序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
---|---|---|---|---|---|---|
201 | Multiple layer weaving | US13748762 | 2013-01-24 | US08839824B2 | 2014-09-23 | Tory M. Cross; Bhupesh Dua |
A weaving apparatus is provided herein for simultaneously weaving fine denier panels and coarse denier panels. The weaving apparatus includes a first warp beam that holds in tension a first number of small denier warp threads and a second warp beam that holds in tension a second number of large denier warp threads. The first number of small denier warp threads is greater than the second number of large denier warp threads. | ||||||
202 | Processing agents for synthetic fibers, aqueous liquids thereof, processing methods for synthetic fibers and synthetic fibers | US13944024 | 2013-07-17 | US08834735B2 | 2014-09-16 | Takayuki Sato; Yuichiro Murakami; Fumiyoshi Ishikawa; Koji Fujimoto |
A processing agent containing five specified kinds of components including esters and ethers as required components is used in the production or fabrication process of synthetic fibers such that superior spinning property is maintained and synthetic fibers with superior yarn quality and dyeing property can be obtained. Aqueous liquids of such processing agents, processing methods using such liquids and synthetic fibers obtained by such methods are also presented. | ||||||
203 | FLUID-RESISTANT TEXTILE FABRICS AND METHODS | US14131110 | 2012-06-29 | US20140220840A1 | 2014-08-07 | Bryan Edward Koene; Ruya Ozer |
Coating compositions which include a blend of a fluorochemical and a particulate additive comprising a bimodal size distribution of inorganic nanoparticles are provided. The bimodal distribution of inorganic nanoparticles may include a quantity of smaller nanoparticles having an average size distribution of between about 1 to about 15 nm, and a quantity of larger nanoparticles having an average size distribution of between about 40 to about 500 nm. The smaller and larger nanoparticles may be present in a ratio of the smaller sized particles to the larger sized particles of at least 1.2, with the total amount of nanoparticles being present in an amount of between about 0.1 to about 10 wt. % based on total composition weight. | ||||||
204 | CURABLE PREPREGS WITH SURFACE OPENINGS | US14135866 | 2013-12-20 | US20140174641A1 | 2014-06-26 | Mark ROMAN; Stephen J HOWARD; Jack D BOYD |
Curable prepregs possessing enhanced ability for the removal of gases from within prepregs and between prepreg plies in a prepreg layup prior to and/or during consolidation and curing. Each curable prepreg is a resin-impregnated, woven fabric that has been subjected to a treatment to create an array of openings in at least one major surface. Furthermore, the location of the openings is specific to the weave pattern of the fabric. | ||||||
205 | SHEARED WOOL WEAVING METHOD | US13840786 | 2013-03-15 | US20130261785A1 | 2013-10-03 | Nathan Crary; Zihao Dong |
A method of manufacturing an article of footwear includes providing a knitting machine having a processor programmed to cause the knitting machine to knit a wool pile fabric having a plurality of footwear components and simultaneously knitting wool fibers and a scrim to form the wool pile fabric including the footwear components. | ||||||
206 | METHOD OF MANUFACTURING A WOOL PILE FABRIC PRODUCT | US13840724 | 2013-03-15 | US20130256934A1 | 2013-10-03 | Stuart Jenkins; Nathan Crary |
A method of manufacturing a component for an article of footwear including providing a two-part mold, inserting a first material layer in the mold, pouring a polyurethane layer on the first material layer, placing a piece of a wool pile fabric on the polyurethane layer and closing the mold for a designated period of time for forming a wool pile fabric component such as a footwear insole. After the designated period of time the mold is opened and the molded wool pile fabric component is removed from the mold. | ||||||
207 | NATURAL WOOL PILE FABRIC AND METHOD FOR MAKING WOOL PILE FABRIC | US13838551 | 2013-03-15 | US20130255048A1 | 2013-10-03 | Nathan Crary; Stuart Jenkins; Stephen Martin; Zihao Dong; Jiqiu Zhang |
A method of making a sheared wool, deep pile fabric that closely resembles natural sheepskin fleece that includes forming a length of wool pile fabric having natural wool fibers on one side and a scrim on an opposing side and finishing the wool pile fabric as natural shearling. The finishing process includes polishing the wool fiber side of the pile fabric by guiding the length of pile fabric over one or more heated first polishing rolls, applying a sheepskin conditioning solution to the wool fiber side of the pile fabric, further polishing the wool fiber side of the pile fabric by guiding the fabric a plurality of times over one or more second heated polishing rolls, and cutting the wool fibers to a designated length. | ||||||
208 | RIP-STOP FABRIC WITH MECHANICAL STRETCH FIBERS | US13602745 | 2012-09-04 | US20130237110A1 | 2013-09-12 | Francisco J. Morales |
A ripstop fabric having multi-component polyester filament yarns interwoven into spun yarns in a ripstop pattern. | ||||||
209 | WOVEN MESH AND USES | US13800572 | 2013-03-13 | US20130196032A1 | 2013-08-01 | Ronald Hartley Ford; Stephen James Bright |
The present invention relates to a woven mesh. The woven mesh comprises polyester such as poly(ethylene terephthalate). The present invention also relates to associated uses and systems of the woven mesh. | ||||||
210 | Three-Dimensional Weaving System | US13748767 | 2013-01-24 | US20130190917A1 | 2013-07-25 | Tory M. Cross; Bhupesh Dua |
Different weaving materials, apparatuses, and methods are provided for producing woven textiles having different functional and aesthetic characteristics as compared to woven textiles produced using conventional methods. The different weaving materials comprise reactive materials or combined materials produced by an intermittent splicer. The different apparatuses include finishing devices for introducing organically-shaped lateral edges and interior apertures, and three-dimensional effectors for introducing three-dimensional aspects into a product as it is being woven. Weaving methods include simultaneously weaving fine denier panels and coarse denier panels. | ||||||
211 | Multiple Layer Weaving | US13748762 | 2013-01-24 | US20130186506A1 | 2013-07-25 | Tory M. Cross; Bhupesh Dua |
Different weaving materials, apparatuses, and methods are provided for producing woven textiles having different functional and aesthetic characteristics as compared to woven textiles produced using conventional methods. The different weaving materials comprise reactive materials or combined materials produced by an intermittent splicer. The different apparatuses include finishing devices for introducing organically-shaped lateral edges and interior apertures, and three-dimensional effectors for introducing three-dimensional aspects into a product as it is being woven. Weaving methods include simultaneously weaving fine denier panels and coarse denier panels. | ||||||
212 | SOCK FOR TREATMENT OF FOOT AND LEG WOUNDS, METHODS OF USE AND MANUFACTURE | US13737424 | 2013-01-09 | US20130178779A1 | 2013-07-11 | Marcus Duda |
The Improved Sock is made of yarns knitted into a foot and calf, with graduated compression on an individual's foot from the foot to the calf. The yarns can include wool and alpaca fibers. A substantial proportion of wool and/or alpaca are on the inside of the sock so as to be in direct contact with the skin and wound. The Improved Sock provides absorption and wicking of inflammatory mediators, bacteria and biofilm and necrotic exudate from the foot and leg. The Improved Sock has AgNP shapes electrostatically bonded to the yarn. At least 30% of the mass of the AgNP shapes attached to the fibers have a shape selected from the group consisting of truncated triangular plates (a triangle with the corners rounded off), triangular prisms, discs and combinations of two or more of them. The Improved Sock functions as a unique wound dressing with the sock in direct contact with the wound. | ||||||
213 | Clothing Wipe | US13679563 | 2012-11-16 | US20130102448A1 | 2013-04-25 | Ben Kusin; Charles C. Steward; Ronald C. Griepenburg; Edgardo Guce |
A clothing wipe includes an applicator having a novel odor neutralizing formulation deposited on one layer that is bonded to another layer to form a finger mitt. The applicator is removed from a pouch and rubbed against a person's clothing that may have accumulated a variety of smoke, food, and other odors during an outing. The odors clinging to the clothing are neutralized by contact with the odor neutralizing formulation. The applicator is stored in the pouch when not in use. A method of fabricating the clothing wipe in a web process is disclosed. | ||||||
214 | Woven Fiber Reinforcement Material | US12212110 | 2008-09-17 | US20090081913A1 | 2009-03-26 | Donald E. Wheatley |
A woven fiber reinforcement material includes a plurality of fiber bundles extending generally parallel to one another in a longitudinal direction and spaced laterally from one another by at least 1/32 of an inch. The fiber bundles are selected from non-elastic fibers. A first transverse thread extends in a continuous serpentine pattern on a first side of the plurality of fiber bundles. A second transverse thread extends in a continuous serpentine pattern on a second side of the plurality of fiber bundles and a pair of connecting threads diagonally cross the first and second transverse threads and secure the first and second transverse threads to the fiber bundles at a plurality of longitudinally spaced locations. | ||||||
215 | Wrinkle-resistant fabrics having desirable aesthetic characteristics, and method for making same | US10405559 | 2003-04-02 | US20030190430A1 | 2003-10-09 | David S. Klutz; Dale R. Williams; David Osbon; Kimila C. Sasser |
A fabric having good wrinkle resistance and a soft hand is described. A process for producing the fabric is also described. The process involves applying a softener to one side of the fabric and applying a wrinkle-reducing resin to the opposite side of the fabric using a foaming application method, such that the respective finishes are concentrated on the surface to which they were applied. Preferably, the softener is applied to the face of the fabric and the resin chemistry is applied to the back of the fabric. The resulting fabrics have hand characteristics comparable or superior to those of pure finished fabrics, while having wrinkle-resisting characteristics of typical resin-treated fabrics. | ||||||
216 | Film produced from a hot melt adhesive | US881195 | 1997-06-24 | US5883217A | 1999-03-16 | Harald Werenicz; Franz Maitz; Walter Nussbaumer; Ludwig Stingl; Franz Peter-Schmitz |
The present invention relates to polyurethane hot melt adhesive that are hardened by the action of moisture and which contain at least one reaction product from a component that contains NCO groups and an essentially linear hydroxypolyester, hydroxypolyether, and/or hydroxypolyetherester component. In addition, the present invention relates to a procedure for manufacturing a material that is permeable to water only in vapor form, this being in the form of a fiber material, in particular in the form of a web, which is joined to a polyurethane film, in which the fiber material is coated with a polyurethane material and subsequently the polyurethane material is hardened to form a water-vapor permeable film. The present invention also relates to a material that is permeable to water only in vapor form and which is in the form of a fiber material, in particular in the form of a web, that is bonded to a polyurethane film. According to the present invention, a hot melt adhesive with a segmented hydroxypolyester or an hydroxypolyether or an hydroxypolyetherester component is used for this purpose as polyurethane material. The hot melt adhesive according to the present invention can be applied directly or by a transfer technique to the fiber material and is hardened in only one step, by the action of moisture, to form a water-vapor permeable, but otherwise high quality water-proof membrane film. | ||||||
217 | Apparatus for applying liquids to a running web | US3701269D | 1971-05-07 | US3701269A | 1972-10-31 | WILCOX HAROLD R |
One or more liquids may be applied to a running textile web in flat tubular or open width form by three different cooperative and integrated systems. A drying chamber is associated with the apparatus for recovering solvent which may be included in certain liquid chemicals. The chemical applicating apparatus includes spray nozzles spaced transversely adjacent the path of travel of the web for spraying chemicals on the moving web. Guiding means are provided for selectively positioning the web with respect to the nozzles for optimum spraying position. A padding tank is also provided for passing the web directly through a bath of the chemical and a metering system including an applicator roll and an adjustable blade in different configurations is provided for applying precisely controlled amounts of chemicals to the web.
|
||||||
218 | Fiber conditioning article | US3698095D | 1970-10-20 | US3698095A | 1972-10-17 | GRAND PAUL S; FALIVENE PASQUALE JOSEPH; FURGAL HENRY P |
An article for conditioning fibrous materials by contact includes a form-retaining base and, held to an outside surface of the base in form-retaining relationship with it, a flexible material which has an outer surface thereof containing a fiber conditioning agent. Conditioning effected is preferably fabric softening and may take place in an automatic laundry dryer wherein damp laundry is brought into tumbling contact with the conditioning article while being dried. Such contact causes the transfer to the laundry of softening agent and the dried laundry is satisfactorily soft, non-static and unwrinkled, upon removal from the dryer. Also disclosed are packages for the articles wherein the formretaining base is a paperboard cylinder and is employed as a container for the flexible material coated with softening agent.
|
||||||
219 | Method for drying glass fiber forming packages | US3615310D | 1969-06-02 | US3615310A | 1971-10-26 | LONG DAVID M |
Glass fiber strand forming packages are dried in a heated chamber at subatmospheric pressure in order to condition the strand for subsequent fabrication into roving and yarn. The temperature employed is above freezing temperature but below the temperature at which harmful changes to the forming size on the strand occurs. The time for conditioning is substantially reduced and the tendency for the size to migrate is substantially reduced. The moisture content on the strand in a plurality of forming packages is reduced to a uniform low percentage from package to package as well as throughout each package.
|
||||||
220 | Fabric dampener | US3614880D | 1969-03-03 | US3614880A | 1971-10-26 | BAYNE ALEXANDER J; WINBERG PAUL N |
THIS INVENTION IS DIRECTED TO A DAMPENER FOR A CONTINUOUSLY ADVANCING FABRIC WEB AND INCLUDES A PAIR OF VERTICALLY ALIGNED ROLLS THAT CARRY AN ENDLESS MESH BELT THAT HAS ONE LOOP PARTLY IMMERSED IN WATER. A PAIR OF STRIPPER ROLLS REMOVE EXCESS WATER FROM THE PICK UP FLIGHT OF THE
BELT AND THE RETAINED WATER IS BLOWN AS A FINE MIST FROM THE BELT ONTO THE FABRIC WEB BY A MULTIPLICITY OF AIR JETS LOCATED ABOVE THE STRIPPER ROLLS. |