Abstract: A self-locking nut is provided having, at its periphery, a number of longitudinal channels (3) with semi-circular section intended to cooperate with drive balls carried by an appropriate tightening tool, said balls causing, at the end of tightening, the formation of a circular groove (10) by forcing back the metal situated between the channels (3), which results in radial deformation of the inner threads of the nut (1) at the level of said groove (10).

Abstract: An improved stand-off device is disclosed which is used to control the spacing between adjacent planar elements in electronic instrumentation. The stand-off device includes a resilient, hollow shell member and a rigid, cylindrical inner element. The shell member has at least one slot extending from one end, and has a top interior cylindrical surface, a bottom interior cylindrical surface, and a threaded intermediate interior surface. The inner element has a conical expander portion and a drive portion with a threaded exterior surface which is complementary to the threaded interior intermediate surface of the shell member. The slotted end of the shell member is adapted for insertion into an aperture in a planar member from one side of that member. The inner element is adapted for insertion into the shell member from the same side of that member, whereupon the conical portion forces the slotted end of the shell member to expand and engage the perimeter of the aperture in the planar member.

Abstract: An anchor for secure reception of a fastener such as a screw shank can be frictionally welded, by high-speed rotation of the anchor, to the structure upon which the fastener is mounted. The anchor is molded from frictionally meltable material, for example a typical engineering thermoplastic such as ABS resin. The anchor has a generally cylindrical body with an end face at one end defining a surface for frictional welding to the compatible structure. The end face has an aperture which receives the screw shank or the like. The cylindrical body has a cup-like configuration having a cavity formed therein extending from the end face to an open end at the opposite end of the cylindrical body. A cylindrical boss is formed within the cavity and extends from the aperture at an entrance end for receiving the fastener. The boss has a frangible cap covering the end of its bore opposite the entrance end.

Abstract: A sealing fastener includes an insert made of metal such as steel and a cap made of a non-ferrous and non-corrosive material such as aluminum. The cap is formed around and is captivated on the upper end portion of the insert by an impact extrusion process. The insert is formed with a head-retaining portion, a flange and a threaded shank. During impact extrusion, the cap is molded over the head-retaining portion and the top of the flange, around the peripheral edge of the flange and under the marginal portion of the underside of the flange. The upper side of the flange is formed with angularly spaced grooves and the outer edge of the flange is formed with scallops to help prevent the cap from turning relative to the insert when the fastener is tightened.

Abstract: The locking device is provided with a jaw for receiving a swinging pin or trunnion, e.g. on the side or tail board of a truck or lorry, as well as with a bolt for the jaw opening. It also has a pivotably mounted claw movable by the bolt by means of a cotter gear and this claw grasps said pin as soon as it is in the pivoting region of the claw and forces it into the jaw. The bolt is advanced synchronously with the claw movement. The swinging pin is held by the bolt with supporting of the claw in the jaw.

Abstract: An improved insert fastener for use in lightweight panels is described. The fastener has a flat circular head overlapping a hole in the panel. Integral with and depending from the head is a cylindrical body with a pair of radial flanges parallel to each other and to the head. The flanges are spaced apart from each other and the head. The edges of the flanges are serrated. A central threaded bore through the head and cylindrical body receives a bolt for holding auxiliary structures to the panel. Two holes, one on each side of the central bore, are present in the head to allow excess epoxy resin potting material to leave the hole in the lightweight panel.

Abstract: A two-piece plastic fastener comprising a body and a screw releasably secures a pair of panels together in spaced apart relationship. The body, which has a bore therethrough, comprises a body shank having a body head, outwardly extending, inwardly depressible, flexible locking tabs spaced from the body head, an external shoulder spaced from the tabs, and outwardly expandable walls spaced from the shoulder. The body shank also comprises, inside the bore, flexible screw thread engaging means and ramp means on the inside of the walls. The screw, which is insertable into the bore, comprises a screw head and a screw shank having a threaded portion and an unthreaded end portion. In use, the body shank is inserted into a hole in the first panel so that the latter is entrapped between the body head and the locking tabs. The body shank is then inserted into the hole in the second panel. The screw is axially inserted into the bore so that its threaded portion engages the thread-engaging means in the bore.