A spring-loaded rounded latching structure includes a main body and a back cover. The main body defines a groove bound by a bottom wall and a sidewall. The bottom wall defines a slot and includes a resisting portion. The side wall includes a first snap. The main body includes a button. The button includes a pushing member. The back cover defines a second slot and includes a second snap and a stopping block. The back cover is slidable relative to the main body along the groove defined in the main body. The first snap is snapped in the second slot. The second snap is snapped in the first slot. The resisting portion resists the stopping portion to limit a sliding movement of the back cover. The resisting portion is released from the stopping portion within the groove by the pushing member.

A cover device, includes a movable cover configured to cover retaining jaws of a retaining jaws module; a retaining cover connected to a side wall frame of a vehicle body and configured to enclose in the shape of a U an insertion end side of a retaining jaws module for insertion of a striker plate module to releasably couple with the retaining jaws module so as to connect a vehicle door with the side wall frame, and adjacent longitudinal sides of the retaining jaws module in transverse direction of the vehicle; and a rubber lip configured to elastically connect the retaining cover to the retaining jaws module and to compensate for tolerance compensation.

Technology is provided for a storage card adapter. The storage card adapter is used for housing storage cards (e.g., M.2 storage cards), and the storage card adapter can then be inserted into a drive bay. The storage card adapter includes a compression latch system that, when engaged, brings together the cover and carrier frame of the storage card adapter such that at least 100 lbs of compressive force is applied to thermal pads disposed on either side of storage cards housed within the storage card adapter. The compression latch system includes a cam into which a shaft of a compression latch is inserted. When a lever attached to one end of the shaft is pivoted about the shaft, a ramp on the opposite end of the shaft engages with an engagement ramp within the cam to thereby pull together the cover and carrier frame and provide the desired compressive force to the thermal pads. The storage card adapter also includes a spring latch that locks the lever of the compression latch into place when the compression latch is fully engaged with the cam.

A self-locking guillotine door assembly and method for an animal enclosure is disclosed. The assembly includes a door, a locking mechanism attached to the door, and a cable attached to the locking mechanism. Pulling the cable releases the locking mechanism and lifts the locking mechanism and door. Pushing up on the bottom of the door locks the locking mechanism and resists lifting the door. The locking mechanism can include a post, a vertical slide with a slot, connector bars and cams such that when the cable is pulled, the cable lifts the vertical slide to lift proximal ends of the connector bars, which pivots the cams to release the locking mechanism. When the enclosure door is pushed up from the bottom, the locking mechanism pivots the cams towards the top of the enclosure door to lock the locking mechanism and resist lifting of the enclosure door.

A quick connection and/or fastening system suited to mutually connect and disconnect a first and a second element is disclosed, the system including a first and a second component that are suited to be rigidly fixed to the first and second elements, respectively, the first component and the second component being also suited to be mutually connected and disconnected, the second component being suited to house an end portion of the first component in such a way as to allow its translation inside the second component, the second component comprising also counteracting elements suited to counteract the translation of the end portion of the first component towards the outside of the second component.

A roller tongue (1) for a locking system includes a spindle, which is securable to the locking system, and a roller (2) rotatably mounted on the spindle. The spindle is formed as a multi-part element and includes a pin (3) and an adapter element (4). The adapter element (4) includes a receiver (5) for the pin (3) arranged eccentrically in the adapter element (4) and is fixable in different orientations onto the pin (3).

A sliding door is provided including a panel configured to slide along a path; a holding member transversely disposed with respect to the path in a location along the path, the holding member defining a channel configured for receiving therein at least a segment of the panel, the holding member further including an abutting portion transversely extending inside the channel defining an opening configured to allow sliding of the segment therethrough; and a stop member being displaceable between an engaged state in which a first end of the stop member engages the abutting portion and the first side portion of the holding member, and a second end of the stop member engages the segment precluding thereby sliding of the panel at least in a direction towards the abutting portion and a disengaged state in which the stop member disengages the segment allowing thereby sliding the panel towards the abutting portion.

Bonded or slide on sleeve and cover devices, and replacement gate latches and methods for preventing injury with oar, fork and U-shaped gate latches that are pivotally attached to fixed support post next to an opening in a fence. The sleeves and covers and replacement oar, fork and U-shaped gate latches have enlarged blunt tips that can include bulbous, dome and ball shapes that prevent injury from children or adults that come into contact with the gate latches.

A locking assembly for a door of a storage container is provided. The storage container defines a door frame, and the door is movably mounted to the door frame. The locking assembly may include a first keeper secured to the door frame, a first locking cam configured to movably engage the first keeper, and a handle assembly coupled to the first locking cam. The handle assembly may be movable between a first position in which the handle assembly is in contact with the door frame and the first locking cam engages the first keeper to maintain the door in the closed position relative to the door frame and a second position in which the first locking cam disengages the first keeper to allow the door to open. The first and second positions of the handle assembly illustratively define an obtuse angle therebetween.

The present invention relates to a secure barrier for an underground valve box. The device may have a bolt and a nut for adjusting the length of the bolt to position curved plates to press against the inner circumference of a cylindrical valve box. The bolt housing may include a flange that protrudes through a slot in a horizontal metal plate. The plate may have handles for ease of lifting and replacement of the plate. The protruding flange may feature a hole for insertion of a padlock. When the padlock is secured, the plate cannot be removed from the cylindrical valve box as the adjustable bolt housing cannot move sufficiently to retract the curved plates from the inner cylindrical surface of the valve box. Thus, only authorized personnel with the proper padlock key or combination can operate the valve, deterring vandals.