A barrier cable coupler for coupling two lengths of barrier cable comprises a coupler body including a threaded inner surface, a first end, and a second end; a fixed retaining collar having an outer surface and being retained to the first end of the coupler body, the fixed retaining collar including a tapered inner surface; one or more fixed end wedges positioned within the tapered inner surface of the fixed retaining collar; a tensioning retaining collar having an outer surface, the tensioning retaining collar positioned at least partially within the second end of the coupler body and including a tapered inner surface; one or more tensioning end wedges positioned within the tapered inner surface of the tensioning retaining collar; and a tensioning nut including a threaded outer surface engaging the threaded inner surface of the second end of the coupler body and retaining the tensioning retaining collar therein.

The bungee fastener has a tapered chute that accepts a locking slider. A channel forms an opening in a side of the body thereby allowing passage of the slider through the channel. A plurality of slider teeth along a portion of the slider within the tapered chute may lock onto a bungee when the slider is slid into a locked position. The slider moves along the channel, thereby selectively narrowing the tapered chute with the slider teeth as the slider is slid into the locked position and enlarging the tapered chute as the slider is slid into the unlocked position. The bungee fastener may include a single slider or a plurality of sliders.

A cable railing system is provided that includes cables connected to two or more supporting structures secured to a surface, for example vertical railing posts on a deck. The ends of the cables may be fitted with lag screws allowing the cable to be securely attached to the supporting structures. The lag screws have external threads that are larger than the diameter of the body where rotating the head component of the lag screws drive the lag screws into the supporting structures. The lag screws have a head component with a central bore and body component with a hollow cavity and an ending point whereby the cable is inserted into the hollow cavity through the central bore and positioned at the ending point where it then can be crimped in place and then tightened by twisting the head component.

A cable railing system is provided that includes cables connected to two or more supporting structures secured to a surface, for example vertical railing posts on a deck. The ends of the cables may be fitted with lag screws allowing the cable to be securely attached to the supporting structures. The lag screws have external threads that are larger than the diameter of the body where rotating the head component of the lag screws drive the lag screws into the supporting structures. The lag screws have a head component with a central bore and body component with a hollow cavity and an ending point whereby the cable is inserted into the hollow cavity through the central bore and positioned at the ending point where it then can be crimped in place and then tightened by twisting the head component.

Disclosed are systems for securing a bend stiffener to a riser in an offshore energy production facility. In one system, the lower end of the bend stiffener has a magnet that repels a magnet in a clamp on the riser a distance below the bend stiffener. The magnets repel one another with a force during operation to decelerate falling and prevent contact between the clamp and the bend stiffener. Methods are provided for retrofitting a riser system by adding the magnets. In another system, the riser has an upper portion and a tapered portion immediately below the upper portion. The outer diameter of the tapered portion increases such that the tapered portion can be friction fit into the lower end of the bend stiffener in the event that the bend stiffener is forced down or free falls onto the riser.

A method for manufacturing a tension member, in particular for use in a belt or in a belt segment, having the steps of: preparing a tension member which has a plurality of tension member strands and filling at least some of the intermediate spaces between the tension member strands with a filling material at least at one open end of the tension member, wherein the tension member remains free of the filling material toward the outside.

A method for manufacturing a tension member, in particular for use in a belt or in a belt segment, having the steps of: preparing a tension member which has a plurality of tension member strands and filling at least some of the intermediate spaces between the tension member strands with a filling material at least at one open end of the tension member, wherein the tension member remains free of the filling material toward the outside.

Provided is a wedge clamp for anchoring an end of a steel wire for further enhancement in workability upon use.

A wedge clamp 1 for retaining a steel wire includes a first member 12 having a wedge shape and a second member 11 slidably fitting the first member 12 to restrain a steel wire by a pressure that generates based on the wedge shape of the first member 12, the wedge clamp 1 including an engaging portion (protrusion 124 and anchoring portion 113) enabling slidable fit between the first member 12 and the second member 11 while engaging the first member 12 and the second member 11.

Provided is a wedge clamp for anchoring an end of a steel wire for further enhancement in workability upon use.

A wedge clamp 1 for retaining a steel wire includes a first member 12 having a wedge shape and a second member 11 slidably fitting the first member 12 to restrain a steel wire by a pressure that generates based on the wedge shape of the first member 12, the wedge clamp 1 including an engaging portion (protrusion 124 and anchoring portion 113) enabling slidable fit between the first member 12 and the second member 11 while engaging the first member 12 and the second member 11.

A fastener is provided for receiving a cable. The fastener includes at least one through-going passageway for receiving the cable and at least one pawl like member that projects into the passage and is used for engaging the cable.