Dennis N.
Dennis N. Chalou, Metamora, MI US
Patent application number | Description | Published |
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20130035025 | CONTAINMENT HOOD - A containment hood may include a first shell portion, a second shell portion and a lid portion. The first shell portion may include a first interior-facing surface. The second shell portion may be spaced apart from the first shell portion and may include a second interior-facing surface. The first and second interior-facing surfaces may oppose each other. The lid portion may extend between and engage the first and second shell portions. The lid portion may cooperate with the first and second shell portions to form at least a partial enclosure defining an interior volume. The first and second shell portions and the lid portion may cooperate to define a first opening through which a user is able to access the interior volume. | 02-07-2013 |
Dennis N. Duce, Cottonwood Heights, UT US
Patent application number | Description | Published |
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20120061046 | INTERLOCKING ROOF MOUNTED HEAT-TRANSFER PANELS - A method is disclosed for installing heat transfer panels (typically of metal) on a roof. Panels are applied to the roof such that the panels have an interlocking relationship at interlocking interfaces between adjacent panels. An energy conducting element is laid among the panels such that the energy conducting element extends along the interlocking interfaces such that of the energy conducting element emits heat in all directions, preferably by contact | 03-15-2012 |
Dennis N. Jensen, Bologna IT
Patent application number | Description | Published |
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20160061532 | EVAPORATOR AND CONDENSER SECTION STRUCTURE FOR THERMOSIPHON - A thermosiphon device includes a closed loop evaporator section having one or more evaporation channels that are fed by a liquid return path, and a condenser section with one or more condensing channels. The condenser section may include a vapor supply path that is adjacent one or more condensing channels, e.g., located between two sets of condensing channels. Evaporator and/or condenser sections may be made from a single, flat bent tube, which may be bent about an axis parallel to the plane of the flat tube to form a turnaround and/or twisted about an axis along a length of the tube at the tube ends. A single tube may form both evaporator and condenser sections of a thermosiphon device, and an axially extending wall inside the tube in the evaporator section may separate an evaporator section from a liquid return section. | 03-03-2016 |
20160076819 | THERMOSIPHON WITH BENT TUBE SECTION - A thermosiphon device including one or more multi-port tubes that form both an evaporator section and a condenser section for the device. The one or more tubes may be flat tubes with multiple, parallel flow channels, and may be bent to form a bend between the evaporator and condenser sections of the tube(s). One or more flow channels of the tube at the bend may provide a vapor flow path or a liquid flow path between the evaporator and condenser sections. | 03-17-2016 |
Dennis N. Lyell, Hudson, OH US
Patent application number | Description | Published |
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20140272107 | SUBSTRATE COATING TECHNIQUES - According to certain techniques, a system for coating a substrate includes a preparation component, a coating component, and a curing component. The preparation component includes a plasma applicator that irradiates the substrate with plasma to form a prepared substrate. The coating component coats the prepared substrate with a coating medium to form a coated substrate. The coating component includes a coating head that receives the coating medium from a reservoir and applies the coating medium to the prepared substrate to form the coated substrate. The coating component includes a vacuum that removes an excess amount of the coating medium from the coated substrate. The curing component includes at least one ultraviolet emitter and irradiates the coated substrate with ultraviolet energy to form a cured substrate. | 09-18-2014 |
20140272186 | SUBSTRATE COATING TECHNIQUES - According to certain techniques, a system for coating a substrate includes a preparation component, a coating component, and a curing component. The preparation component includes a plasma applicator that irradiates the substrate with plasma to form a prepared substrate. The coating component coats the prepared substrate with a coating medium to form a coated substrate. The coating component includes a coating head that receives the coating medium from a reservoir and applies the coating medium to the prepared substrate to form the coated substrate. The coating component includes a vacuum that removes an excess amount of the coating medium from the coated substrate. The curing component includes at least one ultraviolet emitter and irradiates the coated substrate with ultraviolet energy to form a cured substrate. | 09-18-2014 |
Dennis N. Wys, Ann Arbor, MI US
Patent application number | Description | Published |
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20130213027 | ONE-WAY BRAKE FOR A TORQUE CONVERTER STATOR - A stator assembly for a torque converter includes a member fixed against rotation and including engagement surfaces spaced mutually about an axis, a stator formed with pockets spaced about the axis, rockers, each rocker located in a pocket, able to pivot toward and away from engagement with the engagement surfaces, and springs, each spring urging a rocker toward engagement with the engagement surfaces. | 08-22-2013 |
20130319812 | ELECTROMAGNETIC ONE-WAY COUPLING - A one-way coupling includes a cam plate including cams, a pocket plate including pockets, struts, each strut located in one of the pockets, and an electromagnet for engaging one of the struts with one of the cams, including a coil, a core and poles that extend from the coil to said strut, a gap between the poles and the pocket plate exceeding a gap between the poles and said strut. | 12-05-2013 |
20140045643 | INTEGRATED PINION CARRIER AND OVERRUNNING ELEMENT RACE - A pinion carrier includes a first disc including ring segments, each ring segment extending angularly about an axis and spaced angularly from the other ring segments, a second disc, spacers secured to the discs and separating the discs axially, and retention elements, each retention element secured to one of the ring segments. | 02-13-2014 |