A lockable latch handle assembly for enclosures such as truck tool boxes comprises the combination of a key cylinder, and a latch handle that may be secured by a padlock to the front wall of the box, to collectively prevent opening of latches that secure the lid of the box in a closed position.

A lockable latch handle assembly for enclosures such as truck tool boxes comprises the combination of a key cylinder, and a latch handle that may be secured by a padlock to the front wall of the box, to collectively prevent opening of latches that secure the lid of the box in a closed position.

A latch mechanism having a quick turn and release feature where the latch mechanism comprises a first body member having at least one actuation device. A second body member is coupled to the first body member and includes at least one aperture and pin receiving channel formed therein. A pin element is coupled to the second body member and includes a first pin portion and a second pin portion. The first pin portion and the second pin portion are respectively arranged to extend axially within the pin receiving channel of the second body member such that an upward rotation of the actuation device in a counterclockwise direction releasably disengages the pin element from a shaft of one or more hinges of the door assembly to allow an operator to exit an operator cab of the work vehicle.

A lock including a latch provided at one of a door and a cabinet, and a coupler provided at the other one of the door and the cabinet, the coupler including a housing including a latch insertion hole, an engaging lever including an engaging lever body rotatably provided within the housing, a latch insertion groove having a first end of the latch inserted therein by extending from a first end of the engaging part body, and first, second, third, and fourth projections formed by extending a second end of the engaging lever body.

Firearm associated electronic devices are provided. In one aspect a firearm associated device has a housing having a holding area and an opening through which a removable component may be positioned in the holding area, a door movable relative to the housing and having a door latch that moves along a path as the door moves and a housing latch movable between a first latch position where the housing latch is not in the path to a second latch position where the housing latch blocks movement of the door latch from a first range of positions where the door prevents the removable component from passing through the opening to a second range of positions where the door does not prevent the removable component from passing through the opening. A housing latch biasing member biases the housing latch into the second latch position. When the door latch is in the first range of positions and the housing latch is in the second latch position the door latch is movable along the path but is blocked by the housing latch from passing to the second range of positions.

For latching an equipment unit door of an equipment unit in a control center, an apparatus includes a latch pin, the unit socket, and a structure socket. The latch pin includes a latch shaft with a latch interface disposed on a pin proximal end and a latch wing disposed on a pin distal end. The latch pin rotates to one of an open position, a unit latch position, and a structure latch position. The unit socket passes the latch wing in the open position and obstructs the latch wing from moving in a proximal direction in the unit latch position. The structure socket passes the latch wing in the unit latch position and obstructs the latch wing from moving in the proximal direction in the structure latch position.

The present invention discloses a one-side rotating arc lock which comprises an adjusting assembly arranged on a first shell and a strainer arranged on a second shell. The adjusting assembly comprises an arc adjuster rotatably connected with the first shell. The arc adjuster is provided with multiple protrusions in the circumferential direction, used for adjusting the angle between the first and the second shell. Groove is provided on the protrusion. The strainer comprises an adjusting rod which matches the groove for locking the first and the second shell. The angle between the first and the second shell is adjusted through the arc adjuster rotatably connected with the first shell, and locking of the first and the second shell is achieved through the strainer. The one-side rotating arc lock of the preset invention not only has a simple structure and easy to operate, but also facilitates adjustment of the angle.

Disclosed is a latch mechanism (100) for a gate, comprising: a main support (206); first retention member (202) having a first key aperture (208) and a second retention member (204) having a second key aperture, wherein the first and second apertures are spaced along the main support so as to be separated by a gap; a rotatable latch (212) comprising: a latch portion (216); one or more key portions (218, 220) which extend through either or both of the first key aperture and second key aperture; and, an axis of rotation (213), the rotatable latch being rotatable about the axis of rotation between a receiving position in which the gate is moveable between an open position and a closed position, or vice versa, and a latched position in which the gate is restrained in the closed position by the latch portion, wherein the one or more key portions engage with either or both of the first and second retention members when in the latched position to prevent withdrawal of the rotatable latch.

Firearm associated electronic devices are provided. In one aspect a firearm associated device has a housing having a holding area and an opening through which a removable component may be positioned in the holding area, a door movable relative to the housing and having a door latch that moves along a path as the door moves and a housing latch movable between a first latch position where the housing latch is not in the path to a second latch position where the housing latch blocks movement of the door latch from a first range of positions where the door prevents the removable component from passing through the opening to a second range of positions where the door does not prevent the removable component from passing through the opening. A housing latch biasing member biases the housing latch into the second latch position. When the door latch is in the first range of positions and the housing latch is in the second latch position the door latch is movable along the path but is blocked by the housing latch from passing to the second range of positions.

A fastening system for attaching two components with a spring force is disclosed. The fastening system utilizes O-rings to provide the spring force, eliminating the need for any metal components. The O-ring may be disposed in an O-ring holder that has a plurality of spokes. When compressed, indentations are created in the O-ring by the spokes. The number of spokes and their size and shape determine the spring force of the fastening system. In another embodiment, vertically oriented O-rings are utilized. The fastening system may be used to fasten various components of an ion source.