A locking mechanism situated in an inner zone and comprising at least one component that is adjustable in a longitudinal direction and that is linked to a support by a link having a rod secured to the adjustable component. The link includes a guideway link, linking the rod and the support, and an adjustment system. The adjustment system comprises a pivoting control pivoting on itself and having a first end accessible from an outer zone, an intermediate piece configured to pivot on itself, an angle transmission converting a pivoting movement of the pivoting control into a pivoting movement of the intermediate piece, and a helical link converting a pivoting movement of the intermediate piece into a translational movement of the rod. The locking mechanism allows for adjustment from the outer zone. An aircraft comprising at least one such locking mechanism is also provided.

An actuator controlled electric strike for operating in conjunction with a latch of a lockset. The strike comprises a keeper support bracket movable between blocking and unblocking positions. When the bracket is in the blocking position a keeper is held in a locked position, and when the bracket is in the unblocking position the keeper is movable to the unlocked position. A motor is operatively connected to the bracket and is actionable in first and second directions to move the bracket between the blocking and unblocking positions. A biasing member comprises first and second springs that apply a net force to the bracket. The first spring applies a first force to the bracket in the first direction, and the second spring applies a second force to the bracket in the second direction. When the bracket is in the blocking position, the net force of the biasing member is approximately zero.

A deadbolt cushioning system includes: a deadbolt cushioning structure attached to a door frame so that when a door with a fully extended deadbolt closes from a wide open position toward a closed position the extended deadbolt impacts the deadbolt cushioning structure. The deadbolt cushioning structure for preventing the extended deadbolt from impacting the door frame and for preventing the extended deadbolt from impacting a strike plate attached to the door frame. The deadbolt cushioning structure may include at least first and second telescoping housings with a biasing structure (e.g., foam and/or spring) provided therebetween. When the deadbolt impacts the deadbolt cushioning structure the biasing structure compresses and the second housing slides relative to the first structure and moves toward the face of the door frame to which the first housing is affixed.

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 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.

A gate-latching assembly is configured for utilization with a gate assembly. The gate assembly includes a stationary gate post configured to be mounted to, and to extend from, a working surface once the stationary gate post is mounted to the working surface, and in which the gate assembly also includes a movable gate door configured to be movable relative to the stationary gate post. There is provided a combination for utilization with the gate assembly. The combination includes any one of (A) a striker base assembly and a striker member, (B) a latch base assembly and a latch assembly, and/or (C) a striker base assembly, a striker member, a latch base assembly and a latch assembly.

An actuator controlled electric strike for operating in conjunction with a latch of a lockset. The strike comprises a keeper support bracket movable between blocking and unblocking positions. When the bracket is in the blocking position a keeper is held in a locked position, and when the bracket is in the unblocking position the keeper is movable to the unlocked position. A motor is operatively connected to the bracket and is actionable in first and second directions to move the bracket between the blocking and unblocking positions. A biasing member comprises first and second springs that apply a net force to the bracket. The first spring applies a first force to the bracket in the first direction, and the second spring applies a second force to the bracket in the second direction. When the bracket is in the blocking position, the net force of the biasing member is approximately zero.

An actuator-controlled electric strike for operating in conjunction with a latch and deadbolt of a lockset. The strike comprises a housing, keeper, and deadbolt bracket. The housing includes a longitudinal length, a back wall extending along the longitudinal length, and side walls defining an entry chamber. The keeper is disposed in the entry chamber about an axis of rotation parallel with the back wall. The keeper is rotatable about the axis of rotation between locked and unlocked positions. The back wall is disposed opposite the keeper when the keeper is in the locked position. The deadbolt bracket is adjustably positioned in the entry chamber along the housing longitudinal length, wherein the deadbolt bracket includes a first wall, a second wall, and a bracket side wall connecting the first wall and the second wall. The deadbolt bracket defines at least a portion of a deadbolt receiving chamber for the deadbolt.

In embodiments, a closure holder for a closure, in particular a door closure, includes a base element and an undercut arranged on the base element, which can be engaged from behind by a locking element of the closure in order to form a lock, and having an actuating device for adjusting the distance of the undercut relative to the base element.

An actuator controlled electric strike for operating in conjunction with a latch of a lockset. The strike comprises a keeper support bracket movable between first and second positions. When the bracket is in the first position a keeper is held in either a locked or unlocked position, and when the bracket is in the second position the keeper is movable to the other position. An actuating mechanism is operatively connected to the bracket and is configured to allow the bracket to move between the first and second positions. First and second biasing mechanisms apply a net force to the bracket. The first biasing mechanism applies a first force to the bracket in the first direction, and the second biasing mechanism applies a second force to the bracket in the second direction. When the bracket is in the first position, the net force of the biasing member is approximately zero.