A stud includes a base and a protrusion. The base includes a second screw that engages with a first screw, and is to be joined to a first face of an attachment plate. The protrusion has a non-circular shape as viewed from a first direction intersecting the attachment plate and protrudes from the base in the first direction to be inserted into an opening in the attachment plate.

A stud includes a base and a protrusion. The base includes a second screw that engages with a first screw, and is to be joined to a first face of an attachment plate. The protrusion has a non-circular shape as viewed from a first direction intersecting the attachment plate and protrudes from the base in the first direction to be inserted into an opening in the attachment plate.

A self-aligning support incorporates a support attachment fitting and a rotatable pin assembly having a primary load pin coupling the support attachment fitting to an attachment support, and inboard and outboard attachment claws engaged to end portions of the primary load pin. The rotatable pin assembly is configured to rotate relative to the support attachment fitting. At least one fuse pin extends through the primary load pin to limit translation of the primary load pin relative to the inboard and outboard claws.

An attachment is configured to connect a first connecting plate of a vehicle component to a second connecting plate of a vehicle body. The attachment includes a body, first, second and third flanges, and a press-fit insert. The attachment is of an elastically deformable material and is configured to be inserted into first and second through holes of the first and second connecting plates. The flanges engage the connecting plates when the attachment is inserted into the through holes. The body includes a hole extending longitudinally within the body to accommodate the press-fit insert. The press-fit insert has a diameter greater than the diameter of the hole to form a snug connection between the press-fit insert and the hole. The insertion of the press-fit insert into the hole elastically deforms the attachment to urge the body radially against the connecting plates to provide a robust connection between the connecting plates.

A flap support mounting assembly employs a flap support having at least one laterally-oriented upper coupling and a pair of laterally-oriented lower couplings. A fail-safe pin engages the at least one laterally-oriented upper coupling to an upper rear-spar fitting. A pair of frangible pins engages the lower couplings to a pair of lower rear-spar fittings. The frangible pins are configured to shear and enable the flap support to rotate upwards about the fail-safe pin in response to a load induced on the flap support that creates a moment inducing a sufficient shear force to shear the frangible pins. The fail-safe pin is configured to shear allowing separation of the flap support and associated flap from the wing in a manner that inhibits damage to a rear spar and integral fuel tank in a wing structure.

A flap support mounting assembly employs a flap support having at least one laterally-oriented upper coupling and a pair of laterally-oriented lower couplings. A fail-safe pin engages the at least one laterally-oriented upper coupling to an upper rear-spar fitting. A pair of frangible pins engages the lower couplings to a pair of lower rear-spar fittings. The frangible pins are configured to shear and enable the flap support to rotate upwards about the fail-safe pin in response to a load induced on the flap support that creates a moment inducing a sufficient shear force to shear the frangible pins. The fail-safe pin is configured to shear allowing separation of the flap support and associated flap from the wing in a manner that inhibits damage to a rear spar and integral fuel tank in a wing structure.

A method of inserting a pin in a bore of an article may include first providing an article with a bore, the bore having an inside diameter. The method may then include providing a pin having a hollow body, the hollow body having a diameter with a profile with a pattern of voids. The method may then include applying an axial force on an end of the hollow body to cause the diameter of the pin to reduce in size to a point where the diameter of the pin is less than the inside diameter of the article. The method may further include aligning the pin inside of the bore of the article, and then removing the axial force on the end of the hollow body.

A hole plug includes a cap and a securing frame. The securing frame extends from the cap. The securing frame includes first and second support legs, first and second connectors, and a lock body. The first connector is engaged with the first support leg. The second connector is engaged with the second support leg. The lock body is engaged with the first and second connectors.

A universal locking pin can be inserted in a through hole for connecting a wide variety of objects. Once engaged in a through hole, the universal locking pin can function as mounting point for attaching items. Materials can be mounted to the attachment hole such as rope or carabiners, cords, rings, and other materials with suitable tensile strength. The locking pin can be scaled up or down in size and constructed from a variety of materials including metal, plastic, wood, ceramic, composites, and the like.

An assembly plug for closing openings, in particular openings in vehicle bodies and the like, wherein the assembly plug has a first device, which has structure for engaging in a latching manner behind an edge of an opening and there is also a second device, with which the structure for engaging in a latching manner behind an edge of a hole can be actuated radially outward into a latching position, wherein the second device is axially displaceable in the first device and the actuation can be carried out by the axial displacement.