A vehicle latch is provided. The vehicle latch having: an inertia lever rotationally mounted to the latch for movement about an axis between a first position and a second position; and a lock link operatively coupled to the inertia lever such that movement of the inertia lever from the first position to the second position causes the lock link to move from a first position to a second position, wherein the latch is in a locked state when the lock link is in the second position.

A dual sided opening roof mount cargo box for a carrying vehicle includes a lid portion releasably hinge-connected at two lateral sides to a bottom portion of the cargo box for alternate pivotation at each of the two lateral sides between open and closed configurations. A spring-biased strut is operatively interposed between the lid portion and the bottom portion of the cargo box and located at an end region of the cargo box. The spring-biased strut includes two arms operatively interconnected for pivotation relative to one another and a biasing spring operatively interposed therebetween. The spring-biased strut is configured to control an assisting force to have a substantially zero magnitude when the lid portion is in the closed configuration.

A panel closure apparatus has a panel (14) for closing against a strike jamb (12). A locking element (100) is displaceable between a released position and a locked position in which contact surfaces (102, 104) of the locking element and the panel prevent opening of the panel, and are configured so that force applied to open the panel does not generate a force to disengage the locking element. Locking element (100) has an input surface (108) deployed so as to be displaced by an actuating surface (110) of panel (14) during a closing motion of the panel from the open position to the closed position. Input surface (108) moves as a unit with locking element (100) so that displacement of the input surface by the closing motion of the panel displaces the locking element towards the locked position.

A latch assembly includes a frame and a pawl including a surface for receiving a striker and being movably coupled to the frame between an open and a closed position. A trigger is mounted to the frame and is movable between a locked position and an unlocked position, wherein, in the locked position of the trigger, the trigger is positioned to retain the pawl in the closed position. A striker bar is movably coupled to the trigger and is positioned to be contacted by the striker, wherein the striker bar is configured to move in the course of moving the striker into the pawl. A device for sensing a position of the striker bar, wherein the position of the striker bar is indicative of the position of the striker and the position of the trigger.

The present invention relates to the field of locks and relates to a latchbolt mechanisms, comprising a rotatable latchbolt (16) and an elastic element (17), wherein the rotatable latchbolt (16) is fixedly mounted on a rotatable pin shaft, round which the rotatable latchbolt rotates, and wherein the elastic element (17) holds the rotatable latchbolt (16) in an extended state. Furthermore, the present invention relates to a latchbolt accommodating mechanism, comprising an accommodating chamber (b1) and a cover plate (b2), wherein a chamber opening of the accommodating chamber is covered by the cover plate, and wherein a first through hole (b21) and a second through hole (b22) are mounted on the cover plate, wherein the stop block (162) is inserted rotatably into the first through hole (b21) and the rotatable latchbolt (16) is inserted rotatably into the second through hole (b22). Therefore, a rotational unlocking and locking is enabled and is suitable not only for hinged doors, but also for sliding doors. By a rotary movement, actions of door opening and closing are avoided in a usual case.

A latch assembly includes a rose, a handle rotatably coupled to the rose and rotatable around a rotation axis, and a latch. A biasing member is disposed within the rose and engaged with the latch. The biasing member being selectively connectable to the rose. When the biasing member is connected to the rose, the latch is pivotable around the rotation axis between a latched position and an unlatched position via the handle. The latch biased towards the latched position. When the biasing member is disconnected from the rose, the handle and the latch are rotatable together around the rotation axis between at least a left-handed configuration and a right-handed configuration. The biasing member connecting to the rose to secure the handle and the latch in either the left-handed configuration or the right-handed configuration.

A lockable enclosure includes a housing, a locking mechanism, and an access door assembled with the housing and movable between a closed position and an open position. When the access door is in the closed position, at least one latch member is movable between an interlocking position in interlocking engagement with a staple portion at a location spaced apart from adjoining perimeter edges of the housing and the access door, and a releasing position disengaged from the staple portion to permit movement of the access door from the closed position to the open position. The locking mechanism is operable between a locking condition in which the at least one latch member is secured in the interlocking position, and an unlocked condition in which the at least one latch member is movable to the releasing position.

A battery pack assembly includes, among other things, a tray and a lid. The lid is secured to the tray to provide an enclosure having an interior. At least one battery module is disposed within the interior. A cross-member is disposed within the interior adjacent to at least one battery module. A touch latch secures the tray or the lid to the cross-member.