Patents by Inventor John Michael Jewell
John Michael Jewell 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: 11952305Abstract: In some embodiments, a method for processing an optical fiber includes: drawing an optical fiber through a draw furnace, conveying the optical fiber through a flame reheating device downstream from the draw furnace, wherein the flame reheating device comprises one or more burners each comprising: a body having a top surface and an opposing bottom surface, an opening within the body extending from the top surface through the body to the bottom surface, wherein the optical fiber passes through the opening, and one or more gas outlets within the body; and igniting a flammable gas provided by the one or more gas outlets to form a flame encircling the optical fiber passing through the opening, wherein the flame heats the optical fiber by at least 100 degrees Celsius at a heating rate exceeding 10,000 degrees Celsius/second.Type: GrantFiled: September 30, 2021Date of Patent: April 9, 2024Assignee: CORNING INCORPORATEDInventors: Ravindra Kumar Akarapu, Joel Patrick Carberry, David Alan Deneka, Steven Akin Dunwoody, Kenneth Edward Hrdina, John Michael Jewell, Yuanjie Jiang, Nikolaos Pantelis Kladias, Ming-Jun Li, Barada Kanta Nayak, Dale Robert Powers, Chunfeng Zhou, Vincent Matteo Tagliamonti, Christopher Scott Thomas
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Patent number: 11820696Abstract: An optical fiber draw system and method of operating thereof. The method includes positioning a downfeed handle for supporting an optical fiber preform within a furnace such that the downfeed handle is movable within the furnace. The method further includes operating one or more heating elements to thermally heat at least a portion of an upper muffle extension disposed within the furnace, the one or more heating elements being moveable with the downfeed handle.Type: GrantFiled: November 1, 2022Date of Patent: November 21, 2023Assignee: Corning IncorporatedInventors: Tammy Michelle Hoffmann, John Michael Jewell, Nikolaos Pantelis Kladias
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Publication number: 20230047162Abstract: An optical fiber draw system and method of operating thereof. The method includes positioning a downfeed handle for supporting an optical fiber preform within a furnace such that the downfeed handle is movable within the furnace. The method further includes operating one or more heating elements to thermally heat at least a portion of an upper muffle extension disposed within the furnace, the one or more heating elements being moveable with the downfeed handle.Type: ApplicationFiled: November 1, 2022Publication date: February 16, 2023Inventors: Tammy Michelle Hoffmann, John Michael Jewell, Nikolaos Pantelis Kladias
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Patent number: 11554980Abstract: A furnace system includes a muffle defining a furnace cavity. A lower heater is coupled to the muffle and is configured to create a hot zone within the furnace cavity having a temperature of about 1900° C. or greater. An upper muffle extension is positioned above the muffle and defines a handle cavity. A downfeed handle is positioned within the handle cavity such that a gap is defined between an outer surface of the downfeed handle and an inner surface of the upper muffle extension. An upper heater is thermally coupled to the upper muffle extension and configured to heat the gap. A gas screen is positioned in the upper muffle extension and is configured to inject a process gas into the handle cavity.Type: GrantFiled: September 9, 2021Date of Patent: January 17, 2023Assignee: Corning IncorporatedInventors: Erling Richard Anderson, Tammy Michelle Hoffmann, John Michael Jewell, Nikolaos Pantelis Kladias, Robert Clark Moore
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Patent number: 11498862Abstract: An optical fiber draw system and method of operating thereof. The method includes positioning a downfeed handle for supporting an optical fiber preform within a furnace such that the downfeed handle is movable within the furnace. The method further includes operating one or more heating elements to thermally heat at least a portion of an upper muffle extension disposed within the furnace, the one or more heating elements being moveable with the downfeed handle.Type: GrantFiled: January 22, 2021Date of Patent: November 15, 2022Assignee: Corning IncorporatedInventors: Tammy Michelle Hoffmann, John Michael Jewell, Nikolaos Pantelis Kladias
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Publication number: 20220106221Abstract: A muffle for an optical fiber draw furnace. The muffle including an inner surface and an outer surface, the inner surface forming an inner cavity. A protective coating is disposed on the inner surface, the protective coating having a melting point of about 1850° C. or greater. Furthermore, an absolute difference between a coefficient of thermal expansion of the protective coating and a coefficient of thermal expansion of a material of the muffle is 2.0 ppm/° C. or less over a temperature range from 25° C. to 1000° C.Type: ApplicationFiled: September 30, 2021Publication date: April 7, 2022Inventors: John Michael Jewell, Hoon Kim, Michael Thomas Prezioso
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Publication number: 20220098085Abstract: In some embodiments, a method for processing an optical fiber includes: drawing an optical fiber through a draw furnace, conveying the optical fiber through a flame reheating device downstream from the draw furnace, wherein the flame reheating device comprises one or more burners each comprising: a body having a top surface and an opposing bottom surface, an opening within the body extending from the top surface through the body to the bottom surface, wherein the optical fiber passes through the opening, and one or more gas outlets within the body; and igniting a flammable gas provided by the one or more gas outlets to form a flame encircling the optical fiber passing through the opening, wherein the flame heats the optical fiber by at least 100 degrees Celsius at a heating rate exceeding 10,000 degrees Celsius/second.Type: ApplicationFiled: September 30, 2021Publication date: March 31, 2022Inventors: Ravindra Kumar Akarapu, Joel Patrick Carberry, David Alan Deneka, Steven Akin Dunwoody, Kenneth Edward Hrdina, John Michael Jewell, Yuanjie Jiang, Nikolaos Pantelis Kladias, Ming-Jun Li, Barada Kanta Nayak, Dale Robert Powers, Chunfeng Zhou, Vincent Matteo Tagliamonti, Christopher Scott Thomas
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Patent number: 11286195Abstract: A method of producing an optical fiber is provided that includes the steps of flowing a first gas into an optical fiber draw furnace. The first gas is passed through a heated section configured to contain and heat a glass source from which the optical fiber is drawn, passing the first gas through a muffle which defines a capture chamber. A portion of the first gas is removed through at least one reclaim port operatively coupled to the capture chamber. A second gas flows into a gas screen at a rate configured to substantially recover a pressure drop associated with removing the portion of the first gas.Type: GrantFiled: April 18, 2019Date of Patent: March 29, 2022Assignee: Corning IncorporatedInventors: Stephen Mitchell Carlton, John Michael Jewell, Nikolaos Pantelis Kladias, Kochuparambil Deenamma Vargheese, Chunfeng Zhou
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Patent number: 11242278Abstract: An optical fiber draw furnace muffle includes a body portion defining a substantially cylindrical cavity extending along a centerline axis of the muffle. A tapered portion has an interior surface which defines a first curved portion with a first radius of curvature and a second curved portion with a second radius of curvature. At least one of the first and second radii of curvature has a radius greater than a radius of the cylindrical cavity.Type: GrantFiled: March 11, 2019Date of Patent: February 8, 2022Assignee: Corning IncorporatedInventors: Erling Richard Anderson, John Michael Jewell, Robert Walter Nason, Elias Panides, Xiaoyong Wang, Leo Young Zheng, Chunfeng Zhou
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Publication number: 20220002182Abstract: A furnace system includes a muffle defining a furnace cavity. A lower heater is coupled to the muffle and is configured to create a hot zone within the furnace cavity having a temperature of about 1900° C. or greater. An upper muffle extension is positioned above the muffle and defines a handle cavity. A downfeed handle is positioned within the handle cavity such that a gap is defined between an outer surface of the downfeed handle and an inner surface of the upper muffle extension. An upper heater is thermally coupled to the upper muffle extension and configured to heat the gap. A gas screen is positioned in the upper muffle extension and is configured to inject a process gas into the handle cavity.Type: ApplicationFiled: September 9, 2021Publication date: January 6, 2022Inventors: Erling Richard Anderson, Tammy Michelle Hoffmann, John Michael Jewell, Nikolaos Pantelis Kladias, Robert Clark Moore
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Patent number: 11198636Abstract: A furnace system includes a muffle defining a furnace cavity. A lower heater is coupled to the muffle and is configured to create a hot zone within the furnace cavity having a temperature of about 1900° C. or greater. An upper muffle extension is positioned above the muffle and defines a handle cavity. A downfeed handle is positioned within the handle cavity such that a gap is defined between an outer surface of the downfeed handle and an inner surface of the upper muffle extension. An upper heater is thermally coupled to the upper muffle extension and configured to heat the gap. A gas screen is positioned in the upper muffle extension and is configured to inject a process gas into the handle cavity.Type: GrantFiled: March 11, 2019Date of Patent: December 14, 2021Assignee: Corning IncorporatedInventors: Erling Richard Anderson, Tammy M Hoffmann, John Michael Jewell, Nikolaos Pantelis Kladias, Robert Clark Moore
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Publication number: 20210230044Abstract: An optical fiber draw system and method of operating thereof. The method includes positioning a downfeed handle for supporting an optical fiber preform within a furnace such that the downfeed handle is movable within the furnace. The method further includes operating one or more heating elements to thermally heat at least a portion of an upper muffle extension disposed within the furnace, the one or more heating elements being moveable with the downfeed handle.Type: ApplicationFiled: January 22, 2021Publication date: July 29, 2021Inventors: Tammy Michelle Hoffmann, John Michael Jewell, Nikolaos Pantelis Kladias
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Patent number: 10773990Abstract: An optical fiber production system is provided which includes a slow-cooling device and a purge device positioned above the slow-cooling device. The purge device includes a tube defining an inlet. An optical fiber extends through the slow-cooling device and the purge device. The purge device is configured to inject a purge gas through the inlet and against the optical fiber.Type: GrantFiled: October 19, 2017Date of Patent: September 15, 2020Assignee: Corning IncorporatedInventors: John Michael Jewell, Nikolaos Pantelis Kladias, Robert Walter Nason, Bruce Warren Reding, Edward Barry Richter, Daniel Paul Veber, Chunfeng Zhou
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Publication number: 20190292090Abstract: A furnace system includes a muffle defining a furnace cavity. A lower heater is coupled to the muffle and is configured to create a hot zone within the furnace cavity having a temperature of about 1900° C. or greater. An upper muffle extension is positioned above the muffle and defines a handle cavity. A downfeed handle is positioned within the handle cavity such that a gap is defined between an outer surface of the downfeed handle and an inner surface of the upper muffle extension. An upper heater is thermally coupled to the upper muffle extension and configured to heat the gap. A gas screen is positioned in the upper muffle extension and is configured to inject a process gas into the handle cavity.Type: ApplicationFiled: March 11, 2019Publication date: September 26, 2019Inventors: Erling Richard Anderson, Tammy M Hoffmann, John Michael Jewell, Nikolaos Pantelis Kladias, Robert Clark Moore
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Publication number: 20190284084Abstract: An optical fiber draw furnace muffle includes a body portion defining a substantially cylindrical cavity extending along a centerline axis of the muffle. A tapered portion has an interior surface which defines a first curved portion with a first radius of curvature and a second curved portion with a second radius of curvature. At least one of the first and second radii of curvature has a radius greater than a radius of the cylindrical cavity.Type: ApplicationFiled: March 11, 2019Publication date: September 19, 2019Inventors: Erling Richard Anderson, John Michael Jewell, Robert Walter Nason, Elias Panides, Xiaoyong Wang, Leo Young Zheng, Chunfeng Zhou
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Publication number: 20190241459Abstract: A method of producing an optical fiber is provided that includes the steps of flowing a first gas into an optical fiber draw furnace. The first gas is passed through a heated section configured to contain and heat a glass source from which the optical fiber is drawn, passing the first gas through a muffle which defines a capture chamber. A portion of the first gas is removed through at least one reclaim port operatively coupled to the capture chamber. A second gas flows into a gas screen at a rate configured to substantially recover a pressure drop associated with removing the portion of the first gas.Type: ApplicationFiled: April 18, 2019Publication date: August 8, 2019Inventors: Stephen Mitchell Carlton, John Michael Jewell, Nikolaos Pantelis Kladias, Kochuparambil Deenamma Vargheese, Chunfeng Zhou
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Patent number: 10308544Abstract: A method of producing an optical fiber is provided that includes the steps of flowing a first gas into an optical fiber draw furnace. The first gas is passed through a heated section configured to contain and heat a glass source from which the optical fiber is drawn, passing the first gas through a muffle which defines a capture chamber. A portion of the first gas is removed through at least one reclaim port operatively coupled to the capture chamber. A second gas flows into a gas screen at a rate configured to substantially recover a pressure drop associated with removing the portion of the first gas.Type: GrantFiled: September 21, 2016Date of Patent: June 4, 2019Assignee: Corning IncorporatedInventors: Stephen Mitchell Carlton, John Michael Jewell, Nikolaos Pantelis Kladias, Kochuparambil Deenamma Vargheese, Chunfeng Zhou
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Publication number: 20180111871Abstract: An optical fiber production system is provided which includes a slow-cooling device and a purge device positioned above the slow-cooling device. The purge device includes a tube defining an inlet. An optical fiber extends through the slow-cooling device and the purge device. The purge device is configured to inject a purge gas through the inlet and against the optical fiber.Type: ApplicationFiled: October 19, 2017Publication date: April 26, 2018Inventors: John Michael Jewell, Nikolaos Pantelis Kladias, Robert Walter Nason, Bruce Warren Reding, Edward Barry Richter, Daniel Paul Veber, Chunfeng Zhou
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Patent number: 9782766Abstract: Disclosed herein are methods for regenerating metal catalysts used in the purification of inert gases for use in fiber draw furnaces and other applications. The methods described herein can regenerate metal catalysts alone or in combination with molecular sieves. The methods disclosed herein are able to prevent the formation and retention of unwanted byproducts during and after the regeneration process, thereby efficiently converting oxidized catalysts to their reduced or elemental form. Gases purified with catalysts regenerated by the methods disclosed herein, when used in fiber draw furnaces and similar applications, can lead to extended equipment lifetimes and higher-quality products due to the lack of degradation by contaminants in the gas stream.Type: GrantFiled: December 12, 2016Date of Patent: October 10, 2017Assignee: Corning IncorporatedInventors: Erling Richard Anderson, Stephen Mitchell Carlton, Steven Bruce Dawes, John Michael Jewell, Roger Alan Rose
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Publication number: 20170173575Abstract: Disclosed herein are methods for regenerating metal catalysts used in the purification of inert gases for use in fiber draw furnaces and other applications. The methods described herein can regenerate metal catalysts alone or in combination with molecular sieves. The methods disclosed herein are able to prevent the formation and retention of unwanted byproducts during and after the regeneration process, thereby efficiently converting oxidized catalysts to their reduced or elemental form. Gases purified with catalysts regenerated by the methods disclosed herein, when used in fiber draw furnaces and similar applications, can lead to extended equipment lifetimes and higher-quality products due to the lack of degradation by contaminants in the gas stream.Type: ApplicationFiled: December 12, 2016Publication date: June 22, 2017Inventors: Erling Richard Anderson, Stephen Mitchell Carlton, Steven Bruce Dawes, John Michael Jewell, Roger Alan Rose