Patents by Inventor David J. Rinaldis
David J. Rinaldis 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: 11058436Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.Type: GrantFiled: June 18, 2019Date of Patent: July 13, 2021Assignee: McGinley Engineered Solutions, LLCInventors: Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers
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Publication number: 20190328402Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.Type: ApplicationFiled: June 18, 2019Publication date: October 31, 2019Inventors: Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers
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Patent number: 10398453Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.Type: GrantFiled: November 28, 2017Date of Patent: September 3, 2019Assignee: McGinley Engineered Solutions, LLCInventors: Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers
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Publication number: 20180185034Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.Type: ApplicationFiled: November 28, 2017Publication date: July 5, 2018Inventors: Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers
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Patent number: 9826984Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.Type: GrantFiled: November 15, 2016Date of Patent: November 28, 2017Assignee: McGinley Engineered Solutions, LLCInventors: Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers
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Publication number: 20170245868Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.Type: ApplicationFiled: November 15, 2016Publication date: August 31, 2017Inventors: Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers
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Patent number: 9492181Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.Type: GrantFiled: October 7, 2013Date of Patent: November 15, 2016Assignee: McGinley Engineered Solutions, LLCInventors: Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers
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Patent number: 9370372Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.Type: GrantFiled: September 4, 2013Date of Patent: June 21, 2016Assignee: McGinley Engineered Solutions, LLCInventors: Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers
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Patent number: 9358016Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.Type: GrantFiled: October 7, 2013Date of Patent: June 7, 2016Assignee: McGinley Engineered Solutions, LLCInventors: Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers
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Patent number: 9204885Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.Type: GrantFiled: October 7, 2013Date of Patent: December 8, 2015Assignee: McGinley Engineered Solutions, LLCInventors: Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers
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Publication number: 20150066037Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.Type: ApplicationFiled: October 7, 2013Publication date: March 5, 2015Applicant: McGinley Engineered Solutions, LLCInventors: Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers
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Publication number: 20150066035Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.Type: ApplicationFiled: September 4, 2013Publication date: March 5, 2015Applicant: McGinley Engineered Solutions, LLCInventors: Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers
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Publication number: 20150066030Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.Type: ApplicationFiled: October 7, 2013Publication date: March 5, 2015Applicant: McGinley Engineered Solutions, LLCInventors: Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers
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Publication number: 20150066038Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.Type: ApplicationFiled: October 7, 2013Publication date: March 5, 2015Applicant: McGinley Engineered Solutions, LLCInventors: Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers
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Publication number: 20150066036Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.Type: ApplicationFiled: October 7, 2013Publication date: March 5, 2015Applicant: McGinley Engineered Solutions, LLCInventors: Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers
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Publication number: 20130289399Abstract: A method for treating spinal nerve compression includes positioning a media delivery device between a first vertebra and a second vertebra. A visualization media can be delivered from an outlet of the media delivery device while the outlet to the media delivery device is positioned outside of an epidural sac of the subject. The media delivery device can be spaced apart from a portion of the epidural sac between a spinal cord and a ligamentum flavum. A series of instruments can be used to perform a decompression procedure on the subject.Type: ApplicationFiled: March 15, 2013Publication date: October 31, 2013Applicant: Vertiflex, Inc.Inventors: Andy W. Choi, Arthur C. Kwun, Martin A. Leugers, Graham R. Faulknor, Shigeru Tanaka, David J. Rinaldis, Adam Beckett
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Patent number: 7644991Abstract: A chair for offices and the like includes at least one armrest that can be folded from a generally upright position to a folded position and visa-versa. The folding mechanism has a thin profile, thereby minimizing the thickness of the armrest and providing an aesthetically pleasing appearance. A cover for the armrest includes an elastic material that stretches to accommodate folding, and also contracts to reduce or eliminate wrinkles. The folding mechanism may bias the armrest to the folded position to overcome forces generated by stretching of the cover when the armrest is folded.Type: GrantFiled: June 2, 2006Date of Patent: January 12, 2010Assignee: Steelcase Inc.Inventors: Judy G. Davis, Dickon Isaacs, Jonathan I. Kaplan, Kurtis K. Kemper, Jon H. LeFors, Thomas Overthun, David J. Rinaldis, Robert L. Stewart, James R. Yurchenco
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Publication number: 20070278838Abstract: A chair for offices and the like includes at least one armrest that can be folded from a generally upright position to a folded position and visa-versa. The folding mechanism has a thin profile, thereby minimizing the thickness of the armrest and providing an aesthetically pleasing appearance. A cover for the armrest includes an elastic material that stretches to accommodate folding, and also contracts to reduce or eliminate wrinkles. The folding mechanism may bias the armrest to the folded position to overcome forces generated by stretching of the cover when the armrest is folded.Type: ApplicationFiled: June 2, 2006Publication date: December 6, 2007Inventors: Judy G. Davis, Dickon Isaacs, Jonathan I. Kaplan, Kurtis K. Kemper, Jon H. LeFors, Thomas Overthun, David J. Rinaldis, Robert L. Stewart, James R. Yurchenco
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Patent number: D732364Type: GrantFiled: July 2, 2014Date of Patent: June 23, 2015Assignee: McGinley Engineered Solutions, LLCInventors: David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers