公开(公告)号：US11307063B2

公开(公告)日：2022-04-19

申请号：US16387237

申请日：2019-04-17

Applicant: Gecko Robotics, Inc.

Inventor： Kevin Low ,  Edward Bryner ,  Logan MacKenzie ,  Joshua Moore ,  Michael S. Auda ,  Mark Cho ,  Edwin H. Cho

IPC: G01D11/30 ,  G01B11/24 ,  B25J9/16 ,  B25J15/00 ,  G05D3/12

Abstract: An inspection apparatus for inspecting horizontal tubes in an industrial environment includes a drive module including a pair of wheels to engage a top tube of a vertically arranged layer of tubes, a telescoping pole, a sensor carriage assembly coupled to the telescoping pole, a lowering mechanism operationally coupled to the telescoping pole to selectively extend or retract the telescoping pole providing a selected vertical position of the sensor carriage assembly, and an encoder including a passive wheel, a spring, and a sliding coupler. The spring biases the passive wheel toward the top tube to ensure contact between the passive wheel and a surface of the top tube.

公开(公告)号：US11144063B2

公开(公告)日：2021-10-12

申请号：US15997569

申请日：2018-06-04

Applicant: Gecko Robotics, Inc.

Inventor： Mark Loosararian ,  Joshua Moore ,  Yizhu Gu ,  Kevin Low ,  Edward Bryner ,  Logan MacKenzie ,  Ian Miller ,  Alvin Chou ,  Todd Joslin

IPC: G05D1/02 ,  G01N29/00 ,  G01N29/22 ,  G01N29/265 ,  G01N29/28 ,  G01B17/02 ,  G05D1/00 ,  G01N29/07 ,  B62D57/02 ,  G05B19/00 ,  B25J5/00 ,  B60B19/00 ,  G01B7/06 ,  B25J9/16

Abstract: A system includes an inspection robot having a plurality of input sensors, the plurality of input sensors distributed horizontally relative to an inspection surface and configured to provide inspection data of the inspection surface at selected horizontal positions; a controller, comprising: a position definition circuit structured to determine an inspection robot position of the inspection robot on the inspection surface; a data positioning circuit structured to interpret the inspection data, and to correlate the inspection data to the inspection robot position on the inspection surface; and wherein the data positioning circuit is further structured to determine position informed inspection data in response to the correlating of the inspection data with the inspection robot position.

公开(公告)号：US12228550B2

公开(公告)日：2025-02-18

申请号：US17824534

申请日：2022-05-25

Applicant: Gecko Robotics, Inc.

Inventor： Chase David ,  Jose Aparicio ,  Juan Roberto Mendoza Mora ,  Kevin Y. Low ,  Troy Demmer ,  Edward A. Bryner ,  Scott Ashley Corl

IPC: G01N29/265 ,  G01N29/04

Abstract: Robotic systems for ultrasonic surface inspection using shaped elements are described. An example system may have an inspection robot structured to move in a direction of travel on an inspection surface. The inspection robot may include: a payload having a first ultrasonic (UT) phased array and a second UT phased array, a rastering device operatively coupled to the payload, and structured to execute reciprocating motion of the payload, and a means for inspecting a weld affected region of the inspection surface on three (3) axes of inspection.

公开(公告)号：US12061173B2

公开(公告)日：2024-08-13

申请号：US17824261

申请日：2022-05-25

Applicant: Gecko Robotics, Inc.

Inventor： Chase David ,  Jose Aparicio ,  Juan Roberto Mendoza Mora ,  Kevin Y. Low

IPC: G01N29/265 ,  G01N29/04

CPC classification number: G01N29/265 ,  G01N29/04 ,  G01N2291/0289

Abstract: Robotic inspection devices for simultaneous surface measurements at multiple orientations are described. An example inspection device includes a robot and a first payload, where the robot is structured to move along an inspection surface in a first direction of travel. The first payload includes a first inspection assembly structured to support two phased array elements. The first phased array element has a first surface orientation and a first directional orientation, and the second phased array element has a second surface orientation and a second directional orientation. A raster device is structured to move the first inspection assembly in a second direction of travel along the inspection surface, wherein the first direction of travel and the second direction of travel are different.

公开(公告)号：US20240255471A1

公开(公告)日：2024-08-01

申请号：US18602689

申请日：2024-03-12

Applicant: Gecko Robotics, Inc.

Inventor： Chase David ,  Kevin Y. Low

IPC: G01N29/265 ,  G01N29/04

CPC classification number: G01N29/265 ,  G01N29/04 ,  G01N2291/0289

Abstract: An example system may have a payload for an inspection robot structured to move in a direction of travel on an inspection surface. The payload may have a first sensor holder structured to support a first ultrasonic (UT) phased array at a first orientation, a second sensor holder structured to hold a second ultrasonic (UT) phased array at a second orientation, and a sensor holder linking component interposed between the first sensor holder and the second sensor holder. The sensor holder linking component may be structured to interact with the first and second sensor holders such that the first UT phased array and the second UT phased array are placed in a parallel configuration along a long edge of both the first and second UT phased array, and the first sensor holder and the second sensor holder are pivotably connected to the sensor holder linking component.

公开(公告)号：US11977054B2

公开(公告)日：2024-05-07

申请号：US18189674

申请日：2023-03-24

Applicant: Gecko Robotics, Inc.

Inventor： Chase David ,  Jose Aparicio ,  Kevin Y. Low ,  Edward A. Bryner ,  Troy Demmer ,  Juan Roberto Mendoza Mora ,  Scott Ashley Corl

IPC: G01N29/265 ,  G01N29/04

CPC classification number: G01N29/265 ,  G01N29/04 ,  G01N2291/0289

Abstract: Systems for ultrasonic measurements of an inspection surface is described. An inspection robot with a payload moves in a direction of travel across an inspection surface. The payload has two sensor holders, the first sensor holder to hold a first UT array at a first orientation and the second to hold a second UT array at a second orientation A sensor holder linking component holds the two UT phased arrays in a parallel configuration along their long edges. An arm of the payload may be pivotably connected to both the sensor linking component at one end and a lift connection element on the other end. The lift component has a lift motor to raise the lift connection element. A rastering device moves the payload in a direction of inspection which is distinct from both the direction of travel and the parallel configuration of the two phased UT arrays.

公开(公告)号：US20240112100A1

公开(公告)日：2024-04-04

申请号：US18479624

申请日：2023-10-02

Applicant: Gecko Robotics, Inc.

Inventor： Edward A. Bryner ,  Richard Ducott ,  William Barley ,  Patrick Celentano ,  Christopher Connor Hazen ,  Mark Jacob Loosararian ,  Troy Demmer ,  Timothy R. Yousaf ,  Thomas J. Fiorelli

IPC: G06Q10/0631

CPC classification number: G06Q10/0631

Abstract: An example device includes a user interface component that implements a user interface and receives a visualization request value from user operations; an inspection database comprising an aggregation of inspection data; and a controller, comprising: a facility planning circuit that interprets a user facility visualization value in response to the visualization request value; a facility inspection data circuit that interprets the aggregation of inspection data in response to the user facility visualization value; a geographic depiction circuit that determines a geographic display boundary and a hierarchical inspection presentation for at least one industrial facility positioned within the geographic display boundary in response to the user facility visualization value and the aggregation of inspection data, and determines a user geographic display value in response to the geographic display boundary and the hierarchical inspection presentation. The user interface component provides the user geographic display value to the user interface.

公开(公告)号：US11865698B2

公开(公告)日：2024-01-09

申请号：US17716249

申请日：2022-04-08

Applicant: Gecko Robotics, Inc.

Inventor： Edward A. Bryner ,  Edwin H. Cho ,  Mark Cho ,  Michael A. Binger ,  Kevin Y. Low

IPC: B25J13/08 ,  B25J9/16 ,  B25J19/02 ,  B25J9/00 ,  G01N29/04 ,  G01N29/22 ,  G01N29/265 ,  B25J13/00 ,  B25J5/00 ,  B60K1/02 ,  B62D53/02 ,  B62D57/024 ,  B60B19/00 ,  B60B19/12 ,  G06F1/20 ,  H05K1/18

CPC classification number: B25J13/087 ,  B25J5/007 ,  B25J9/0009 ,  B25J9/163 ,  B25J9/1617 ,  B25J9/1653 ,  B25J9/1664 ,  B25J9/1674 ,  B25J9/1694 ,  B25J13/006 ,  B25J19/021 ,  B25J19/027 ,  B60B19/006 ,  B60B19/12 ,  B60K1/02 ,  B62D53/02 ,  B62D57/024 ,  G01N29/04 ,  G01N29/226 ,  G01N29/265 ,  G06F1/206 ,  H05K1/18 ,  B60B2360/102 ,  B60B2360/104 ,  B60B2360/109 ,  B60B2900/931 ,  G01N2291/0289 ,  G01N2291/2698 ,  G06F2200/201 ,  H05K2201/10151

Abstract: Inspection robots with removeable interface plates and method for configuring payload interfaces are described. An example robot may include a payload, with at least one sensor, mounted to a housing of the inspection robot. The housing may include a removeable interface plate coupled to the at least one sensor and to an electronic board, the electronic board positioned within the housing. The removeable interface plate may define an electrical coupling interface compatible with the payload, and the electronic board may include an electrical processing configuration compatible with the payload.

公开(公告)号：US20230390930A1

公开(公告)日：2023-12-07

申请号：US18306408

申请日：2023-04-25

Applicant: Gecko Robotics, Inc.

Inventor： Mark J. Loosararian ,  Michael A. Binger ,  Edward A. Bryner ,  Edwin H. Cho ,  Mark Cho ,  Alexander R. Cuti ,  Ignacio J. Cordova ,  Benjamin A. Guise ,  Dillon R. Jourde ,  Kevin Y. Low ,  Logan A. MacKenzie ,  Joshua D. Moore ,  Jeffrey J. Mrkonich ,  William J. Pridgen ,  Domenic P. Rodriguez ,  Francesco H. Trogu ,  Alex C. Watt ,  Yizhu Gu ,  Ian Miller ,  Todd Joslin ,  Katherine Virginia Denner ,  Michael Stephen Auda ,  Samuel Theodore Westenberg

IPC: B25J9/16 ,  B25J5/00 ,  B25J9/00 ,  B25J9/10 ,  B25J13/08 ,  B25J19/00 ,  B25J19/02 ,  G01B11/06 ,  G01B11/24 ,  G01B11/30 ,  G01B17/02 ,  G01B17/06 ,  G01B17/08 ,  G01J3/50 ,  G01K13/00 ,  G05D1/00 ,  G05D1/02 ,  B60G17/015 ,  B60G17/02 ,  B60G21/00 ,  B62D37/04 ,  B62D57/024

CPC classification number: B25J9/1669 ,  B25J5/007 ,  B25J9/0009 ,  B25J9/0015 ,  B25J9/102 ,  B25J9/1602 ,  B25J9/1617 ,  B25J9/162 ,  B25J9/1633 ,  B25J9/1664 ,  B25J9/1666 ,  B25J9/1679 ,  B25J9/1697 ,  B25J13/088 ,  B25J19/0029 ,  B25J19/02 ,  G01B11/0616 ,  G01B11/24 ,  G01B11/303 ,  G01B17/025 ,  G01B17/06 ,  G01B17/08 ,  G01J3/50 ,  G01K13/00 ,  G05D1/0016 ,  G05D1/0094 ,  G05D1/0272 ,  G05D1/0274 ,  B60G17/015 ,  B60G17/02 ,  B60G21/002 ,  B60G21/007 ,  B62D37/04 ,  B62D57/024 ,  B25J9/1025 ,  G05D2201/0207 ,  G01M3/04

Abstract: An inspection robot includes a robot body, at least two sensors, a drive module, a stability assist device and an actuator. The at least two sensors are positioned to interrogate an inspection surface and are communicatively coupled to the robot body. The drive module includes at least two wheels that engage the inspection surface. The drive module is coupled to the robot body. The stability assist device is coupled to at least one of the robot body or the drive module. The actuator is coupled to the stability assist device at a first end, and coupled to one of the drive module or the robot body at a second end. The actuator is structured to selectively move the stability assist device between a first position and a second position. The first position includes a stored position. The second position includes a deployed position.

公开(公告)号：US11648671B2

公开(公告)日：2023-05-16

申请号：US16869656

申请日：2020-05-08

Applicant: Gecko Robotics, Inc.

Inventor： Edward A. Bryner ,  Kevin Y. Low ,  Joshua D. Moore ,  Dillon R. Jourde ,  Edwin H. Cho ,  William J. Pridgen ,  Domenic P. Rodriguez ,  Jeffrey J. Mrkonich ,  Mark Cho ,  Francesco H. Trogu ,  Benjamin A. Guise ,  Todd Joslin ,  Logan A. MacKenzie ,  Ian Miller ,  Alexander C. Watt

IPC: B25J9/16 ,  B25J5/00 ,  B25J9/00 ,  B25J9/10 ,  B25J13/08 ,  B25J19/02 ,  G05D1/02 ,  B25J19/00 ,  G01B11/06 ,  G01B11/24 ,  G01B11/30 ,  G01B17/02 ,  G01B17/06 ,  G01B17/08 ,  G01J3/50 ,  G01K13/00 ,  G05D1/00 ,  B60G17/015 ,  B60G17/02 ,  B60G21/00 ,  B62D37/04 ,  B62D57/024 ,  G01M3/04 ,  G01N21/88 ,  G01N27/82 ,  G01N29/04 ,  G05B15/02

CPC classification number: B25J9/1669 ,  B25J5/007 ,  B25J9/0009 ,  B25J9/0015 ,  B25J9/102 ,  B25J9/1602 ,  B25J9/162 ,  B25J9/1617 ,  B25J9/1633 ,  B25J9/1664 ,  B25J9/1666 ,  B25J9/1679 ,  B25J9/1697 ,  B25J13/088 ,  B25J19/0029 ,  B25J19/02 ,  B60G17/015 ,  B60G17/02 ,  B60G21/002 ,  B60G21/007 ,  B62D37/04 ,  B62D57/024 ,  G01B11/0616 ,  G01B11/24 ,  G01B11/303 ,  G01B17/025 ,  G01B17/06 ,  G01B17/08 ,  G01J3/50 ,  G01K13/00 ,  G05D1/0016 ,  G05D1/0094 ,  G05D1/0272 ,  G05D1/0274 ,  G01M3/04 ,  G01N21/88 ,  G01N27/82 ,  G01N29/04 ,  G01N2291/0289 ,  G05B15/02 ,  G05D2201/0207

Abstract: Systems, methods, and apparatus for tracking location of an inspection robot are disclosed. An example apparatus for tracking inspection data may include an inspection chassis having a plurality of inspection sensors configured to interrogate an inspection surface, a first drive module and a second drive module, both coupled to the inspection chassis. The first and second drive module may each include a passive encoder wheel and a non-contact sensor positioned in proximity to the passive encoder wheel, wherein the non-contact sensor provides a movement value corresponding to the first passive encoder wheel. An inspection position circuit may determine a relative position of the inspection chassis in response to the movement values from the first and second drive modules.