Patents by Inventor Scott Paul

Scott Paul 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).

  • Patent number: 10550902
    Abstract: A disc brake rotor includes a core including a hat-shaped section, an annular inboard mounting surface, and an annular outboard mounting surface axially spaced from the inboard mounting surface and connected to the inboard mounting surface. The hat-shaped section has a central mounting face and a cylindrical shoulder extending from a periphery of the mounting face. The outboard mounting surface has an interior peripheral edge radially spaced from the shoulder, and the inboard mounting surface has an interior peripheral edge engaged to the shoulder. An inboard friction ring includes radially extending first projections secured to the inboard mounting surface. The outboard friction ring includes radially extending second projections secured to the outboard mounting surface. The first projections are angularly aligned with the second projections. The first and second projections extend into the space between the inboard and outboard mounting surfaces and have a gap therebetween.
    Type: Grant
    Filed: April 5, 2019
    Date of Patent: February 4, 2020
    Assignee: Honda Motor Co., Ltd.
    Inventor: Scott Paul
  • Publication number: 20190234473
    Abstract: A disc brake rotor includes a core including a hat-shaped section, an annular inboard mounting surface, and an annular outboard mounting surface axially spaced from the inboard mounting surface and connected to the inboard mounting surface. The hat-shaped section has a central mounting face and a cylindrical shoulder extending from a periphery of the mounting face. The outboard mounting surface has an interior peripheral edge radially spaced from the shoulder, and the inboard mounting surface has an interior peripheral edge engaged to the shoulder. An inboard friction ring includes radially extending first projections secured to the inboard mounting surface. The outboard friction ring includes radially extending second projections secured to the outboard mounting surface. The first projections are angularly aligned with the second projections. The first and second projections extend into the space between the inboard and outboard mounting surfaces and have a gap therebetween.
    Type: Application
    Filed: April 5, 2019
    Publication date: August 1, 2019
    Inventor: Scott Paul
  • Patent number: 10253833
    Abstract: A disc brake rotor includes a core including a hat-shaped section, an annular inboard mounting surface, and an annular outboard mounting surface axially spaced from the inboard mounting surface and connected to the inboard mounting surface. The hat-shaped section has a central mounting face and a cylindrical shoulder extending from a periphery of the mounting face. The outboard mounting surface has an interior peripheral edge radially spaced from the shoulder, and the inboard mounting surface has an interior peripheral edge engaged to the shoulder. An inboard friction ring includes radially extending first projections secured to the inboard mounting surface. The outboard friction ring includes radially extending second projections secured to the outboard mounting surface. The first projections are angularly aligned with the second projections. The first and second projections extend into the space between the inboard and outboard mounting surfaces and have a gap therebetween.
    Type: Grant
    Filed: June 30, 2017
    Date of Patent: April 9, 2019
    Assignee: Honda Motor Co., Ltd.
    Inventor: Scott Paul
  • Publication number: 20190003540
    Abstract: A disc brake rotor includes a core including a hat-shaped section, an annular inboard mounting surface, and an annular outboard mounting surface axially spaced from the inboard mounting surface and connected to the inboard mounting surface. The hat-shaped section has a central mounting face and a cylindrical shoulder extending from a periphery of the mounting face. The outboard mounting surface has an interior peripheral edge radially spaced from the shoulder, and the inboard mounting surface has an interior peripheral edge engaged to the shoulder. An inboard friction ring includes radially extending first projections secured to the inboard mounting surface. The outboard friction ring includes radially extending second projections secured to the outboard mounting surface. The first projections are angularly aligned with the second projections. The first and second projections extend into the space between the inboard and outboard mounting surfaces and have a gap therebetween.
    Type: Application
    Filed: June 30, 2017
    Publication date: January 3, 2019
    Inventor: Scott Paul
  • Patent number: 9228430
    Abstract: A method evaluating a cuttings density while drilling a subterranean wellbore includes acquiring first and second axially spaced pressure measurements in the wellbore. The pressure measurements may then be processed to obtain an interval density of drilling fluid between the measurement locations. A tool string including a large number of axially spaced pressure sensors (e.g., four or more or even six or more) electronically coupled with a surface processor via wired drill pipe may be used to obtain a plurality of interval densities corresponding to various wellbore intervals. The interval density may be measured while drilling and may be further processed to compute a cuttings density in the annulus. Moreover, changes in the computed interval density with time while drilling may be used as an indicator of a change in cuttings density.
    Type: Grant
    Filed: August 14, 2012
    Date of Patent: January 5, 2016
    Assignee: Schlumberger Technology Corporation
    Inventors: John Rasmus, William Lesso, John James, Edward M. Tollefsen, Scott Paul, Amanda L. Weber, Marcus Turner
  • Publication number: 20130054146
    Abstract: A method evaluating a cuttings density while drilling a subterranean wellbore includes acquiring first and second axially spaced pressure measurements in the wellbore. The pressure measurements may then be processed to obtain an interval density of drilling fluid between the measurement locations. A tool string including a large number of axially spaced pressure sensors (e.g., four or more or even six or more) electronically coupled with a surface processor via wired drill pipe may be used to obtain a plurality of interval densities corresponding to various wellbore intervals. The interval density may be measured while drilling and may be further processed to compute a cuttings density in the annulus. Moreover, changes in the computed interval density with time while drilling may be used as an indicator of a change in cuttings density.
    Type: Application
    Filed: August 14, 2012
    Publication date: February 28, 2013
    Inventors: John Rasmus, William Lesso, John James, Edward M. Tollefsen, Scott Paul, Amanda L. Weber, Marcus Turner
  • Publication number: 20130048380
    Abstract: A method for estimating one or more interval densities in a subterranean wellbore includes acquiring first and second axially spaced pressure measurements in the wellbore. The pressure measurements may then be processed to obtain an interval density of drilling fluid between the measurement locations. A tool string including a large number of axially spaced pressure sensors (e.g., four or more or even six or more) electronically coupled with a surface processor via wired drill pipe may be used to obtain a plurality of interval densities corresponding to various wellbore intervals.
    Type: Application
    Filed: August 14, 2012
    Publication date: February 28, 2013
    Inventors: John Rasmus, William Lesso, John James, Edward M. Tollefsen, Scott Paul, Amanda L. Weber, Marcus Turner, Paul Bolchover
  • Patent number: 5753899
    Abstract: Applicant's invention includes a cash-alternative transaction processing system and associated methods based on the use of smart cards, purchase point smart card reader/writer transaction register systems, and clearing center processors. Also includes are elements relating to use of smart cards in vending machines.
    Type: Grant
    Filed: December 16, 1994
    Date of Patent: May 19, 1998
    Inventors: R. Greg Gomm, R. Gary Gomm, Scott Paul
  • Patent number: 5650761
    Abstract: Applicant's invention includes a cash-alternative transaction processing system and associated methods based on the use of coin cards, purchase point coin card reader/writer transaction register systems, and clearing center processors. Also includes are elements relating to use of coin cards in vending machines.
    Type: Grant
    Filed: April 14, 1995
    Date of Patent: July 22, 1997
    Inventors: R. Greg Gomm, R. Gary Gomm, Scott Paul