A method is disclosed of splicing together two rope lengths each of which is made up of a plurality of strands individually covered with thermoplastic material. Each alternate strand of each rope length is unwound back to a predetermined point and one of the strands of the other rope length is wound in its place back to that point. This process is repeated for each of the other strands, with the respective points at which the winding and unwinding process is terminated being spaced apart along the length of the splice with respect to each other. At each of these points, the end regions of the two strands of each pair at that point are placed together and then bonded together by means of their coverings of thermoplastic material. An outer covering of thermoplastic material may then be placed over the entire splice.
The present invention relates to spliced, braided, cords having a nearly constant cross-section along the cord and at the location of the splice. The invention also relates to a splicing process.
Method to make a splice in a laid rope construction containing at least two strands includes splitting one end of the laid rope into a first part having a first number of strands and a second part having a second number of strands, then tucking the first part of the first rope from a first direction into an opening in the laid rope, and thereafter tucking the second part into the opening from an opposite direction. The first and second parts are tucked at least 3 times into additional openings being separated from one another such that the first part and the second part cross over at least once all the strands of the laid rope and leave the second rope at the last opening.
A line splice has two lengths of fibrous rope that have multiple strands and interstices. The two lengths are held adjacent to each other by a plastic encapsulate that both surrounds the two rope lengths and fills the interstices. In forming the splice a two part polyurethane complex plastic is injected into the mold to create an exothermic reaction and heat sufficient to cause the plastic to flow both inside and outside the two lengths of fibrous rope.
A metal strand comprising at least two filaments. At least one filament is interrupted, providing a filament end, which is fixed to the uninterrupted filaments of the strand using a fixing substance, preferably a soldering substance. Such strand can be used to provide, e.g. cords, rubber, or polymer reinforcement of tires and belts such as elevator or timing belts, hoisting or elevator ropes, control cables, or suspension rope.
A twisted rope for use in rigging systems that includes a differently colored yarn positioned within at least one strand. As the rope is worn, the differently colored yarn will become exposed, thereby serving as a visual indicator of wear to the rope. A plastic strip printed with identifying information about the rope is placed within the fibers of the rope during manufacture may also be positioned with a strand of the twisted rope. A user can simply unravel one end of the rope and read the information printed on the strip to determine, for example, the composition of the rope, when the rope was manufactured, the load-bearing characteristics of the rope, and who was the rope manufacturer.
