a credential, such as an alphanumeric or symbolic code, a biometric input, or any appropriate combination of inputs. After a credential is entered, a gesture may be input to the interface to indicate that the credential is complete and prompt a controller to disengage the lock device. A gesture may comprise a motion or series or motions. The electric door lock also provides a control system that can be networked to allow remote entry of a credential. The control system can also control a plurality of door handles through a single door, or provide controls through remote devices.

A latch and lock assembly includes a lever pivotable between a latched and unlatched position. A first actuator selectively moves a locking tab between a locked and unlocked position. In the locked position, the locking tab blocks pivotable movement of the lever from the latched position to the unlatched position. In the unlocked position, the locking tab allows pivotable movement of the lever from the latched position to the unlatched position. A second actuator selectively rotates a door opening tab between a first and second position when the locking tab is in the unlocked position is included. When the door opening tab is in the first position the lever is in a latched position, and when the door opening tab is rotated from the first position to the second position, the door opening tab abuts the lever and urges the lever from the latched position to the unlatched position.

One embodiment relates to an exit device assembly. The exit device assembly includes a center case, a push pad movably mounted on the center case, and a mechanical case coupled to the center case, wherein the exit device includes an opening. The assembly also includes a sensor aligned with the opening, wherein the sensor is structured to detect a user from a distance through the opening and to generate an output signal in response to detecting the user. The assembly also includes a latch and a latch actuator. The assembly also includes a controller in communication with the sensor and the latch actuator, wherein the controller is structured to transmit an actuating signal in response to receiving the output signal from the sensor, wherein the latch actuator is configured to move the latch from the locked position to the unlocked position in response to the actuating signal.

The present disclosure discloses a door lock, a door lock controlling method and a door lock controlling device. The door lock includes a main controlling module, an unlocking module and a sensing module. The sensing module is configured to determine whether a human body is present within a first preset detection range; if yes, the main controlling module and the unlocking module are controlled to be powered on; and if no, the main controlling module and the unlocking module are controlled to be powered off. In the present disclosure, only the sensing module is in an operating state and other modules are not powered on when there is no user who is trying to open the door. Therefore, the power consumption of the door lock is reduced.

A latching system and method are configured to selectively latch and unlatch a first component in relation to a second component. The latching system and method include an actuator, a first coupler secured to the actuator, a latch, and a second coupler secured to the latch. The first coupler is configured to couple to the second coupler to couple the actuator to the latch. The first coupler is configured to uncouple from the second coupler to uncouple the actuator from the latch in response to the latch being manually operated.

An electric door lock uses an interface to receive a credential to disengage a door lock. The interface is disposed on the user-graspable handle. The interface may comprise a sensor that receives a credential, such as an alphanumeric or symbolic code, a biometric input, or any appropriate combination of inputs. After a credential is entered, a gesture may be input to the interface to indicate that the credential is complete and prompt a controller to disengage the lock device. A gesture may comprise a motion or series or motions. The electric door lock also provides a control system that can be networked to allow remote entry of a credential. The control system can also control a plurality of door handles through a single door, or provide controls through remote devices.

An automated door-opening device is disclosed that includes a first sensor disposed on the outside of the door. The first sensor is adapted to recognize a predetermined pattern of a gesture made by a patron. The gesture made in front of the first sensor opens the door by a first actuator. A second actuator can be used to lock or unlock the door, thereby providing full hand-free operation of the door. A hinge system is disclosed that includes three off-set hinges adapted to utilize the weight of the door to cause the door to self position and allow manual operation of the door.

A lock and a method and a system for controlling the lock are provided. The lock includes an operation part, an action part, and a bolt. The action part is configured to drive the bolt to move. The operation part and the action part are connected to each other via a transmission connection. The transmission connection is blockable.

A ram lock assembly of the present application is configured to serve as an intelligent and practical approach to locking and securing a door remotely or manually. The mechanism consists of a bolt that is translatable into and out of a sheath located within a stable surface. The bolt is actuatable via a control box and a drive motor so as to locate the bolt between extended and retracted orientations. The mechanism can be retrofitted to an existing door or installed as part of new construction. A remote electronic device may be included to regulate operation of the bolt.

A gesture-activated hood release system for a motor vehicle is provided. That system incorporates a gesture sensor, a first actuator and a second actuator. Further, the system includes a controller that is responsive to the gesture sensor to activate the first actuator and open a primary hood latch and then, after a predetermined time delay, activate the second actuator and open the secondary hood latch.