A flush glass apparatus includes an operation glass comprising a glass portion and a frame and configured to open and close an opening of a fixed glass by sliding in a lateral direction, and a locking device configured to lock and unlock the operation glass, wherein the locking device comprises an operation handle installed on the frame, an upper locking lever installed on an upper side of the frame, a first lower locking lever installed on a lower side of the frame, a second lower locking lever installed on the lower side of the frame, an upper operation member installed on the upper side of the frame and connected to the operation handle, and a lower operation member installed on the lower side of the frame and connected to the operation handle.

A locking system for securing, within a rectangular frame aperture of a safe, a hinged door having a perimeter and an external side and an internal side and occupying a first vertical plane, the door being configured for suspension on hinges. The locking system comprises a key axle, a disc, a plate. When the key axle is rotated the disc is caused to rotate and the plate slides horizontally to extend a distal end of the plate towards beyond the door perimeter.

A retrofit latch adapter is configured to replace a pre-existing roller head latch assembly of a pre-existing exit device. The retrofit latch adapter may include a flat latch head that may provide additional security for a door compared with the pre-existing roller head pre-existing latch assembly. A method of installing such a retrofit latch adapter in a preexisting exist device may include rotationally releasing a pre-existing latch assembly having a roller latch head from the pre-existing exit device; rotating the pre-existing latch assembly to linearly decouple the pre-existing latch assembly from a transmission of the pre-existing exit device; removing the pre-existing latch assembly from the pre-existing exit device; rotating the retrofit latch adapter to linearly couple the retrofit latch adapter to the transmission of the pre-existing exit device; inserting the retrofit latch adapter at least partially into a housing of the pre-existing exit device; aligning the flat latch head with an uppermost portion of the housing of the pre-existing exit device; and rotationally securing the retrofit latch adapter to the pre-existing exit device.

Driven lock systems, fenestration units including the driven lock systems, and methods of operating the driven lock systems are described herein. The driven lock systems as described herein offer a combination of powered or motorized operation in addition to manual operation, with the opportunity for a user to manually switch the lock assembly between its locked and unlocked states as needed. The need for manual operation may arise if, for example, the system loses power, the controls of the system are unavailable, etc.

A locking device for an opening-closing body includes: a housing; a rotor that is rotatably supported by the housing; and at least one rod that is provided to move in and out from the housing when the rotor rotates, and that engages with and disengages from a locking portion. The housing includes an accommodating portion that slidably accommodates at least the one rod, the rotor includes a protrusion portion protruding in a rotation axis direction, and the rod includes a fitting recessed portion into which the protrusion portion is fittable. The protrusion portion is configured to be rotatable to a position where the protrusion portion escapes from a slide path of the rod with respect to the accommodating portion.

An airtight device includes a container and an airtight cover on the container, and the airtight cover includes a fixing bracket, a door, and a pressuring handle. The fixing bracket has a through hole and a guiding slot, and the through hole communicates with internal space of the container. The guiding slot has adjacent first and second top surfaces, and the second top surface is higher than the first top surface. The door selectively covers the through hole. The pressuring handle pivoted on the door has a first section, a second section, and a rotating axis between the first and second sections, and the first section rotates relative to the second section. The second section receives a force to drive the first section to move from below the second top surface to below the first top surface such that the rotating axis pressures the door.

A vehicle glove box latch includes a housing, a paddle pivotably connected to the housing, a rotor pivotably connected to the housing, a pawl coupled to the rotor and having an end that is engaged with an opening in the vehicle, and a lock barrel mounted to the housing for locking and unlocking the vehicle glove box latch. In a locked state of the lock barrel, the pawl cannot be disengaged from the opening in the vehicle. In an unlocked state of the lock barrel, the pawl can be disengaged from the opening for opening the vehicle glove box. The lock barrel, the rotor and the rotor mounting portion are concentrically aligned along an axis, which reduces the depth of the latch, which reduces the space in the glove box necessary for accommodating the latch, thereby resulting in an increase in the available storage space in the glove box.

A system including a barrier implement, a barrier implement frame, wherein the barrier implement frame is configured to engage said barrier implement, a bolt lock, wherein the bolt lock is configured to secure the barrier implement frame to the barrier implement in a lock position, a central locking and/or release knob, a cable or rod, wherein the cable or rod is configured to interconnect the central locking and/or release knob and the bolt lock, and wherein the central locking and/or release knob is configured to release said bolt lock by pulling in the cable or rod to move the bolt lock out of the lock position.

A latch mechanism having a latch apparatus that is pivotally displaced about a latch axis and a cam device is that pivotally displaced along a transverse cam axis. The cam device is configured to operably engage the latch apparatus so as to at least assist in securing the latch apparatus in a locked position. When the latch apparatus is to be displaced to an unlocked position, the cam device may be pivoted about the transverse cam axis to a position in which the cam device does not impede with the pivotal displacement of the latch apparatus. The latch apparatus may also be configured to prevent the pivotal displacement of the cam device when the latch apparatus is in the unlocked position. According to other embodiments, the latch apparatus may be pivotally displaced about a transverse latch axis by the displacement of a latch link.

A latch mechanism having a latch apparatus that is pivotally displaced about a latch axis and a cam device is that pivotally displaced along a transverse cam axis. The cam device is configured to operably engage the latch apparatus so as to at least assist in securing the latch apparatus in a locked position. When the latch apparatus is to be displaced to an unlocked position, the cam device may be pivoted about the transverse cam axis to a position in which the cam device does not impede with the pivotal displacement of the latch apparatus. The latch apparatus may also be configured to prevent the pivotal displacement of the cam device when the latch apparatus is in the unlocked position. According to other embodiments, the latch apparatus may be pivotally displaced about a transverse latch axis by the displacement of a latch link.