Patents by Inventor Travis Edwin Lipstein

Travis Edwin Lipstein 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: 10920605
    Abstract: A system for determining eccentricity of a turbine shell and a turbine rotor of a gas turbine includes a laser module with a microprocessor having coupled thereto a wireless network chip, a laser sensor, an inclination sensor, and a power supply. The laser sensor transmits a laser toward the turbine shell as the rotor spins at slow speed and to receive a reflected laser from the turbine shell, thereby defining a path length indicative of a distance between the laser module and the turbine shell for each of a series of points disposed circumferentially around the turbine shell. The system further includes a bracket configured to hold the laser module proximate to a turbine blade; a base station that produces a wireless network near the turbine shell and that receives distance measurements from the laser module for each of the series of points; and a server for processing the distance measurements into an eccentricity plot.
    Type: Grant
    Filed: December 21, 2017
    Date of Patent: February 16, 2021
    Assignee: General Electric Company
    Inventors: Travis Edwin Lipstein, Taylor Janae Million, Glen William Brooksby, Sandra Beverly Kolvick, James Scott Flanagan, Thomas Alan Mogle, II
  • Patent number: 10920620
    Abstract: Mounting apparatuses for turbine airfoils of turbine systems are disclosed. The mounting apparatuses may include a body portion configured to be at least partially positioned between a first airfoil and a second airfoil of the turbine system, and an adjustable, first retention component formed on a first side of the body portion. The adjustable, first retention component may be configured to contact a portion of a suction side of the first airfoil of the turbine system. The mounting apparatuses may also include a second retention component formed on a second side of the body portion, opposite the first side. The second retention component may be configured to contact a portion of a pressure side of the second airfoil of the turbine system.
    Type: Grant
    Filed: July 19, 2019
    Date of Patent: February 16, 2021
    Assignee: General Electric Company
    Inventors: Sandra Beverly Kolvick, Daryl Paul Capriotti, Ansley Michelle Heard, Rachel Kate King, Travis Edwin Lipstein, Maithri Muddasani, Tewodros Fiseha Wondimu
  • Patent number: 10663280
    Abstract: A system and method for determining eccentricity of a casing and a rotor of a gas turbine includes a plurality of stationary distance detectors coupled to the casing at known circumferential positions and a rotating distance detector coupled to the rotor or a blade in or near an axial plane defined by the stationary distance detectors. The stationary distance detectors transmit wireless signals to one another to determine a first series of distance measurements between each pair of stationary distance detectors. The rotating distance detector transmits wireless signals to each of the stationary distance detectors, as the rotor is spun, to generate a second series of distance measurements. The measurements are transmitted, over a wireless local area network, to a remote computing device that processes the distance measurements into an eccentricity plot. An optional base station may be used to generate the wireless network.
    Type: Grant
    Filed: March 23, 2018
    Date of Patent: May 26, 2020
    Assignee: General Electric Company
    Inventors: Travis Edwin Lipstein, Sandra Beverly Kolvick
  • Publication number: 20190338677
    Abstract: Mounting apparatuses for turbine airfoils of turbine systems are disclosed. The mounting apparatuses may include a body portion configured to be at least partially positioned between a first airfoil and a second airfoil of the turbine system, and an adjustable, first retention component formed on a first side of the body portion. The adjustable, first retention component may be configured to contact a portion of a suction side of the first airfoil of the turbine system. The mounting apparatuses may also include a second retention component formed on a second side of the body portion, opposite the first side. The second retention component may be configured to contact a portion of a pressure side of the second airfoil of the turbine system.
    Type: Application
    Filed: July 19, 2019
    Publication date: November 7, 2019
    Inventors: Sandra Beverly Kolvick, Daryl Paul Capriotti, Ansley Michelle Heard, Rachel Kate King, Travis Edwin Lipstein, Maithri Muddasani, Tewodros Fiseha Wondimu
  • Publication number: 20190293405
    Abstract: A system and method for determining eccentricity of a casing and a rotor of a gas turbine includes a plurality of stationary distance detectors coupled to the casing at known circumferential positions and a rotating distance detector coupled to the rotor or a blade in or near an axial plane defined by the stationary distance detectors. The stationary distance detectors transmit wireless signals to one another to determine a first series of distance measurements between each pair of stationary distance detectors. The rotating distance detector transmits wireless signals to each of the stationary distance detectors, as the rotor is spun, to generate a second series of distance measurements. The measurements are transmitted, over a wireless local area network, to a remote computing device that processes the distance measurements into an eccentricity plot. An optional base station may be used to generate the wireless network.
    Type: Application
    Filed: March 23, 2018
    Publication date: September 26, 2019
    Applicant: General Electric Company
    Inventors: Travis Edwin Lipstein, Sandra Beverly Kolvick
  • Patent number: 10408091
    Abstract: Mounting apparatuses for turbine airfoils of turbine systems are disclosed. The mounting apparatuses may include a body portion configured to be at least partially positioned between a first airfoil and a second airfoil of the turbine system, and an adjustable, first retention component formed on a first side of the body portion. The adjustable, first retention component may be configured to contact a portion of a suction side of the first airfoil of the turbine system. The mounting apparatuses may also include a second retention component formed on a second side of the body portion, opposite the first side. The second retention component may be configured to contact a portion of a pressure side of the second airfoil of the turbine system.
    Type: Grant
    Filed: March 31, 2017
    Date of Patent: September 10, 2019
    Assignee: General Electric Company
    Inventors: Sandra Beverly Kolvick, Daryl Paul Capriotti, Ansley Michelle Heard, Rachel Kate King, Travis Edwin Lipstein, Maithri Muddasani, Tewodros Fiseha Wondimu
  • Publication number: 20190195084
    Abstract: A system for determining eccentricity of a turbine shell and a turbine rotor of a gas turbine includes a laser module with a microprocessor having coupled thereto a wireless network chip, a laser sensor, an inclination sensor, and a power supply. The laser sensor transmits a laser toward the turbine shell as the rotor spins at slow speed and to receive a reflected laser from the turbine shell, thereby defining a path length indicative of a distance between the laser module and the turbine shell for each of a series of points disposed circumferentially around the turbine shell. The system further includes a bracket configured to hold the laser module proximate to a turbine blade; a base station that produces a wireless network near the turbine shell and that receives distance measurements from the laser module for each of the series of points; and a server for processing the distance measurements into an eccentricity plot.
    Type: Application
    Filed: December 21, 2017
    Publication date: June 27, 2019
    Applicant: General Electric Company
    Inventors: Travis Edwin Lipstein, Taylor Janae Million, Glen William Brooksby, Sandra Beverly Kolvick, James Scott Flanagan, Thomas Alan Mogle, II
  • Publication number: 20180283214
    Abstract: Mounting apparatuses for turbine airfoils of turbine systems are disclosed. The mounting apparatuses may include a body portion configured to be at least partially positioned between a first airfoil and a second airfoil of the turbine system, and an adjustable, first retention component formed on a first side of the body portion. The adjustable, first retention component may be configured to contact a portion of a suction side of the first airfoil of the turbine system. The mounting apparatuses may also include a second retention component formed on a second side of the body portion, opposite the first side. The second retention component may be configured to contact a portion of a pressure side of the second airfoil of the turbine system.
    Type: Application
    Filed: March 31, 2017
    Publication date: October 4, 2018
    Inventors: Sandra Beverly Kolvick, Daryl Paul Capriotti, Ansley Michelle Heard, Rachel Kate King, Travis Edwin Lipstein, Maithri Muddasani, Tewodros Fiseha Wondimu