An actuator-controlled strike comprising a housing disposable within a doorframe and including a chamber for receiving a spring latch and a dead latch of a mortise-type lockset. A keeper is pivotably mounted within the chamber to restrain the spring latch. A pivotable spring latch lifter is positively driven by the keeper, and a pivotable dead latch release platform is supported by the keeper when the spring latch is locked within the strike. The keeper is released by the actuator and then may be rotated which causes rotation of the dead latch release platform, allowing the dead latch to enter the chamber. The keeper positively drives the spring latch lifter to lift the spring latch onto the external ramp of the strike. In an alternate embodiment, an internal ramp feature may be used instead of the spring latch lifter to positively lift the spring latch out of the chamber.

A lock holder for a motor vehicle lock includes a locking bolt and a mounting plate, wherein the locking bolt can be fastened together with the mounting plate to a motor vehicle body, a cover cap, wherein at least the mounting plate can be covered at least in areas by the covering cap, and wherein the covering cap can be connected in such a way to the mounting plate that the cover cap forms at least in regions a surface area with the mounting plate.

The object of the invention is a seal (10) for an inlet opening (120) of a latch (100), in particular a motor vehicle latch, having at least a partially flexible sealing element (11) with at least an insertion slot (12), whereby a first seal wing (11.1) and a second seal wing (11.2) are formed on the sealing element (11), whereby a striker can at least be partially arranged in the inlet slot (11).

A safety device for a motor vehicle includes a bonnet with an open and closed position, a bonnet lock with a lock retainer and a rotary latch, and an electric drive which shifts the rotary latch from a main locking position into a preliminary locking position. The lock retainer has an actuator, wherein in a first position of the actuator and in the preliminary locking position of the rotary latch, the lock retainer engages with the rotary latch and the bonnet is locked, and in a second position of the actuator, the lock retainer is released by the rotary latch and the bonnet is unlocked. The bonnet is coupled to the actuator such that in the preliminary locking position of the rotary latch a displacement of the bonnet towards the closed position of the bonnet causes a displacement of the actuator from the first position into the second position.

Retainers for use within an astragal assembly as described. The astragal assembly has an astragal body with a major axis. The astragal assembly is for use in a double door entryway unit. The retainers include a retention portion configured to engage an entryway component and a mounting portion configured for placement onto the astragal body in a direction normal to the major axis. The retention portion is either a void for receiving at least one of a latch and a deadbolt, or the retention portion is a bolt pin configured to engage an entryway frame.

A preload mechanism for an actuator is disclosed that includes a rotating element configured to rotate about a pivot. The rotating element has a first contact point that is configured to couple to the actuator such that contraction of the actuator displaces the first contact point such that the rotating element rotates from a first position to a second position. The preload mechanism also includes a bias element with a first end that is coupled to a second contact point of the rotating element and a second end configured to be pinned relative to the pivot. The bias element has a line of action extending from the second end through the first end. The line of action has an offset distance that is the minimum distance between the line of action and the pivot. The offset distance has a first value when the rotating element is in the first position and a second value when the rotating element is the second position, the second value being smaller than the first value.

A vibration-reducing apparatus for an assembly comprising a first member including a latch and a second member including a striker may include a threaded post having arm members extending outwardly therefrom, the threaded post being rotatably advanceable in discrete increments in a threaded opening extending through the first member such that, in a closed position of the first and second members, a distal portion of the threaded post extending through the first member contacts the second member upon rotational advancement of the threaded post in the threaded opening; and a locking region arranged to interact with at least a portion of the arm members, the rotational advancement of the threaded post in the threaded opening and contact with the second member reducing an engagement distance between the latch and the striker with the first and second members in the closed position, and attenuating vibrations between the latch and the striker.

An actuator-controlled electric strike for operating in conjunction with a spring latch of a lockset is provided. The strike comprises a housing having an entry chamber therein, and a spring latch keeper disposed in the entry chamber for movement between a keeper locked position and a keeper unlocked position. The spring latch keeper includes a keeper face, a second surface recessed from the keeper face and a contact ridge between the keeper face and second surface. The keeper face is contactable by the spring latch when the spring latch keeper is in the keeper locked position. The contact ridge, disposed at a non-perpendicular angle with the rotational axis of the keeper is contactable by the spring latch as the keeper moves toward its unlocked position so that a contact point on said spring latch changes as said spring latch exits said entry chamber.

An electric strike assembly includes a housing formed with a recessed portion therein, a keeper assembly pivotably mounted in the recessed portion of the housing, a lock leg pivotably mounted in the recessed portion of the housing and configured to rotate independently of the rotation of the keeper assembly, a block assembly having a blocking element configured to engage and disengage the keeper assembly, and to control engagement and disengagement of the blocking element with the keeper assembly. A method of capturing and releasing a latch bolt mounted in a door includes mounting an electric strike assembly in an associated door jamb and controlling an actuator to rotate an, actuator paddle to engage a blocking element such that the blocking element is engaged or disengaged from a keeper assembly.

In a door striker attaching structure, a door striker includes a rod and a base plate, in which the base plate includes rod support portions to which the rod is connected, and a pair of fastening portions through which the base plate is fastened to a vehicle body of a utility vehicle. The vehicle body is provided with fastening holes to which the fastening portions are fastened, and each of the fastening holes is an elongated hole having two central portions. The door striker is symmetric with respect to a first center line that connects centers of the fastening portions, and by inverting the door striker along the first center line, a second center line that connects centers of the rod support portions is biased in a direction along the first center line by a distance equal to a central distance between the central portions of the fastening holes.