Patent application number | Description | Published |
20090311456 | NON-WOVEN, SELF-WRAPPING THERMAL SLEEVE - A self-wrapping, non-woven sleeve for routing and protecting elongate members includes a non-woven elongate wall having an outer surface with opposite sides extending along a longitudinal axis of the sleeve. The sides self-wrap about the longitudinal axis to provide a tubular cavity in absence of an externally applied force. The sides are extendable away from one another under an externally applied force to expose the cavity for insertion of the elongate members, wherein the sides return to their self-wrapped configuration upon removal of the externally applied force. Further, an outer reflective layer is attached to the outer surface of the self-wrapping wall to provide enhanced thermal protection to the elongate members in the cavity. | 12-17-2009 |
20110275268 | NON-WOVEN, SELF-WRAPPING THERMAL SLEEVE AND METHOD OF CONSTRUCTION THEREOF - A self-wrapping, non-woven sleeve for routing and protecting elongate members and method of construction thereof is provided. The sleeve includes an elongate non-woven wall having opposite sides extending along a longitudinal axis of the sleeve. The sides are self-wrapping about the longitudinal axis to provide a tubular cavity. The sides are extendable away from one another under an externally applied force to expose the cavity for insertion of the elongate members, wherein the sides return to their self-wrapped configuration upon removal of the externally applied force. The wall includes discrete first regions of a material and discrete second regions of a material. The first and second regions of material are different and provide the wall with non-uniform physical properties. | 11-10-2011 |
20110312216 | EMI CONNECTOR FERRULE AND ASSEMBLY COMBINATION THEREWITH - A ferrule configured to couple a textile sleeve to an electrical has a cylindrical wall with an inner surface providing a cavity sized for receipt of an elongate electrical member therethrough. The cylindrical wall extends between a first end configured for attachment within a cavity of the textile sleeve and a second end having a radially outwardly extending annular rim configured for attachment to the electrical connector. The cylindrical wall has at least one radially outwardly extending annular bead adjacent the first end with the annular bead providing a radially inwardly facing annular pocket. At least one seal member is disposed in the cavity for sealed abutment with the inner surface and the elongate electrical member. | 12-22-2011 |
20120298818 | PROTECTION SHIELD POSITIONING ASSEMBLY AND POSITIONING DEVICE THEREFOR AND METHOD OF USE - A method and assembly for protecting a device connected to a wiring harness is disclosed. The assembly includes a protective shield having a bore for receiving the device and a positioning device. An elongated wiring harness extends from the device being protected and through the bore of the protective shield. The positioning device is formed having a band that surrounds a central space. At least one flexible, resilient finger extends radially inwardly from the band into the central space. At least one of the fingers forcibly engages the harness sleeve to maintain the positioning device and the protective shield in a predetermined protection position along the harness sleeve at least partially surrounding the device being protected. | 11-29-2012 |
20130052518 | FLEXIBLE GREEN NONWOVEN BATTERY COVER AND METHOD OF CONSTRUCTION THEREOF - An insulative nonwoven battery cover and method of construction thereof is provided. The cover includes a plurality of nonwoven sections bonded together to form a desired structural configuration. The nonwoven sections are mats of heat-settable textile fibers and green materials including natural fibers, recycled materials and/or waste stream materials. The mats are formed having a bonded seam of the melted heat-settable textile fibers such that the cover is provided with a circumferentially continuous wall. | 02-28-2013 |
20140220846 | Non-Kinking Self-Wrapping Woven Sleeve and Method of Construction Thereof - A wrappable textile sleeve and method of construction thereof is provided. The wrappable textile sleeve includes an elongate wall extending along a longitudinal axis between opposite ends with lengthwise extending edges extending parallel or substantially parallel with the longitudinal axis between the opposite ends. The wall is woven from lengthwise extending warp yarns and circumferentially extending weft yarns. The weft yarns form a plurality of discrete annular bands, with adjacent bands having weft yarns of different diameters to provide the wall with discrete enhanced hoop strength regions and with discrete enhanced flexibility regions, where the enhanced hoop strength and enhanced flexibility regions alternate in adjacent relation with one another. | 08-07-2014 |
20140262478 | EMI Shielding Textile Fabric, Wrappable Sleeve Constructed Therefrom and Method of Construction Thereof - A textile fabric, sleeve formed therefrom, and methods of construction thereof are provided. The fabric forms an elongate wall constructed from lengthwise extending warp yarns woven with widthwise extending weft yarns. At least some of the warp yarns are electrically conductive and have a first diameter. The weft yarns have a second diameter that is at least 25 percent less than the first diameter of the warp yarns. As such, the conductive warp yarns are brought into closer proximity with one another than if the weft yarns were the same diameter as the warp yarns. Accordingly, the ability of the fabric and sleeve formed therewith to provide shielding protection against EMI is enhanced. | 09-18-2014 |
20150377660 | PROTECTION SHIELD POSITIONING ASSEMBLY AND POSITIONING DEVICE THEREFORE AND METHOD OF USE - A method and assembly for protecting a device connected to a wiring harness is disclosed. The assembly includes a protective tubular shield and a positioning device, with the protective tubular shield having a bore for receiving the device at least partially therein. An elongated wiring harness extends from the device being protected and through the bore of the protective tubular shield. The positioning device is formed having a band and at least one flexible, resilient finger extending radially inwardly from the band. At least one of the fingers forcibly engages the wiring harness to releasably maintain the positioning device and the protective tubular shield in a protection position along the wiring harness at least partially surrounding the device being protected. | 12-31-2015 |
Patent application number | Description | Published |
20140027344 | METHODS AND SYSTEMS FOR UPGRADING HEAVY OIL USING CATALYTIC HYDROCRACKING AND THERMAL COKING - Methods and systems for hydroprocessing heavy oil feedstocks to form upgraded material use a colloidal or molecular catalyst dispersed within heavy oil feedstock, pre-coking hydrocracking reactor, separator, and coking reactor. The colloidal or molecular catalyst promotes upgrading reactions that reduce the quantity of asphaltenes or other coke forming precursors in the feedstock, increase hydrogen to carbon ratio in the upgraded material, and decrease boiling points of hydrocarbons in the upgraded material. The methods and systems can be used to upgrade vacuum tower bottoms and other low grade heavy oil feedstocks. The result is one or more of increased conversion level and yield, improved quality of upgraded hydrocarbons, reduced coke formation, reduced equipment fouling, processing of a wider range of lower quality feedstocks, and more efficient use of supported catalyst if used with the colloidal or molecular catalyst, as compared to a conventional hydrocracking process or a conventional thermal coking process. | 01-30-2014 |
20150361360 | APPARATUS AND SYSTEMS FOR UPGRADING HEAVY OIL USING CATALYTIC HYDROCRACKING AND THERMAL COKING - Methods and systems for hydroprocessing heavy oil feedstocks to form an upgraded material involve the use of a colloidal or molecular catalyst dispersed within a heavy oil feedstock, a pre-coking hydrocracking reactor, a separator, and a coking reactor. The colloidal or molecular catalyst promotes upgrading reactions that reduce the quantity of asphaltenes or other coke forming precursors in the feedstock, increase hydrogen to carbon ratio in the upgraded material, and decrease boiling points of hydrocarbons in the upgraded material. The methods and systems can be used to upgrade vacuum tower bottoms and other low grade heavy oil feedstocks. The result is one or more of increased conversion level and yield, improved quality of upgraded hydrocarbons, reduced coke formation, reduced equipment fouling, processing of a wider range of lower quality feedstocks, and more efficient use of supported catalyst if used in combination with the colloidal or molecular catalyst, as compared to a conventional hydrocracking process or a conventional thermal coking process. | 12-17-2015 |
Patent application number | Description | Published |
20120164201 | METHOD OF USING COLLOIDAL SILVER AND GOLD ANTI-MICROBIAL ITEMS TO CREATE CLEAN ZONES THEREWITH - Gelatinous foam, coated paper, fabric, and polymer materials combined with the Colloidal Silver or Gold additive to formulate products with anti-microbial surfaces which will then be installed through a process determined by the owner/operator of a multi-person/multi-use facility (with input from the end user) to create anti-microbial areas within the facility. Embodiments of the present invention can be formed from polymer materials with silver or gold additives for creating bacteria-free anti-microbial areas, known as a Clean Zoneā¢, in multi-use or multi-person facilities, such as gyms, hotels, hospitals, doctors' offices, food courts, restaurants, cruise ships, buses, and airplanes. The various embodiments include coated polymer sheets, polymer trays, bamboo and/or cotton towels, rugs and fabric, polymer foam, or polymer mats containing nano-silver or nano-gold in an scheduled and organized manner (with input/requests from the customer) to create permanent or semi-permanent anti-microbial surfaces. | 06-28-2012 |
20120164202 | ANTIMICROBIAL COLLOIDAL SILVER AND GOLD PRODUCTS AND METHOD OF MAKING SAME - Gelatinous foam, coated paper, fabric, and polymer materials combined with the Colloidal Silver or Gold additive to formulate products with antimicrobial surfaces. Some embodiments of the present invention can include gelatinous materials selected from a group consisting of thermosetting polymer, Styrene-Ethylene-Butadiene-Styrene polymer (SEBS), Thermoplastic Elastomer (TPE), and Polyurethane (PU) gelatin with and without a raised geometry on an outer surface and in any shape. The various embodiments include coated polymer sheets, polymer trays, bamboo and/or cotton towels and fabric, polymer foam, or polymer mats containing nano-silver or nano-gold in an scheduled and organized manner (with input/requests from the customer) to create permanent or semi-permanent anti-microbial surfaces. | 06-28-2012 |
20140205640 | ANTIMICROBIAL COLLOIDAL SILVER AND GOLD PRODUCTS AND METHOD OF MAKING SAME - Gelatinous foam, coated paper, fabric, and polymer materials combined with the Colloidal Silver or Gold additive to formulate products with antimicrobial surfaces. Some embodiments of the present invention can include gelatinous materials selected from a group consisting of thermosetting polymer, Styrene-Ethylene-Butadiene-Styrene polymer (SEBS), Thermoplastic Elastomer (TPE), and Polyurethane (PU) gelatin with and without a raised geometry on an outer surface and in any shape. The various embodiments include coated polymer sheets, polymer trays, bamboo and/or cotton towels and fabric, polymer foam, or polymer mats containing nano-silver or nano-gold in an scheduled and organized manner (with input/requests from the customer) to create permanent or semi-permanent anti-microbial surfaces. | 07-24-2014 |
Patent application number | Description | Published |
20150320542 | COMPOSITE LUMEN WITH REINFORCING TEXTILE AND MATRIX - A composite hollow lumen and a method for producing the lumen are provided. The lumen includes a tubular textile formed of yarns having a first tensile strength and a matrix material in which the tubular textile is embedded to form a conduit having a bore and a sidewall substantially impermeable to liquid. The matrix material has a second tensile strength that is lower than the first tensile strength. The method for producing a composite lumen includes selecting yarns having a first tensile strength, selecting an elastomeric matrix material having a second tensile strength that is lower that the first tensile strength, forming a tubular textile of the yarns, and embedding the tubular textile in the matrix material to form a conduit having a bore and conduit walls that are substantially impermeable to liquid. The elastomeric matrix material is a biodegradable or bioresorbable polyester. | 11-12-2015 |
20150344618 | WATER-MEDIATED PREPARATIONS OF POLYMERIC MATERIALS - A process is provided for preparing a polymeric material through a water-mediated polymerization process that includes combining an alcohol monomer and an aqueous solution in a vessel, adding an acid monomer to the vessel, removing water from the vessel and producing the polymeric material from the vessel, wherein the polymeric material comprises a polyester of the alcohol monomer and the acid monomer. The methods described herein are particularly suitable for polymerization of poly(glycerol sebacate). | 12-03-2015 |
20160046832 | COMPOSITION, METHODS AND DEVICES USEFUL FOR MANUFACTURING OF IMPLANTABLE ARTICLES - The application is directed to aqueous dispersible biodegradable compositions of esters which are the condensation reaction product of a polyol and a diacid which are within a matrix of hydrated polypeptide. The compositions are useful in additive manufacturing and other applications for use with implantable articles. In some embodiments, the ester in the compositions is the product of a glyercol-sebacic acid condensation reaction. | 02-18-2016 |
Patent application number | Description | Published |
20090237227 | Cutterbar failure detection system and method - A system and method for detecting impending failure of a component of a disc cutterhead of a cutterbar of a plant cutting machine, the components will generate at least one indicator of an impending failure thereof, utilizing a plurality of sensors distributed among the cutterheads, each of the sensors being configured and operable for sensing at least one of the indicators of impending failure and outputting signals representative thereof to a controller automatically operable for processing the signals, to enable identifying an individual location or one of the cutterheads in which an impending failure of one or more of the components is present, and outputting a signal representative thereof to a warning device. The indicators can include, but are not limited to, temperature, sound, and vibration. The controller is also operable for determining comparative threshold values for the indicators, to adapt to changing conditions and norms. | 09-24-2009 |
20110138763 | CONDITIONER ROLLS HAVING TREAD PATTERN COORDINATED WITH CUTTERBAR CROP DISCHARGE PATTERN - A conditioner roll tread pattern comprising a plurality of equally circumferentially spaced ribs separated by grooves extending across the axial length of the conditioner roll. The ribs are angled relative to the axial centerline, either with a fixed positive/negative angle or a continuously varying angle alternating between positive and negative extremes. The conditioner roll is configured to work in conjunction with a paralley disposed roll of similar tread pattern configuration, reversed end-for-end so that the ribs of one roll intermesh with the grooves of the adjacent roll. The location of the transition points at which the angle reverses along the axial length are coordinated with the transverse locations of converging and diverging crop flows being discharged from a forwardly disposed rotary disc cutterbar in a manner that results in a crop mat having more uniform thickness being discharged from the conditioner. | 06-16-2011 |
20150143791 | FLUID CIRCUIT FOR BALE EJECTION WITH RESTRICTED FLOW - The present invention relates to a hydraulic circuit mechanically linked to a panel and agricultural harvesters comprising the same. The hydraulic circuit of the present invention can be used to facilitate the transition of hydraulic states from a quick speed to a slow speed, when opening and closing the panel. The hydraulic circuit comprises a fluid stop valve comprising a restrictive orifice which, when narrowed, reduces the rate of pressurized fluid flow into a hydraulic actuator during the actuator's extension. The reduced flow of pressurized fluid into the hydraulic cylinder substantially reduces the speed at which the panel opens or closes. | 05-28-2015 |
20150216121 | FOLDABLE TRIPLE FRONT DISK MOWER FOR SELF-PROPELLED WINDROWERS - A foldable agricultural mower for preferable forward mounting on a tractor, the mower having a central cutterbar and at least one foldable wing cutterbar disposed on a first end of the central cutterbar. The foldable wing cutterbar is movable from an operable position that is generally in line with the central cutterbar to a folded position that is generally parallel to and spaced above the central cutterbar. A second wing cutterbar may be provided on the opposite end of the central cutterbar and similarly moveable between an operable position that is generally in line with the central cutterbar and a folded position that is generally parallel to and spaced above the central cutterbar, the second cutterbar being disposed above the first cutterbar when both are in the folded position. | 08-06-2015 |
Patent application number | Description | Published |
20100197977 | Allyl diacetate decomposition - A process for purifying an acetoxylation mixture is disclosed. Allyl acetate, water, acetic acid, and from 0.1 to 10 wt. % allyl diacetate are contacted in the vapor phase with a solid acidic catalyst under conditions effective to decompose the allyl diacetate and generate an intermediate stream comprising allyl acetate, water, acetic acid, and acrolein. Acrolein is then removed from the intermediate stream, preferably by distillation, to give an allyl acetate-containing product stream. Usually, this product stream is then hydrolyzed to produce allyl alcohol. The invention includes processes in which propylene first reacts with oxygen and acetic acid in the presence of a noble metal catalyst to generate the acetoxylation mixture. | 08-05-2010 |
20110152568 | Allyl acetate purification - A process for purifying allyl acetate is disclosed. An acetoxylation mixture is distilled at elevated pressure to remove propylene and generate a first bottoms mixture comprising allyl acetate, acetic acid, acrolein, allyl diacetate, and 3-acetoxypropionaldehyde. The first bottoms mixture is flash vaporized, and the resulting vapor is contacted with a solid acidic catalyst under conditions effective to decompose allyl diacetate and 3-acetoxypropionaldehyde. The flashed product, which comprises allyl acetate, acetic acid, and acrolein, is then distilled to remove acrolein and generate a second bottoms mixture comprising allyl acetate and acetic acid. The second bottoms mixture can be used to manufacture allyl alcohol. | 06-23-2011 |