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Patent Agency Ranking
公开(公告)号:US09967523B2
公开(公告)日:2018-05-08
申请号:US14970595
申请日:2015-12-16
Applicant: General Electric Company
Inventor: Yusuf Eren Ozturk , Selami Haydar Icli , Mustafa Yuvalaklioglu , Bryan J. Germann , Jason Lee Burnside
CPC classification number: H04N7/18 , G01B11/002 , G01B11/24 , G01B11/26 , G01M15/14 , G06T7/004 , G06T7/60 , G06T7/70
Abstract: Locating systems and methods for components are provided. A component has an exterior surface. A method includes locating a surface feature configured on the exterior surface along an X-axis and a Y-axis by analyzing an image of the component to obtain X-axis data points and Y-axis data points for the surface feature. The method further includes directly measuring the surface feature along a Z-axis to obtain Z-axis data points for the surface feature, wherein the X-axis, the Y-axis and the Z-axis are mutually orthogonal. The method further includes calculating at least two of a pitch value, a roll value or a yaw value for the surface feature.
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公开(公告)号:US10434641B2
公开(公告)日:2019-10-08
申请号:US15652680
申请日:2017-07-18
Applicant: General Electric Company
Inventor: Selim Akin , Thomas James Batzinger , Airton Rosa da Silva, Jr. , Selami Haydar Icli , Christopher Paul Markman , Paulo Cesar Debenest , Michele Guarnieri , Shigeo Hirose
Abstract: Systems and methods for in situ gap inspection in a machine, such as a generator, an electric motor, or a turbomachine are described. A robotic crawler has multidirectional traction modules, an expandable body, and sensor modules. A control system communicates with the robotic crawler to provide a control signal to navigate an inspection path within an annular gap of the machine. The inspection path includes axial and radial movements to inspect the annular gap using the sensor modules.
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公开(公告)号:US10427290B2
公开(公告)日:2019-10-01
申请号:US15652730
申请日:2017-07-18
Applicant: General Electric Company
Inventor: Selim Akin , Thomas James Batzinger , Airton Rosa da Silva , Selami Haydar Icli , Christopher Paul Markman , Paulo Cesar Debenest , Michele Guarnieri , Shigeo Hirose
Abstract: This disclosure provides systems and methods for in situ gap inspection in a machine, such as a generator, an electric motor, or a turbomachine. A robotic crawler includes an expandable body, multidirectional traction modules, and sensor modules. The expandable body is movable between a collapsed state and an expanded state. The multidirectional traction modules are removably connected to and positioned by the expandable body and configured to engage opposed surfaces within an annular gap of the machine. The sensor modules are removably connected to and supported by the expandable body and include a plurality of sensor types to inspect the annular gap of the machine.
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公开(公告)号:US20190022849A1
公开(公告)日:2019-01-24
申请号:US15652680
申请日:2017-07-18
Applicant: General Electric Company
Inventor: Selim Akin , Thomas James Batzinger , Airton Rosa da Silva, JR. , Selami Haydar Icli , Christopher Paul Markman , Paulo Cesar Debenest , Michele Guarnieri , Shigeo Hirose
IPC: B25J5/00
Abstract: This disclosure provides systems and methods for in situ gap inspection in a machine, such as a generator, an electric motor, or a turbomachine. A robotic crawler has multidirectional traction modules, an expandable body, and sensor modules. A control system communicates with the robotic crawler to provide a control signal to navigate an inspection path within an annular gap of the machine. The inspection path includes axial and radial movements to inspect the annular gap using the sensor modules.
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公开(公告)号:US20170180679A1
公开(公告)日:2017-06-22
申请号:US14970595
申请日:2015-12-16
Applicant: General Electric Company
Inventor: Yusuf Eren Ozturk , Selami Haydar Icli , Mustafa Yuvalaklioglu , Bryan J. Germann , Jason Lee Burnside
CPC classification number: H04N7/18 , G01B11/002 , G01B11/24 , G01B11/26 , G01M15/14 , G06T7/004 , G06T7/60 , G06T7/70
Abstract: Locating systems and methods for components are provided. A component has an exterior surface. A method includes locating a surface feature configured on the exterior surface along an X-axis and a Y-axis by analyzing an image of the component to obtain X-axis data points and Y-axis data points for the surface feature. The method further includes directly measuring the surface feature along a Z-axis to obtain Z-axis data points for the surface feature, wherein the X-axis, the Y-axis and the Z-axis are mutually orthogonal. The method further includes calculating at least two of a pitch value, a roll value or a yaw value for the surface feature.
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