A container is disclosed that has a housing and a lid. The lid has a planar portion and a latch that is freely movable parallel to the planar portion of the lid. The latch has a retention feature and a first reference surface that is perpendicular to the planar portion of the lid. There is a latch mechanism coupled to the housing that has an engagement element configured to engage the retention feature of the latch and a first alignment feature having a first alignment surface. The first alignment feature is configured to laterally displace the latch in a first direction such that the first reference surface aligns with the first alignment surface when the lid is brought together with the housing with the fastener laterally displaced away from the engagement element in a second direction that is opposite to the first direction.

An apparatus includes a panel, a removable window and a latch assembly for securing the removable window to the panel. In one embodiment, a removable roof assembly for a motor vehicle includes a removable roof panel, a releasable locking feature that secures the removable roof panel to the motor vehicle, a removable window and a latch assembly. The latch assembly secures the removable window to the removable roof panel. The latch assembly includes a push button actuator to release the latch assembly and remove the removable window from the removable roof panel.

A gravity gate latch that is sized and configured to be positioned in the gap between the free end of a gate and a stationary object when the end of the gate is adjacent the stationary object to automatically engage a strike member on the gate. The gate latch has a pair of side plates that are spaced apart to define a space that encloses a lever actuating mechanism and a hook plate. The hook plate has a hook member that engages the strike member of the gate. The lever actuating mechanism has a pair of lever arms, which can be accessed from either side of the gate, that move the hook plate upward to disengage the strike member. A lock receiving member at the bottom of the gate latch receives a padlock to lock the gate latch. The padlock can also be accessed from either side of the gate.

The present invention consists of aluminium framework for the manufacture of doors or windows, which is applied in a door or window opening of a building. It comprises at least one fixed frame (1) and fixed or movable panels (4) which have central (6) and reinforcing (5) props, handles (3) (7), anti-pollen/mosquito net (9) winder integrated into a profile (10). It has a locking system (2) of the panels (4), which is integrated in the aluminium profiles of the fixed frame (1); a locking system (8) of the anti-pollen/mosquito net (9) allowing the profile (11) of the net (9) to be attached to the handle (7). The movements of the net (9) and the panels (4) can be performed either manually or automatically, in both cases this movement being facilitated by a slide rule (13) with integrated bearings.

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.

Latching mechanisms, storage receptacles with latching mechanisms, and methods of manufacturing and using the same are disclosed. In one aspect, the latching mechanism includes a first latching element, a second latching element, and a ball-locking mechanism. The ball-locking mechanism allows the first latching element to be releasably secured to the second latching element. The latching mechanism may be integrated with a frame, which may be adjustable, and which may further be integrated with a storage receptacle, e.g., one that has a storage compartment and an opening. The components of the latching mechanism may be shaped, sized, or otherwise configured to enable, and facilitate, automated and/or semi-automated handling and manipulation. The latching mechanisms, storage receptacles, and associated handling systems described herein may be used in a logistics network operation.

A vehicle that includes a vehicle body defining a plurality of openings configured for receipt of a window, and a plurality of retention features that are configured to maintain the window in the opening and permit the window to be easily removed from the opening. The retention features include a rotatable latch that is configured to maintain the window in the opening. Rotation of the latch permits the window to be removed from the opening. A rotatable handle is coupled to the latch that is configured to rotate the latch. A wave washer is coupled to the handle between the handle and the latch, wherein rotation of the handle rotates the wave washer into and out of engagement with the latch to rotate the latch.

A latch is provided for latching and automatically unlatching a lid from a waste container. The latch mechanism includes a release weight that moves responsive to gravity in a housing from a first position to a second position to cause the latch to disengage from a striker when the latch is rotated to a dump angular orientation. The latch includes a damper that controls movement of the release weight in the housing such that an amount of time for the release weight to move responsive to gravity from the first position to the second position is at least two times an amount of time the release weight would take to move responsive to gravity from the first position to the second position absent the effect of the damper.

An appliance door latch system is provided that automatically aligns latching components each time an appliance door is closed with a pre-latching catch alignment system. The pre-latching catch alignment system may include a floating catch carrier that is deflected by a door-mounted latch feature to passively reposition a catch to properly align with the striker assembly.

A locking mechanism including a plunger, a plurality of locking elements, a cage including apertures in which the locking elements are housed, and a sleeve, with the sleeve moveable with respect to the cage between an unlocked position and a locked position, and when the sleeve is in the locked position, the sleeve maintains the locking elements in engagement with a recess on the plunger to restrict movement of the plunger.