A facade panel screw for the optimized fastening of facade panel elements to a substructure has a head having a very large diameter, a subsequent, essentially cylindrical shaft section (22) extending along a central longitudinal axis (A) and a subsequent tip region (23). The shaft section (22) includes, as viewed from the head, a threadless underhead section (24), a stop collar (25) and a threaded section (28). The thread in a first part (26) of the threaded section (28) subsequent to the stop collar (25) has an outer diameter D.sub.r, which is attenuated compared to the thread in a second part (27) with outer diameter D.sub.n, over several convolutions, so that D.sub.r<D.sub.n. This threaded section 26 allows a controlled overwinding of the facade panel screw in use. A corresponding fastening arrangement includes a facade panel, a substructure for transferring the load to a building surface and the facade panel screw.

Self-sealing fasteners and associated building panels, systems, and methods are provided. In one aspect, a fastener includes an elongated fastener body with an external surface extending between the first end and the second end, and a coating material disposed on at least a portion the external surface. In another aspect, a fastener includes an elongated fastener body with an external surface extending between the first end and the second end, and a polymer annulus surrounding at least a portion of the external surface of the of the elongated fastener body at or adjacent the head of the fastener.

The present disclosure provides various embodiments of a winged threaded fastener primarily suited to be used to connect a wooden object to a metal object. The fastener includes a head, a shank, a helical thread formation extending from the shank, a first wing extending from the shank, and a second wing extending from the shank. In various embodiments, the wings are offset along the longitudinal axis of the shank with respect to each other and are angled with respect the longitudinal axis of the shank.

A facade panel screw for the optimized fastening of facade panel elements on a substructure has a head with very large diameter D.sub.K, a substantially cylinder cross-sectional shaft, which is at least partially provided with a thread (nominal diameter D.sub.S) and a conical tip comprising a tip angle . The thread extends continuously from the shaft to the tip. It is characterizing that the tip angle is 45+/10, the thread is embodied at least in a two-threaded manner, the head diameter D.sub.K is embodied at least twice as large as the nominal diameter D.sub.S; and the facade panel screw does not have a drill tip. Such a facade panel screw is used in a fastening arrangement, which comprises a load-bearing component (substructure) and a facade panel. Due to its design, the facade panel screw is able to simplify the fastening of the facade panel and to at least partially correct an inclined positioning in response to the installation.

A facade panel screw for the optimized fastening of facade panel elements on a substructure has a head with very large diameter D.sub.K, a substantially cylinder cross-sectional shaft, which is at least partially provided with a thread (nominal diameter D.sub.S) and a conical tip comprising a tip angle . The thread extends continuously from the shaft to the tip. It is characterizing that the tip angle is 45+/10, the thread is embodied at least in a two-threaded manner, the head diameter D.sub.K is embodied at least twice as large as the nominal diameter D.sub.S; and the facade panel screw does not have a drill tip. Such a facade panel screw is used in a fastening arrangement, which comprises a load-bearing component (substructure) and a facade panel. Due to its design, the facade panel screw is able to simplify the fastening of the facade panel and to at least partially correct an inclined positioning in response to the installation.

A fastening device for reducing the time required for insertion that includes an elongated shank portion extending longitudinally between a first and a second shank end; and a head portion arranged at the second shank end, wherein the head portion includes a drive arrangement configured and arranged for receiving a rotary driving force to drive the fastening device into at least one workpiece. The elongated shank portion includes a plurality of intertwined helical ridges (plural thread starts). Preferably, the tip portion is configured and arranged to create a hole and threads by softening the material of a workpiece. Additionally, a method for creating an assembly by attaching a first workpiece to a second workpiece via the use of such a fastening device.

A self-drilling screw includes a shank and at least one thread. The shank includes a self-drilling portion, a head portion spaced from the self-drilling portion along a longitudinal axis, and a straight rod portion between the self-drilling portion and the head portion. The thread is spirally formed on the straight rod portion and includes a plurality of thread convolutions. Each thread convolution is provided with three to eight recesses spaced apart circumferentially, and a screw thread portion is formed between two adjacent recesses. The recess features a recess length circumferentially, and the screw thread portion features a screw thread length circumferentially. The screw thread length is 25% to 200% of the recess length. The self-drilling screw can be driven into articles to be fastened quickly without loss of binding forces between the self-drilling screw and the articles.

A threaded fastener includes an elongated body having a first end and a second end, a first portion comprising a first helical thread, with the first helical thread including a crest, a root, and flank portions, and a second, tapered portion including a second helical thread. The second helical thread includes a crest, a root, a leading flank portion, and trailing flank portion, with the leading flank portion positioned closer to the second end of the elongated body than the trailing flank portion. A thread angle of the second helical thread is larger than a thread angle of the first helical thread, and the root of the second helical thread includes a root apex formed by the intersection of the trailing flank portion and the leading flank portion.

A jack screw-type fastener with a head defining an interior aperture with a Phillips pattern in the top and in communication with a central channel sized and shaped to receive a fastener therethrough for structurally reinforcing the window jamb of a window frame. The jamb adjuster includes a series of oversized and narrowly oriented threads relative to commercially available threaded fasteners (about 50% larger than average), frictionally engaging a greater ratio of the window frame wall depth than conventional. In use, the jamb adjuster is a self-tapping screw member that renders unnecessary a receiver, reducing component cost and structural degradation, and instead displacing a portion of the window frame material, for example vinyl, during insertion, causing a more structurally secure attachment to the window frame. The jamb adjuster also provides a more robust attachment mechanism for vital weather stripping than other fasteners or adhesive as known in the art.

A self-drilling, self-cleaning fastener for a panel includes a head having a top side and an underside. The head has a diameter. A shank depends from an underside of the head and has a diameter less than the diameter of the head. A knurled region is adjacent the shank. The knurled region has a diameter and a plurality of spiral formed knurls having a twist in a first direction. The knurls define a major circumference as measured around peaks of the knurls. A threaded region is adjacent the knurled region and has a diameter less than the diameter of the knurled region. The threaded region has a thread form having a twist in a second direction opposite the first direction. A driving point is at an end opposite the head.