Horn, Jr.
Charles Eugene Horn, Jr., Oxford, AL US
Patent application number | Description | Published |
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20100013177 | Portable cart with an air compressor and electrical generator - A portable contractor cart for use on construction sites that have not yet been hard wired includes a frame having front and rear wheels and arranged on the upper deck side of the frame from front to back are a 50 foot electric cord reel and a 50 foot compressed air line, an air compressor, an electrical generator, a refrigerated cooler and a weatherproof radio/cd player. A handle is mounted to the rear of the frame and a pivotable foot brake is interconnected to the rear axle for locking and unlocking the rear wheels, and the cart can be motorized wherein a motor and pulley arrangement would be mounted to the underside of the frame. Snaps are spaced about the periphery of the frame for attaching a covering thereto thereby protecting the cart when it is left outside on the job site. A welder generator for a TIG or MIG welder can also be mounted on the frame in place of the air compressor, and a trailer hitch can extend from the front of the frame for towing the cart from site to site. | 01-21-2010 |
Richard T. Horn, Jr., Claremont, CA US
Patent application number | Description | Published |
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20100141984 | THROUGHPUT ESTIMATE BASED UPON DOCUMENT COMPLEXITY ANALYSIS - A method receives a print job and analyzes the complexity of the print job to generate complexity factors. The method performs raster image processing (RIP) on the print job and records the time taken to perform the raster image processing of each page of the print job. This generates “RIP times.” In addition, the method records the size of each page of the print job to generate “page sizes.” Then the method prints the print job and records the time it took to process the print job. Then the method determines how each of the complexity factors, the RIP times, and the page sizes contributed to the time it took to process the print job. This generates “complexity factor time values.” The method prints a report of the complexity factor time values detailing how each of the complexity factors contributed to the time it took to process the print job. | 06-10-2010 |
Willie Horn, Jr., Oakland, CA US
Patent application number | Description | Published |
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20110003726 | LOW TEMPERATURE PERFORMANCE LUBRICATING OIL DETERGENTS AND METHOD OF MAKING THE SAME - The present invention is directed to a method for preparing an unsulfurized, carboxylate-containing additive for lubricating oils and the product produced by said method, wherein said method comprises a) neutralization of a mixture of at least two alkyl phenols using an alkaline earth base in the presence of a promoter, to produce a mixture of alkyl phenates, wherein the mixture of at least two alkyl phenols comprises at least a first alkyl phenol wherein the alkyl group is derived from an isomerized alpha olefin and a second alkyl phenol wherein the alkyl group is derived from a branched chain olefin; (b) carboxylation of the mixture of alkyl phenates obtained in step (a) using carbon dioxide under carboxylation conditions sufficient to convert at least 20 mole % of the starting alkyl phenols to alkyl salicylate; and (c) removal of at least about 10% of the starting mixture of at least two alkyl phenols from the product produced in step (b) to produce said additive. | 01-06-2011 |
20130157916 | Low Temperature Performance Lubricating Oil Detergents and Method of Making the Same - The present invention is directed to a method for preparing an unsulfurized, carboxylate-containing additive for lubricating oils and the product produced by said method, wherein said method comprises a) neutralization of a mixture of at least two alkyl phenols using an alkaline earth base in the presence of a promoter, to produce a mixture of alkyl phenates, wherein the mixture of at least two alkyl phenols comprises at least a first alkyl phenol wherein the alkyl group is derived from an isomerized alpha olefin and a second alkyl phenol wherein the alkyl group is derived from a branched chain olefin; (b) carboxylation of the mixture of alkyl phenates obtained in step (a) using carbon dioxide under carboxylation conditions sufficient to convert at least 20 mole % of the starting alkyl phenols to alkyl salicylate; and (c) removal of at least about 10% of the starting mixture of at least two alkyl phenols from the product produced in step (b) to produce said additive. | 06-20-2013 |