Hosch
Jimmy W. Hosch, Dallas, TX US
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20100032587 | Electron beam exciter for use in chemical analysis in processing systems - The present invention is directed to a gas line electron beam exciter, gas line electron beam excitation system and method for exciting a gas using an electron beam exciter. The electron beam exciter generally comprises a variable density electron source for generating a cloud of electrons in an electron chamber and a variable energy electron extractor for accelerating electrons from the electron chamber as an electron beam and into an effluent stream for fluorescing species in the effluent. The electron density of the electron beam is variably controlled by adjusting the excitation power applied to the variable density electron source. The electrons in the electron chamber reside at a reference electrical potential of the chamber, typically near ground electrical potential. The electron energy of the electron beam is variably controlled by adjusting an electrical potential across the variable energy electron extractor, which energizes the electrons through an extraction hole of the chamber and toward the extractor. The greater the difference in the electrical potential between the electron extractor and the electron source, the higher the energy imparted to the electrons in the electron beam. The excitation power applied to the electron source can be adjusted independently from the electron energy of the electron beam, thereby altering the electron density of the electron beam without changing the energy level of the electrons of the electron beam. | 02-11-2010 |
Kenneth Hosch, Redondo Beach, CA US
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20150088465 | CAD SYSTEM WITH AUXILIARY INPUT SYSTEM - Methods for CAD editing and corresponding systems and computer-readable mediums. A method for CAD editing includes receiving executing a CAD modeling session by a CAD data processing system. The method includes communicating between the CAD data processing system and an auxiliary device and sending a geometry package from the CAD data processing system to the auxiliary device. The method includes receiving user input by the auxiliary device and transmitting user input data, corresponding to the user input, from the auxiliary device to the CAD data processing system. The method includes updating the CAD modeling session, by the CAD data processing system, according to the user input data. The user input can be, for example, touch-screen input or stylus input on the display of the auxiliary device. | 03-26-2015 |
Luitpold Hosch, Lagenzenn DE
Michael Hosch, Oconomowoc, WI US
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20080210529 | CONVEYOR FRAME ASSEMBLY HAVING SIDE RAILS INCLUDING MULTIPLE ATTACHMENT SLOTS AND ADJUSTABLE CROSS SUPPORTS - The present disclosure relates to a conveyor frame assembly that includes a pair of spaced side rails joined by one or more cross supports. Each of the side rails includes a dedicated wire channel and self-contained air flow cavity that enhances the functionality of the conveyor frame assembly. The air flow cavity and the wire channel are formed as part of the side rails separate from typical attachment slots that receive T-shaped connectors. The cross supports utilized with the conveyor frame assembly are attached to the side rails by upper and lower connectors that are each accessible from the top of the conveyor frame assembly. Specifically, the cross support includes a center web and laterally offset attachment webs that allow for easy and convenient construction and field modification of the conveyor frame assembly. | 09-04-2008 |
Michael A. Hosch, Oconomowoc, WI US
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20090020397 | CONTAINED DRIVE SYSTEM FOR CHAIN CONVEYOR BELT TO REDUCE CATENARY SAG - A conveyor frame assembly for use with a conveyor belt formed from individual links each joined together at pivot points. The conveyor frame assembly includes a drive assembly that pulls the conveyor belt around a drive roller to transition between the upper and lower runs of the conveyor belt. The drive end includes a support block that encloses the side edges of the conveyor belt as the conveyor belt transitions over the drive sprockets. The side frame members each include a continuous retaining channel having a height greater than the thickness of the conveyor belt. The retaining channels formed on opposite sides of the conveyor frame assembly allow the lower run of the conveyor belt to “tent” by creating an angle between adjacent links of the conveyor belt assembly. The tenting of the lower run of the conveyor belt eliminates catenary sag. | 01-22-2009 |
20110114457 | EXTRUDED RAIL WITH CONTAINED MOUNTING CAVITY - An extruded rail for mounting objects along the length of the rail that include an enclosed receiving and containment cavity. The extruded rail includes a receiving and containment cavity that extends from an inner surface of the rail. The receiving and containment cavity includes upper and lower walls and a back wall that define an enclosed containment area. An alignment notch is formed in the generally planar outer surface of the side rail and aligned with the receiving and containment cavity. When an object is to be attached to the rail, an opening is formed in the side rail at the alignment notch. As material is removed from the side rail during formation of the opening, the received material is entrapped within the receiving and containment cavity. Thus, the extruded rail of the disclosure receives and contains material removed during attachment of an object to the rail. | 05-19-2011 |
Timothy A. Hosch, Plum, PA US
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20150203942 | 6XXX ALUMINUM ALLOYS - New 6xxx aluminum alloys having an improved combination of properties are disclosed. The new 6xxx aluminum alloy generally include from 0.30 to 0.53 wt. % Si, from 0.50 to 0.65 wt. % Mg wherein the ratio of wt. % Mg to wt. % Si is at least 1.0:1 (Mg:Si), from 0.05 to 0.24 wt. % Cu, from 0.05 to 0.14 wt. % Mn, from 0.05 to 0.25 wt. % Fe, up to 0.15 wt. % Ti, up to 0.15 wt. % Zn, up to 0.15 wt. % Zr, not greater than 0.04 wt. % V, and not greater than 0.04 wt. % Cr, the balance being aluminum and other elements. | 07-23-2015 |