A chain has interconnected links each formed by at least one endlessly and continuously circularly woven sheath of tubular shape and circular cross section made of plastic warp yarns and plastic weft yarns surrounding a core. These plastic warp and weft yarns are made of filaments of high tensile strength with a fineness-related maximum tensile strength of at least 5 cN/dtex.

A textile connector comprises a woven element in the shape of a tubular ring and a yarn forming a plurality of loops arranged in the tubular ring. The loops provide a strength of the textile connector. A seam is formed by means of at least one yarn passing through the two ends of the woven element several times to close the tubular ring. The woven element is a tubular woven element defining a through hole from a first end to an opposite second end along a longitudinal axis. The first end is an outer end that overlaps the second end forming an inner end. The seam secures the outer end with the inner end and defines joins angularly offset from one another when observed in the longitudinal direction.

A cable 1 comprises a first thimble 2 and a second thimble 4, at least one yarn 6, and at least a first conductive fiber 8 for monitoring the cable 1. The yarn 6 extends from the first thimble 2 to the second thimble 4, turns around the second thimble 4, extends from the second thimble 4 to the first thimble 2, and turns around the first thimble 2. Each thimble holds a stack 9 of layers 10 of turns of the yarn 6. The first conductive fiber 8 is designed to signal the wear of the yarn 6 by breaking after a predetermined portion of the turns of the yarn 6 breaks. The first conductive fiber 8 is positioned at the first thimble 2 between the turns of the yarn 6 at less than 50% of the stack height h.

A cable 1 comprises a first thimble 2 and a second thimble 4, at least one yarn 6, and at least a first conductive fiber 8 for monitoring the cable 1. The yarn 6 extends from the first thimble 2 to the second thimble 4, turns around the second thimble 4, extends from the second thimble 4 to the first thimble 2, and turns around the first thimble 2. Each thimble holds a stack 9 of layers 10 of turns of the yarn 6. The first conductive fiber 8 is designed to signal the wear of the yarn 6 by breaking after a predetermined portion of the turns of the yarn 6 breaks. The first conductive fiber 8 is positioned at the first thimble 2 between the turns of the yarn 6 at less than 50% of the stack height h.

A sling manufacturing apparatus for constructing a synthetic sling having a cover and a core, includes a frame defining a longitudinal frame axis, a yarn feeder assembly associated with the frame, a drive roller connected to the frame, a tailstock movably mounted to the frame, an idler roller movably mounted to the tailstock, and an idler actuator secured to the tailstock. The drive roller is drivable to draw yarn from the yarn feeder assembly and the tailstock is movable relative to the frame substantially parallel to the longitudinal frame axis. The idler roller is movable relative to the tailstock parallel to the longitudinal frame axis. The idler actuator is configured to move the idler roller from a loading position spaced a first distance from the tailstock to a tensioned position spaced a second distance from the tailstock, wherein the first distance is greater than the second distance.

A cable 1 comprises a first thimble 2 and a second thimble 4, at least one yarn 6, and at least a first conductive fibre 8 for monitoring the cable 1. The yarn 6 extends from the first thimble 2 to the second thimble 4, turns around the second thimble 4, extends from the second thimble 4 to the first thimble 2, and turns around the first thimble 2. Each thimble holds a stack 9 of layers 10 of turns of the yarn 6. The first conductive fibre 8 is designed to signal the wear of the yarn 6 by breaking after a predetermined portion of the turns of the yarn 6 breaks. The first conductive fibre 8 is positioned at the first thimble 2 between the turns of the yarn 6 at less than 50% of the stack height h.

The invention provides a method and apparatus for easily and efficiently manufacturing a cable bead, which features excellent wire winding performance. In this method, an annular core is held by a core rotating means. Then a reel wound with a wire is revolved in one direction through the inside and the outside of the core by a reel revolving means by holding the reel wound with a wire alternately on one side and on the other side of the core. And a wire is wound helically around the core as the core is rotated in a circumferential direction in association with the revolving motion of the reel.

A cable 1 comprises a first thimble 2 and a second thimble 4, at least one yarn 6, and at least a first conductive fibre 8 for monitoring the cable 1. The yarn 6 extends from the first thimble 2 to the second thimble 4, turns around the second thimble 4, extends from the second thimble 4 to the first thimble 2, and turns around the first thimble 2. Each thimble holds a stack 9 of layers 10 of turns of the yarn 6. The first conductive fibre 8 is designed to signal the wear of the yarn 6 by breaking after a predetermined portion of the turns of the yarn 6 breaks. The first conductive fibre 8 is positioned at the first thimble 2 between the turns of the yarn 6 at less than 50% of the stack height h.

A method for manufacturing a strop (10) including a first eyelet (12a), a second eyelet (12b) and a slender central body (14). The strop comprises a core (16) surrounded by a tubular sheath (18) having a first stub (22a), a first hole (24a), a first inter-hole portion (26a), a second hole (28a), a central section (30), a third hole (28b), a second inter-hole portion (26b), a fourth hole (24b) and a second stub (22b). The method comprises a first priming step of fitting a belt (32) into the sheath (18), to form-a closed ring projecting from the first and second hole (24a, 28a) to create the first eyelet (12a) and projecting from the third and fourth hole (28b, 24b) to create the second eyelet (12b), a second connection step of connecting a reel (36) on the belt (32), and a third step of filling the sheath (18) driving the belt in rotation.

A coupling device comprising a flexible elongate member of at least one length of an at least twice wound rope and a pin configured to be removably engaged with the flexible elongate member, wherein the flexible elongate member is formed as a loop or a part loop completing the loop with the pin, wherein at least one winding of rope is of disparate length to at least one other winding.