Erik R.
Erik R. Anderson, Marysville, OH US
Patent application number | Description | Published |
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20150084366 | SIDE DOOR EXTENSION SUPPORT ASSEMBLY - A side door extension support assembly for a vehicle includes a side door movably mounted on a vehicle body of the vehicle and an extension member mounted to the vehicle body. The side door is longitudinally moveable between a closed position and an open position. The extension member is moveable between a retracted position and an extended position for supporting the side door. Movement of the extension member corresponds to movement of the side door such that the extension member moves to the extended position when the side door is moved from the closed position to the open position, and the extension member moves to the retracted position when the side door is moved from the open position to the closed position. | 03-26-2015 |
Erik R. Brinley, Orlando, FL US
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20080311390 | SOL-GEL COATING METHODS AND THIN FILM COATED SUBSTRATES THEREFROM - A method for depositing sol-gel derived coatings on substrates to form coated substrates includes the steps of providing a first solution including at least one sol precursor and at least one solvent. A water comprising solution is added to the first solution to form a sol-gel. The sol-gel is deposited on a substrate. The sol-gel layer on the substrate is dried/cured at a temperature ≦100° C. for at least 10 minutes to form a solid layer, wherein the solid layer has a thickness from 50 nm to 110 nm. The depositing and curing steps are repeated at least once until combined thickness of the solid layers forms a coating of a predetermined thickness. The resulting solid layers are low water content layers that can be evidenced by transmission measurements. The coated substrate can be an IR transmissive substrate having a recrystallization temperature <130° C. and each of the solid layers provide a transmission at λ=2950 nm, normal incidence and 1 mW power if placed on the IR transmissive substrate of ≧99% of the transmission directly through the IR transmissive substrate. | 12-18-2008 |
20100047614 | COMBUSTION TURBINE COMPONENT HAVING BOND COATING AND ASSOCIATED METHODS - A combustion turbine component includes a combustion turbine component substrate and a bond coating on the combustion turbine component substrate. The bond coating may include M | 02-25-2010 |
Erik R. Granstrand, West Hartford, CT US
Patent application number | Description | Published |
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20140212297 | GAS TURBINE ENGINE SERPENTINE COOLING PASSAGE WITH CHEVRONS - A gas turbine engine component includes a structure having a cooling passage providing upstream and downstream portions separated from one another by an inner wall and fluidly connected by a bend. First and second trip strips are respectively arranged in the upstream and downstream portions. The first trip strips are arranged at a first spacing from one another. The second trip strips are arranged at a second spacing from one another. A turbulence promoter is arranged in the bend and at a third spacing from the first trip strips that is different than the first spacing. The turbulence promoter is arranged at a fourth spacing from the second trip strips that is different than the second spacing. | 07-31-2014 |
Erik R. Hoefgin, Springfield, IL US
Patent application number | Description | Published |
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20080312441 | Use of Oripavine as a Starting Material For Buprenorphine - There is provided a method for the synthesis of norbuprenorphine, and ultimately buprenorphine, utilizing oripavine as the starting material. Conventional methods of producing buprenorphine utilize thebaine as the starting material, requiring an O-demethylation step, typically a low to moderate yield transformation. The present use of oripavine as a starting material does not require an O-demethylation step, since the oripavine molecule lacks an O-3 methyl group. | 12-18-2008 |
Erik R. Loopstra, Heeze NL
Patent application number | Description | Published |
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20110001955 | System and Method for Using a Two Part Cover and a Box for Protecting a Reticle - Systems and methods to protect a mask from being contaminated by airborne particles are described. The systems and methods include providing a reticle secured in a two-part cover. The two part cover includes a removable protection device used to protect the reticle from contaminants. The cover can be held inside a pod or box that can be used to transport the cover through a lithography system from an atmospheric section to a vacuum section. While in the vacuum section, the removable cover can be moved during an exposure process during which a pattern on the reticle can be formed on a wafer. | 01-06-2011 |
20130010277 | System and Method for Using a Two Part Cover and a Box for Protecting a Reticle - Systems and methods to protect a mask from being contaminated by airborne particles are described. The systems and methods include providing a reticle secured in a two-part cover. The two part cover includes a removable protection device used to protect the reticle from contaminants. The cover can be held inside a pod or box that can be used to transport the cover through a lithography system from an atmospheric section to a vacuum section. While in the vacuum section, the removable cover can be moved during an exposure process during which a pattern on the reticle can be formed on a wafer. | 01-10-2013 |
Erik R. Slegelis, Port Washington, WI US
Patent application number | Description | Published |
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20110203864 | HOOD ASSEMBLY FOR A LAWN TRACTOR WITH REMOVABLE COWL - A hood assembly for a lawn tractor that includes a removable air intake cowl to prevent debris and rain from entering into the open interior defined by the hood. The air intake cowl is removably mounted to the hood of the lawn tractor. The hood of the lawn tractor includes a series of engine intake openings that allow air to flow onto the internal combustion engine. The cowl is defined by a top wall and a pair of depending sidewalls that each include a series of air inlet openings. The air inlet openings extend generally perpendicular to the top panel of the hood and thus prevent debris and rain from reaching the engine intake openings. | 08-25-2011 |
20120199089 | PUSH BUTTON STARTING SYSTEM FOR OUTDOOR POWER EQUIPMENT - A starting system for outdoor power equipment that has a controller and a start button to control the activation of an internal combustion engine. The starting system includes a controller that receives a start signal from a start button. The controller monitors for the presence of an enable device in an enable device receptacle and, upon activation of the start button and the presence of the enable device in the enable device receptacle, the controller provides electric power to the electric load of the power equipment. When the start button is depressed for longer than a minimum engagement period, the controller initiates operation of the engine. If the start button is pressed for less than the minimum engagement period, the controller activates the electric load for an auxiliary period without starting the engine. During engine operation, if the start button is depressed, the controller terminates operation of the engine. | 08-09-2012 |
20130312693 | PUSH BUTTON STARTING SYSTEM FOR OUTDOOR POWER EQUIPMENT - A starting system for outdoor power equipment that has a controller and a start button to control the activation of an internal combustion engine. The starting system includes a controller that receives a start signal from a start button. The controller monitors for the presence of an enable device in an enable device receptacle and, upon activation of the start button and the presence of the enable device in the enable device receptacle, the controller provides electric power to the electric load of the power equipment. When the start button is depressed for longer than a minimum engagement period, the controller initiates operation of the engine. If the start button is pressed for less than the minimum engagement period, the controller activates the electric load for an auxiliary period without starting the engine. During engine operation, if the start button is depressed, the controller terminates operation of the engine. | 11-28-2013 |
20140299088 | PUSH BUTTON STARTING SYSTEM FOR OUTDOOR POWER EQUIPMENT - A starting system for outdoor power equipment that has a controller and a start button to control the activation of an internal combustion engine. The starting system includes a controller that receives a start signal from a start button. The controller monitors for the presence of an enable device in an enable device receptacle and, upon activation of the start button and the presence of the enable device in the enable device receptacle, the controller provides electric power to the electric load of the power equipment. When the start button is depressed for longer than a minimum engagement period, the controller initiates operation of the engine. If the start button is pressed for less than the minimum engagement period, the controller activates the electric load for an auxiliary period without starting the engine. During engine operation, if the start button is depressed, the controller terminates operation of the engine. | 10-09-2014 |