A vehicle interior component configured to be actuated by an inertia force is disclosed. The component may comprise a cover moveable relative to a base between closed and open positions and a latch mechanism to provide a latched state for the cover when actuated by the inertia force and to hold the cover in an unlatched state. The latch mechanism may be configured to change state of the cover from the unlatched state to the latched state when actuated by the inertia force. The cover may comprise the latch mechanism. The latch mechanism may extend from the cover in the latched state. The latch mechanism may form a generally continuous surface with a wall of the cover when unlatched. The latch mechanism may comprise a spring to hold the cover in the unlatched state. The component may comprise at least one of a console; center console; floor console; an armrest.

Disclosed herein is a wrap-around gate latch assembly comprising a base frame formed by connecting together a front frame, a central frame, and a back frame. The base frame can be wrapped around a gate post for installation without drilling through the gate post. A moving plate is provided to communicate between a front part and a back part that are mounted on the base frame. A movable hook is provided in the front part, that engages or disengages with a striker bar in a latched or an unlatched position respectively. A first push button provided on the front part, is operated to disengage the hook from the striker bar for opening the latched gate. A second push button provided on the back part, is operated to push a single moving plate towards the front part thereby triggering the movable hook to release the striker bar.

Systems and methods for operating an aircraft door including an airstair are disclosed. In one embodiment, the system includes a hinge configured to pivotally couple a lower portion of the door to a fuselage of an aircraft, a lift mechanism and an interlock. The lift mechanism causes a movement of the door relative to the hinge between a lowered position and a lifted position. The interlock is configurable between: a locked configuration where the movement of the door relative to the hinge is prevented; and an unlocked configuration where the movement of the door relative to the hinge is permitted.

In an example, a system is described. The system includes a guardrail having a post, and the post having a post dog. The system also includes a latch eye configured to be coupled to a flip door. The system also comprises a safety latch mechanism configured to be coupled to a fixed structure and including a body, a socket configured to receive the post, and a door latch rotatably coupled to the body and biased in a latched position that is configured to engage with the latch eye and thereby retain the flip door in a lowered position. Based on the post being inserted into the socket of the safety latch mechanism, the post dog engages with and rotates the door latch from the latched position to an unlatched position, thereby allowing the flip door to be raised from the lowered position to a raised position.

A lock for holding a first part to a second part comprises a holding body with a receptacle for receiving a protruding part of the second part. The holding body has a wall that borders the receptacle and a locking element, the locking element having a protrusion, whereby the locking element has a first position, whereby in the first position the protrusion is in a locking position, whereby in the locking position the protrusion protrudes from the wall into the receptacle by a first amount and the locking element has a second position, whereby in the second position the protrusion is in a release position, whereby in the release position the protrusion either protrudes from the wall into the receptacle by a second amount, whereby the second amount is smaller than the first amount, or the protrusion does not protrude from the wall.

A process and apparatus for providing a cabinet security system is disclosed. The system includes a magnetic lock to be mounted on a movable cabinet panel and a catch that is mounted on a cabinet frame and configured to engage the magnetic lock to hold the cabinet panel in a closed position relative to the cabinet frame.

A latch for releasably locking a first object to a second object is disclosed. The latch includes: a housing, fixed to the first object; a locking member, accommodated in the housing and pivotable between a locked position and an unlocked position in respect to the housing along a lateral axis, when the locking member is located in the locked position, its locking portions are capable of extending from the housing, and when the locking member is in the unlocked position, its locking portions retract into the housing; an operating member, at least partially accommodated in the housing, the operating member is capable of performing a longitudinal movement between a first position and a second position in respect to the housing, and a direction of the longitudinal movement is substantially perpendicular to the lateral axis; wherein the operating member is coupled with the locking member, such that a movement of the operating member is capable of being converted into a pivoting movement of the locking member, when the operating member moves longitudinally forward from the first position to the second position, the locking member is pivoted from the locked position to the unlocked position. A locking structure is also disclosed.

A remote safety release comprises an actuator (13) adapted to move between a inoperative position wherein it does not interact with the locking mechanism of a switch and at least one operative position wherein it interacts with the locking mechanism, a remote control device (14) adapted to promote the movement of the actuator from the inoperative position to an operative position, a transfer mechanism (15) adapted to transfer a force from the remote control device (14) to the actuator (13) following the command given by the operator to promote the movement of the actuator (13) and adapted to exert a first solicitation on the actuator (13) to promote its automatic passage from the inoperative position to an operative position, while the remote control device (14) constantly exerts on the actuator (13) a second contrast solicitation opposite to the first solicitation and having at least equal value.

A method of allowing access to a receptacle for securing a package includes: sensing an opening and closing of the lid; activating, in response to determining the lid is sufficiently closed, the lock mechanism to transition from the unlocked state to the locked state; scanning an email message in a user's email account to identify a reference or tracking number of a second package; parsing the email message to obtain a delivery code; receiving entry of the delivery code; activating the lock mechanism based on entry of the delivery code to transition from the locked state to the unlocked state; sensing a second opening and closing of the lid; activating the lock mechanism to transition from the unlocked state to the locked state; receiving information corresponding to entry of an access code; activating the lock mechanism to transition from the locked state to the unlocked state.

A fence system with a gate assembly mounted in a gap between first and second fence portions of the fence system. A hinge may be used to mount the gate assembly, where the hinge has a clamp fixed to a support with substantially the same cross-section, and the support is fixed to a first member of the hinge. A second member of the hinge can be mounted to the gate assembly with the first and second members being rotatably fixed together, thereby allowing rotation of the gate assembly between open, closed, and various other positions. A latch actuator can selectively secure and release a latch retainer thereby selectively allowing the gate to rotate to the various positions. A handle can be positioned proximate the latch actuator to allow gripping of the handle and manipulating the actuator with one hand, thereby releasing the retainer.