Patents by Inventor Richard J. Klein, II
Richard J. Klein, II has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 8596553Abstract: An ergonomic adapter for an aerosol spray can. The ergonomic adapter has an elastomeric collar that fits around a body of an aerosol spray paint can such that a front portion of the collar is facing in front of the can just below the interface between the body and the domed top of the spray can. The front of the adapter includes a compartment that houses a polychromatic light source for lighting the surface and/or a light beam arrangement for targeting and positioning the spray can with respect to the surface.Type: GrantFiled: October 16, 2009Date of Patent: December 3, 2013Assignee: The LaserCan Company, LLCInventors: Richard J. Klein, II, Thomas J. Giblin, John L. Konefes, Nicholas J. Webb, Stephen Orsatti
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Patent number: 8453944Abstract: An ergonomic adapter for an aerosol spray can helps to reduce finger pain and hand fatigue. The ergonomic adapter has a collar that fits around a body of an aerosol spray paint can such that a front portion of the collar is facing in front of the can just below the interface between the body and the domed top of the spray can. An arcuate finger strip extends upward from the rear side of the collar and over the push-button nozzle on the spray can when the adapter is fitted onto the body of the spray can. The collar and the arcuate finger strip are made of a resilient, flexible material such as butyl rubber. The arcuate finger strip preferably has a concave upper surface. The collar has enlarged traction pads positioned to facilitate gripping by the user. When the user grips the ergonomic adapter, the user's index finger rests in the concave, arcuate finger strip.Type: GrantFiled: October 20, 2008Date of Patent: June 4, 2013Assignee: The LaserCan Company, LLCInventors: Richard J. Klein, II, Thomas J. Giblin, John L. Konefes, Nicholas J. Webb, Stephen Orsatti
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Patent number: 7839417Abstract: A virtual coatings application system has several features to enhance the realism of simulated spray painting. The system generally includes a display screen on which is defined a virtual surface (such as a truck door) that is intended to be virtually painted or coated by the user. Alternatively, the system includes a head-mounted display unit that displays a virtual spray painting environment in which the virtual surface is defined. The user operates an instrumented spray gun controller that outputs one or more signals representing data as to the status of the controls on the spray gun controller. The system also has a motion tracking system that tracks the position and orientation of the spray gun controller with respect to the virtual surface. Simulation software generates virtual spray pattern data in response to at least the data from the spray gun controller and the position and orientation data received from the tracking system.Type: GrantFiled: October 6, 2006Date of Patent: November 23, 2010Assignee: University of Northern Iowa Research FoundationInventors: Jason M. Ebensberger, Michael J. Bolick, Jeremiah G. Treloar, Richard J. Klein, II, Eric C. Peterson, Chad J. Zalkin, James B. Fisher, Leslie C. Hughes
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Patent number: 7839416Abstract: A virtual coatings application system has several features to enhance the realism of simulated spray painting. The system generally includes a display screen on which is defined a virtual surface (such as a truck door) that is intended to be virtually painted or coated by the user. The user operates an instrumented spray gun controller that outputs one or more signals representing data as to the status of the controls on the spray gun controller. The system also has a motion tracking system that tracks the position and orientation of the spray gun controller with respect to the virtual surface defined on the display screen. Simulation software generates virtual spray pattern data in response to at least the data from the spray gun controller and the position and orientation data received from the tracking system. Virtual spray pattern images are displayed in real time on the display screen in accordance with the accumulation of virtual spray pattern data at each location on the virtual surface.Type: GrantFiled: March 10, 2006Date of Patent: November 23, 2010Assignee: University of Northern Iowa Research FoundationInventors: Jason M. Ebensberger, Michael J. Bolick, Jeremiah G. Treloar, Richard J. Klein, II, Eric C. Peterson, Chad J. Zalkin, James B. Fisher, Leslie C. Hughes
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Publication number: 20100096472Abstract: An ergonomic adapter for an aerosol spray can helps to reduce finger pain and hand fatigue. The ergonomic adapter has a collar that fits around a body of an aerosol spray paint can such that a front portion of the collar is facing in front of the can just below the interface between the body and the domed top of the spray can. An arcuate finger strip extends upward from the rear side of the collar and over the push-button nozzle on the spray can when the adapter is fitted onto the body of the spray can. The collar and the arcuate finger strip are made of a resilient, flexible material such as butyl rubber. The arcuate finger strip preferably has a concave upper surface. The collar has enlarged traction pads positioned to facilitate gripping by the user. When the user grips the ergonomic adapter, the user's index finger rests in the concave, arcuate finger strip.Type: ApplicationFiled: October 20, 2008Publication date: April 22, 2010Applicant: UNIVERSITY OF NORTHERN IOWA RESEARCH FOUNDATIONInventors: Richard J. Klein, II, Thomas J. Giblin, John L. Konefes, Nicholas J. Webb, Stephen Orsatti
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Publication number: 20100096477Abstract: An ergonomic adapter for an aerosol spray can. The ergonomic adapter has an elastomeric collar that fits around a body of an aerosol spray paint can such that a front portion of the collar is facing in front of the can just below the interface between the body and the domed top of the spray can. The front of the adapter includes a compartment that houses a polychromatic light source for lighting the surface and/or a light beam arrangement for targeting and positioning the spray can with respect to the surface.Type: ApplicationFiled: October 16, 2009Publication date: April 22, 2010Applicant: UNIVERSITY OF NORTHERN IOWA RESEARCH FOUNDATIONInventors: Richard J. Klein, II, Thomas J. Giblin, John L. Konefes, Nicholas J. Webb, Stephen Orsatti
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Publication number: 20100077959Abstract: A virtual coatings application system realistically simulates airless spray painting. The system generally includes a display screen on which is defined a virtual surface that is intended to be virtually painted or coated by the user. The user operates the instrumented airless spray gun controller which is instrumented with a tracking device and an electronic on/off switch for the trigger. The system also has a motion tracking system that tracks the position and orientation of the airless spray gun controller with respect to the virtual surface defined on the display screen. Simulation software generates virtual spray pattern data in response to the setup parameters and the position and orientation of the airless spray gun controller with respect to the virtual surface. Virtual spray pattern images are displayed in real time on the display screen in accordance with the accumulation of virtual spray pattern data at each location on the virtual surface. The primary purpose of the system is to enhance training.Type: ApplicationFiled: September 29, 2008Publication date: April 1, 2010Applicant: UNIVERSITY OF NORTHERN IOWA RESEARCH FOUNDATIONInventors: Jeremiah G. Treloar, Christopher A. Lampe, Jason M. Ebensberger, Michael J. Bolick, John Whiting, Richard J. Klein, II, Eric C. Peterson, Chad J. Zalkin, Warren C. Couvillion, JR., Stephen R. Gray
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Patent number: 7270593Abstract: A blasting system for the removal of coatings or paint from an underlying surface uses an optical device to position the blasting nozzle an appropriate stand-off distance from the surface. The blasting media can use a variety of blasting media including abrasives, water, and various specialty blasting media. The preferred optical system is mounted to or integral with the blasting nozzle, and uses a diode laser, a beam splitter and a reflecting mirror to generate a reference beam and a gauge beam. Alternatively, two diode lasers can be used to generate the reference beam and gauge beam respectively. The reference beam propagates in a fixed forward direction, but the direction of the gauge beam is adjustable. The user adjusts the orientation of the gauge beam so that the image of the beam on the surface aligns with the image of the reference beam on the surface when the blasting nozzle is positioned at the appropriate stand-off distance from the surface.Type: GrantFiled: January 18, 2006Date of Patent: September 18, 2007Assignee: University of Northern Iowa Research FoundationInventors: Richard J. Klein, II, Christopher A. Lampe
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Patent number: 6557815Abstract: A support bracket for mounting a device such as a laser targeting and feedback system to a spray gun. The bracket includes a bolt having a threaded end, a first collar disposed on the bolt opposite the threaded end and a second collar threadably engaged with the threaded end of the bolt. A compressible member is disposed on the bolt between the collars. Opposite the compressible member, a support arm used to support the device is attached to the second collar. The bracket is engageable with a portion of the spray gun body and is engaged therewith by deflecting the compressible member between the collars such that the compressible member frictionally engages the spray gun. The use of the compressible member to secure the bracket to the hook allows the bracket to be utilized with spray guns having various configurations so long as the spray gun incorporates a portion on the spray gun body that is engageable by the compressible member.Type: GrantFiled: December 5, 2000Date of Patent: May 6, 2003Assignee: University of Northern Iowa Research FoundationInventor: Richard J. Klein, II
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Patent number: 5868840Abstract: A spray gun for applying a liquid spray coating, such as paint, to a surface incorporates a light source and detection system for analyzing the position of the spray gun relative to a worksurface in order to optimize application of the coating to the surface. The light source is preferably in the form of a laser which emits a beam of light toward the worksurface. The laser is interconnected with the housing of the spray gun in a location over the spray gun handle so as not to effect the center of gravity of the spray gun. Optical sensors are mounted to the spray gun housing for receiving light reflected from the work-surface, and the sensors are interconnected with a processor for providing the operator with a real time visual indication as to compliance with predetermined paint application criteria. In addition, information can be stored to memory and downloaded for subsequent analysis.Type: GrantFiled: December 30, 1996Date of Patent: February 9, 1999Assignee: The University of Northern Iowa FoundationInventors: Richard J. Klein, II, Douglas L. Sevey
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Patent number: 5757498Abstract: An optical spray coating monitoring system uses a laser displacement sensor and a data acquisition system to monitor a spray gun operator's technique, and display information relating to coating conditions and/or technique. The system includes a laser displacement sensor having a sensor head that is removably attached to a hand held spray gun. The laser displacement sensor measures the distance from the spray nozzle to the surface being coated. The laser displacement sensor also preferably measures the angle of orientation of the spray gun with respect to the surface being coated. The sensor head can also include an infrared temperature sensor. Another embodiment of the invention also uses a second laser displacement sensor.Type: GrantFiled: May 30, 1996Date of Patent: May 26, 1998Inventors: Richard J. Klein, II, Douglas L. Sevey, Ricky Jay Bauer
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Patent number: 5598972Abstract: An optical spray paint optimization system can be removably mounted to a spray paint gun, thus enhancing the ability of the user to guide the direction of the spray and also locate the nozzle at an optimum spray distance from the surface being painted. The preferred apparatus uses a diode laser, a beam splitter and a reflecting mirror to generate a reference beam and a gauge beam. The reference beam propagates in a fixed forward direction, but the direction of the gauge beam is adjustable by adjusting the attitude of the reflecting mirror. The reference beam and the gauge beam intersect at a convergence point which can be repositioned to a selected distance from the nozzle of the spray painting system by adjusting the path of the gauge beam, thus allowing the user to spray at the optimum spray distance by locating the convergence point on the surface being painted. The beams also aid in aiming the spray.Type: GrantFiled: July 19, 1995Date of Patent: February 4, 1997Assignee: University of Northern Iowa FoundationInventors: Richard J. Klein, II, Douglas L. Sevey, Alireza Badakhshan, Ricky J. Bauer
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Patent number: 5186160Abstract: A supplementary heat and air supply system for a building includes a solar panel mounted to the exterior of the building, and a solar panel duct extending between the solar panel and the return air manifold of the building's conventional heating system. A fan or blower is positioned within the solar panel duct. The solar panel has a fresh air intake to provide fresh outdoor air to the interior of the solar panel. During daytime hours, when the temperature of air within the solar panel attains a predetermined level, the blower is operated to supply the heated air to the interior of the structure through the solar panel duct, with the heated air being supplied through the return air manifold. When the building's furnace operates, it draws air from the return air manifold, which also acts to draw air from the solar panel through the solar panel duct. The system acts to pressurize the building's interior during operation of the blower, to deter seepage of gases, such as radon, into the building's interior.Type: GrantFiled: August 28, 1991Date of Patent: February 16, 1993Inventor: Richard J. Klein, II