Patent application number | Description | Published |
20120153682 | Single Piece Vehicle Rocker Panel - A vehicle rocker panel is provided that is extruded as a single piece. As extruded, the rocker panel may include one or more interior reinforcing walls as well as interior and exterior design features. | 06-21-2012 |
20120169023 | Vehicle Front Shock Tower - A front structure for a vehicle is provided, the structure including a single piece shock tower and an upper control arm, where the front coupling of the upper control arm is attached to the shock tower at a location directly above a corresponding surface of the shock tower such that the front coupling is exposed from above, and where the rear coupling of the upper control arm is attached to the shock tower at a location directly below a corresponding surface of the shock tower such that the rear coupling is unexposed from above. | 07-05-2012 |
20120169089 | Rear Vehicle Torque Box - A rear structure for a vehicle is provided, the structure including (i) a pair of single piece rear torque boxes; (ii) a pair of rocker panels mechanically coupled to the rear torque boxes; (iii) a pair of rear rails mechanically coupled to the rear torque boxes; and (iv) at least one cross-member interposed between and mechanically coupled to the rear torque boxes. | 07-05-2012 |
20120175898 | Bumper Mounting Plate for Double Channel Front Rails - A front structure for a vehicle is provided, the structure including (i) a pair of front rails (i.e., front left hand rail and front right hand rail) spaced apart in a widthwise direction with each rail extending lengthwise, and where each rail is comprised of a polygonal-shaped upper hollow channel and a polygonal-shaped lower hollow channel with the upper and lower channels sharing a common wall; and (ii) a pair of bumper mounting plates, where one bumper mounting plate is interposed between the end portion of each channel of each rail and the vehicle's bumper, and where each bumper mounting plate aligns the upper rail channels with the vehicle's bumper while transferring impact loads to both the upper and lower rail channels. | 07-12-2012 |
20120175899 | Front Rail Reinforcement System - A front structure for a vehicle is provided, the structure including (i) a pair of front rails (i.e., front left hand rail and front right hand rail) spaced apart in a widthwise direction with each rail extending lengthwise, where one end portion of each rail is mechanically coupled to the vehicle's bumper and the other end portion of each rail is mechanically coupled to a torque box, and where each rail is comprised of a polygonal-shaped upper hollow channel and a polygonal-shaped lower hollow channel, and where the upper and lower channels share a common wall; and (ii) a pair of rail reinforcement members, where one rail reinforcement member is mechanically mounted within each front rail, and where a plurality of features corresponding to each reinforcement member determines how the rails react to front impact loads. | 07-12-2012 |
Patent application number | Description | Published |
20080241226 | Methods and Kits For Administering Probiotics - Methods for administering probiotics comprising the steps of: administering a loading dose of a loading probiotic for a loading time period; and administering a dose of a botanical and/or additional materials for the loading time period are disclosed. The methods also include administering a maintenance dose of a maintenance probiotic, and/or a botanical and/or an additional material for a maintenance time period. Also disclosed are kits for use in administering probiotics. | 10-02-2008 |
20100183559 | BIFIDOBACTERIUM LONGUM - The multiple embodiments described herein comprise the genome of a probiotic | 07-22-2010 |
20130115317 | Method for Identifying Pre-Biotics and Compositions Containing the Same - A method for indentifying test agents that exhibit prebiotic activity on companion animal skin commensal microorganisms and dermatological compositions that include such agents. The method includes providing a test culture of a test agent, a companion animal skin commensal microorganism and a minimal carbon medium. The method provides a time efficient and cost effective way to predict in vivo prebiotic activity of a test agent on skin commensal microorganisms. | 05-09-2013 |
20130115610 | METHOD OF IDENTIFYING PREBIOTICS AND COMPOSITIONS CONTAINING THE SAME - A method for identifying test agents that exhibit prebiotic activity on human skin commensal microorganisms and compositions that include such agents. The method includes providing a test culture of a test agent, a human skin commensal microorganism and a minimal carbon medium. The method provides a time efficient and cost effective way to predict in vivo prebiotic activity of a test agent on skin commensal microorganisms. | 05-09-2013 |
20130115648 | METHOD OF IDENTIFYING PREBIOTICS AND COMPOSITIONS CONTAINING THE SAME - A high-throughput, tiered screening method of indentifying test agents that exhibit prebiotic activity on human skin commensal microorganisms and cosmetic compositions that include such agents. The method includes determining the metabolite level of a culture and comparing the metabolite level to a control value. The assay further comprises performing a plate count using the culture when the metabolite level of the culture is greater than its corresponding control value. The plate count results are compared to another control value, and the test agent is identified as a prebiotic agent when the number of colonies present in the plate count assay of the culture is greater than the second control value. | 05-09-2013 |
20140072533 | METHOD OF MAKING COSMETIC COMPOSITIONS CONTAINING A PREBIOTIC - A method for indentifying test agents that exhibit prebiotic activity on human skin commensal microorganisms and cosmetic compositions that include such agents. The method includes providing a test culture of a test agent, a human skin commensal microorganism and a minimal carbon medium. The method provides a time efficient and cost effective way to predict in vivo prebiotic activity of a test agent on skin commensal microorganisms. | 03-13-2014 |
20150202136 | TOPICAL USE OF A SKIN-COMMENSAL PREBIOTIC AGENT AND COMPOSITIONS CONTAINING THE SAME - The topical use of a skin commensal prebiotic to improve the health of the skin microbiome, thereby potentially improving the condition and/or appearance of the skin, and topical cosmetic compositions that include the skin commensal prebiotic. The topical cosmetic compositions may include a dermatologically acceptable carrier and an effective amount of prebiotic, and may be used in conjunction with one or more oral or topical prebiotics, probiotics and/or probiotic lysates. | 07-23-2015 |
20150209202 | DISPOSABLE ABSORBENT ARTICLES COMPRISING SKIN HEALTH COMPOSITION(S) AND RELATED METHODS - The present disclosure describes disposable absorbent article(s) comprising a skin health composition effective for treating bacteria, including the bacteria associated with diaper rash. | 07-30-2015 |
20150209272 | SKIN CARE WIPES COMPRISING ADDED NATURAL ANTIBACTERIAL AGENTS - A wet wipe product including a fibrous and porous substrate material combined with an aqueous personal care lotion, the lotion including a preservative and an added bacteriophage composition, and methods for making the same, are disclosed. The bacteriophage composition may include one or more bacteriophages that are selected to be effective against one or more respective bacteria strains. | 07-30-2015 |
20150374607 | TOPICAL USE OF A SKIN-COMMENSAL PREBIOTIC AGENT AND COMPOSITIONS CONTAINING THE SAME - A topical cosmetic composition that includes a dermatologically acceptable carrier and an effective amount of a skin commensal prebiotic to improve the health of the skin microbiome, thereby potentially improving the condition and/or appearance of the skin. The topical cosmetic compositions may be made by identifying a potential skin commensal prebiotic agent using a first in vitro assay; confirming the prebiotic potential of an identified prebiotic agent with a second in vitro assay or an in vivo assay; and mixing a confirmed prebiotic agent from and a dermatologically acceptable carrier to form a topical cosmetic composition. | 12-31-2015 |
Patent application number | Description | Published |
20080236722 | Fibrous product and method and apparatus for making the product - A nonwoven fibrous insulation product has at least a bi-modal fiber diameter distribution designed to provide the product with selected thermal insulating and physical performance properties that are affected by fiber diameter such as rigidity and recovery properties. The product is made by: forming two or more fiber groupings that each have a selected fiber diameter distribution with a selected mean fiber diameter wherein the selected fiber diameter distributions of the fiber groupings differ from each other. The fibers of the fiber groupings are intermingled and entangled together in selected percentages by weight to form a product with a selected density and thickness that exhibits selected product performance properties based on the properties of the fiber groupings and the relative percentages by weight of the fiber groupings. | 10-02-2008 |
20110167875 | FIBROUS PRODUCT AND METHOD AND APPARATUS FOR MAKING THE PRODUCT - A nonwoven fibrous insulation product has at least a bi-modal fiber diameter distribution designed to provide the product with selected thermal insulating and physical performance properties that are affected by fiber diameter such as rigidity and recovery properties. The product is made by: forming two or more fiber groupings that each have a selected fiber diameter distribution with a selected mean fiber diameter wherein the selected fiber diameter distributions of the fiber groupings differ from each other. The fibers of the fiber groupings are intermingled and entangled together in selected percentages by weight to form a product with a selected density and thickness that exhibits selected product performance properties based on the properties of the fiber groupings and the relative percentages by weight of the fiber groupings. | 07-14-2011 |
20120077135 | METHODS AND APPARATUS FOR RECYCLING GLASS PRODUCTS USING SUBMERGED COMBUSTION - A method for recycling glass mat waste, wound rovings, and other products includes providing a source of glass mat, or a plurality of rovings, for example on a roll, and routing the glass mat or rovings into a submerged combustion melter. An unwind system and a pair of powered nip rolls, powered conveyors, or other arrangement may work in combination to provide a substantially consistent rate of material into the melter. The melter may operate under less than atmospheric pressure to avoid fumes escaping the melter. A slot in the melter allows ingress of the glass mat or rovings into the melter, and a glass mat former such as a folder may be used to ensure that the mat fits through the slot. Alternatively, the glass mat may be cut by a slitter prior to entering the slot. | 03-29-2012 |
20130086949 | BURNER APPARATUS, SUBMERGED COMBUSTION MELTERS INCLUDING THE BURNER, AND METHODS OF USE - Apparatus includes a first and second conduits configured to form an annulus between them. An adjustable structure includes a body having an upper surface, a lower surface, and a circumferential surface abutting a portion of the internal surface of the second conduit. The structure is adjustable axially in relation to and removably attached to the first conduit via a hub. The hub defines a central passage for fuel or oxidant. The body has one or more non-central through passages configured such that flow of an oxidant or fuel therethrough causes the fuel or oxidant to intersect flow of fuel or oxidant exiting from the central passage in a region above the upper surface of the body. | 04-11-2013 |
20130086951 | SYSTEMS AND METHODS FOR GLASS MANUFACTURING - Submerged combustion systems and methods of use to produce glass. One system includes a submerged combustion melter having a roof, a floor, a wall structure connecting the roof and floor, and an outlet, the melter producing an initial foamy molten glass. One or more non-submerged auxiliary burners are positioned in the roof and/or wall structure and configured to deliver combustion products to impact at least a portion of the bubbles with sufficient force and/or heat to burst at least some of the bubbles and form a reduced foam molten glass. | 04-11-2013 |
20130086952 | METHODS OF USING A SUBMERGED COMBUSTION MELTER TO PRODUCE GLASS PRODUCTS - A method comprises flowing an oxidant and a fuel into a submerged combustion burner in a glass tank furnace, the glass tank furnace receiving a feed of glass forming material and producing molten glass, the burner and furnace comprising a melting system. The melting system has a variable system vibration and/or oscillation due to the nature of submerged combustion. One method includes predicting a value of at least one property, such as viscosity, of the molten glass using the variable system vibration and/or oscillation. | 04-11-2013 |
20130327092 | SUBMERGED COMBUSTION MELTING PROCESSES FOR PRODUCING GLASS AND SIMILAR MATERIALS, AND SYSTEMS FOR CARRYING OUT SUCH PROCESSES - Processes of controlling submerged combustion melters, and systems for carrying out the methods. One process includes feeding vitrifiable material into a melter vessel, the melter vessel including a fluid-cooled refractory panel in its floor, ceiling, and/or sidewall, and heating the vitrifiable material with a burner directing combustion products into the melting zone under a level of the molten material in the zone. Burners impart turbulence to the molten material in the melting zone. The fluid-cooled refractory panel is cooled, forming a modified panel having a frozen or highly viscous material layer on a surface of the panel facing the molten material, and a sensor senses temperature of the modified panel using a protected thermocouple positioned in the modified panel shielded from direct contact with turbulent molten material. Processes include controlling the melter using the temperature of the modified panel. Other processes and systems are presented. | 12-12-2013 |
20140007623 | PROCESS OF USING A SUBMERGED COMBUSTION MELTER TO PRODUCE HOLLOW GLASS FIBER OR SOLID GLASS FIBER HAVING ENTRAINED BUBBLES, AND BURNERS AND SYSTEMS TO MAKE SUCH FIBERS - Processes and systems for producing glass fibers having regions devoid of glass using submerged combustion melters, including feeding a vitrifiable feed material into a feed inlet of a melting zone of a melter vessel, and heating the vitrifiable material with at least one burner directing combustion products of an oxidant and a first fuel into the melting zone under a level of the molten material in the zone. One or more of the burners is configured to impart heat and turbulence to the molten material, producing a turbulent molten material comprising a plurality of bubbles suspended in the molten material, the bubbles comprising at least some of the combustion products, and optionally other gas species introduced by the burners. The molten material and bubbles are drawn through a bushing fluidly connected to a forehearth to produce a glass fiber comprising a plurality of interior regions substantially devoid of glass. | 01-09-2014 |
20140090419 | APPARATUS, SYSTEMS AND METHODS FOR REDUCING FOAMING DOWNSTREAM OF A SUBMERGED COMBUSTION MELTER PRODUCING MOLTEN GLASS - Apparatus including a flow channel defined by a floor, roof, and sidewall structure connecting the floor and roof. One or more combustion burners is positioned in either the roof, the sidewall structure, or both, and transfer heat to a molten mass of glass containing bubbles having a bubble atmosphere flowing through the flow channel. The burners contribute to formation of a channel atmosphere above the molten glass. Apparatus includes a device, at least a portion of which is positionable under a level of the molten glass in the flow channel, configured to emit a composition into the molten glass under the level to intimately contact the composition with the molten glass and bubbles therein. The composition diffuses into the bubbles to form modified atmosphere bubbles sufficiently different from the channel atmosphere to increase diffusion of a species in the channel atmosphere into the modified atmosphere bubbles. | 04-03-2014 |
20140090421 | METHODS AND SYSTEMS FOR CONTROLLING BUBBLE SIZE AND BUBBLE DECAY RATE IN FOAMED GLASS PRODUCED BY A SUBMERGED COMBUSTION MELTER - Methods and systems for controlling bubble size and bubble decay rate of glass foams formed during submerged combustion melting. Flowing a molten mass of foamed glass comprising molten glass and bubbles entrained therein into an apparatus downstream of a submerged combustion melter. The downstream apparatus has a floor, a roof, and a sidewall structure connecting the floor and roof. The foamed glass has glass foam of glass foam bubbles on its top surface, and the downstream apparatus defines a space for a gaseous atmosphere above and in contact with the glass foam. The downstream apparatus includes heating components to heat or maintain temperature of the foamed glass. Adjusting composition of the atmosphere above the glass foam, and/or contacting the foam with a liquid or solid composition controls bubble size of the glass foam bubbles, and/or foam decay rate. | 04-03-2014 |
20140090422 | METHODS AND SYSTEMS FOR DESTABILIZING FOAM IN EQUIPMENT DOWNSTREAM OF A SUBMERGED COMBUSTION MELTER - Methods and systems for de-stabilizing foam produced in submerged combustion melters. A molten mass of glass and bubbles is flowed into an apparatus downstream of a submerged combustion melter. The downstream apparatus includes a floor, a roof and a wall connecting the floor and roof, but is devoid of submerged combustion burners and other components that would increase turbulence of the molten mass. The molten mass has foam on at least a portion of a top surface of the molten mass. One method includes directly impinging an impinging composition onto at least a portion of the foam in the downstream apparatus. Systems for carrying out the methods are described. | 04-03-2014 |
20140090423 | SUBMERGED COMBUSTION MELTERS HAVING AN EXTENDED TREATMENT ZONE AND METHODS OF PRODUCING MOLTEN GLASS - A submerged combustion melter includes a floor, a roof, and a sidewall structure connecting the floor and roof defining an internal space. A first portion of the internal space defines a melting zone, and a second portion defines a fining zone immediately downstream of the melting zone. One or more combustion burners in either the floor, roof, the sidewall structure, or any combination of these, are configured to emit the combustion gases from a position under a level of, and positioned to transfer heat to and produce, a turbulent molten mass of glass containing bubbles in the melting zone. The fining zone is devoid of combustion burners or other apparatus or components that would increase turbulence above that in the melting zone. The melter may include a treating zone that stabilizes or destabilizes bubbles and/or foam. Processes of using the melters are a feature of the disclosure. | 04-03-2014 |
20140090424 | METHODS AND SYSTEMS FOR DESTABILIZING FOAM IN EQUIPMENT DOWNSTREAM OF A SUBMERGED COMBUSTION MELTER - Methods and systems for de-stabilizing foam produced in submerged combustion melters. A molten mass of glass and bubbles is flowed into an apparatus downstream of a submerged combustion melter. The downstream apparatus includes a floor, a roof and a wall connecting the floor and roof, but is devoid of submerged combustion burners and other components that would increase turbulence of the molten mass. The molten mass has foam on at least a portion of a top surface of the molten mass. Certain methods include imposing a de-stabilizing force directly to the foam or to the molten mass and foam, where the de-stabilizing force may be a vibratory force, an acoustic wave force, a particulate-based force, or a non-particulate-based mechanical force. Systems for carrying out the methods are described. | 04-03-2014 |
20150135775 | METHODS OF USING A SUBMERGED COMBUSTION MELTER TO PRODUCE GLASS PRODUCTS - A method comprises flowing an oxidant and a fuel into a submerged combustion burner in a glass tank furnace, the glass tank furnace receiving a feed of glass forming material and producing molten glass, the burner and furnace comprising a melting system. The melting system has a variable system vibration and/or oscillation due to the nature of submerged combustion. One method includes predicting a value of at least one property, such as viscosity, of the molten glass using the variable system vibration and/or oscillation. | 05-21-2015 |
20150143850 | SYSTEMS AND METHODS FOR GLASS MANUFACTURING - Submerged combustion systems and methods of use to produce glass. One system includes a submerged combustion melter having a roof, a floor, a wall structure connecting the roof and floor, and an outlet, the melter producing an initial foamy molten glass. One or more non-submerged auxiliary burners are positioned in the roof and/or wall structure and configured to deliver combustion products to impact at least a portion of the bubbles with sufficient force and/or heat to burst at least some of the bubbles and form a reduced foam molten glass. | 05-28-2015 |
20150197440 | METHODS AND SYSTEMS FOR CONTROLLING BUBBLE SIZE AND BUBBLE DECAY RATE IN FOAMED GLASS PRODUCED BY A SUBMERGED COMBUSTION MELTER - Methods and systems for controlling bubble size and bubble decay rate of glass foams formed during submerged combustion melting. Flowing a molten mass of foamed glass comprising molten glass and bubbles entrained therein into an apparatus downstream of a submerged combustion melter. The downstream apparatus has a floor, a roof, and a sidewall structure connecting the floor and roof. The foamed glass has glass foam of glass foam bubbles on its top surface, and the downstream apparatus defines a space for a gaseous atmosphere above and in contact with the glass foam. The downstream apparatus includes heating components to heat or maintain temperature of the foamed glass. Adjusting composition of the atmosphere above the glass foam, and/or contacting the foam with a liquid or solid composition controls bubble size of the glass foam bubbles, and/or foam decay rate. | 07-16-2015 |
20150218037 | PROCESS OF USING A SUBMERGED COMBUSTION MELTER TO PRODUCE HOLLOW GLASS FIBER OR SOLID GLASS FIBER HAVING ENTRAINED BUBBLES, AND BURNERS AND SYSTEMS TO MAKE SUCH FIBERS - Processes and systems for producing glass fibers having regions devoid of glass using submerged combustion melters, including feeding a vitrifiable feed material into a feed inlet of a melting zone of a melter vessel, and heating the vitrifiable material with at least one burner directing combustion products of an oxidant and a first fuel into the melting zone under a level of the molten material in the zone. One or more of the burners is configured to impart heat and turbulence to the molten material, producing a turbulent molten material comprising a plurality of bubbles suspended in the molten material, the bubbles comprising at least some of the combustion products, and optionally other gas species introduced by the burners. The molten material and bubbles are drawn through a bushing fluidly connected to a forehearth to produce a glass fiber comprising a plurality of interior regions substantially devoid of glass. | 08-06-2015 |
20150315057 | METHODS AND SYSTEMS FOR DESTABILIZING FOAM IN EQUIPMENT DOWNSTREAM OF A SUBMERGED COMBUSTION MELTER - Methods and systems for de-stabilizing foam produced in submerged combustion melters. A molten mass of glass and bubbles is flowed into an apparatus downstream of a submerged combustion melter. The downstream apparatus includes a floor, a roof and a wall connecting the floor and roof, but is devoid of submerged combustion burners and other components that would increase turbulence of the molten mass. The molten mass has foam on at least a portion of a top surface of the molten mass. Certain methods include imposing a de-stabilizing force directly to the foam or to the molten mass and foam, where the de-stabilizing force may be a vibratory force, an acoustic wave force, a particulate-based force, or a non-particulate-based mechanical force. Systems for carrying out the methods are described. | 11-05-2015 |
20150329400 | BURNER APPARATUS, SUBMERGED COMBUSTION MELTERS INCLUDING THE BURNER, AND METHODS OF USE - Apparatus includes a first and second conduits configured to form an annulus between them. An adjustable structure includes a body having an upper surface, a lower surface, and a circumferential surface abutting a portion of the internal surface of the second conduit. The structure is adjustable axially in relation to and removably attached to the first conduit via a hub. The hub defines a central passage for fuel or oxidant. The body has one or more non-central through passages configured such that flow of an oxidant or fuel therethrough causes the fuel or oxidant to intersect flow of fuel or oxidant exiting from the central passage in a region above the upper surface of the body. | 11-19-2015 |
20160002084 | SUBMERGED COMBUSTION MELTING PROCESSES FOR PRODUCING GLASS AND SIMILAR MATERIALS, AND SYSTEMS FOR CARRYING OUT SUCH PROCESSES - Processes of controlling submerged combustion melters, and systems for carrying out the methods. One process includes feeding vitrifiable material into a melter vessel, the melter vessel including a fluid-cooled refractory panel in its floor, ceiling, and/or sidewall, and heating the vitrifiable material with a burner directing combustion products into the melting zone under a level of the molten material in the zone. Burners impart turbulence to the molten material in the melting zone. The fluid-cooled refractory panel is cooled, forming a modified panel having a frozen or highly viscous material layer on a surface of the panel facing the molten material, and a sensor senses temperature of the modified panel using a protected thermocouple positioned in the modified panel shielded from direct contact with turbulent molten material. Processes include controlling the melter using the temperature of the modified panel. Other processes and systems are presented. | 01-07-2016 |