Patent application number | Description | Published |
20080282511 | Composite rope structures and systems and methods for terminating composite rope structures - A termination assembly for a composite rope structure comprising an end comprises a distal connection member and a proximal connection member. The distal connection member defines a first threaded surface and a working portion, where the working portion is adapted to be connected to a structure. The proximal connection member defines a second threaded surface, an internal surface, and a proximal opening. The first and second threaded surfaces are configured to engage each other to detachably attach the distal connection member and the proximal connection member. The internal surface of the proximal connection member is configured to engage the end of the composite rope structure to secure the composite rope structure relative to the proximal connection member. | 11-20-2008 |
20080282664 | Composite rope structures and systems and methods for making composite rope structures - A rope structure comprising a plurality of formed composite strands. Each of the formed composite strands comprises fiber material and matrix material. The fiber material within the matrix material is twisted. The shapes of the plurality of formed composite strands are predetermined to facilitate combination of the plurality of composite strands into the rope structure. | 11-20-2008 |
20080282666 | Composite rope structures and systems and methods for fabricating cured composite rope structures - A method of fabricating a composite rope structure comprising the following steps. Impregnated yarns comprising fibers within a resin matrix are fabricated at a first location. The impregnated yarns are transported from the first location to a second location. The impregnated yarns are dispensed at the second location. The resin matrix of the dispensed impregnated yarns is cured at the second location to obtain the composite rope structure. | 11-20-2008 |
20090301052 | SYNTHETIC ROPE FORMED OF BLEND FIBERS - A rope structure comprising a plurality of rope subcomponents, a plurality of bundles combined to form the rope subcomponents, a plurality of first yarns and a plurality of second yarns combined to form the bundles. In one embodiment, the first yarns have a tenacity of approximately 25-45 gpd and the second yarns have a tenacity of approximately 6-22 gpd. In another embodiment, the first yarns have a breaking elongation of approximately 2%-5% and the second yarns have a breaking elongation of approximately 2%-12%. | 12-10-2009 |
20100307124 | Wrapped yarns for use in ropes having predetermined surface characteristics - A rope comprising a plurality of yarns, where at least one of the plurality of yarns is a blended yarn comprising a plurality of first fibers and a plurality of second fibers. Aabrasion resistance properties of the second fibers are greater than abrasion resistance properties of the first fibers. A coefficient of friction of the second fibers is less than a coefficient of friction of the first fibers. The second fibers substantially define abrasion resistance and coefficient of friction characteristics of the at least one blended yarn. When the rope contacts a structural member, the first set of fibers of the at least one blended yarn substantially bear tension loads on the at least one blended yarn and at least a portion of the second fibers of the at least one blended yarn substantially lie between the set of first fibers and the structural member. | 12-09-2010 |
20120042768 | Rope Structures and Rope Displacement Systems and Methods for Lifting, Lowering, and Pulling Objects - A rope structure comprising a plurality of fibers combined to form a plurality of yarns which are in turn combined to form a plurality of strands. The plurality of strands are combined using a single braid process to form the rope structure defining a void space. At least one of the fibers, the yarns, and the strands are configured substantially to reduce a volume of the void space and thereby maintain a shape of the rope structure when the rope structure is under load. | 02-23-2012 |
20120131895 | Synthetic Rope Formed of Blend Fibers - A rope structure comprising a plurality of rope subcomponents, a plurality of bundles, a plurality of first yarns, and a plurality of second yarns. The rope subcomponents are combined to form the rope structure. The bundles are combined to form the rope subcomponents. The first yarns are formed of at least one material selected from the group of materials comprising HMPE, LCP, Aramids, and PBO and have a breaking elongation of approximately 2%-5%. The plurality of second yarns are formed of at least one material selected from the group of materials comprising polyolefin, polyethylene, polypropylene, and blends or copolymers of the two and have a breaking elongation of approximately 2%-12%. The first and second yarns are combined to form the bundles. | 05-31-2012 |
20120304614 | Wrapped Yarns For Use in Ropes Having Predetermined Surface Characteristics - A blended yarn comprises a plurality of first fibers and a plurality of second fibers. A coefficient of friction of the second fibers is greater than a coefficient of friction of the first fibers. Abrasion resistance characteristics of the second fibers are greater than abrasion resistance properties of the first fibers. A gripping ability of the second fibers is greater than a gripping ability of the first fibers. The plurality of second fibers are combined with the plurality of first fibers such that the first fibers extend along the length of the blended yarn and the second fibers do not extend along the length of the blended yarn at least a portion of the second fibers are engaged with and extend from the plurality of first fibers effectively to define surface characteristics of the blended yarn. | 12-06-2012 |
20130174719 | Rope Structures and Rope Displacement Systems and Methods for Lifting, Lowering, and Pulling Objects - A rope structure contains first and second sets of fibers. The first set of fibers is twisted together. The second set of fibers is twisted around the first set of fibers to form yarns. The first set of fibers is formed of a first material, the second set of fibers is formed of a second material, and elongation of the first set of fibers is different from elongation of the second set of fibers. Twists applied to the first and second fibers are such that loads on the rope structure are substantially evenly distributed across individual fibers. The yarns are combined to form strands in the form of a 3-strand rope. The strands are combined using a single braid process to form the rope structure defining a void space. The rope structure is formed such that lengths of fibers in the first and second sets are approximately the same. | 07-11-2013 |
20130333346 | Synthetic Rope Formed of Blend Fibers - A rope structure of the present invention comprises a plurality of first yarns and a plurality of second yarns. The first yarns are formed of at least one material selected from the group of materials comprising HMPE, LCP, Aramids, and PBO, have a breaking elongation of approximately 2%-5%, and have a tenacity of approximately 25-45 gpd. The second yarns are formed of at least one material selected from the group of materials comprising polyolefin, polyethylene, polypropylene, and blends or copolymers of the two, have a breaking elongation of approximately 2%-12%, and have a tenacity of approximately 6-22 gpd. The first and second yarns are combined to form rope sub-components. The rope sub-components comprise approximately 20-80% by weight of the first yarns. | 12-19-2013 |
20140000233 | Rope Structure with Improved Bending Fatigue and Abrasion Resistance Characteristics | 01-02-2014 |
20140230635 | Wrapped Yarns for Use in Ropes Having Predetermined Surface Characteristics - A blended yarn comprises a plurality of first fibers and a plurality of second fibers. A coefficient of friction of the second fibers is greater than a coefficient of friction of the first fibers. Abrasion resistance characteristics of the second fibers are greater than abrasion resistance properties of the first fibers. A gripping ability of the second fibers is greater than a gripping ability of the first fibers. The plurality of second fibers are combined with the plurality of first fibers such that the first fibers extend along the length of the blended yarn and the second fibers do not extend along the length of the blended yarn at least a portion of the second fibers are engaged with and extend from the plurality of first fibers effectively to define surface characteristics of the blended yarn. | 08-21-2014 |
20140250856 | Segmented Synthetic Rope Structures, Systems, and Methods - A rope structure has a plurality of link structures each defining first and second ends and at least one organizer member. Each first end comprises at least first and second bend portions, and each second end comprises at least third and fourth bend portions. The first end of a first one of the plurality of link structures and the second end of a second one of the plurality of link structures engages the at least one organizer member such that the first and second bend portions of the first end of the first one of the plurality of link structures are substantially parallel to each other and substantially perpendicular to the third and fourth bend portions of the second end of the second one of the plurality of link structures. | 09-11-2014 |
20140272409 | FIBER STRUCTURES, SYSTEMS, AND METHODS FOR FABRICATING ROPE STRUCTURES WITH IMPROVED LUBRICITY - A fiber structure for forming a rope structure has a base matrix of base fiber material and at least one lubricity portion of lubricity material. The lubricity material determines a lubricity of at least a portion of a surface of the fiber structure. | 09-18-2014 |
20140311118 | Splice Systems and Methods for Ropes - A rope structure or method of forming a rope structure comprises a rope comprising a plurality of strands. The rope comprises first and second splice locations, an eye region between the first and second splice locations, and a main region. The main region of the rope is located adjacent to the first splice location and in an opposite direction along the rope from the eye region. At least one of the strands is a selected strand. An extracted portion of the at least one selected strand is extracted from the rope and inserted into the rope such that a bridge portion of the at least one selected strand extends between the first and second splice locations and a diameter of the rope is substantially consistent in the main region. | 10-23-2014 |