Patents by Inventor Takehiro MUGISHIMA
Takehiro MUGISHIMA 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: 20240072269Abstract: The fuel cell includes a first separator electrically insulated from an anode, a first conductive member connected to the anode and passing through the first separator while being electrically insulated from the first separator, a second separator electrically insulated from the cathode, and a second conductive member connected to the cathode and passing through the second separator while being electrically insulated from the second separator.Type: ApplicationFiled: August 7, 2023Publication date: February 29, 2024Inventors: Kotaro HORIAI, Takehiro MUGISHIMA, Hitoshi NAGASAKI
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Publication number: 20240072281Abstract: A leak inspection method includes: a gas confining step of confining a fuel gas with a predetermined pressure in a fuel gas flow field; a gas supply step of continuing to supply an oxygen-containing gas with a pressure equal to or higher than a predetermined pressure or equal to or lower than the predetermined pressure to an oxygen-containing gas flow field; and a measurement step of measuring the amount of pressure change per unit time of the gas confined in the gas confining step, when a switch provided to a wiring connecting an anode and a cathode without passing through an electrolyte membrane is in an OFF state.Type: ApplicationFiled: August 28, 2023Publication date: February 29, 2024Inventors: Hitoshi NAGASAKI, Takehiro MUGISHIMA, Kotaro HORIAI
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Publication number: 20230345945Abstract: A functional material has a metal substrate and exhibits at least one of the following: an antimold action, an antimicrobial action, and an antiviral action. The functional material is provided with: a metal substrate produced by forming a zinc layer on the surface of an aluminum substrate; and a functional film that is a zinc phosphate film formed on the surface of the metal substrate. A micron-order unevenness is formed on the surface of the functional film, as a result of which the functional film has at least one of the following: an antimold action that prevents the proliferation of mold, an antimicrobial action that kills microorganisms, and an antiviral action that inactivates viruses. The functional material is produced by carrying out a zinc phosphate chemical conversion treatment on the surface of an aluminum substrate and forming on this surface a zinc phosphate film having micron-order unevenness.Type: ApplicationFiled: March 25, 2021Publication date: November 2, 2023Inventors: Mayu KURATA, Takehiro MUGISHIMA
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Patent number: 11728499Abstract: In this fuel cell, a cathode-side porous film that covers a cathode electrode is interposed between the cathode electrode and an air supply layer, the cathode electrode constituting electrolyte film/electrode structures. In addition, breathing holes are formed in the cathode-side porous film, and the air flowing through air supply passages passes through the breathing holes and is supplied to the cathode electrode.Type: GrantFiled: March 26, 2019Date of Patent: August 15, 2023Assignee: HONDA MOTOR CO., LTD.Inventors: Daigo Mukasa, Hitoshi Nagasaki, Takehiro Mugishima, Akio Fujimoto, Ayumi Mizuno
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Publication number: 20230148232Abstract: The purpose of the present invention is to provide: a functional material which is prepared by using aluminum as a base material and has a bactericidal effect; and a method for producing the functional material. The functional material comprises an aluminum base material and a functional film which is a hydrated aluminum oxide film formed on the surface of the aluminum base material. The functional film has nano-order depressions and protrusions formed on the surface thereof and, as a result, the functional film can have a bactericidal effect to kill bacteria. The functional material is produced by subjecting an aluminum base material to a boiling treatment in boiled water for a predetermined treatment time to form, on the surface of the aluminum base material, a hydrated aluminum oxide film having nano-order depressions and protrusions formed on the surface thereof.Type: ApplicationFiled: March 24, 2021Publication date: May 11, 2023Inventors: Mayu KURATA, Takehiro MUGISHIMA
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Patent number: 11349134Abstract: According to the present invention, electrolyte membrane electrode structures have a staggered arrangement wherein a part of an anode electrode faces a part of one of two adjacent cathode electrodes, with an electrolyte membrane being interposed therebetween, and another part of the anode electrode faces a part of the other cathode electrode, with an interconnect part being interposed therebetween, said interconnect part being formed in the electrolyte membrane. A fuel cell according to the present invention is additionally provided with a fuel gas supply layer that is provided with a fuel gas supply path in which a fuel gas to be supplied to the anode electrode flows. A wall part between fuel gas supply paths in the fuel gas supply layer is superposed on the interconnect part, with the anode electrode being interposed therebetween.Type: GrantFiled: March 26, 2019Date of Patent: May 31, 2022Assignee: HONDA MOTOR CO., LTD.Inventors: Takehiro Mugishima, Hitoshi Nagasaki, Akio Fujimoto
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Patent number: 11271223Abstract: This fuel cell is provided with a first electrolyte membrane electrode structure and a second electrolyte membrane electrode structure, respective cathode electrodes of which face each other with an oxidant gas supply layer being interposed therebetween. The oxidant gas supply layer has: a first projection part which presses an interconnect part of an electrolyte membrane that constitutes the first electrolyte membrane electrode structure; and a second projection part which presses an interconnect part of an electrolyte membrane that constitutes the second electrolyte membrane electrode structure.Type: GrantFiled: March 26, 2019Date of Patent: March 8, 2022Assignee: HONDA MOTOR CO., LTD.Inventors: Takehiro Mugishima, Hitoshi Nagasaki, Akio Fujimoto
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Patent number: 11245120Abstract: A fuel cell manufacturing method capable of easily forming an interconnector part electrically connecting adjacent unit cells in a planar array fuel cell is provided. The interconnector part (30) is formed through a local heating process of carbonizing a proton conductive resin by locally heating an electrolyte membrane (12). The local heating process includes: a first heating step of heating a part of the electrolyte membrane (12) to a temperature equal to or less than a first temperature at a first temperature increase rate or less; and a second heating step of heating the part of the electrolyte membrane (12) to a temperature equal to or greater than a second temperature higher than the first temperature at a temperature increase rate greater than the first temperature increase rate, after the first heating step.Type: GrantFiled: December 26, 2017Date of Patent: February 8, 2022Assignee: HONDA MOTOR CO., LTD.Inventors: Hitoshi Nagasaki, Takehiro Mugishima, Kazuhide Matsuo
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Patent number: 11217807Abstract: Electrolyte membrane electrode structures that constitute a fuel cell according to the present invention have a staggered arrangement wherein a part of an anode electrode faces a part of one of two adjacent cathode electrodes, with an electrolyte membrane being interposed therebetween, and another part of the anode electrode faces a part of the other cathode electrode, with an interconnect part being interposed therebetween, said interconnect part being formed in the electrolyte membrane. The electrolyte membrane electrode structures are sealed in a laminate layer which is obtained by bonding an anode-side porous film that covers the anode electrode and a cathode-side porous film that covers the cathode electrodes with each other.Type: GrantFiled: March 26, 2019Date of Patent: January 4, 2022Assignee: HONDA MOTOR CO., LTD.Inventors: Takehiro Mugishima, Hitoshi Nagasaki, Akio Fujimoto, Ayumi Mizuno
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Patent number: 11177496Abstract: A manufacturing method of fuel cell and a fuel cell are provided. The manufacturing method of fuel cell includes a first slit formation process in which first slits are formed in a first electrode, an electrolyte membrane lamination process in which an electrolyte membrane is laminated on the first electrode, an IC formation process in which interconnector portions are formed on the electrolyte membrane, a second slit formation process in which second slits are formed in a second electrode, a second electrode lamination process in which the second electrode is laminated on the electrolyte membrane, and a side edge portion removal process in which side edge portions of the first electrode and the second electrode are removed to divide the first electrode into a plurality of parts via the first slits and to divide the second electrode into a plurality of parts via the second slits.Type: GrantFiled: February 18, 2020Date of Patent: November 16, 2021Assignee: Honda Motor Co., Ltd.Inventors: Takehiro Mugishima, Akio Fujimoto, Hitoshi Nagasaki
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Patent number: 11168445Abstract: A method for manufacturing a carbon fiber sheet, the method including a carbon fiber forming step of heating a resin sheet to a carbonization temperature at a heating rate of 15,000° C./sec or higher, thereby forming a carbon fiber from the resin sheet. In the carbon fiber forming step, the resin sheet is preferably irradiated with an energy ray having an output density of 130 W/mm2 or higher and an amount of irradiation energy of 0.05 J/mm2 or more.Type: GrantFiled: August 8, 2017Date of Patent: November 9, 2021Assignee: HONDA MOTOR CO., LTD.Inventors: Tomoko Tamai, Yuichi Hori, Kazuhide Matsuo, Satoshi Aoki, Satoshi Yonezawa, Hidetoshi Utsumi, Yasuro Katsuyama, Takehiro Mugishima
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Publication number: 20210050611Abstract: In this fuel cell, a cathode-side porous film that covers a cathode electrode is interposed between the cathode electrode and an air supply layer, the cathode electrode constituting electrolyte film/electrode structures. In addition, breathing holes are formed in the cathode-side porous film, and the air flowing through air supply passages passes through the breathing holes and is supplied to the cathode electrode.Type: ApplicationFiled: March 26, 2019Publication date: February 18, 2021Inventors: Daigo Mukasa, Hitoshi Nagasaki, Takehiro Mugishima, Akio Fujimoto, Ayumi Mizuno
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Publication number: 20210028477Abstract: Electrolyte membrane electrode structures that constitute a fuel cell according to the present invention have a staggered arrangement wherein a part of an anode electrode faces a part of one of two adjacent cathode electrodes, with an electrolyte membrane being interposed therebetween, and another part of the anode electrode faces a part of the other cathode electrode, with an interconnect part being interposed therebetween, said interconnect part being formed in the electrolyte membrane. The electrolyte membrane electrode structures are sealed in a laminate layer which is obtained by bonding an anode-side porous film that covers the anode electrode and a cathode-side porous film that covers the cathode electrodes with each other.Type: ApplicationFiled: March 26, 2019Publication date: January 28, 2021Inventors: Takehiro Mugishima, Hitoshi Nagasaki, Akio Fujimoto, Ayumi Mizuno
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Publication number: 20210020960Abstract: According to the present invention, electrolyte membrane electrode structures have a staggered arrangement wherein a part of an anode electrode faces a part of one of two adjacent cathode electrodes, with an electrolyte membrane being interposed therebetween, and another part of the anode electrode faces a part of the other cathode electrode, with an interconnect part being interposed therebetween, said interconnect part being formed in the electrolyte membrane. A fuel cell according to the present invention is additionally provided with a fuel gas supply layer that is provided with a fuel gas supply path in which a fuel gas to be supplied to the anode electrode flows. A wall part between fuel gas supply paths in the fuel gas supply layer is superposed on the interconnect part, with the anode electrode being interposed therebetween.Type: ApplicationFiled: March 26, 2019Publication date: January 21, 2021Inventors: Takehiro Mugishima, Hitoshi Nagasaki, Akio Fujimoto
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Publication number: 20210020961Abstract: This fuel cell is provided with a first electrolyte membrane electrode structure and a second electrolyte membrane electrode structure, respective cathode electrodes of which face each other with an oxidant gas supply layer being interposed therebetween. The oxidant gas supply layer has: a first projection part which presses an interconnect part of an electrolyte membrane that constitutes the first electrolyte membrane electrode structure; and a second projection part which presses an interconnect part of an electrolyte membrane that constitutes the second electrolyte membrane electrode structure.Type: ApplicationFiled: March 26, 2019Publication date: January 21, 2021Inventors: Takehiro Mugishima, Hitoshi Nagasaki, Akio Fujimoto
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Publication number: 20200266471Abstract: A manufacturing method of fuel cell and a fuel cell are provided. The manufacturing method of fuel cell includes a first slit formation process in which first slits are formed in a first electrode, an electrolyte membrane lamination process in which an electrolyte membrane is laminated on the first electrode, an IC formation process in which interconnector portions are formed on the electrolyte membrane, a second slit formation process in which second slits are formed in a second electrode, a second electrode lamination process in which the second electrode is laminated on the electrolyte membrane, and a side edge portion removal process in which side edge portions of the first electrode and the second electrode are removed to divide the first electrode into a plurality of parts via the first slits and to divide the second electrode into a plurality of parts via the second slits.Type: ApplicationFiled: February 18, 2020Publication date: August 20, 2020Applicant: Honda Motor Co.,Ltd.Inventors: Takehiro MUGISHIMA, Akio FUJIMOTO, Hitoshi NAGASAKI
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Patent number: 10547065Abstract: In the fuel cell, an electrode layer on each of two surfaces of an electrolyte membrane is divided into a plurality of electrode regions by a dividing groove; a unit cell is constituted by a stacked structure including the electrolyte membrane, one electrode region on one surface of the electrolyte membrane, and one electrode region on the other surface thereof; and a plurality of the unit cells are connected in series by the interconnector part formed in the electrolyte membrane. At least the electrode layer on the one surface includes a catalyst layer having catalytic activity and containing proton conductive resin; and a protection layer located between the catalyst layer and the electrolyte membrane, having electric conductivity and having a higher filling density of proton conductive resin than that of the catalyst layer. The interconnector part is covered with the protection layer on the one surface.Type: GrantFiled: August 24, 2016Date of Patent: January 28, 2020Assignee: HONDA MOTOR CO., LTD.Inventors: Takehiro Mugishima, Hitoshi Nagasaki, Ayumi Mizuno, Satoshi Yonezawa, Kazuhide Matsuo
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Patent number: 10547063Abstract: Provided is a fuel cell capable of easily forming an interconnector part electrically connecting adjacent unit cells in a planar array fuel cell. In the fuel cell, an electrode layer on each of two surfaces of an electrolyte membrane is divided into a plurality of electrode regions by a dividing groove; a unit cell is constituted by a stacked structure including the electrolyte membrane, one electrode region on one surface of the electrolyte membrane, and one electrode region on the other surface thereof; and the plurality of the unit cells are connected in series by the interconnector part formed in the electrolyte membrane. The interconnector part is formed by heating and carbonizing a proton conductive resin in the electrolyte membrane. The proton conductive resin can be heated by laser beam irradiation.Type: GrantFiled: August 24, 2016Date of Patent: January 28, 2020Assignee: HONDA MOTOR CO., LTD.Inventors: Satoshi Yonezawa, Hitoshi Nagasaki, Takehiro Mugishima, Kazuhide Matsuo, Ayumi Mizuno
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Publication number: 20190341628Abstract: A fuel cell manufacturing method capable of easily forming an interconnector part electrically connecting adjacent unit cells in a planar array fuel cell is provided. The interconnector part (30) is formed through a local heating process of carbonizing a proton conductive resin by locally heating an electrolyte membrane (12). The local heating process includes: a first heating step of heating a part of the electrolyte membrane (12) to a temperature equal to or less than a first temperature at a first temperature increase rate or less; and a second heating step of heating the part of the electrolyte membrane (12) to a temperature equal to or greater than a second temperature higher than the first temperature at a temperature increase rate greater than the first temperature increase rate, after the first heating step.Type: ApplicationFiled: December 26, 2017Publication date: November 7, 2019Inventors: Hitoshi Nagasaki, Takehiro Mugishima, Kazuhide Matsuo
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Publication number: 20190177918Abstract: A method for manufacturing a carbon fiber sheet, the method including a carbon fiber forming step of heating a resin sheet to a carbonization temperature at a heating rate of 15,000° C./sec or higher, thereby forming a carbon fiber from the resin sheet. In the carbon fiber forming step, the resin sheet is preferably irradiated with an energy ray having an output density of 130 W/mm2 or higher and an amount of irradiation energy of 0.05 J/mm2 or more.Type: ApplicationFiled: August 8, 2017Publication date: June 13, 2019Inventors: Tomoko Tamai, Yuichi Hori, Kazuhide Matsuo, Satoshi Aoki, Satoshi Yonezawa, Hidetoshi Utsumi, Yasuro Katsuyama, Takehiro Mugishima