Patents by Inventor Michael Class

Michael Class 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: 20240070129
    Abstract: A system and method for uploading data from data sources, cleaning and qualifying of the raw data to create queryable data; and analyzing the queryable data to determine patterns of the queryable data and predictive states of the queryable data. The system and method can include visualizing the queryable data, the patterns of the queryable data and predictive states of the queryable data at an user interface and generating reports in near-real time. The raw data can be directed to operations and maintenance of machine devices. The reports can include information directed to one or more machine devices which are in need of modernization, audit or upgrades or a targeted way of dealing with a predetermined condition, a budget estimate of the one or more machine devices in a portfolio based on the one or more machine devices and a single metric and a real dollar value (RDV) of the maintenance agreement.
    Type: Application
    Filed: August 23, 2022
    Publication date: February 29, 2024
    Inventor: MICHAEL CLASS
  • Patent number: 7240673
    Abstract: A flange (1) for optical flame observation in a gas turbine includes at least one bore for optical observation, in which bore there is arranged at least one pane (9, 10) for separating the flame-side space, which is in substantially direct communication with a combustion chamber in which the at least one flame that is to be monitored is arranged, from the outside space, from which the observation of the at least one flame can take place. In a flange (1) of this type, fogging of the at least one pane (9, 10) is made possible in a simple manner which can be guaranteed over a prolonged period of time by virtue of the fact that two panes (9, 10), which delimit a sealed intermediate space (22) in the bore for optical observation, are arranged one behind the other with respect to the optical axis (8), and that a device (24) for dehumidifying the sealed intermediate space (22) is includes.
    Type: Grant
    Filed: November 29, 2004
    Date of Patent: July 10, 2007
    Assignee: ALSTOM Technology Ltd.
    Inventors: Michael Class, Marcus Gall
  • Publication number: 20050115167
    Abstract: A flange (1) for optical flame observation in a gas turbine includes at least one bore for optical observation, in which bore there is arranged at least one pane (9, 10) for separating the flame-side space, which is in substantially direct communication with a combustion chamber in which the at least one flame that is to be monitored is arranged, from the outside space, from which the observation of the at least one flame can take place. In a flange (1) of this type, fogging of the at least one pane (9, 10) is made possible in a simple manner which can be guaranteed over a prolonged period of time by virtue of the fact that two panes (9, 10), which delimit a sealed intermediate space (22) in the bore for optical observation, are arranged one behind the other with respect to the optical axis (8), and that a device (24) for dehumidifying the sealed intermediate space (22) is includes.
    Type: Application
    Filed: November 29, 2004
    Publication date: June 2, 2005
    Inventors: Michael Class, Marcus Gall
  • Patent number: 6671346
    Abstract: In a method for the nondestructive quality testing of a thermocouple (10) which can be used in particular at high temperatures and/or under high levels of vibration, which thermocouple (10) comprises at least two wires (13, 14) which run substantially parallel to one another in one plane, are connected to one another at their ends by a welded joint (15), are surrounded by a hermetically sealed sheath (11) and inside the sheath (11) are embedded in insulation (16, 17) comprising a compacted powder, simple and reliable assessment is achieved by the fact that the X-radiation is passed through the thermocouple (10) perpendicular to the plane of the wires (13, 14) and an X-ray image is taken, that the position of the wires (13, 14) in the vicinity of the welded joint (15) is determined from the X-ray image, and that the quality of the thermocouple (10) is established from the position of the wires (13, 14) in the vicinity of the welded joint (15).
    Type: Grant
    Filed: April 25, 2002
    Date of Patent: December 30, 2003
    Assignee: Alstom (Switzerland) Ltd.
    Inventors: Robert Baumann, Michael Class
  • Publication number: 20020186024
    Abstract: In a method for the nondestructive quality testing of a thermocouple (10) which can be used in particular at high temperatures and/or under high levels of vibration, which thermocouple (10) comprises at least two wires (13, 14) which run substantially parallel to one another in one plane, are connected to one another at their ends by a welded joint (15), are surrounded by a hermetically sealed sheath (11) and inside the sheath (11) are embedded in insulation (16, 17) comprising a compacted powder, simple and reliable assessment is achieved by the fact that the X-radiation is passed through the thermocouple (10) perpendicular to the plane of the wires (13, 14) and an X-ray image is taken, that the position of the wires (13, 14) in the vicinity of the welded joint (15) is determined from the X-ray image, and that the quality of the thermocouple (10) is established from the position of the wires (13, 14) in the vicinity of the welded joint (15).
    Type: Application
    Filed: April 25, 2002
    Publication date: December 12, 2002
    Inventors: Robert Baumann, Michael Class