A self-closing and locking device for hanging objects on a mounting surface is disclosed. The device includes a mounting bracket and a locking arm member translatably engaged with an elongated track portion of the mounting bracket. The track portion comprises a pair of guide portions defining a slot therebetween, and rear recesses in a back side of the guide portions. The rear recesses comprise lower locking portions, and upper rotating portions that are deeper than the locking portions. The arm member comprises a base portion that is positioned within the rear recesses, and an arm portion that extends from the base portion and through the slot. The device is configured such that the arm member is oriented in a closed position when the base portion is engaged with the locking portions, and orientable in an open position when the base portion is engaged with the rotating portions.

Embodiments of a windshield wiper assembly may include a support structure, a wiper blade connector assembly for connecting the support structure with a wiper arm of a vehicle, a wiper blade cover fittable over the wiper blade connector assembly, and a wiper blade strip secured to the underside of the support structure. The connector assembly may include a wiper blade connector, a wiper blade connector cover connected to the wiper blade connector and pivotable between an open position and a closed position, and a wiper blade connector adapter securable between the wiper blade connector and the wiper blade connector cover. The various embodiments of a wiper blade connector assembly permit the embodiments of the wiper blade assembly to be connected with a plurality of wiper arm types.

A folding joint, comprising a first joint, a second joint, a handle, a locking rod, a swing back element, a connecting rod, a sliding rod and a reset elastic member, one side of the first joint (10) is hingedly connected to one side of the second joint, and the handle is hingedly connected to other side of the first joint, the other side is provided with a supporting part, and is provided with a sliding groove, one end of the swing back element is hingedly connected to the other side of the first joint, the locking rod is arranged at other end of the swing back element, the sliding rod is arranged in the sliding groove, the connecting rod is arranged between the locking rod and the sliding rod, one end of connecting rod is fixedly connected with the locking rod, other end is fixedly connected with the sliding rod.

A folding joint, comprising a first joint, a second joint, a handle, a locking rod, a swing back element, a connecting rod, a sliding rod and a reset elastic member, one side of the first joint (10) is hingedly connected to one side of the second joint, and the handle is hingedly connected to other side of the first joint, the other side is provided with a supporting part, and is provided with a sliding groove, one end of the swing back element is hingedly connected to the other side of the first joint, the locking rod is arranged at other end of the swing back element, the sliding rod is arranged in the sliding groove, the connecting rod is arranged between the locking rod and the sliding rod, one end of connecting rod is fixedly connected with the locking rod, other end is fixedly connected with the sliding rod.

The present disclosure describes a solar power system including rails, solar modules, and a plurality of adjustable clips to secure the solar modules to the rails. The clips include at least a base member, an elastomeric support member, a bracket member, and an alignment member configured to secure the various members of the clip together. The adjustable clips are configured to slide within a slot defined through a portion of a surface of a rail and including a recessed edge thereby allowing the rail system to accommodate solar modules of varying dimensions.

A mounting bracket used to attach cables to a cable tray rung. The mounting bracket has a bracket main body and a bracket spring attachment. The bracket main body includes a base plate and a cable attachment member for supporting the cables. The bracket spring attachment slidingly engages the bracket main body to form the mounting bracket. The bracket spring attachment secures the assembled mounting bracket to the cable tray rung.

A two-piece clip for securing an element to another element includes a first component having a head and a shaft extending from the head along a shaft axis having a point. At least one protrusion is provided on the shaft, having a contact surface facing the head, and the head having a contact surface facing the protrusion. The clip further includes a second component having a support surface facing the contact surface of the head, and a contact surface facing the protrusion. The contact surface of the head is supported on the support surface of the second component.

A magnetic attachment assembly for attaching a first object to a second object includes a first and second ferromagnetic devices possessing an attractive magnetic property pulling each toward one another. The first ferromagnetic device is attached to the first object and an adhesive layer on the second ferromagnetic device is for attaching the second ferromagnetic device to the second object. A removable separator is initially positioned intermediate the first ferromagnetic device and the second ferromagnetic device and is frictionally held in place prior to attachment of the second ferromagnetic device to the second object. During installation, the user pushes the attachment assembly onto the second object, pulls the first ferromagnetic device away from the second ferromagnetic device, removes the separator, and then pushes the first ferromagnetic device back to the second ferromagnetic device thereby attaching the first object to the second object.

A tolerance compensation system for setting a joint pattern between two outer trim elements to be mounted on respective door frames in the region of a vehicle pillar of a motor vehicle. The tolerance compensation system includes a set of tolerance compensation elements which are insertable into respective cutouts in the door frame and which each have a receiving region for receiving the outer trim elements. The set has at least two different variants of the tolerance compensation elements which differ in terms of the positioning of their respective receiving regions in order to set the joint pattern or the set has only one variant of the tolerance compensation elements in which the receiving region is arranged eccentrically and the tolerance compensation elements are insertable into the cutouts in the door frames in two positions rotated through 180° with respect to one another in order to set the joint pattern.

A tolerance compensation system for setting a joint pattern between two outer trim elements to be mounted on respective door frames in the region of a vehicle pillar of a motor vehicle. The tolerance compensation system includes a set of tolerance compensation elements which are insertable into respective cutouts in the door frame and which each have a receiving region for receiving the outer trim elements. The set has at least two different variants of the tolerance compensation elements which differ in terms of the positioning of their respective receiving regions in order to set the joint pattern or the set has only one variant of the tolerance compensation elements in which the receiving region is arranged eccentrically and the tolerance compensation elements are insertable into the cutouts in the door frames in two positions rotated through 180° with respect to one another in order to set the joint pattern.