A bin latch system. A bin latch mechanism that has been designed with weight, number of components, simplicity of operation and installation as main design drivers. The bin latch utilizes spring loaded rods that are ‘pulled’ to release the locking subassemblies. The rods lock two sets of interlocking housings in place. Due to the nature of the rod actuator, the design is binary in nature and needs both sets of interlocking housings to be secured before the interface handle can go to ‘full close’ position. Additionally, there is no rigging necessary at install. Once the assembly is in secured in place, it is ready to be operated.

A locking apparatus for a sliding closure slidable within a frame is disclosed. The locking apparatus comprises at least one locking tang movable transversely to the closure plane, between a locking position and a release position wherein, when in the locking position the locking tang extends laterally, in a direction transverse to the closure lane, beyond the closure to be received within a corresponding locking recess in the frame, such that the locking tangs resist opening of the closure, and when in the release position the locking tang is withdrawn within the dimensions of the frame, such that the closure may be opened or closed. The locking mechanism may also comprise a sensor configured to detect when at least one of the locking tangs are in the locked or released position, and, optionally to trigger an alarm if the locking tang is disengaged.

The storage box includes: a box body having an opening toward a vehicle upper side; a fixed lid provided on a vehicle rear side of the opening; a movable lid provided on a vehicle front side of the opening; first shafts provided on a vehicle front side of the movable lid; a second shaft provided on a vehicle rear side of the movable lid; and a guide including first rails guiding the first shafts and second rails guiding the second shafts, to move the movable lid from a fully-closed position to a fully-opened position through a sliding operation and a turning operation. The second rails include slope portions guiding the second shaft so that the movable lid moves to an inner side of the box body relative to the fixed lid when the movable lid starts the sliding operation from the fully-closed position.

A door locking mechanism and semiconductor container using the same include door panel, cover, and locking module. The door panel has a first stop structure. The cover and the door panel define an accommodating space for receiving the locking module. The locking module includes rotating member, holding member, and elastic member. The elastic member is disposed on the holding member and has a second stop structure near the first stop structure. The elastic member is disposed between the holding and the rotating member. The elastic member is compressed when a force is applied to the holding member, and the second stop structure detaches from a limitation state with the first stop structure for allowing a rotating operation of the rotating member. The elastic member elastically restores when the force is removed, and the second stop structure returns to the limitation state for limiting the rotating operation.

Rotary actuated latch systems with linearly acting latch rods, and methods of assembling rotary actuated latch systems with linearly acting rods are disclosed. In some aspects, the rotary actuated latch systems are “self-engaging” and comprise a handle having two guides, the handle operably attached to a spring, two latch rods comprising clevises operably attached to the two guides, and at least two strike plates for actuating the latching system without additional user input. The spring applies equal tension to the two linearly acting latch rods, allowing for smooth operation of the latching system without binding while providing for a compact design that eliminates stresses imposed by conventional latch systems where the latch rods rotate off-axis. In some embodiments, the rotary actuated latch system may be assembled as a complete unit, prior to installation on the mechanism to be latched.

A flush glass apparatus includes an operation glass including a glass portion and a frame, and a locking device including an operation handle installed on the frame, an upper lifting member installed on an upper side of the frame and including an upper cam groove and an upper locking pin, an upper operation shaft having a lower side connected to the operation handle and an upper side entering the upper cam groove and including an upper protrusion, an upper spring, a lower lifting member installed on a lower side of the frame and including a lower cam groove and a lower locking pin protruding to the lower side of the frame, a lower operation shaft having an upper side connected to the operation handle and a lower side entering the lower cam groove and including a lower protrusion, and a lower spring.

There is provided herein an aircraft galley container including a door, a latch mechanism, and a lock. The latch mechanism is positionable in a latched position preventing opening of the door and an unlatched position permitting opening of the door. The latch mechanism includes a handle, a pair of rods and a rotatable plate. The rotatable plate is coupled to the handle and configured to be rotated by the handle and to convert rotational movement of the handle to linear movement of the pair of rods to place the latch mechanism in the latched and unlatched positions. The lock is configured to selectively prevent the rotatable plate from rotation to maintain the latch mechanism in the latched position.

The storage box includes: a box body having an opening toward a vehicle upper side; a fixed lid provided on a vehicle rear side of the opening; a movable lid provided on a vehicle front side of the opening; first shafts provided on a vehicle front side of the movable lid; a second shaft provided on a vehicle rear side of the movable lid; and a guide including first rails guiding the first shafts and second rails guiding the second shafts, to move the movable lid from a fully-closed position to a fully-opened position through a sliding operation and a turning operation. The second rails include slope portions guiding the second shaft so that the movable lid moves to an inner side of the box body relative to the fixed lid when the movable lid starts the sliding operation from the fully-closed position.

A flush glass apparatus includes an operation glass including a glass portion and a frame, and a locking device including an operation handle installed on the frame, an upper lifting member installed on an upper side of the frame and including an upper cam groove and an upper locking pin, an upper operation shaft having a lower side connected to the operation handle and an upper side entering the upper cam groove and including an upper protrusion, an upper spring, a lower lifting member installed on a lower side of the frame and including a lower cam groove and a lower locking pin protruding to the lower side of the frame, a lower operation shaft having an upper side connected to the operation handle and a lower side entering the lower cam groove and including a lower protrusion, and a lower spring.

A laundry treatment apparatus includes a drawer. The laundry treatment apparatus further includes a cabinet that has an entrance opening and that is configured to receive the drawer through the entrance opening. The laundry treatment apparatus further includes a drum that is located inside the drawer and that is configured to receive laundry. The laundry treatment apparatus further includes a drum drive unit that is located inside the drawer and that is configured to rotate the drum. The laundry treatment apparatus further includes a fastening mechanism that is configured to reciprocate in a first direction that is either up and down or left and right with respect to a front of the drawer. The laundry treatment apparatus further includes a transfer member that is configured to reciprocate in a second direction that is either up and down or left and right with respect to the front of the drawer.