Patents by Inventor Nick Sochacki
Nick Sochacki 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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Publication number: 20260051796Abstract: A method of assembling an electric converter. The method includes placing a stack of rotor cores on a base plate of a tool assembly, inserting a core shaft into an aperture of the stack of rotor cores so that the stack of rotor cores and the core shaft surround a heater, and turning on the heater to heat the core shaft such that the stack of rotor cores and the heated core shaft are joined together. A diameter of the aperture of the stack of rotor cores is greater than a diameter of the core shaft prior to inserting the core shaft into the aperture of the stack of rotor cores.Type: ApplicationFiled: August 13, 2024Publication date: February 19, 2026Applicant: Ford Motor CompanyInventors: Sarah Dziadzio, Alexander Marrocco, Nick Sochacki, Clara Goldberg, James Cederstrom
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Patent number: 12149133Abstract: A rotor assembly system includes a central robotic system, which itself includes a conveyor platform and a multi-axial central robot arranged on the conveyor platform. The multi-axial central robot is configured to perform a set of manufacturing processes from among a plurality of rotor manufacturing processes related to at least one rotor component. The conveyor platform is operable to move the multi-axial central robot within the manufacturing cell to transfer the at least one rotor component between one or more rotor manufacturing processes from among the plurality of rotor manufacturing processes.Type: GrantFiled: January 17, 2023Date of Patent: November 19, 2024Assignees: Ford Global Technologies, LLC, ABB Inc.Inventors: Mark E. Briscoe, Nick Sochacki, Al Marrocco, Jeffrey Cameron, Michael Mollan
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Patent number: 11996746Abstract: A method of securing magnetizable inserts within cores of an electric converter includes placing an assembly of rotor cores in a transfer molding press, the magnetizable inserts being disposed within cavities of the rotor cores and the cavities of the rotor cores being in fluid communication, placing a polymer preform proximate a central portion of the assembly of rotor cores, displacing the polymer preform such that the polymer preform changes state and flows radially and then axially through each of the cavities of the rotor cores, removing the assembly of rotor cores from the transfer molding press, and removing polymer waste from the assembly of rotor cores.Type: GrantFiled: January 28, 2021Date of Patent: May 28, 2024Assignees: Ford Global Technologies, LLC, ABB Inc.Inventors: Mark E. Briscoe, Nick Sochacki, Al Marrocco, Jeffrey Cameron, Michael Mollan
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Publication number: 20240051142Abstract: The present disclosure includes a method of assembling a plurality of rotor cores for an electric converter. The method includes providing a core robotic system employing force control feedback and an insert assembly robotic (IAR) system; placing a rotor core of the plurality of rotor cores on a mandrel by the core robotic system employing force control feedback, wherein each rotor core from the plurality of rotor cores includes a plurality of cavities; and placing a plurality of magnetizable inserts into the plurality of cavities in the rotor core by the insert assembly robotic (IAR) system employing force control feedback.Type: ApplicationFiled: October 25, 2023Publication date: February 15, 2024Applicants: Ford Global Technologies, LLC, ABB Inc.Inventors: Mark E. Briscoe, Nick Sochacki, Al Marrocco, Arnold Bell, James Jozwiak
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Patent number: 11826915Abstract: The present disclosure is generally directed toward a method of assembling a plurality of rotor cores for an electric converter. The method includes placing, by a core robotic system employing force control feedback, a rotor core on a mandrel, and for each of the plurality of rotor cores, placing, a plurality of magnetizable inserts into a plurality of cavities in the rotor core by an insert assembly robotic (IAR) system employing force control feedback.Type: GrantFiled: January 28, 2021Date of Patent: November 28, 2023Assignees: Ford Global Technologies, LLC, ABB, Inc.Inventors: Mark E Briscoe, Nick Sochacki, Al Marrocco, Arnold Bell, James Jozwiak
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Publication number: 20230155458Abstract: A rotor assembly system includes a central robotic system, which itself includes a conveyor platform and a multi-axial central robot arranged on the conveyor platform. The multi-axial central robot is configured to perform a set of manufacturing processes from among a plurality of rotor manufacturing processes related to at least one rotor component. The conveyor platform is operable to move the multi-axial central robot within the manufacturing cell to transfer the at least one rotor component between one or more rotor manufacturing processes from among the plurality of rotor manufacturing processes.Type: ApplicationFiled: January 17, 2023Publication date: May 18, 2023Applicants: Ford Global Technologies, LLC, ABB Inc.Inventors: Mark E. Briscoe, Nick Sochacki, Al Marrocco, Jeffrey Cameron, Michael Mollan
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Patent number: 11557944Abstract: A rotor assembly system for a manufacturing cell includes a central robotic system comprising a multi-axial central robot and a conveyor platform and one or more multi-axial auxiliary robotic systems secured at one or more locations within the cell. The conveyor platform is operable to move the central robot within the cell. The central robotic system and the one or more auxiliary robotic systems are configured to perform a plurality of rotor manufacturing processes on at least one rotor component in coordination with one another, and the central robotic system is configured to transfer the at least one rotor component between one or more rotor manufacturing processes of the plurality of rotor manufacturing processes.Type: GrantFiled: January 28, 2021Date of Patent: January 17, 2023Assignees: Ford Global Technologies, LLC, ABB, Inc.Inventors: Mark E Briscoe, Nick Sochacki, Al Marrocco, Jeffrey Cameron, Michael Mollan
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Publication number: 20220239204Abstract: A rotor assembly system for a manufacturing cell includes a central robotic system comprising a multi-axial central robot and a conveyor platform and one or more multi-axial auxiliary robotic systems secured at one or more locations within the cell. The conveyor platform is operable to move the central robot within the cell. The central robotic system and the one or more auxiliary robotic systems are configured to perform a plurality of rotor manufacturing processes on at least one rotor component in coordination with one another, and the central robotic system is configured to transfer the at least one rotor component between one or more rotor manufacturing processes of the plurality of rotor manufacturing processes.Type: ApplicationFiled: January 28, 2021Publication date: July 28, 2022Applicants: Ford Global Technologies, LLC, ABB Inc.Inventors: Mark E. Briscoe, Nick Sochacki, Al Marrocco, Jeffrey Cameron, Michael Mollan
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Publication number: 20220239206Abstract: A method of securing magnetizable inserts within cores of an electric converter includes placing an assembly of rotor cores in a transfer molding press, the magnetizable inserts being disposed within cavities of the rotor cores and the cavities of the rotor cores being in fluid communication, placing a polymer preform proximate a central portion of the assembly of rotor cores, displacing the polymer preform such that the polymer preform changes state and flows radially and then axially through each of the cavities of the rotor cores, removing the assembly of rotor cores from the transfer molding press, and removing polymer waste from the assembly of rotor cores.Type: ApplicationFiled: January 28, 2021Publication date: July 28, 2022Applicants: Ford Global Technologies, LLC, ABB Inc.Inventors: Mark E. Briscoe, Nick Sochacki, Al Marrocco, Jeffrey Cameron, Michael Mollan
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Publication number: 20220234204Abstract: The present disclosure is generally directed toward a method of assembling a plurality of rotor cores for an electric converter. The method includes placing, by a core robotic system employing force control feedback, a rotor core on a mandrel, and for each of the plurality of rotor cores, placing, a plurality of magnetizable inserts into a plurality of cavities in the rotor core by an insert assembly robotic (IAR) system employing force control feedback.Type: ApplicationFiled: January 28, 2021Publication date: July 28, 2022Applicants: Ford Global Technologies, LLC, ABB Inc.Inventors: Mark E Briscoe, Nick Sochacki, Al Marrocco, Arnold Bell, James Jozwiak
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Publication number: 20220234215Abstract: An end of arm tool (EOAT) for use with a robotic end effector includes radially opposed gripper fingers secured to a distal end portion of the robotic end effector, each radially opposed gripper finger having a recess with a first sidewall and a second sidewall oriented at an acute angle relative to the first sidewall. The radially opposed gripper fingers are configured to translate radially to grip a part within the recesses and to release the part for placement in an assembly.Type: ApplicationFiled: January 28, 2021Publication date: July 28, 2022Applicants: Ford Global Technologies, LLC, ABB Inc.Inventors: Mark E. Briscoe, Nick Sochacki, Al Marrocco, Arnold Bell, James Jozwiak