Patents by Inventor Richard Andrew DeVerse

Richard Andrew DeVerse 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).

  • Publication number: 20240192079
    Abstract: An improved sensor system is provided that monitors and controls a dendritic fluid system. A dendritic fluid system can include artificial components and/or natural components that carry fluid from a source to a destination through a series of paths. The sensor system can include magnetic field sensors, acoustic sensors, encapsulated sensor systems, pressure regulators, and valve controllers to monitor and control the dendritic fluid system. For example, magnetic field sensors, acoustic sensors, and/or pressure regulators can be used to measure the flow of fluid within a dendritic fluid subsystem and/or to detect potential leaks. The encapsulated sensor systems and/or valve controllers can be used to detect fluid levels in a contained system and control valves to adjust the fluid levels in the contained system to a desired level.
    Type: Application
    Filed: October 30, 2023
    Publication date: June 13, 2024
    Inventor: Richard Andrew DeVerse
  • Patent number: 11846530
    Abstract: A method and device for accurately monitoring, displaying, and remote reporting of turbulent material flow streams in confined channels and pipes is provided. The device can have multiple cams coupled to an obstruction, and a spring. The multiple cams can have a cam profile, and the cam profile and the spring may be selected to linearize a rotation of the obstruction over a range of fluid flow velocities. The obstruction can include have multiple obstructions each in a different area of a cross-section of a pipe, improving the accuracy of the device.
    Type: Grant
    Filed: April 11, 2022
    Date of Patent: December 19, 2023
    Assignee: Fluidics Hawaii LLC
    Inventors: Richard Andrew DeVerse, Mick Chavez-Pardini
  • Patent number: 11835424
    Abstract: An improved sensor system is provided that monitors and controls a dendritic fluid system. A dendritic fluid system can include artificial components and/or natural components that carry fluid from a source to a destination through a series of paths. The sensor system can include magnetic field sensors, acoustic sensors, encapsulated sensor systems, pressure regulators, and valve controllers to monitor and control the dendritic fluid system. For example, magnetic field sensors, acoustic sensors, and/or pressure regulators can be used to measure the flow of fluid within a dendritic fluid subsystem and/or to detect potential leaks. The encapsulated sensor systems and/or valve controllers can be used to detect fluid levels in a contained system and control valves to adjust the fluid levels in the contained system to a desired level.
    Type: Grant
    Filed: August 6, 2021
    Date of Patent: December 5, 2023
    Inventor: Richard Andrew DeVerse
  • Patent number: 11800925
    Abstract: Systems, methods, and devices for efficient and user-friendly transport of materials from a first substrate to a second substrate are described. Systems can include a first substrate vessel configured to hold a first substrate to be cleaned or extracted, a transport media delivery system in fluid communication with the first substrate vessel, and a catchment system. The transport media delivery system delivers a fluid transport medium, which may include a fluid in a supercritical phase, to the first substrate vessel. The fluid transport medium removes particles from the first substrate and carries the particles to the catchment system, where the particles can be exhausted to the atmosphere or deposited onto a second substrate such as a filter or disposal tray.
    Type: Grant
    Filed: June 18, 2021
    Date of Patent: October 31, 2023
    Inventors: Paige Chryseis DeVerse, Richard Andrew DeVerse
  • Publication number: 20220326055
    Abstract: A method and device for accurately monitoring, displaying, and remote reporting of turbulent material flow streams in confined channels and pipes is provided. The device can have multiple cams coupled to an obstruction, and a spring. The multiple cams can have a cam profile, and the cam profile and the spring may be selected to linearize a rotation of the obstruction over a range of fluid flow velocities. The obstruction can include have multiple obstructions each in a different area of a cross-section of a pipe, improving the accuracy of the device.
    Type: Application
    Filed: April 11, 2022
    Publication date: October 13, 2022
    Inventors: Richard Andrew DeVerse, Mick Chavez-Pardini
  • Publication number: 20220136923
    Abstract: An improved sensor system is provided that monitors and controls a dendritic fluid system. A dendritic fluid system can include artificial components and/or natural components that carry fluid from a source to a destination through a series of paths. The sensor system can include magnetic field sensors, acoustic sensors, encapsulated sensor systems, pressure regulators, and valve controllers to monitor and control the dendritic fluid system. For example, magnetic field sensors, acoustic sensors, and/or pressure regulators can be used to measure the flow of fluid within a dendritic fluid subsystem and/or to detect potential leaks. The encapsulated sensor systems and/or valve controllers can be used to detect fluid levels in a contained system and control valves to adjust the fluid levels in the contained system to a desired level.
    Type: Application
    Filed: August 6, 2021
    Publication date: May 5, 2022
    Inventor: Richard Andrew DeVerse
  • Patent number: 11272782
    Abstract: Systems, methods, and devices for efficient and user-friendly transport of materials from a first substrate to a second substrate are described. Systems can include a first substrate vessel configured to hold a first substrate to be cleaned or extracted, a transport media delivery system in fluid communication with the first substrate vessel, and a catchment system. The transport media delivery system delivers a fluid transport medium, which may include a fluid in a supercritical phase, to the first substrate vessel. The fluid transport medium removes particles from the first substrate and carries the particles to the catchment system, where the particles can be exhausted to the atmosphere or deposited onto a second substrate such as a filter or disposal tray.
    Type: Grant
    Filed: November 4, 2019
    Date of Patent: March 15, 2022
    Inventors: Paige Chryseis DeVerse, Richard Andrew DeVerse
  • Publication number: 20210307502
    Abstract: Systems, methods, and devices for efficient and user-friendly transport of materials from a first substrate to a second substrate are described. Systems can include a first substrate vessel configured to hold a first substrate to be cleaned or extracted, a transport media delivery system in fluid communication with the first substrate vessel, and a catchment system. The transport media delivery system delivers a fluid transport medium, which may include a fluid in a supercritical phase, to the first substrate vessel. The fluid transport medium removes particles from the first substrate and carries the particles to the catchment system, where the particles can be exhausted to the atmosphere or deposited onto a second substrate such as a filter or disposal tray.
    Type: Application
    Filed: June 18, 2021
    Publication date: October 7, 2021
    Inventors: Paige Chryseis DeVerse, Richard Andrew DeVerse
  • Patent number: 11099098
    Abstract: An improved sensor system is provided that monitors and controls a dendritic fluid system. A dendritic fluid system can include artificial components and/or natural components that carry fluid from a source to a destination through a series of paths. The sensor system can include magnetic field sensors, acoustic sensors, encapsulated sensor systems, pressure regulators, and valve controllers to monitor and control the dendritic fluid system. For example, magnetic field sensors, acoustic sensors, and/or pressure regulators can be used to measure the flow of fluid within a dendritic fluid subsystem and/or to detect potential leaks. The encapsulated sensor systems and/or valve controllers can be used to detect fluid levels in a contained system and control valves to adjust the fluid levels in the contained system to a desired level.
    Type: Grant
    Filed: August 9, 2019
    Date of Patent: August 24, 2021
    Inventor: Richard Andrew DeVerse
  • Publication number: 20200103305
    Abstract: An improved sensor system is provided that monitors and controls a dendritic fluid system. A dendritic fluid system can include artificial components and/or natural components that carry fluid from a source to a destination through a series of paths. The sensor system can include magnetic field sensors, acoustic sensors, encapsulated sensor systems, pressure regulators, and valve controllers to monitor and control the dendritic fluid system. For example, magnetic field sensors, acoustic sensors, and/or pressure regulators can be used to measure the flow of fluid within a dendritic fluid subsystem and/or to detect potential leaks. The encapsulated sensor systems and/or valve controllers can be used to detect fluid levels in a contained system and control valves to adjust the fluid levels in the contained system to a desired level.
    Type: Application
    Filed: August 9, 2019
    Publication date: April 2, 2020
    Inventor: Richard Andrew DeVerse
  • Publication number: 20200060419
    Abstract: Systems, methods, and devices for efficient and user-friendly transport of materials from a first substrate to a second substrate are described. Systems can include a first substrate vessel configured to hold a first substrate to be cleaned or extracted, a transport media delivery system in fluid communication with the first substrate vessel, and a catchment system. The transport media delivery system delivers a fluid transport medium, which may include a fluid in a supercritical phase, to the first substrate vessel. The fluid transport medium removes particles from the first substrate and carries the particles to the catchment system, where the particles can be exhausted to the atmosphere or deposited onto a second substrate such as a filter or disposal tray.
    Type: Application
    Filed: November 4, 2019
    Publication date: February 27, 2020
    Inventors: Paige Chryseis DeVerse, Richard Andrew DeVerse
  • Patent number: 10463144
    Abstract: Systems, methods, and devices for efficient and user-friendly transport of materials from a first substrate to a second substrate are described. Systems can include a first substrate vessel configured to hold a first substrate to be cleaned or extracted, a transport media delivery system in fluid communication with the first substrate vessel, and a catchment system. The transport media delivery system delivers a fluid transport medium, which may include a fluid in a supercritical phase, to the first substrate vessel. The fluid transport medium removes particles from the first substrate and carries the particles to the catchment system, where the particles can be exhausted to the atmosphere or deposited onto a second substrate such as a filter or disposal tray.
    Type: Grant
    Filed: August 21, 2017
    Date of Patent: November 5, 2019
    Inventors: Paige Chryseis DeVerse, Richard Andrew DeVerse
  • Patent number: 10378993
    Abstract: An improved sensor system is provided that monitors and controls a dendritic fluid system. A dendritic fluid system can include artificial components and/or natural components that carry fluid from a source to a destination through a series of paths. The sensor system can include magnetic field sensors, acoustic sensors, encapsulated sensor systems, pressure regulators, and valve controllers to monitor and control the dendritic fluid system. For example, magnetic field sensors, acoustic sensors, and/or pressure regulators can be used to measure the flow of fluid within a dendritic fluid subsystem and/or to detect potential leaks. The encapsulated sensor systems and/or valve controllers can be used to detect fluid levels in a contained system and control valves to adjust the fluid levels in the contained system to a desired level.
    Type: Grant
    Filed: December 21, 2017
    Date of Patent: August 13, 2019
    Inventor: Richard Andrew DeVerse
  • Publication number: 20180283977
    Abstract: An improved sensor system is provided that monitors and controls a dendritic fluid system. A dendritic fluid system can include artificial components and/or natural components that carry fluid from a source to a destination through a series of paths. The sensor system can include magnetic field sensors, acoustic sensors, encapsulated sensor systems, pressure regulators, and valve controllers to monitor and control the dendritic fluid system. For example, magnetic field sensors, acoustic sensors, and/or pressure regulators can be used to measure the flow of fluid within a dendritic fluid subsystem and/or to detect potential leaks. The encapsulated sensor systems and/or valve controllers can be used to detect fluid levels in a contained system and control valves to adjust the fluid levels in the contained system to a desired level.
    Type: Application
    Filed: December 21, 2017
    Publication date: October 4, 2018
    Inventor: Richard Andrew DeVerse
  • Patent number: 9857265
    Abstract: An improved sensor system is provided that monitors and controls a dendritic fluid system. A dendritic fluid system can include artificial components and/or natural components that carry fluid from a source to a destination through a series of paths. The sensor system can include magnetic field sensors, acoustic sensors, encapsulated sensor systems, pressure regulators, and valve controllers to monitor and control the dendritic fluid system. For example, magnetic field sensors, acoustic sensors, and/or pressure regulators can be used to measure the flow of fluid within a dendritic fluid subsystem and/or to detect potential leaks. The encapsulated sensor systems and/or valve controllers can be used to detect fluid levels in a contained system and control valves to adjust the fluid levels in the contained system to a desired level.
    Type: Grant
    Filed: October 14, 2016
    Date of Patent: January 2, 2018
    Inventor: Richard Andrew DeVerse
  • Publication number: 20170030798
    Abstract: An improved sensor system is provided that monitors and controls a dendritic fluid system. A dendritic fluid system can include artificial components and/or natural components that carry fluid from a source to a destination through a series of paths. The sensor system can include magnetic field sensors, acoustic sensors, encapsulated sensor systems, pressure regulators, and valve controllers to monitor and control the dendritic fluid system. For example, magnetic field sensors, acoustic sensors, and/or pressure regulators can be used to measure the flow of fluid within a dendritic fluid subsystem and/or to detect potential leaks. The encapsulated sensor systems and/or valve controllers can be used to detect fluid levels in a contained system and control valves to adjust the fluid levels in the contained system to a desired level.
    Type: Application
    Filed: October 14, 2016
    Publication date: February 2, 2017
    Inventor: Richard Andrew DeVerse
  • Patent number: 9470563
    Abstract: An improved sensor system is provided that monitors and controls a dendritic fluid system. A dendritic fluid system can include artificial components and/or natural components that carry fluid from a source to a destination through a series of paths. The sensor system can include magnetic field sensors, acoustic sensors, encapsulated sensor systems, pressure regulators, and valve controllers to monitor and control the dendritic fluid system. For example, magnetic field sensors, acoustic sensors, and/or pressure regulators can be used to measure the flow of fluid within a dendritic fluid subsystem and/or to detect potential leaks. The encapsulated sensor systems and/or valve controllers can be used to detect fluid levels in a contained system and control valves to adjust the fluid levels in the contained system to a desired level.
    Type: Grant
    Filed: April 4, 2016
    Date of Patent: October 18, 2016
    Inventor: Richard Andrew DeVerse