A wire crate latch apparatus having, in a first embodiment, a pivoting member that is continually drawn to a closed position by gravity and that is deflected into a catch when the door having the pivoting member is swung closed. The latch apparatus further includes upper and lower stops to contain a distal end of the pivoting member and to hold the distal end in the position to hit an oblique portion of the catch when the door is closed. In a second embodiment, a sliding latch apparatus is deflected by a catch and is relatively inaccessible from inside of the wire crate by back plates on the latch and catch.

A hasp assembly (200), having: a hasp (302) that engages a staple (404); an actuator (320) that retains the hasp in an engaged position; a first passage (410) and a first element (802) therewithin; and a second passage (412) and a second element (418) therewithin. A linear length of the second passage (L2) is greater than a linear length (L1) of the first passage. When in a tilted orientation (800) the first element is urged by gravity along the first passage and impact of the first element on the actuator releases the hasp, and the second element is urged by gravity along the second passage toward a terminal position (712) where the second element blocks the first element.

Inertial lock systems for push-push latch style vehicle drawers or storage bins including an inertia lock to maintain a drawer in a closed position under a g-force. A shaft is rotatably mounted on a drawer housing; an inertia member is mounted on the shaft; and a confining member is mounted on the shaft and disposed opposite to the inertia member. The confining member is configured to move to a position to restrict movement of a rotating latch of the drawer when a g-forced applied to the drawer exceeds a predetermined level.

An apparatus, having: a staple (404); and a hasp assembly (200) including: a chamber (412) including a home position (430) and a release passage (414); and a release element (328) disposed in the release passage. Forward rotation of the hasp assembly from an upright orientation (208) about a first horizontal axis (220) allows the kinetic element to move under the influence of gravity from the home position into the release passage and into contact with the release element, thereby releasing the staple.

A vehicle includes a vehicle body that defines an opening, a vehicle door that is movable between a closed position and an open position with respect to the opening, a first surface, and a second surface. The first surface is defined on one of the vehicle body and the door and the second surface is defined on the other of the vehicle body and the door. A first latch portion is concealed behind the first surface. A second latch portion is concealed behind the second surface in an unlatched position and is movable to a latched position in which the second latch portion extends into the first latch portion and engages the first latch portion. A locking structure restrains disengagement of the second latch portion from the first latch portion in the latched position.

The present invention discloses a retainer mechanism that may be associated with a bin or a lid of the bin to maintain lid in a closed (latched) position in relation to the bin.

A top pull gravity latch device to selectively secure a gate in a closed position to block the opening or portal in a fence, wall or other barrier comprising a latch assembly including a latch actuator assembly, intermediate pull actuator assembly and pivotal latch member each movable between a first and second position and a keeper assembly including a striker pin to selectively engage the pivotal latch member to move the pivotal latch member from the first to second position when the keeper assembly is moved from the second to first position and back to the first position wherein the gate is securely closed when the latch actuator assembly, intermediate pull actuator assembly, pivot latch member of the latch assembly and the striker pin of the keeper assembly are all in the first position and wherein the intermediate pull actuator assembly is moved from the first to second position to move the pivotal latch member from the first to second position clearing the striker pin of the keeper assembly to be moved from the first to second position to allow the gate to be opened.

A gate lifter latch having a striker assembly having a striker pin, the striker assembly mounted to the free end of a gate, and a catch lifting assembly mounted to a latch post, the catch lifting assembly having a pivoting lift arm that receives a striker pin, such that during closure of the gate the pivoting lift arm pivots upward and raises the striker pin and free end of the gate. The gate lifter latch may further have a manual or automatic gate latch assembly for securement of the gate in the closed position. The components of the gate lifter latch are preferably structured such that the gate lifter latch may be disassembled and reassembled for use with either a left or right inswing or outswing gate.

A wire crate latch apparatus having, in a first embodiment, a pivoting member that is continually drawn to a closed position by gravity and that is deflected into a catch when the door having the pivoting member is swung closed. The latch apparatus further includes upper and lower stops to contain a distal end of the pivoting member and to hold the distal end in the position to hit an oblique portion of the catch when the door is closed. In a second embodiment, a sliding latch apparatus is deflected by a catch and is relatively inaccessible from inside of the wire crate by back plates on the latch and catch.

Inertial lock systems for push-push latch style vehicle drawers or storage bins including an inertia lock to maintain a drawer in a closed position under a g-force. A shaft is rotatably mounted on a drawer housing; an inertia member is mounted on the shaft; and a confining member is mounted on the shaft and disposed opposite to the inertia member. The confining member is configured to move to a position to restrict movement of a rotating latch of the drawer when a g-forced applied to the drawer exceeds a predetermined level.