Class / Patent application number | Description | Number of patent applications / Date published |
057236000 | Plied | 24 |
20090308047 | Sewing thread - An improved sewing thread and method of making it where at least one strand of spun yarn is composed of 100% staple fibers and has a high level of single twist that is equal to or greater than 4 more turns per inch than that of the ply twisted final product. | 12-17-2009 |
20110047957 | CONDUCTIVE YARN AND CLOTH CONTAINING THE SAME - A conductive yarn and a cloth containing the same are revealed. A plurality of fibers is wound with a heating element in a spiral form so as to form a yarn with electrical conductivity and flexibility. The conductive yarn is used as a thread in a first direction while regular yarns with conductive metal wires arranged at the two sides thereof are used as threads in a second direction. Thus the threads are woven into a cloth that generates heat while being conducted with electricity. Thereby the cloth can be made into mattress, curtains, textile wall coverings, oversleeves, knee braces, waist supports, foot pads, seat cushions, and carpets etc so as to replace various heating equipment. | 03-03-2011 |
20110162338 | YARN - A yarn which is configured by using expanded graphite and PTEE is provided while improving the yarn so that the expanded graphite functioning as a core member is not exposed and it can be simply produced. | 07-07-2011 |
057237000 | Cabled or cord type (i.e., plied plies) | 14 |
20090282801 | LINE STRUCTURE FOR MARINE USE IN CONTAMINATED ENVIRONMENTS - The present invention may be embodied as a line structure for use as a mud line assembly. In this case, the line structure comprises a plurality of strands, and each of the strands comprises a core portion, a jacket portion, and a barrier portion. The barrier portion is arranged between the core portion and the jacket portion to inhibit movement of contaminate material into the core portion. | 11-19-2009 |
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 |
20100064654 | HIGH-SECURITY CABLE - A high-security cable is provided, wherein the high-security cable is capable of achieving a smoothing of a work-to-break energy curve. The high-security cable is manufactured of a mixture of plastic yarns or of plastic yarns and metal wires, wherein the cable comprises a first constituent part of untwisted or twisted yarns, or untwisted or twisted yarns and metal wires, a second constituent part of doubled yarn, the doubled yarn manufactured of plastic yarns or of plastic yarns and metal wires, and a third constituent part of cord manufactured from the doubled yarns, wherein the doubled yarn is manufactured from plastic yarns or of plastic yarns and metal wires. The high-security cable can be used as a safety arrester cable, and can also be used to form a netting to serve as safety arrester netting or falling-rock protection netting. | 03-18-2010 |
20100236211 | RUBBER-PRODUCT-REINFORCING STEEL CORD AND METHOD FOR MANUFACTURING THE SAME - A single-layered rubber-product-reinforcing steel cord with good rubber penetration properties, excellent fatigue resistance, and small low-load stretch is obtained. All of wires | 09-23-2010 |
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 |
20110000179 | Resin-Impregnated, Structural Fiber Rope - A resin-impregnated, structural fiber rope includes a plurality of tows disposed in a bundle, each of the plurality of tows including a plurality of structural fibers, and uncured polymeric resin impregnated into the bundle. Each of the plurality of structural fibers defines an angle with respect to a central axis of the rope of no more than about 10 degrees. | 01-06-2011 |
20120011823 | HIGH ELONGATION STEEL CORD WITH PREFORMED STRANDS - A steel cord ( | 01-19-2012 |
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 |
20120233976 | WIRE ROPE - A wire rope includes a rope body having a plurality of strands that are twisted, each strand including a plurality of wires. A gap between the strands of the rope body is filled with a first material that differs from a material that makes up the plurality of wires. The first material is exposed from the gap between the plurality of strands at a surface of the rope body, to define a first-material spiral portion that is spirally formed around an axial line of the rope body is formed at the surface of the rope body. | 09-20-2012 |
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 |
20150308042 | Rope Structure with Improved Bending Fatigue and Abrasion Resistance Characteristics - A rope structure adapted to engage a bearing structure while under load comprises a plurality of fibers, a matrix, and lubricant particles. The plurality of fibers is adapted to bear the loads applied to the ends of the rope structure. The matrix surrounds at least a portion of some of the plurality of fibers. The lubricant particles are supported by the matrix such that at least some of the lubricant particles are arranged between at least some of the fibers to reduce friction between at least some of the plurality of fibers and at least some of the lubricant particles are arranged to be between the bearing structure and at least some of the plurality of fibers to reduce friction between the bearing structure and at least some of the plurality of fibers. | 10-29-2015 |
20160145796 | HIGH-STRENGTH RIGGING AND PREPARATION METHOD THEREOF - The invention provides a high-strength rigging and a preparation method thereof. The method at least comprises the following step: preparing a body of the high-strength rigging from an ultra-high molecular weight polyethylene thin film or strip. The high-strength rigging at least comprises the body prepared from the ultra-high molecular weight polyethylene thin film or strip. The invention replaces traditional ultra-high molecular weight polyethylene fibers with the UHMW-PE thin film or strip to prepare the rigging, and the obtained rigging has one or more of the advantages of good structural integrity, simple preparation process, high production efficiency, high strength, high strength utilization ratio, light weight, good flexibility, environmental friendliness and the like. | 05-26-2016 |
20160376733 | HYBRID TIRE CORD AND METHOD FOR MANUFACTURING THE SAME - Disclosed are a hybrid tire cord, which can be easily manufactured and has more uniform physical properties, and improved strength and fatigue resistance, and a method for manufacturing the same. The hybrid tire cord includes a nylon primarily twisted yarn and an aramid primarily twisted yarn, wherein the nylon primarily twisted yarn and the aramid primarily twisted yarn are secondarily twisted together, and after untwisting of the secondary twisting of the hybrid tire cord having a predetermined length, a length of the aramid primarily twisted yarn is 1.005 to 1.025 times a length of the nylon primarily twisted yarn. | 12-29-2016 |
057238000 | Composite | 7 |
20090013662 | Polyester combined-filament yarn and woven or knitted fabric comprising it - A polyester combined-filament yarn having an excellent stretch property and a bathochromic effect, as well as uniformity of apparent dyed color density, comprises two different multifilament components (A) and (B), wherein the multifilament component (A) comprises polyester filaments composed of polyethylene terephthalate (PET) polymer, a metal-containing phosphorus compound (a) and an alkaline earth metal compound (b), and a conjugate multifilament component (B) comprises side-by-side or eccentric core-sheath conjugate polyester filaments composed of two mutually different polyester resins (at least one of which is polytrimethylene terephthalate resin), the mass ratio (A)/(B) of components (A) and (B) is in the range of 80/20 to 50/50. Woven or knitted fabrics comprising the combined-filament yarn are useful for women's and men's fashion apparel and black formals. | 01-15-2009 |
20090173054 | COMPOSITE COTTON AND HEMP YARN AND METHOD FOR MAKING THE SAME - A composite hemp and cotton yarn is formed by blending hemp fibers with cotton fibers which have been regenerated from waste cotton material such as trimmings and cuttings from the apparel manufacturing industry. The fibers are cleaned and blended, then carded to align the fibers into strands. Depending on the size and texture of the desired yarn, the fibers are stretched and drawn into slivers prior to spinning to join the fibers together. The hemp fibers are up to three time longer than the regenerated cotton fibers, so that the hemp fibers overlap and braid onto the regenerated cotton fibers during spinning. The resultant yarn is stronger and more absorbent than yarns made solely out of regenerated cotton fibers or a blend of cotton and acrylic or cotton and polyester fibers. | 07-09-2009 |
20090282802 | CARBON NANOTUBE YARN, THREAD, ROPE, FABRIC AND COMPOSITE AND METHODS OF MAKING THE SAME - There is disclosed a material comprising an assembly of at least one spun yarn substantially comprising carbon nanotubes, a majority of which are longer than one millimeter, such as longer than one centimeter, chemically interlinked one to another, and arranged in the morphology of spiral configurations. The disclosed materials may take the form of a yarn, thread, rope, or fabric. There are also disclosed composite materials constructed from the disclosed materials. | 11-19-2009 |
20090320435 | Fiber Strand and Implantable Supporting Body Having a Fiber Strand - The invention relates to a fiber strand ( | 12-31-2009 |
20100132327 | SEWABLE FIRE RESISTANT THREAD - A sewing thread comprising a first yarn that is a filament yarn made or a fire resistant polymer and a second yarn that is a synthetic and/or natural yarn. The sewing thread may also contain a third yarn that is a synthetic and/or natural yarn. The first, second, and third yarns each have a first twist in the same direction. The first, second, and third yarns are then combined to form the sewing thread using a second twist which is in the opposite direction of the first twist. No bonding agent is used in the sewable, fire resistant thread. | 06-03-2010 |
20140237983 | Unbalanced Hybrid Cords and Methods for Making on Cable Cording Machines - A hybrid cord formed from a plurality of component plies wherein at least one of the plies has a length that is from 1 to 50 percent longer than the other plies and a method of providing a cord with predetermined twist and component ply lengths. | 08-28-2014 |
20160047069 | HYBRID CORD CONSISTING OF AT LEAST TWO MULTIFILAMENT YARNS TWISTED TOGETHER - A hybrid cord of at least two multifilament yarns twisted together is described, where the first yarn is a viscose multifilament yarn and the second yarn is a non-metallic multifilament yarn composed of a material that is not identical to the first multifilament yarn. The viscose multifilament yarn is conditioned in the standard climate in accordance with DIN EN ISO 139-1:2005, and has a yarn linear density <1100 dtex and a breaking tenacity of ≧45 cN/tex. The hybrid cord has a cord linear density of ≦3000 dtex. | 02-18-2016 |