Patents by Inventor Jose Aparicio
Jose Aparicio 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).
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Patent number: 12228550Abstract: 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.Type: GrantFiled: May 25, 2022Date of Patent: February 18, 2025Assignee: Gecko Robotics, Inc.Inventors: Chase David, Jose Aparicio, Juan Roberto Mendoza Mora, Kevin Y. Low, Troy Demmer, Edward A. Bryner, Scott Ashley Corl
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Publication number: 20240345036Abstract: Systems, methods, and apparatus for ultra-sonic inspection of a surface are described. An example system may include an inspection robot structured to move in a direction of travel on an inspection surface. The inspection robot may include a payload including a first ultrasonic (UT) phased array and a second UT phased array, the first UT phased array and the second UT phased array being arranged in a parallel configuration. The inspection robot may include a rastering device structured to move the payload in a direction of inspection, the direction of inspection being distinct from the direction of travel and the direction of inspection being distinct from the parallel configuration of the first UT phased array and the second UT phased array.Type: ApplicationFiled: March 12, 2024Publication date: October 17, 2024Inventors: Chase David, Jose Aparicio, Juan Roberto Mendoza Mora, Kevin Y. Low, Troy Demmer, Edward A. Bryner, Scott Ashley Corl
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Patent number: 12072319Abstract: Systems for assessment of weld adjacent heat affected zones are described. An example system may include an inspection robot having a first payload comprising a first plurality of ultrasonic (UT) phased arrays, and a second payload comprising a second plurality of ultrasonic (UT) phased arrays. The inspection robot is configured to move in a direction of travel corresponding to a weld of an inspection surface, and the first payload is structured to measure characteristics of a first region of the inspection surface on a first side of the weld while the second payload is structured to measure characteristics of a second region of the inspection surface on a second side of the weld.Type: GrantFiled: May 25, 2022Date of Patent: August 27, 2024Assignee: Gecko Robotics, Inc.Inventors: Chase David, Jose Aparicio, Juan Roberto Mendoza Mora, Kevin Y. Low, Troy Demmer, Edward A. Bryner, Scott Ashley Corl
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Patent number: 12061173Abstract: 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.Type: GrantFiled: May 25, 2022Date of Patent: August 13, 2024Assignee: Gecko Robotics, Inc.Inventors: Chase David, Jose Aparicio, Juan Roberto Mendoza Mora, Kevin Y. Low
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Patent number: 12050202Abstract: Robotic systems for surface inspection with simultaneous measurements at multiple orientations are described. An example inspection system may include a robot for traversing an inspection surface, the robot having an inspection payload to support an inspection element with two phased array UT elements, the first phased array at a first surface orientation and the second phased array at a second surface orientation, both orientations relative to the inspection surface. Each of the inspection elements includes a couplant connection structured to receive couplant from the robot. The inspection further includes a tether fluidly coupling a couplant source to the robot.Type: GrantFiled: May 25, 2022Date of Patent: July 30, 2024Assignee: Gecko Robotics, Inc.Inventors: Chase David, Jose Aparicio, Juan Roberto Mendoza Mora, Kevin Y. Low, Troy Demmer, Edward A. Bryner, Scott Ashley Corl
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Patent number: 12038412Abstract: Robotic systems for rapid ultrasonic surface inspection are described. An example system may have an inspection robot to move in a direction of travel on an inspection surface. The robot may have a payload with a first and a second ultrasonic (UT) phased array, and a rastering device that executes a reciprocating motion of the payload. The system may have an inspection controller with a positioning circuit to provide an inspection position command, an inspection circuit to provide a rastering position command and an interrogation command. The robot is responsive to the inspection position command to move to an inspection position, and the rastering device is responsive to the rastering position command to move the payload through at least a portion of a range of reciprocating motion. The UT phased arrays are responsive to the interrogation command to perform an inspection on three axes of inspection.Type: GrantFiled: May 25, 2022Date of Patent: July 16, 2024Assignee: Gecko Robotics, Inc.Inventors: Chase David, Jose Aparicio, Juan Roberto Mendoza Mora, Kevin Y. Low, Troy Demmer, Edward A. Bryner, Scott Ashley Corl
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Patent number: 11977054Abstract: 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.Type: GrantFiled: March 24, 2023Date of Patent: May 7, 2024Assignee: Gecko Robotics, Inc.Inventors: Chase David, Jose Aparicio, Kevin Y. Low, Edward A. Bryner, Troy Demmer, Juan Roberto Mendoza Mora, Scott Ashley Corl
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Patent number: 11971389Abstract: Systems, methods, and apparatus for ultra-sonic inspection of a surface are described. An example system may include an inspection robot structured to move in a direction of travel on an inspection surface. The inspection robot may include a payload including a first ultrasonic (UT) phased array and a second UT phased array, the first UT phased array and the second UT phased array being arranged in a parallel configuration. The inspection robot may include a rastering device structured to move the payload in a direction of inspection, the direction of inspection being distinct from the direction of travel and the direction of inspection being distinct from the parallel configuration of the first UT phased array and the second UT phased array.Type: GrantFiled: April 21, 2022Date of Patent: April 30, 2024Assignee: Gecko Robotics, Inc.Inventors: Chase David, Jose Aparicio, Juan Roberto Mendoza Mora, Kevin Y. Low, Troy Demmer, Edward A. Bryner, Scott Ashley Corl
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Publication number: 20230228719Abstract: 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.Type: ApplicationFiled: March 24, 2023Publication date: July 20, 2023Inventors: Chase David, Jose Aparicio, Kevin Y. Low, Edward A. Bryner, Troy Demmer, Juan Roberto Mendoza Mora, Scott Ashley Corl
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Patent number: 11521910Abstract: A high conductance thermal link (1) includes a thermal conductive strap (2) having pyrolytic graphite layers arranged in stacks (5) and polyimide film (6) at least partially covering each stack (5). Adhesive material is between the pyrolytic graphite layers. The thermal conductive strap (2) has two opposite ends (4) and two end fittings (3, 3?) that house the corresponding ends (4) of the thermal conductive strap (2). An adhesive material is in the ends (4) of the thermal conductive strap (2) between the pyrolytic graphite layers and between the stacks (5) of pyrolytic graphite layers. At least one of the ends (4) of the thermal conductive strap (2) has a geometry including protrusions (7) separated by intermediate gaps (8).Type: GrantFiled: December 29, 2017Date of Patent: December 6, 2022Assignee: AIRBUS DEFENCE AND SPACE SAInventors: Felipe Cáceres Del Viso, Marc Perellón Marsá, María José Aparicio Ordobás, Carlos Roberto Samartín Pulián
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Publication number: 20220341890Abstract: 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.Type: ApplicationFiled: May 25, 2022Publication date: October 27, 2022Inventors: Chase David, Jose Aparicio, Juan Roberto Mendoza Mora, Kevin Y. Low, Troy Demmer, Edward A. Bryner, Scott Ashley Corl
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Publication number: 20220341886Abstract: Systems, methods, and apparatus for ultra-sonic inspection of a surface are described. An example system may include an inspection robot structured to move in a direction of travel on an inspection surface. The inspection robot may include a payload including a first ultrasonic (UT) phased array and a second UT phased array, the first UT phased array and the second UT phased array being arranged in a parallel configuration. The inspection robot may include a rastering device structured to move the payload in a direction of inspection, the direction of inspection being distinct from the direction of travel and the direction of inspection being distinct from the parallel configuration of the first UT phased array and the second UT phased array.Type: ApplicationFiled: April 21, 2022Publication date: October 27, 2022Inventors: Chase David, Jose Aparicio, Juan Roberto Mendoza Mora, Kevin Y. Low, Troy Demmer, Edward A. Bryner, Scott Ashley Corl
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Publication number: 20220341888Abstract: Robotic systems for surface inspection with simultaneous measurements at multiple orientations are described. An example inspection system may include a robot for traversing an inspection surface, the robot having an inspection payload to support an inspection element with two phased array UT elements, the first phased array at a first surface orientation and the second phased array at a second surface orientation, both orientations relative to the inspection surface. Each of the inspection elements includes a couplant connection structured to receive couplant from the robot. The inspection further includes a tether fluidly coupling a couplant source to the robot.Type: ApplicationFiled: May 25, 2022Publication date: October 27, 2022Inventors: Chase David, Jose Aparicio, Juan Roberto Mendoza Mora, Kevin Y. Low, Troy Demmer, Edward A. Bryner, Scott Ashley Corl
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Publication number: 20220341889Abstract: 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.Type: ApplicationFiled: May 25, 2022Publication date: October 27, 2022Inventors: Chase David, Jose Aparicio, Juan Roberto Mendoza Mora, Kevin Y. Low
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Publication number: 20220341892Abstract: Robotic systems for rapid ultrasonic surface inspection are described. An example system may have an inspection robot to move in a direction of travel on an inspection surface. The robot may have a payload with a first and a second ultrasonic (UT) phased array, and a rastering device that executes a reciprocating motion of the payload. The system may have an inspection controller with a positioning circuit to provide an inspection position command, an inspection circuit to provide a rastering position command and an interrogation command. The robot is responsive to the inspection position command to move to an inspection position, and the rastering device is responsive to the rastering position command to move the payload through at least a portion of a range of reciprocating motion. The UT phased arrays are responsive to the interrogation command to perform an inspection on three axes of inspection.Type: ApplicationFiled: May 25, 2022Publication date: October 27, 2022Inventors: Chase David, Jose Aparicio, Juan Roberto Mendoza Mora, Kevin Y. Low, Troy Demmer, Edward A. Bryner, Scott Ashley Corl
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Publication number: 20220341887Abstract: Systems for assessment of weld adjacent heat affected zones are described. An example system may include an inspection robot having a first payload comprising a first plurality of ultrasonic (UT) phased arrays, and a second payload comprising a second plurality of ultrasonic (UT) phased arrays. The inspection robot is configured to move in a direction of travel corresponding to a weld of an inspection surface, and the first payload is structured to measure characteristics of a first region of the inspection surface on a first side of the weld while the second payload is structured to measure characteristics of a second region of the inspection surface on a second side of the weld.Type: ApplicationFiled: May 25, 2022Publication date: October 27, 2022Inventors: Chase David, Jose Aparicio, Juan Roberto Mendoza Mora, Kevin Y. Low, Troy Demmer, Edward A. Bryner, Scott Ashley Corl
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Publication number: 20200328134Abstract: A high conductance thermal link (1) includes a thermal conductive strap (2) having pyrolytic graphite layers arranged in stacks (5) and polyimide film (6) at least partially covering each stack (5). Adhesive material is between the pyrolytic graphite layers. The thermal conductive strap (2) has two opposite ends (4) and two end fittings (3, 3?) that house the corresponding ends (4) of the thermal conductive strap (2). An adhesive material is in the ends (4) of the thermal conductive strap (2) between the pyrolytic graphite layers and between the stacks (5) of pyrolytic graphite layers. At least one of the ends (4) of the thermal conductive strap (2) has a geometry including protrusions (7) separated by intermediate gaps (8).Type: ApplicationFiled: December 29, 2017Publication date: October 15, 2020Inventors: Felipe CÁCERES DEL VISO, Marc PERELLÓN MARSÁ, María José APARICIO ORDOBÁS, Carlos Roberto SAMARTÍN PULIÁN
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Publication number: 20180372589Abstract: A device for measuring a field of pressures exerted by a tire in the area of the measurement surface with which it is in contact, the device including a flat support and a sensor for measuring the field of pressures, which sensor is arranged on the support. The device includes at least one sheet (“protective sheet”) of a thickness less than 1 mm, and made from a material able to withstand forces generated in its plane, greater than or equal to 1000 N and less than or equal to 10 000 N, the sheet being arranged over the measurement sensor so as to be in contact therewith and to be immobilized with respect thereto, the sheet being prestressed so as to be stretched over the sensor.Type: ApplicationFiled: December 20, 2016Publication date: December 27, 2018Applicant: MICHELIN RECHERCHE ET TECHNIQUE S.A.Inventors: THIBAUT ANSOUD, FLORIAN BREMOND, JOSÉ APARICIO, RÉMI REYNAL DE ST-MICHEL