Lyke
Barbara A. Lyke, Hockessin, DE US
Patent application number | Description | Published |
---|---|---|
20090255073 | Lint removing stick - A lint removing device is formed in the shape of a stick, with a central, rectangular support member and a length of pressure-sensitive adhesive material wound around the support member. The use of an essentially two-dimensional support member allows for the lint removing device to be relatively small and compact, easy to carry in a pocket or purse. The edges of the support member can be used to assist in removing used portions of the adhesive. Cuts or perforations may be formed at locations along the length of the adhesive to simplify the removal of used material. A separate protective covering layer is used to prevent debris from sticking to the adhesive between uses. | 10-15-2009 |
Christopher J. Lyke, Portland, OR US
Patent application number | Description | Published |
---|---|---|
20150290849 | FOOTWEAR UPPER COMPONENTS HAVING CONTOURED FOAM REGIONS AND METHODS OF FORMING SUCH COMPONENTS - An upper shell panel may be placed between first and second sections of a mold. The first section may include one or more expansion cavities and the second section may include one or more pour cavities. A foam-producing chemical mixture may be delivered into the one or more pour cavities and the mold may be closed. The delivered foam-producing chemical mixture may be allowed to expand within the closed mold and to force regions of the upper shell panel into the one or more expansion cavities. The upper shell panel may then be removed from the mold subsequent to the expansion of the delivered mixture. | 10-15-2015 |
Christopher James Lyke, Beaverton, OR US
Patent application number | Description | Published |
---|---|---|
20110078921 | Article Of Footwear Having An Upper With Knitted Elements - An article of footwear may incorporate various elements that are at least partially formed through a knitting process, such as a circular knitting process or a flat knitting process. Examples of the elements include tongue elements, collar elements, and collar-throat elements. In some configurations, the elements include compressible areas and flange areas. The compressible areas may include foam cores or floating yarns that impart compressibility, and the flange areas may be utilized to join the components to the article of footwear. | 04-07-2011 |
20140082965 | Article Of Footwear Having An Upper With Knitted Elements - An article of footwear may incorporate various elements that are at least partially formed through a knitting process, such as a circular knitting process or a flat knitting process. Examples of the elements include tongue elements, collar elements, and collar-throat elements. In some configurations, the elements include compressible areas and flange areas. The compressible areas may include foam cores or floating yarns that impart compressibility, and the flange areas may be utilized to join the components to the article of footwear. | 03-27-2014 |
Daniel B. Lyke, Petaluma, CA US
Patent application number | Description | Published |
---|---|---|
20150370146 | COLLAPSIBLE LIGHT BOX - Apparatuses, systems, and methods are disclosed for a collapsible light box. An apparatus includes a substantially cube-shaped structure comprising a top side, a bottom side, a rear side, a left side, and a right side. An inside of the structure is accessible through a front side of the structure, which is open. An apparatus includes one or more lighting elements disposed within the structure that illuminate the inside of the structure. An apparatus includes one or more joints located on each of the right side and the left side of the structure. The one or more joints allow the structure to collapse into a substantially flat shape. | 12-24-2015 |
Shawn D. Lyke, Knoxville, TN US
Patent application number | Description | Published |
---|---|---|
20080204767 | Commutator Measuring Device - The present disclosure provides an apparatus and method for the measurement of the width and radial spacing of commutator segments with respect to span. The apparatus utilizes a microprocessor and computer to record and calculate data from both a rotary encoder wheel held in contact with the commutator surface as it turns, and a fiber optic sensor that recognizes commutator segment boundaries. The commutator is rotated for one revolution plus one span to improve convenience and accuracy of the measurements. Output is provided in the form of graphs and charts that show the variation in the different spans around the commutator, and information is also provided as to each bar and insulator. | 08-28-2008 |
Stephen Erwin Lyke, Wilmington, DE US
Patent application number | Description | Published |
---|---|---|
20090217784 | ORE REDUCTION PROCESS AND TITANIUM OXIDE AND IRON METALLIZATION PRODUCT - The disclosure is directed to a process for producing separable iron and titanium oxides from an ore containing titanium oxide and ferric oxide, comprising: (a) forming agglomerates comprising carbon-based materials and the ore, the quantity of carbon of the agglomerates being sufficient for, at an elevated temperature, reducing ferric oxide to ferrous oxide and forming a ferrous oxide-rich molten slag, (b) introducing the agglomerates onto a carbon bed of a moving hearth furnace; (c) heating the agglomerates in the moving hearth furnace to a temperature sufficient for reducing and melting the agglomerates to produce a ferrous oxide-rich molten slag; (d) metallizing the ferrous oxide of the molten slag by reaction of the ferrous oxide and the carbon of the carbon bed at a furnace temperature sufficient for maintaining the slag in a molten state; and (e) solidifying the slag after metallization of the ferrous oxide to form a matrix of titanium oxide-rich slag having a plurality of metallic iron granules distributed there through; and (f) separating the metallic iron granules from the slag, the slag comprising greater than 85% titanium dioxide based on the entire weight of the matrix after separation of the metallic iron. The disclosure is also directed to a metallization product of a ferrous oxide-rich molten slag. | 09-03-2009 |
20100237280 | ORE REDUCTION PROCESS USING CARBON BASED MATERIALS HAVING A LOW SULFUR CONTENT AND TITANIUM OXIDE AND IRON METALLIZATION PRODUCT THEREFROM - The disclosure is directed to a process for producing separable iron and titanium oxides from an ore comprising titanium oxide and iron oxide, comprising: (a) forming agglomerates comprising carbon-based material and the ore, the quantity of carbon of the agglomerates being at least sufficient for forming a ferrous oxide-containing molten slag, at an elevated temperature; (b) introducing the agglomerates onto a bed of carbon-based material in a moving hearth furnace, wherein the carbon-based materials used for both the agglomerates and the bed have a low sulfur content; (c) heating the agglomerates in the moving hearth furnace to a temperature sufficient for liquefying the agglomerates to produce a liquid comprising ferrous oxide-containing slag; (d) metallizing the ferrous oxide of the slag by reaction of the ferrous oxide and the carbon of the carbon bed at a furnace temperature sufficient for maintaining the slag in a liquid state; (e) solidifying the slag after metallization of the ferrous oxide to form a matrix of titanium oxide-rich slag having a plurality of metallic iron granules distributed there through; and (f) separating the metallic iron granules from the slag, the slag comprising greater than 85% titanium dioxide based on the entire weight of the matrix after separation of the metallic iron. The disclosure is also directed to a metallization product of a ferrous oxide-rich molten slag. | 09-23-2010 |
20100285326 | ORE REDUCTION PROCESS AND TITANIUM OXIDE AND IRON METALLIZATION PRODUCT - The disclosure is directed to a process for producing separable iron and titanium oxides from an ore containing titanium oxide and ferric oxide, comprising: (a) forming agglomerates comprising carbon-based materials and the ore, the quantity of carbon of the agglomerates being sufficient for, at an elevated temperature, reducing ferric oxide to ferrous oxide and forming a ferrous oxide-rich molten slag, (b) introducing the agglomerates onto a carbon bed of a moving hearth furnace; (c) heating the agglomerates in the moving hearth furnace to a temperature sufficient for reducing and melting the agglomerates to produce a ferrous oxide-rich molten slag; (d) metallizing the ferrous oxide of the molten slag by reaction of the ferrous oxide and the carbon of the carbon bed at a furnace temperature sufficient for maintaining the slag in a molten state; and (e) solidifying the slag after metallization of the ferrous oxide to form a matrix of titanium oxide-rich slag having a plurality of metallic iron granules distributed there through; and (f) separating the metallic iron granules from the slag, the slag comprising greater than 85% titanium dioxide based on the entire weight of the matrix after separation of the metallic iron. The disclosure is also directed to a metallization product of a ferrous oxide-rich molten slag. | 11-11-2010 |