Patent application number | Description | Published |
20090165411 | Method of fabricating building wall panels - Methods of fabricating wall panels by generally continuously pultruding a wall panel profile comprising inner and outer layers, and spaced reinforcing webs and/or foam extending between the inner and outer layers, optionally studs extending inwardly from the inner layer, away from the outer layer. The so-continuously pultruded wall panel optionally has male and a female edges. The wall panel is periodically cut for wall panel height, thereby creating an ongoing stream of cut wall panels. The panels are advanced through a corner index station, and indexed at right angles while maintaining orientation of the panels. The wall panels leave the indexing station edge-to-edge. Resin is applied to facing edges of adjacent wall panels. Adjacent wall panels are joined to each other at the facing edges, to make a generally continuous wall panel. The so-joined wall panel is cut to desired lengths. The resulting wall panel can provide tough, water-proof, otherwise weather-proof, building systems and buildings, without structural use of concrete except in floor slabs. | 07-02-2009 |
20110167739 | Buildings, building walls and other structures - A tough, water-proof building system, and methods of making the system elements and constructing buildings, which provides wall, ceiling, and floor structural panels and corresponding walls, ceilings, and floors,. The walls can be designed to have vertical and horizontal strengths sufficient to be used in place of concrete, as an engineered solution, both above grade and below-grade, including in severe weather conditions, such that no concrete need be used except for floor slabs. Panels have inner and outer layers, and structurally reinforcing members. Structurally-reinforcing members extend, typically as a layer and/or stud, the full height of a wall, at spaced locations along the length of the wall. Spaces between the structurally reinforcing members are optionally filled with rigid foam. An optional reinforcing stud is attached to, or overlaid by, the inner layer, and extends inwardly into the building from what is otherwise the inner surface of the building panel. | 07-14-2011 |
20110203205 | Buildings, building walls and other structures - A tough, water-proof building system provides wall, ceiling, and floor structures, as well as accessories. The walls can be designed to have vertical and horizontal strengths sufficient to be used in place of concrete, as an engineered solution, both above grade and below-grade, including in severe weather conditions. Walls have inner and outer layers, and structurally reinforcing members extending, typically as a layer and/or stud, the full height of the wall, at spaced locations along the length of the wall. The spaces between the structurally reinforcing members are optionally filled with insulating foam. An optional reinforcing stud is attached to, or overlaid by, the inner layer, and extends inwardly into the building from what is otherwise the inner surface of the building panel/wall panel. A building floor can be supported from the load-bearing wall, at locations on the floor support members which are below the top of the load-bearing wall. | 08-25-2011 |
20110239569 | Building panels - A tough, water-proof building panel, made of fiber-reinforced polymer, is useful in making structural walls, ceilings, and floors of buildings. Upstanding such walls can have vertical and horizontal strengths sufficient to be used in place of concrete, as an engineered solution, both above grade and below-grade, including in severe weather conditions. Panels effectively have inner and outer layers, and structurally reinforcing members. Structurally-reinforcing members extend, typically as layer and/or stud, the full height of the wall panel, at spaced locations along the length of the panel. Spaces between the structurally reinforcing members are optionally filled with rigid thermally insulating foam. Optional reinforcing studs are attached to, or overlaid by, the inner layer, and extend inwardly into the building from what is otherwise the inner surface of the building panel. Panels can be made by e.g. assembling pre-fabricated blocks and/or webs, by evacuating a mold, and by pultrusion. | 10-06-2011 |
20120079784 | Building panel assemblies and methods of use in wall structures - Light weight fiber-reinforced polymeric (FRP) structural building panels and panel assemblies, sized and configured for construction of wall structures permanently tied to the ground, optionally tying overlying structure to an underlying wall using such panels and panel assemblies. Fiber schedule and orientation in the panels provide enhanced properties of strength of a panel/wall per unit dimension relative to FRP layer thickness and/or mass of the panel/wall per unit dimension. | 04-05-2012 |
20120085056 | Building panels - Light weight fiber-reinforced polymeric (FRP) structural building panels and panel assemblies, sized and configured for construction of wall structures. Fiber schedule, layer securement, and orientation in the panels provide enhanced properties of strength of a panel/wall per unit dimension relative to FRP layer thickness and/or mass of the panel/wall per unit dimension. | 04-12-2012 |
20120085057 | Building panels and methods of making - Light weight fiber-reinforced polymeric (FRP) structural building panels and panel assemblies, sized and configured for construction of wall structures. Fiber schedule and orientation in the panels provide enhanced properties of strength of a panel/wall per unit dimension relative to FRP layer thickness and/or mass of the panel/wall per unit dimension. Panel profiles as molded having draft angles, and molds to make such profiles, enhance panel fabrication. | 04-12-2012 |
20130031858 | METHOD OF FABRICATING BUILDING WALL PANELS - Wall panels and building walls, comprising inner and outer layers, and spaced reinforcing webs extending between the inner and outer layers. Optionally studs extend inwardly from the inner layer away from the outer layer with one of the stud legs on each stud being aligned with one of the reinforcing webs. or the building load delivered to an underlying footer varies less than 50% ser 10 foot length of the wall or height of the wall varies no more than 0.25 inch over a 40 foot length of the wall. The resulting wall panel can provide tough, water-proof, otherwise weather-proof, building systems and buildings. | 02-07-2013 |
20140102024 | BUILDING PANEL ASSEMBLIES AND METHODS OF USE IN WALL STRUCTURES - Light weight fiber-reinforced polymeric (FRP) structural building panels and panel assemblies, sized and configured for construction of non-portable wall structures permanently fixed to the ground, optionally tying overlying structure to an underlying footer through such panels and panel assemblies. Fiber schedule and fiber orientation in the panels provide enhanced properties of the panels. Fibers are typically oriented within 15 degrees of a top-to-bottom direction in the panel providing, in part, enhanced top-to-bottom crush strength of a panel/wall per length dimension related to mass of the panel/wall per unit length and/or limited deflection of the panel/wall. Panels of the invention also have a bias to deflect toward the surface of the panel which faces outwardly of the building, toward the backfill soil which faces the panel, outside the building. | 04-17-2014 |
20140308385 | MOLD FOR MAKING FIBER-REINFORCED POLYMERIC BUILDING PANELS - Light weight fiber-reinforced polymeric (FRP) structural building panels and panel assemblies, sized and configured for construction of wall structures. Fiber schedule and orientation in the panels provide enhanced properties of strength of a panel/wall per unit dimension relative to FRP layer thickness and/or mass of the panel/wall per unit dimension. Panel profiles as molded having draft angles, and molds to make such profiles, enhance panel fabrication. | 10-16-2014 |
20150089891 | BUILDING PANEL ASSEMBLIES AND METHODS OF USE IN WALL STRUCTURES - Light weight fiber-reinforced polymeric (FRP) structural building panels and panel assemblies, sized and configured for construction of non-portable wall structures permanently fixed to the ground. Fibers in the panel are typically oriented within 15 degrees of a top-to-bottom, e.g. axial, direction in the panel providing, in part, enhanced top-to-bottom crush strength of a panel/wall. The panels typically have a bias to deflect toward the surface of the panel which faces outwardly of the building, toward the backfill soil which faces the panel on the outside the building. Panels of the invention typically have mass of no more than 18 pounds per foot height per linear foot length of the building panel, and vertical crush resistance capacity of at least 2000 pounds per linear foot length of the building panel, using a safety factor of 3. | 04-02-2015 |
Patent application number | Description | Published |
20090165411 | Method of fabricating building wall panels - Methods of fabricating wall panels by generally continuously pultruding a wall panel profile comprising inner and outer layers, and spaced reinforcing webs and/or foam extending between the inner and outer layers, optionally studs extending inwardly from the inner layer, away from the outer layer. The so-continuously pultruded wall panel optionally has male and a female edges. The wall panel is periodically cut for wall panel height, thereby creating an ongoing stream of cut wall panels. The panels are advanced through a corner index station, and indexed at right angles while maintaining orientation of the panels. The wall panels leave the indexing station edge-to-edge. Resin is applied to facing edges of adjacent wall panels. Adjacent wall panels are joined to each other at the facing edges, to make a generally continuous wall panel. The so-joined wall panel is cut to desired lengths. The resulting wall panel can provide tough, water-proof, otherwise weather-proof, building systems and buildings, without structural use of concrete except in floor slabs. | 07-02-2009 |
20110167739 | Buildings, building walls and other structures - A tough, water-proof building system, and methods of making the system elements and constructing buildings, which provides wall, ceiling, and floor structural panels and corresponding walls, ceilings, and floors,. The walls can be designed to have vertical and horizontal strengths sufficient to be used in place of concrete, as an engineered solution, both above grade and below-grade, including in severe weather conditions, such that no concrete need be used except for floor slabs. Panels have inner and outer layers, and structurally reinforcing members. Structurally-reinforcing members extend, typically as a layer and/or stud, the full height of a wall, at spaced locations along the length of the wall. Spaces between the structurally reinforcing members are optionally filled with rigid foam. An optional reinforcing stud is attached to, or overlaid by, the inner layer, and extends inwardly into the building from what is otherwise the inner surface of the building panel. | 07-14-2011 |
20110203205 | Buildings, building walls and other structures - A tough, water-proof building system provides wall, ceiling, and floor structures, as well as accessories. The walls can be designed to have vertical and horizontal strengths sufficient to be used in place of concrete, as an engineered solution, both above grade and below-grade, including in severe weather conditions. Walls have inner and outer layers, and structurally reinforcing members extending, typically as a layer and/or stud, the full height of the wall, at spaced locations along the length of the wall. The spaces between the structurally reinforcing members are optionally filled with insulating foam. An optional reinforcing stud is attached to, or overlaid by, the inner layer, and extends inwardly into the building from what is otherwise the inner surface of the building panel/wall panel. A building floor can be supported from the load-bearing wall, at locations on the floor support members which are below the top of the load-bearing wall. | 08-25-2011 |
20110239569 | Building panels - A tough, water-proof building panel, made of fiber-reinforced polymer, is useful in making structural walls, ceilings, and floors of buildings. Upstanding such walls can have vertical and horizontal strengths sufficient to be used in place of concrete, as an engineered solution, both above grade and below-grade, including in severe weather conditions. Panels effectively have inner and outer layers, and structurally reinforcing members. Structurally-reinforcing members extend, typically as layer and/or stud, the full height of the wall panel, at spaced locations along the length of the panel. Spaces between the structurally reinforcing members are optionally filled with rigid thermally insulating foam. Optional reinforcing studs are attached to, or overlaid by, the inner layer, and extend inwardly into the building from what is otherwise the inner surface of the building panel. Panels can be made by e.g. assembling pre-fabricated blocks and/or webs, by evacuating a mold, and by pultrusion. | 10-06-2011 |
20120079784 | Building panel assemblies and methods of use in wall structures - Light weight fiber-reinforced polymeric (FRP) structural building panels and panel assemblies, sized and configured for construction of wall structures permanently tied to the ground, optionally tying overlying structure to an underlying wall using such panels and panel assemblies. Fiber schedule and orientation in the panels provide enhanced properties of strength of a panel/wall per unit dimension relative to FRP layer thickness and/or mass of the panel/wall per unit dimension. | 04-05-2012 |
20120085049 | Footer structures and methods, and panel and wall structures using such footer structures - Light weight fiber-reinforced polymeric (FRP) structural building panels and panel assemblies, sized and configured for construction of wall structures permanently tied to the ground, optionally tying overlying structure to an underlying footer through such panels and panel assemblies. Footers are fabricated by flowing fluid concrete under segments of the wall while anchors extend down from the wall into the space into which concrete is being flowed. | 04-12-2012 |
20120085056 | Building panels - Light weight fiber-reinforced polymeric (FRP) structural building panels and panel assemblies, sized and configured for construction of wall structures. Fiber schedule, layer securement, and orientation in the panels provide enhanced properties of strength of a panel/wall per unit dimension relative to FRP layer thickness and/or mass of the panel/wall per unit dimension. | 04-12-2012 |
20120085057 | Building panels and methods of making - Light weight fiber-reinforced polymeric (FRP) structural building panels and panel assemblies, sized and configured for construction of wall structures. Fiber schedule and orientation in the panels provide enhanced properties of strength of a panel/wall per unit dimension relative to FRP layer thickness and/or mass of the panel/wall per unit dimension. Panel profiles as molded having draft angles, and molds to make such profiles, enhance panel fabrication. | 04-12-2012 |
20120324815 | CONSTRUCTION PANELS - A structural construction panel of the invention has an outer fiber-reinforced polymeric layer, and an inner fiber-reinforced polymeric layer. Thermally insulating foam generally occupies space which is not otherwise occupied between the inner and outer layers. A fire-rated capacity is provided by a fire-rated board, rated to pass at least a 15-minute corner fire test, incorporated as part of the finally-completed panel. Such fire-rated board can be foam-based, or non-foam-based. The fire-rated board product, whether a foam-based product or a non-foam-based product, can be enclosed in the panel between the inner and outer layers. Where the board is non-foam-based, the fire-rated board can be disposed, as part of the panel, as one or both outer surfaces of the panel structure, optionally between studs which protrude from the inner layer. | 12-27-2012 |
20130031858 | METHOD OF FABRICATING BUILDING WALL PANELS - Wall panels and building walls, comprising inner and outer layers, and spaced reinforcing webs extending between the inner and outer layers. Optionally studs extend inwardly from the inner layer away from the outer layer with one of the stud legs on each stud being aligned with one of the reinforcing webs. or the building load delivered to an underlying footer varies less than 50% ser 10 foot length of the wall or height of the wall varies no more than 0.25 inch over a 40 foot length of the wall. The resulting wall panel can provide tough, water-proof, otherwise weather-proof, building systems and buildings. | 02-07-2013 |
20140102024 | BUILDING PANEL ASSEMBLIES AND METHODS OF USE IN WALL STRUCTURES - Light weight fiber-reinforced polymeric (FRP) structural building panels and panel assemblies, sized and configured for construction of non-portable wall structures permanently fixed to the ground, optionally tying overlying structure to an underlying footer through such panels and panel assemblies. Fiber schedule and fiber orientation in the panels provide enhanced properties of the panels. Fibers are typically oriented within 15 degrees of a top-to-bottom direction in the panel providing, in part, enhanced top-to-bottom crush strength of a panel/wall per length dimension related to mass of the panel/wall per unit length and/or limited deflection of the panel/wall. Panels of the invention also have a bias to deflect toward the surface of the panel which faces outwardly of the building, toward the backfill soil which faces the panel, outside the building. | 04-17-2014 |
20140308385 | MOLD FOR MAKING FIBER-REINFORCED POLYMERIC BUILDING PANELS - Light weight fiber-reinforced polymeric (FRP) structural building panels and panel assemblies, sized and configured for construction of wall structures. Fiber schedule and orientation in the panels provide enhanced properties of strength of a panel/wall per unit dimension relative to FRP layer thickness and/or mass of the panel/wall per unit dimension. Panel profiles as molded having draft angles, and molds to make such profiles, enhance panel fabrication. | 10-16-2014 |
20150089891 | BUILDING PANEL ASSEMBLIES AND METHODS OF USE IN WALL STRUCTURES - Light weight fiber-reinforced polymeric (FRP) structural building panels and panel assemblies, sized and configured for construction of non-portable wall structures permanently fixed to the ground. Fibers in the panel are typically oriented within 15 degrees of a top-to-bottom, e.g. axial, direction in the panel providing, in part, enhanced top-to-bottom crush strength of a panel/wall. The panels typically have a bias to deflect toward the surface of the panel which faces outwardly of the building, toward the backfill soil which faces the panel on the outside the building. Panels of the invention typically have mass of no more than 18 pounds per foot height per linear foot length of the building panel, and vertical crush resistance capacity of at least 2000 pounds per linear foot length of the building panel, using a safety factor of 3. | 04-02-2015 |
20150240441 | FOOTER, FOOTER ELEMENTS, AND BUILDINGS, AND METHODS OF FORMING SAME - Footer products, and footers made with such products. Such product includes an insulating member between its upper and lower surfaces. The upper surface receives a load. The interior transfers the load from the upper surface to the lower surface, and distributes the load laterally and longitudinally such that the load received at the lower surface is within the load-bearing capacity of underlying soil. The product provides a thermal shock barrier between underlying soil and the interior of the building. The insulating member can comprise the entirety of the product, or can be combined with top and/or bottom load distributing layers, or can be combined with intercostals which extend top-to-bottom through the foam. Such footers are useful in constructing structures which use footers to spread the overlying load onto a greater surface area of the underlying soil than the cross-section area of the structure which presents the load to the footer. | 08-27-2015 |
Patent application number | Description | Published |
20100047302 | ANTIMICROBIAL FOOD PACKAGING - The present invention relates to a single or multi layered food packaging on the basis of plastics wherein the layer or at least one of the layers comprises at least one metal with antimicrobial activity and wherein at least part of the metal with antimicrobial activity is present in finely divided metallic form and the remaining part is present in form of a salt. | 02-25-2010 |
20110250462 | Multilayer, Tube-Shaped Food Film - The present invention relates to a multilayer, tube-type food film, in particular sausage casing, wherein the food film is manufactured on a multilayer coextrusion film blow molding system by means of coextruded plastics supplied to a blowing head and stretched biaxially in the triple bubble process. The food film comprises at least six layers. The at least six layers of the food film are arranged from the outside to the inside, as follows: an outermost layer including a polyamide as a layer component, an innermost layer including a polyamide as a layer component, and an intermediately arranged succession of at least four intermediate layers being arranged from the outside to the inside, as follows: one layer includes an adhesion promoter as a layer component, another layer includes a polyolefin as a layer component, another layer includes a polyolefin as a layer component, and another layer includes an adhesion promoter as a layer component. The present invention further relates to a multilayer, planar food casing that is produced of a multilayer, tube-type food film cut open for this purpose. | 10-13-2011 |
20110293862 | Single-Layer or Multilayer Tubular Food Packaging Film that can be Smoked and Air-Dried, and Method for the Manufacture Thereof - The present invention relates to a single-layer or multilayer tubular food packaging film that can be smoked and air-dried, in particular a sausage casing, for smoked and/or air-dried sausage or meat goods, wherein the polymer-based food film is manufactured of a homogeneous molten plastic material in a (co-)extrusion film blow molding plant by means of (co-)extruded plastics supplied to a nozzle of a blow head and biaxially stretched in the triple-bubble process, the homogeneous molten plastic material being produced of a plastic blend of PET or a blend of various PETs and PVOHs and/or PEBAs. The present invention moreover relates to a method for the manufacture of the food film. | 12-01-2011 |
20110311741 | SINGLE-LAYER OR MULTILAYER TUBULAR FOOD PACKAGING FILM THAT CAN BE SMOKED, AIR-DRIED, AND PEELED, ESPECIALLY PEELED IN A FULLY AUTOMATIC MANNER, AND METHOD FOR THE PRODUCTION THEREOF - The present invention relates to a single-layer or multilayer tubular food packaging film that can be smoked, air-dried and peeled, in particular peeled in a fully automated manner, in particular a sausage casing, for smoked and/or air-dried sausage or meat goods, wherein the polymer-based food film is manufactured of a homogeneous molten plastic material in a (co-)extrusion film blow molding plant by means of (co-)extruded plastics supplied to a nozzle of a blow head and biaxially stretched in the triple-bubble process, the homogeneous molten plastic material being produced of a plastic blend of PS or a blend of various PSs and PVOHs and/or PEBAs. The present invention moreover relates to a method for the manufacture of the food film. | 12-22-2011 |
Patent application number | Description | Published |
20100260747 | Use of Tetrahydrobiopterin as a Marker and a Therapeutic Agent for Fabry Disease - Blood and tissue markers of the metabolic status, risk of health complications in Fabry disease patients and as a biomarker to follow the efficacy of treatment in animal models and patients with Fabry disease comprising tetrahydrobiopterin (BH4), precursors and metabolites of BH4, and other related co-factors is disclosed herein. The present invention further describes the use of BH4 therapy as a treatment option for Fabry disease to prevent, slow or reverses vascular cardiac and renal manifestations of Fabry disease. | 10-14-2010 |
20110112041 | Treatment of Male-Pattern Baldness by Local Induction of the Metabolic Defect of Fabry Disease - Compositions comprising inhibitors of lysosomal enzyme alpha-galactosidase A and their use to favor hair growth or to prevent hair loss are disclosed in the instant invention. The topical use of the composition of the instant invention directly inhibits scalp enzyme activity and is used in the treatment for male pattern baldness (androgenic alopecia) in men and women. | 05-12-2011 |
20110217288 | Involvement of Androgen/Androgen Receptor Pathway in Fabry Disease - Novel therapies for the treatment of Fabry disease by using androgen/androgen receptor (AR) pathway-related molecules as biomarkers and use of approaches targeting androgen/AR pathway are presented herein. The involvement of aberrant androgen/AR pathway in Fabry disease has never been previously described. The present invention describes, (i) use of approaches that target androgen/AR pathway as therapeutic treatments for Fabry disease and (2) use of the levels of androgen/AR pathway-related molecules in body fluids or tissues as biomarkers for evaluation of disease progression and efficacy of treatments in Fabry patients. | 09-08-2011 |
20110306663 | TRIHEPTANOIN DIET FOR ADULT POLYGLUCOSAN BODY DISEASE (APBD) TREATMENT - Compositions and methods for the treatment and management of adult polyglucosan body disease (APBD) are disclosed herein. The APBD patients studied in the present invention experienced stabilization of disease progression and limited functional improvement with dietary triheptanoin (C7TG). The amount of C7TG administered to the patient daily for 6-8 months was 1-2 g/kg/24 hrs. The present invention demonstrates, for the first time, the arrest of clinical deterioration with limited functional recovery in APBD with triheptanoin diet therapy. | 12-15-2011 |
20130011371 | ESTABLISHMENT OF PATIENT- OR PERSON- SPECIFIC CARDIAC MYOCYTE CELL LINES FROM HUMAN INDUCED PLURIPOTENT STEM CELLS (iPSCs) - A composition and method for generating patient- or person-specific proliferative and substantially pure cardiac myocyte cell lines from pluripotent stem cells (iPSCs) is described herein. The patient-specific cardiac myocyte cell lines of the present invention find applications in research, drug screening and autologous cell-based therapy. The method of the present invention is simple and reproducible and generates cardiac myocyte cells having high purities and proliferating capacities. | 01-10-2013 |
20140221482 | TRIHEPTANOIN FOR THE TREATMENT OF GLUCOSE TRANSPORT 1 DEFICIENCY - Provided are methods for treating GLUT1 and related brain energy deficiencies comprising administering odd-carbon fatty acid sources, e.g., C5 or C7 fatty acid sources, and related compositions. | 08-07-2014 |