A latch is configured to fix a panel relative to a frame. The latch includes a housing having a longitudinal axis and defining an aperture along the longitudinal axis; a cap mounted within the aperture of the housing for rotation about the longitudinal axis, the cap comprising a drive surface; and a cover coupled to the housing to pivot about a lateral axis, the cover pivotable to be in a closed position in which the cover covers the cap; wherein when the cap is in an unlatched position, the drive surface of the cap is aligned with an engagement surface of the cover and positioned to block the cover from pivoting to the closed position; and wherein when the cap is in a latched position, the drive surface is unaligned with the engagement surface and positioned to permit the cover to pivot to the closed position.

The present disclosure provides a rotary door stop. The rotary door stop includes a door stop rotation base and a door stop body. The door stop body rotates about the door stop rotation base to define a locked state or an unlocked state. By engagement between a first limiting portion and a second limiting portion, the rotary door stop is retained in the locked state for ease of door closing; and when the rotary door stop approaches a door frame, retention of the unlocked state may also be released while the door is closed.

The invention discloses a bed cover connection device for pickup truck, wherein includes a sidebar lock system connected to two sidebars, a large rear bar lock system connected to the rear bar and multiple intermediate node blocks, the sidebar locking system includes a sidebar lock base, the sidebar lock base has a locking cavity, and there are two large rear bar lock systems, the two large rear-bar lock systems are set corresponding to the two side-bar lock systems, the large rear-bar lock system includes a rear-bar lock block and a lock connection shaft, the rear-bar lock block is connected to the rear bar, the lock connection shaft passes through the rear-bar lock block. The device in this invention can pull the lock out of the lock cavity to open the rear bar by setting up a wire rope, and multiple intermediate node blocks, which separate the wire rope into multiple segments, are set up to facilitate the user to pull the wire rope.

An actuating drive for motor vehicle applications, in particular for a motor vehicle lock comprising an actuating drive, for realizing different functional positions, includes an electromagnetic rotary actuator with a rotor and a stator, in particular a coil carrier, a drive lever, wherein the drive lever can be moved to different functional positions by the rotary actuator, and means for latching the drive lever in the functional position, wherein the drive lever interacts with a switching lever in such a way that, after a functional position of the drive lever is reached, a moment which stabilizes the functional position can be introduced into the drive lever by the switching lever.

A lock includes a housing assembly, an actuatable lock assembly and a latching assembly. The actuatable lock assembly is positionable in at least a closed orientation and an open orientation. The latching assembly further includes a latch, a cam and a motor. The latch, having a cam profile, is movable between a locked position and an unlocked position. In the locked position, the actuatable lock assembly is maintained in the closed orientation. In the unlocked position, the actuatable lock assembly is positionable into an open orientation. The cam is rotatably mounted and has a first follower configured to intermittently coact with the cam profile of the latch, to, in turn, move the latch between the locked position and the unlocked position. The motor is coupled to the cam. Actuation of the motor causes rotation of the cam, resulting in movement of the latch between the locked and unlocked positions.

A latch assembly includes a frame and a pawl including a surface for receiving a striker and being movably coupled to the frame between an open and a closed position. In the closed position, the pawl is positioned to retain the striker to the latch assembly, and, in the open position, the pawl is not positioned to retain the striker to the latch assembly. A spring guide is connected to the pawl and the frame, wherein, in the closed position of the pawl, the spring guide is configured to bias the pawl such that the pawl remains in the closed position, and in the open position of the pawl, the spring guide is configured to bias the pawl such that the pawl remains in the open position. One end of the spring guide is connected to the pawl, and the opposite end of the spring guide is unconstrained.

A latch assembly includes a frame and a pawl including a surface for receiving a striker and being movably coupled to the frame between an open and a closed position. A trigger is mounted to the frame and is movable between a locked position and an unlocked position, wherein, in the locked position of the trigger, the trigger is positioned to retain the pawl in the closed position. A striker bar is movably coupled to the trigger and is positioned to be contacted by the striker, wherein the striker bar is configured to move in the course of moving the striker into the pawl. A device for sensing a position of the striker bar, wherein the position of the striker bar is indicative of the position of the striker and the position of the trigger.

A lockable latch (8) is disclosed for walk-in cold rooms which includes a lockable strike (10) with an exterior strike assembly (16) and an interior release assembly (17). The exterior strike assembly includes a housing (25) and a rod holder (32) configured to releasably hold a coupling rod (35). The exterior strike assembly also has a metal anti-rotation plate (40) removably coupled to the housing. The interior release assembly includes a turn knob (53), an escutcheon plate (54), and an index washer (55). The turn knob includes two oppositely disposed alignment projections (77) and a radial array of steps (78) which includes four, re-occurring series of three steps. The index washer has a four time re-occurring series of steps (93).

A chassis door cover switch structure of an electronic device is disclosed. The electronic device includes a casing and a cover. The casing includes a latch member having a main body and a stop portion, and a plug-in space formed between the two. The cover is covered onto the casing, the locked status of both cover and casing is controlled by a control member that includes a switching button on an outer side of the cover and a switching plate on an inner side of the cover. The switching button is connected to the switching plate with a tongue portion. When the control member is moved and the tongue portion is situated outside the plug-in space, the cover and the casing are unlocked. When the tongue portion is extended into the plug-in space and stopped by the stop portion, the cover and the casing are locked.

An exterior door handle arrangement for a motor vehicle door of a motor vehicle includes a door handle a bearing bracket, and a hinge assembly having a pivot pin and a guide groove receiving the pivot pin for the pivotable connection of the door handle to the bearing bracket, wherein for pivoting the door handle from a resting position into a swivel-out position the pivot pin located in the guide groove forms a pivot axis of the door handle. The contour surfaces of the pivot pin and the guide groove which are in operative connection and which determine the pivot movement of the door handle are designed with a fit, such that the door handle has in the swivel-out position a clearance fit which transitions via a transitional fit into a positive fit when a pivoting movement into to a resting position is made.