Patents by Inventor Evan D. Griffith
Evan D. Griffith 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: 12614808Abstract: A method for constructing a cell support assembly with thermal runaway mitigation for a multi-cell rechargeable energy storage system (RESS) include forming a cell holder configured to support the RESS battery cells. The cell holder has a holder body defining a plurality of apertures arranged in rows, such that each aperture is configured to align and be in fluid communication with a cell vent of one of the RESS battery cells. Individual embodiments of the method also include various techniques of arranging a plurality of thermal-barrier strips and potting elements to align with apertures of the cell holder body and adhering the thermal-barrier strips to the potting elements and to the cell holder. The resultant cell support assembly operates to channel thermal runaway energy away from the affected battery cell(s) and out of the RESS enclosure without triggering thermal runaway in adjacent cells.Type: GrantFiled: May 31, 2023Date of Patent: April 28, 2026Assignee: GM Global Technology Operations LLCInventors: Ryan P. Hickey, Mohammad Kirmani, Anthony M. Coppola, Evan D. Griffith, Daniel M. Wang, Kris Killen
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Patent number: 12562428Abstract: A method for assembling a rechargeable energy storage system includes assembling a plurality of cell modules into an upper structure of an enclosure, wherein the plurality of cell modules are composed of a plurality of battery cells and a plurality of collectors, wherein the plurality of collectors are arranged to electrically connect the battery cells; inverting the enclosure including the plurality of cell modules assembled therein; filling the enclosure with a liquified potting compound; curing the liquified potting compound to form a solidified potting compound; and assembling a bottom structure onto the upper structure of the enclosure to form a plurality of longitudinal channels.Type: GrantFiled: February 10, 2023Date of Patent: February 24, 2026Assignee: GM Global Technology Operations LLCInventors: Ryan P. Hickey, Hunter G. Rimatzki, Evan D. Griffith, Phillip D. Hamelin, Alexander M. Bilinski, Michael V. Pyrtko, Tyler Talaski
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Publication number: 20240405312Abstract: A rechargeable energy storage system (RESS) includes battery cells, each having a respective gas vent. The RESS also includes a cell support assembly with thermal runaway mitigation and has a cell holder for supporting the battery cells. The cell holder defines apertures arranged in rows and each aperture fluidly communicates with one cell vent. The assembly also includes multiple thermal-barrier strips adhered to the holder. Each thermal-barrier strip extends parallel to a respective aperture row to thermally insulate each corresponding cell from gases expelled by neighboring cells during a thermal runaway. The assembly additionally includes multiple potting elements. Each potting element is arranged in one of the apertures between a respective cell and a corresponding thermal-barrier strip to thereby adhere to the cell and to the corresponding thermal-barrier strip and maintain position of the cell on the holder. A motor vehicle may employ such a RESS.Type: ApplicationFiled: May 31, 2023Publication date: December 5, 2024Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Daniel M. Wang, Ryan P. Hickey, Evan D. Griffith, Kris Killen, Anthony M. Coppola, Mohammad Kirmani
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Publication number: 20240405346Abstract: A method for constructing a cell support assembly with thermal runaway mitigation for a multi-cell rechargeable energy storage system (RESS) include forming a cell holder configured to support the RESS battery cells. The cell holder has a holder body defining a plurality of apertures arranged in rows, such that each aperture is configured to align and be in fluid communication with a cell vent of one of the RESS battery cells. Individual embodiments of the method also include various techniques of arranging a plurality of thermal-barrier strips and potting elements to align with apertures of the cell holder body and adhering the thermal-barrier strips to the potting elements and to the cell holder. The resultant cell support assembly operates to channel thermal runaway energy away from the affected battery cell(s) and out of the RESS enclosure without triggering thermal runaway in adjacent cells.Type: ApplicationFiled: May 31, 2023Publication date: December 5, 2024Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Ryan P. Hickey, Mohammad Kirmani, Anthony M. Coppola, Evan D. Griffith, Daniel M. Wang, Kris Killen
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Publication number: 20240274972Abstract: A method for assembling a rechargeable energy storage system includes assembling a plurality of cell modules into an upper structure of an enclosure, wherein the plurality of cell modules are composed of a plurality of battery cells and a plurality of collectors, wherein the plurality of collectors are arranged to electrically connect the battery cells; inverting the enclosure including the plurality of cell modules assembled therein; filling the enclosure with a liquified potting compound; curing the liquified potting compound to form a solidified potting compound; and assembling a bottom structure onto the upper structure of the enclosure to form a plurality of longitudinal channels.Type: ApplicationFiled: February 10, 2023Publication date: August 15, 2024Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Ryan P. Hickey, Hunter G. Rimatzki, Evan D. Griffith, Phillip D. Hamelin, Alexander M. Bilinski, Michael V. Pyrtko, Tyler Talaski
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Patent number: 12046773Abstract: A battery module includes a first battery cell and a neighboring second battery cell, and an insulating member positioned therebetween. The battery module also includes a battery module enclosure surrounded by an external environment and configured to house each of the first battery cell, the second battery cell, and the insulating member. The battery module additionally includes a battery module cover mounted to the battery module enclosure. The battery module cover includes a vent feature configured to expel high temperature gases from the first battery cell and divert the high temperature gases away from the second battery cell directly to the external environment. The cover is thereby configured to minimize transfer of the high temperature gases from the first battery cell to the second battery cell and control propagation of a thermal runaway event in the battery module.Type: GrantFiled: December 17, 2021Date of Patent: July 23, 2024Assignee: GM Global Technology Operations LLCInventors: Anil Yadav, Scott W. Lananna, Evan D. Griffith, Anandakrishnan S, Evan J. Dawley, Julian R. Sherborne, Alexander M Bilinski, Adam W. Trumbley, Phillip D. Hamelin
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Publication number: 20230198088Abstract: A battery module includes a first battery cell and a neighboring second battery cell, and an insulating member positioned therebetween. The battery module also includes a battery module enclosure surrounded by an external environment and configured to house each of the first battery cell, the second battery cell, and the insulating member. The battery module additionally includes a battery module cover mounted to the battery module enclosure. The battery module cover includes a vent feature configured to expel high temperature gases from the first battery cell and divert the high temperature gases away from the second battery cell directly to the external environment. The cover is thereby configured to minimize transfer of the high temperature gases from the first battery cell to the second battery cell and control propagation of a thermal runaway event in the battery module.Type: ApplicationFiled: December 17, 2021Publication date: June 22, 2023Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Anil Yadav, Scott W. Lananna, Evan D. Griffith, Anandakrishnan S, Evan J. Dawley, Julian R. Sherborne, Alexander M. Bilinski, Adam W. Trumbley, Philip D. Hamelin