Pet nail caps cover pets' nails to prevent scratches on surfaces (e.g., hardwood and tiled flooring) and avoid injuries to themselves and others (e.g., pets' eyes and ears, human extremities) while not compromising pet's mobility but rather improving it. The treads on the caps' tips increase the coefficient of friction between the caps (i.e., individual pet's nails) and the hard-surface flooring improving traction and overall pet's mobility. Internal spirals allow the caps to twist onto pets' nails and stay securely attached. A rubber-like material of construction (e.g., thermoplastic elastomers, thermoplastic polyurethane) provides for cap's flexibility and durability.

This threaded fastening element (2) comprising a threading (14) extending along a central axis (A), the threading (14) having at least one screw thread having an apical angle decreasing gradually, continuously and monotonously, between a first apical angle (α1) and a second apical angle (α2) strictly smaller than the first apical angle. The threaded fastening element is a screw or a nut.

Pet nail caps cover pets' nails to prevent scratches on surfaces (e.g., hardwood and tiled flooring) and avoid injuries to themselves and others (e.g., pets' eyes and ears, human extremities) while not compromising pet's mobility but rather improving it. The treads on the caps' tips increase the coefficient of friction between the caps (i.e., individual pet's nails) and the hard-surface flooring improving traction and overall pet's mobility. Internal spirals allow the caps to twist onto pets' nails and stay securely attached. A rubber-like material of construction (e.g., thermoplastic elastomers, thermoplastic polyurethane) provides for cap's flexibility and durability.

Blind fasteners and methods of fastening are provided. A blind fastener comprises a sleeve and a mandrel. The sleeve is adapted for installation into a threaded bore in a structure. The sleeve comprises a head portion configured to receive a torque, a first sleeve end, a second sleeve end, an elongate portion extending intermediate the first sleeve end and the second sleeve end, and a cavity extending from the first sleeve end to the second sleeve end. The mandrel is at least partially disposed through the cavity of the sleeve. The mandrel comprises a first mandrel end disposed adjacent to the first sleeve end. The first mandrel end comprises an enlarged portion having a diameter greater than a diameter of the cavity. The elongate portion is configured to at least partially deform into threads of the threaded bore responsive to forcible contact between the enlarged portion and the sleeve.

A sleeve (20) for centering fasteners during the assembly of components such as facade elements on the substructure of a building envelope includes a sleeve body (23) and a connection bracket (25). The sleeve body (23) has a plurality of sleeve elements (21, 22) which are grouped around a central center axis A and are spaced apart from each other by gaps running in the sleeve longitudinal direction. At least a first (21) and a second (22) sleeve piece are connected to each other at an axial longitudinal end of the sleeve body (23) by a separable connection bracket (25), preferably the connection bracket is separable via predetermined breaking points. Such a sleeve is used in the construction of facades, wherein it is inserted into a pilot hole of a facade element, the connection bracket is broken off and a fastener is inserted into the sleeve. Driving the fastener centers the fastener in the sleeve and the sleeve is removed from the pilot hole.

An expansion screw based fastening device includes an expansion screw, an internally threaded member, and a sleeve. The expansion screw includes a head having a plurality of positioning protrusions on a bottom; and a threaded shank. The internally threaded member includes a nut, a constriction member formed with the nut, and an internally threaded hole through both the nut and the constriction member with the threaded shank threadedly passing through. The sleeve includes a fitting member and a moveable hollow member with the fitting member partially disposed therein, the moveable hollow member including a hole for receiving the nut. The fitting member includes positioning members on an outer surface and urging against an inner surface of the hole, and a through hole including a fastening member having threads, and a joining member.

This disclosure relates to a modular construction mat system wherein each individual mat is made of two layers to support heavy loads while providing stability and ground protection. In use the finished mats can then be adjoined to adjacent mats to complete a large mat system for roadways, walkways, and other support structures using a unique floating nut system to create a single firmly joined modular mat system.

A panel assembly can include a first panel having a peripheral side located between an upper and a lower surface of the first panel and a first opening. The panel assembly can also include a second panel having a second opening. An elongated insert can be coupled to the first panel, the elongated insert having a coupling side, where the first opening of the first panel can be sized and shaped to coupleably receive the elongated insert such that the coupling side is positioned proximal to the peripheral side. The panel assembly can also include a fastening insert, where the second opening of the second panel can be sized and shaped to receive the fastening insert. A fastener can be received by the fastening insert and the elongated insert, the fastener coupling the first panel to the second panel via the fastening insert and the elongated insert. Related methods for assembling the panel assembly are also provided.

The present invention relates to fasteners such as screwbolts in general and to anti-shake screwthreaded systems and anti-shake screwthreaded assemblies employing screwbolts in particular. As is universally known, in relation to screws and threaded fasteners, a thread comprise a continuous helical ridge formed on the inside (nut) or outside (screw) of a cylinder. An issue of concern for all types of screw fasteners is that if they rotate relative to a fastened item, they diminish the degree of fastening. Many methods of preventing a relative rotation between bolt and nut have been devised. The present invention seeks to provide an improved screwbolt system for use in engineering and construction. The present invention also seeks to provide a screwbolt for use as a fastener in harsh conditions of load and have a reduced tendency to unfasten. The present invention also seeks to provide a method of installing such screwbolts.

A sleeve (20) for centering fasteners during the assembly of components such as facade elements on the substructure of a building envelope includes a sleeve body (23) and a connection bracket (25). The sleeve body (23) has a plurality of sleeve elements (21, 22) which are grouped around a central center axis A and are spaced apart from each other by gaps running in the sleeve longitudinal direction. At least a first (21) and a second (22) sleeve piece are connected to each other at an axial longitudinal end of the sleeve body (23) by a separable connection bracket (25), preferably the connection bracket is separable via predetermined breaking points. Such a sleeve is used in the construction of facades, wherein it is inserted into a pilot hole of a facade element, the connection bracket is broken off and a fastener is inserted into the sleeve. Driving the fastener centers the fastener in the sleeve and the sleeve is removed from the pilot hole.