A privacy door assembly for installation in an aircraft relative to a flight deck door of the aircraft includes a door frame having a first post and a second post, where the second post comprises a latch recess. The privacy door comprises a latch positioned on an edge of the privacy door and arranged to engage the latch recess when the privacy door is in a closed position within the door frame. An access door is positioned in the privacy door, where the access door is rotatable from a closed position to an open position in a forward direction. A first mechanical door handle system including a mechanical combination lock is positioned on an aft side of the privacy door and coupled to the latch, and a second mechanical door handle system is positioned on a forward side of the privacy door and coupled to the latch.

A gate latch pull system for a swinging gate and gate post. A gate latch with pivotal latch lever is mounted on a gate post and a latch bar on an inside edge of a swinging gate. A T shaped lever with first and second lever arms and a swinging base is pivotally mounted on the gate post above the gate latch. A vertical linkage connectable between bottom of swinging base and top of the pivotal latch lever, with the linkage adjustable in length during connection of the base and the latch lever such that when the latch lever is in a latched position and the swinging base is vertical, the linkage has flexibility, slack and weight enough to provide additional downward weight bias to pivotal motion of the latch lever.

A storage container (100) has a base (102) defining at least one storage compartment (202, 204, 206, 208, 210, 212), a top (104) movable between closed and opened positions, latching and locking assemblies. The latching assembly (500) has a latching actuator (110) movable between first and second positions. The latching assembly (500) locks the top (104) to the base (102) when the top (104) is in the closed position and the latching actuator (110) is in the first position and releases the top (104) from the base (102) when the latching actuator (110) is in the second position. The locking assembly has a lock actuator (801) having actuated and released positions. The top (104) is movable when the lock actuator (801) is in the actuated position. The locking assembly locking the top (104) in the open, closed, or an intermediate position when the lock actuator (801) is in the released position. The latching actuator (110) and the lock actuator (801) are operatively connected to the top (104) and move with the top (104) between the closed and the opened position.

A drive structure of a lock bolt contains: a lock bolt unit, a covering assembly, a motor, a gear control unit, and an electronic lock unit. The lock bolt unit includes a fixer, a linear slider, two fixing blocks, a groove defined, a driving shaft, a trench, two first through holes, a coupling plate, and a deadbolt. The covering assembly includes a first cap, a second cap, a first notch, a second notch, two locking posts, two threaded orifices, two second through orifices, a central orifice, a receiving seat, and a positioning column. The motor includes a central stem and a control circuit. The gear control unit includes a first gear, a second gear, and a belt. The first gear has a driven orifice and multiple first teeth. The second gear has a connecting orifice, multiple second teeth, a defining portion, and an actuation protrusion.

An electronic gaming machine including a cabinet defining an interior space. The electronic gaming machine also includes a door releasably fastened to the cabinet operable to move between a locked state preventing access to the interior space and an unlocked state permitting access to at least a portion of the interior space. A security housing comprising a locking assembly and an optical switch coupled to a processor. The locking assembly includes an actuator defining a channel. The optical switch comprises a transmitter and a receiver. When the door engages the locking assembly, the actuator is operable to move the channel to align with the transmitter and the receiver to form an optical path between the transmitter and the receiver through the channel and the optical switch is operable to communicate the locked state to at least one of the processor, the server computer, and the gaming system.

Disclosed is a protective cabinet in the form of a moveable furniture unit that has structure to enable moving the furniture unit into a locked position in which it blocks a point of ingress of a would-be assailant, such as a door or window into a space. In certain configurations, the furniture unit includes protective, hardened material, such as a ballistic material that provides increased protection against fire from a weapon, such as may be encountered in an active shooter event. For example, the cabinet may be used on a daily basis inside of a classroom, and may be moved and locked into a position in front of a doorway, window, or other ingress or egress point of the classroom during an active shooter or other threat event to both block the ingress/egress point and provide ballistic protection against weapons fire from outside of the room. The back side of the cabinet (which faces the outside of the room that is being protected) may incorporate a psychological deterrent, such as a reflective surface or a calming message, which provides an added level of deterrence against an attack inside of the room.

A collection bin locking assembly with a gravity-actuated release mechanism is disclosed herein. The locking assembly includes a housing attached to the body of the bin and a separate cord support structure attached to the lid. When locked, a cord spans between a first cord support structure on the housing and the separate or second cord support structure on the lid. A pendulum is disposed within the housing which, due to gravity, automatically swings between a first, resting position and a second, unlocked positioned when the collection bin is moved from an upright position to an at least partially upended position. Furthermore, the first cord support structure includes a groove and, adjacent to the groove, a smooth, outwardly curved surface. When the pendulum swings, the cord is forced out of the groove and onto the adjacent smooth, outwardly curved surface where the cord will slip off, thereby unlocking the lid.

An improved foot pull for hands free opening of a door is described. The design provides a more ergonomic engagement of the user by providing an angled plate to engage their foot the plate further including a region treated to prevent slippage of the users foot off of the plate. A pair of the foot pulls can be used in tandem to provide a door stop and a means to hold a door in the open position against a wall. The design can also include actuators that can release a latch on the door. The actuators include mechanical linkages to the door handle. The actuators can also be electronic with wired or wireless connection to the latch on the door and can further be used to signal and actuate any electronic device such as a light or alarm system. The door pull can also include a mechanical cable or a hydraulic connection to actuate the door latch.

A pet apparatus has a rigid platform member, a rigid barrier member, and a support member. The rigid barrier member is attached to one end of the rigid platform member. The support member is attached to the rigid platform member at its other end. The left and right sides of the rigid platform member are open. The support member may be attached to a vertical wall below a pet door opening. When the pet apparatus is in a deployed position, the rigid platform member provides a place for a pet to stand after it passes through the pet door. The rigid barrier member prevents the pet from going straight off of the end of the rigid platform member. The pet must turn to the right or left to leave the platform by one of the two open sides.

Provided is a door latch including a latch mechanism, secured to an appliance such as a self-cleaning oven, which locks an appliance door to the appliance. The latch mechanism includes a latch bracket mounted to a surface of the appliance. A latch hook is mounted within the latch bracket for reciprocal movement between locking and unlocking positions. The latch hook pivotally engages a receptacle mounted on the door, to lock the door to the appliance. A flexible cable is retained inside a flexible conduit. A first end of the flexible cable is connected to the latch hook for displacing the latch hook into the locking position for pivotal engagement with the receptacle. An electric actuator is connected to a second end of the flexible cable for producing operative movement of the flexible cable within the flexible conduit to displace the latch hook between the locking and unlocking positions.