One embodiment of the present invention is related to a harness system including a waist member and a leg loop member. The waist member is configured to encircle the naval region of the user and form a continuous loop. The leg loop member is configured to encircle the legs of the user. The leg loop member nay also be coupled to the waist member via a third loop. The leg loop member includes a continuous cord with at least two unbraided regions and at least one splice coupling. The unbraided regions are disposed between braided regions and are disposed on the leg loop member to correspond to the user's legs. The unbraided regions further comprise a plurality of separated strands oriented substantially parallel and equidistant to one another.

One embodiment of the present invention is related to a harness system including a waist member and a leg loop member. The waist member is configured to encircle the naval region of the user and form a continuous loop. The leg loop member is configured to encircle the legs of the user. The leg loop member nay also be coupled to the waist member via a third loop. The leg loop member includes a continuous cord with at least two unbraided regions and at least one splice coupling. The unbraided regions are disposed between braided regions and are disposed on the leg loop member to correspond to the user's legs. The unbraided regions further comprise a plurality of separated strands oriented substantially parallel and equidistant to one another.

A method of splicing a rope where the ends of the rope are taped and then cut, leaving a fresh face on both ends of the rope. A length of shrink-wrap tubing is placed over one of the rope ends and slid up out of the way. Next, epoxy is applied to the fresh cut ends, and the ends of the rope are brought together and clamped in a jig. The splice is wrapped in tape while the epoxy cures. Once cured, the tape is removed and the joint cleaned so that the diameter of the splice is the same thickness as the rope. Next, additional epoxy is added to the joint and the shrink-wrap tubing is slid over the splice. A heat gun is used to shrink the tubing. Any excess epoxy is removed with a small knife to complete the splice. The rope is then ready for use.

A method and associated system are provided for splicing a reserve nose wire to a running nose wire in a facemask production line, wherein the running nose wire is supplied continuously from a supply roll. Prior to depletion of the running nose wire, the supply roll is moved from an operating location to an intermediate location that is further from the production line while continuing to supply the running nose wire from the supply roll. The supply roll is then moved from the intermediate location back towards the production line while decelerating the supply roll to a stop, thereby creating an accumulation of the running wire functionally between the supply roll and the production line. With the supply roll at a stop, the running nose wire is continuously supplied from the accumulation and a leading end of a reserve roll of nose wire is spliced to the running nose wire at a location upstream of the accumulation where the running nose wire is at a standstill. The running nose wire is then cut at a location upstream of the splice such that the reserve nose wire and reserve roll become a new running nose wire and new supply roll in the production line.

A method and associated system are provided for splicing a reserve nose wire to a running nose wire in a facemask production line, wherein the running nose wire is supplied continuously from a supply roll. Prior to depletion of the running nose wire, the supply roll is moved from an operating location to an intermediate location that is further from the production line while continuing to supply the running nose wire from the supply roll. The supply roll is then moved from the intermediate location back towards the production line while decelerating the supply roll to a stop, thereby creating an accumulation of the running wire functionally between the supply roll and the production line. With the supply roll at a stop, the running nose wire is continuously supplied from the accumulation and a leading end of a reserve roll of nose wire is spliced to the running nose wire at a location upstream of the accumulation where the running nose wire is at a standstill. The running nose wire is then cut at a location upstream of the splice such that the reserve nose wire and reserve roll become a new running nose wire and new supply roll in the production line.

The present invention relates to a method and a device for aligning prefabricated cable ends (111, 121) of a cable strand (100), twisted in particular, with at least two cables (110, 120) in the correct rotational position, wherein the entire cable strand (100) is rotated by means of a rotary gripping device (30) on a section (101) which is connected to the cable ends and is rotated by means of a rotary gripping device (30) in particular, and each cable (110) that has already been aligned remains secured in its ideal rotational position in a section (112) of its free cable end (111), in particular untwisted, by means of a respective cable grip (10, 20).

The present invention relates to a method and a device for aligning prefabricated cable ends (111, 121) of a cable strand (100), twisted in particular, with at least two cables (110, 120) in the correct rotational position, wherein the entire cable strand (100) is rotated by means of a rotary gripping device (30) on a section (101) which is connected to the cable ends and is rotated by means of a rotary gripping device (30) in particular, and each cable (110) that has already been aligned remains secured in its ideal rotational position in a section (112) of its free cable end (111), in particular untwisted, by means of a respective cable grip (10, 20).

A fiber bundle which has a pieced part formed by jetting a pressurized fluid against a fiber-bundle overlap is formed either by directly superposing the ending part of a fiber bundle composed of many fibers on the beginning part of another fiber bundle composed of many fibers or by superposing the end part and the beginning part on a jointing fiber bundle composed of many fibers, whereby the many fibers of the fiber bundles are interlaced with one another to thereby piece up the fiber bundles. The pieced part comprises an opened-fiber part in which the fibers have been opened and interlaced-fiber parts respectively located on both sides thereof, each interlaced-fiber part being composed of a plurality of constituent interlaced parts located apart in the width direction for the fiber bundle.

A method of manufacturing a tire, a forming system for the tire, and the tire are provided. A preceding carcass cord from one feeding unit is used to form a carcass layer while being fed to a forming drum, and a leading edge portion of a next carcass cord is paid out from another feeding unit in advance. At a time when a predetermined length of the preceding carcass cord is fed, a splice mechanism is used to join the leading edge portion of the next carcass cord to the preceding carcass cord to make the leading edge portion of the next carcass cord continuous with the preceding carcass cord. Then, with the next carcass cord fed to the forming drum, formation of the carcass layer is continued to complete the carcass layer.

A method of manufacturing a tire, a forming system for the tire, and the tire are provided. A preceding carcass cord from one feeding unit is used to form a carcass layer while being fed to a forming drum, and a leading edge portion of a next carcass cord is paid out from another feeding unit in advance. At a time when a predetermined length of the preceding carcass cord is fed, a splice mechanism is used to join the leading edge portion of the next carcass cord to the preceding carcass cord to make the leading edge portion of the next carcass cord continuous with the preceding carcass cord. Then, with the next carcass cord fed to the forming drum, formation of the carcass layer is continued to complete the carcass layer.