The electronic access control strike can have a bolt socket, a bolt path leading to bolt socket, a keeper movably mounted to a frame in a manner to be moveable into and out of interference with the bolt path, a cam member moveable for selectively blocking or unblocking the movement of the keeper, and an anti-preload member which is moveable into interference between the keeper and the cam member for preventing the keeper from conveying a preload force onto the cam member when the cam member is in the blocking position, and moveable out from interference between the keeper and the cam member when the cam member is in the unblocking position to allow the keeper to be moved out from interference with the bolt path.

A wirelessly-controlled jamb-mounted access control system can include an in-jamb housing, a lock body at least partially inside the housing and rotatable about a first axis between locked and unlocked positions. The first axis can extend parallel to the jamb, and the lock body can include inner and outer sidewalls that define a latch cavity configured to receive a latch tongue of a door. The wirelessly-controlled j amb-mounted access control system can further include an actuator configured to control release of the lock body from the locked position in response to a control signal.

Surface mount electric strikes according having a housing with an opening for a door latch bolt. First and second opposing latches are movably mounted to the housing and operable to open or block the lack bolt opening. First and second keepers can be in the housing each of which is arranged to cooperate with a respective one of the first and second opposing latches to block or not movement of its latch. A single actuating device is also in the housing and is controlled by an electrical signal. It is arranged to operate on the first and second keepers and is moveable in the housing between two positions. One or more mode control screws can be included that engages the actuating device through the housing and are movable between at least two screw positions. The movement of the screw causing movement of the actuating device between its device positions, wherein one of the positions results in operation of the strike in fail-safe mode, and the other of the positions results in operation of the strike in fail-secure mode.

An electric locking device for selectively locking and unlocking a door to a door frame is provided. The device comprises a housing and a keeper movably connected to the housing. The keeper includes a keeper shaft having an axis of rotation. The keeper is rotatable about the axis of rotation between first and second rotational positions, and movable between first and second directional positions relative to the lock housing. The movement between first and second directional positions is generally linear, and the axis of rotation is configured to move relative to the lock housing as the keeper moves between first and second directional positions. When the keeper is in the first rotational and directional positions, the door is secured to the door frame by the keeper. When the keeper is in the second rotational and directional positions, the door is allowed to move away from the door frame.

An electro-mechanical unlocking device that includes a locking state, a holding state and an unlocking state. The unlocking device includes an arming solenoid and a holding solenoid. In the locking state the arming solenoid moves an arming assembly, which moves a crank and which moves a holding armature from a second position to a first position. In the holding state the holding solenoid is energized and the arming solenoid is de-energizing, which allows the arming armature to moves from the first position to the second position. In the unlocking state the holding solenoid is de-energized, which allows the holding armature and the arming link to move from the first position to the second position. In the locking and holding states a sear blocks the path of the striker and in the unlocking state the sear does not block the path of the striker.

An electric strike system including a housing, a keeper, an actuator, and a plurality of ramp members. The keeper is pivotally mounted to the housing, and is pivotable about a longitudinal axis between a closed position and an open position. The actuator is operable to selectively retain the keeper in the closed position. Each ramp member is operable to be mounted to the housing and includes a corresponding and respective channel. The plurality of ramp members includes a first ramp member and a second ramp member. With the first ramp member mounted to the housing, the channel of the first ramp member has a first longitudinal position relative to the housing. With the second ramp member mounted to the housing, the channel of the second ramp member has a second longitudinal position relative to the housing. The second longitudinal position is different from the first longitudinal position.

An electric strike comprising a housing, keeper, actuator module, and actuator. The module comprises a keeper support bracket coupled with the actuator and configured to move between blocking and unblocking positions, and first and second keeper supports extending from opposite ends of the bracket. When the actuator is in a first position, the bracket is in the blocking position so that the first and second keeper supports are coupled to respective first and second ends of the keeper such that a load placed on the keeper when in a locked position is transferred through the keeper supports to a back housing wall. When the actuator is moved to a second position, the bracket is in the unblocking position so that the first and second keeper supports are decoupled with the respective first and second ends of the keeper to allow the keeper to rotate to an unlocked position.

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 shared storage cabinet and a lock thereof are disclosed. The shared storage cabinet includes a cabinet body and a lock installed on the cabinet body. The cabinet body is divided into a plurality of cells by means of a frame thereof. The cabinet lock includes a lock body, a locking piece and a locking and unlocking assembly. The lock body is laterally inserted into and fixed within the frame of the cabinet body. The locking and unlocking assembly is disposed within the lock body. One end of the locking piece is pivotally connected to one side of the lock body, while the other end of the locking piece rotates about the end thereof to achieve locking/unlocking in cooperation with the locking and unlocking assembly of another adjacent cabinet lock on the frame.

Various implementations of an electric strike are described that includes a casing housing that includes a power source, a lock mechanism, circuitry powered by the power source, the circuitry being configured to authenticate a user, and electro-mechanically actuate the lock mechanism, and a rotor coupled to the lock mechanism, the rotor being powered by the power source and configured to situate the lock mechanism based on a lock state of the electric strike.