Patents by Inventor Takahiko Hirai
Takahiko Hirai 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: 9651475Abstract: An optical sensor apparatus includes a light receiving element configured to produce an output according to a light receiving state, and an optical element including a reflecting layer including a metal film, and being arranged such that at least some of incident light on the light receiving element is light that is reflected by the reflecting layer. The optical element further includes a corrosion resistant layer for suppressing corrosion of the reflecting layer, and the reflecting layer includes a surface covered by the corrosion resistant layer formed by vapor plating.Type: GrantFiled: November 27, 2013Date of Patent: May 16, 2017Assignee: PANASONIC INTELLECTUAL PROPERTY MANAGEMENT CO., LTD.Inventors: Takahiko Hirai, Kazuki Yamaguchi
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Patent number: 9528879Abstract: An infrared detection element includes first and second pyroelectric elements which are arranged in a single pyroelectric substrate. First pyroelectric element includes a first surface electrode, a first back face electrode, and a first portion interposed between first surface and back face electrodes. First portion is provided as part of pyroelectric substrate. Second pyroelectric element includes a second surface electrode, a second back face electrode, and a second portion interposed between second surface and back face electrodes. Second portion is provided as part of pyroelectric substrate. Pyroelectric substrate is provided in part thereof surrounding first pyroelectric element with a slit shaped along an outer periphery of first pyroelectric element. Slit is formed out of regions in which a first surface wiring and a first back face wiring are disposed. Part of pyroelectric substrate surrounding second pyroelectric element is continuously formed over an entire circumference of second portion.Type: GrantFiled: January 20, 2014Date of Patent: December 27, 2016Assignee: PANASONIC INTELLECTUAL PROPERTY MANAGEMENT CO., LTD.Inventors: Yoshifumi Watabe, Sadayuki Sumi, Yuichi Inaba, Junichi Hozumi, Takahiko Hirai, Tsuyoshi Kuroda
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Patent number: 9494467Abstract: An infrared detection element includes first and second pyroelectric elements which are arranged in a single pyroelectric substrate. First pyroelectric element includes a first surface electrode, a first back face electrode, and a first portion interposed between first surface and back face electrodes. First portion is provided as part of pyroelectric substrate. Second pyroelectric element includes a second surface electrode, a second back face electrode, and a second portion interposed between second surface and back face electrodes. Second portion is provided as part of pyroelectric substrate. Pyroelectric substrate is provided in part thereof surrounding first pyroelectric element with a slit shaped along an outer periphery of first pyroelectric element. Slit is formed out of regions in which a first surface wiring and a first back face wiring are disposed. Part of pyroelectric substrate surrounding second pyroelectric element is continuously formed over an entire circumference of second portion.Type: GrantFiled: January 20, 2014Date of Patent: November 15, 2016Assignee: PANASONIC INTELLECTUAL PROPERTY MANAGEMENT CO., LTD.Inventors: Yoshifumi Watabe, Sadayuki Sumi, Yuichi Inaba, Junichi Hozumi, Takahiko Hirai, Tsuyoshi Kuroda
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Publication number: 20150369668Abstract: An infrared detection element includes first and second pyroelectric elements which are arranged in a single pyroelectric substrate. First pyroelectric element includes a first surface electrode. a first back face electrode, and a first portion interposed between first surface and back face electrodes. First portion is provided as part of pyroelectric substrate. Second pyroelectric element includes a second surface electrode, a second back face electrode, and a second portion interposed between second surface and back face electrodes. Second portion is provided as part of pyroelectric substrate. Pyroelectric substrate is provided in part thereof surrounding first pyroelectric element with a slit shaped along an outer periphery of first pyroelectric element. Slit is formed out of regions in which a first surface wiring and a first back face wiring are disposed. Part of pyroelectric substrate surrounding second pyroelectric element is continuously formed over an entire circumference of second portion.Type: ApplicationFiled: January 20, 2014Publication date: December 24, 2015Applicant: PANASONIC INTELLECTUAL PROPERTY MANAGEMENT CO., LTD.Inventors: Yoshifumi WATABE, Sadayuki SUMI, Yuichi INABA, Junichi HOZUMI, Takahiko HIRAI, Tsuyoshi KURODA
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Publication number: 20150316466Abstract: An optical sensor apparatus includes a light receiving element configured to produce an output according to a light receiving state, and an optical element including a reflecting layer including a metal film, and being arranged such that at least some of incident light on the light receiving element is light that is reflected by the reflecting layer. The optical element further includes a corrosion resistant layer for suppressing corrosion of the reflecting layer, and the reflecting layer includes a surface covered by the corrosion resistant layer formed by vapor plating.Type: ApplicationFiled: November 27, 2013Publication date: November 5, 2015Inventors: Takahiko HIRAI, Kazuki YAMAGUCHI
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Publication number: 20120298867Abstract: An infrared flame detector of the present invention has an infrared radiation receiving element accommodated in a package. In the infrared radiation receiving element, a set of two pyroelectric elements are arranged side by side and connected in anti-series on a pyroelectric element forming substrate. An infrared optical filter includes a filter forming substrate made of an infrared radiation transmitting material, a set of two narrowband transmission filter sections formed at positions respectively corresponding to positions of the pyroelectric elements on a first surface of the filter forming substrate and configured to transmit infrared radiation of a first selective wavelength and infrared radiation of a second selective wavelength, and a broadband blocking filter section formed on a second surface of the filter forming substrate and configured to absorb infrared radiation of a wavelength longer than an upper limit of an infrared reflection band.Type: ApplicationFiled: December 6, 2010Publication date: November 29, 2012Applicant: PANASONIC CORPORATIONInventors: Takayuki Nishikawa, Yoshifumi Watabe, Yuichi Inaba, Takahiko Hirai
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Publication number: 20120235038Abstract: An infrared gas detector includes an infrared reception member, a package configured to accommodate the infrared reception member, and an optical filter. The infrared reception member includes a plurality of thermal infrared detection elements each configured to detect infrared based on heat caused by received infrared. The thermal infrared detection elements are placed side by side. The package is provided with a window opening configured to allow the infrared reception member to receive infrared. The optical filter is attached to the package so as to cover the window opening, and includes a plurality of filter elements respectively corresponding to the plurality of the thermal infrared detection elements. Each of the filter elements includes a filter substrate made of an infrared transparent material, a transmission filter configured to transmit infrared of a selected wavelength, and a cut-off filter configured to absorb infrared of a wavelength longer than the selected wavelength.Type: ApplicationFiled: June 22, 2010Publication date: September 20, 2012Inventors: Takayuki Nishikawa, Yoshifumi Watabe, Yuichi Inaba, Takahiko Hirai, Hiroaki Kitamura
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Publication number: 20110310472Abstract: The infrared optical filter of the present invention comprises a substrate formed of an infrared transmitting material and a plurality of filter parts arranged side by side on one surface side of the substrate. Each filter part includes: a first ?/4 multilayer film in which two kinds of thin films having mutually different refractive indices but an identical optical film thickness are alternately stacked; a second ?/4 multilayer film in which the two kinds of thin films are alternately stacked, said second ?/4 multilayer film being formed on the opposite side of the first ?/4 multilayer film from the substrate side, and; and a wavelength selection layer interposed between the first ?/4 multilayer film and the second ?/4 multilayer film, said wavelength selection layer having an optical film thickness different from the optical film thickness of each the thin film according to a desired selection wavelength.Type: ApplicationFiled: February 4, 2010Publication date: December 22, 2011Inventors: Takahiko Hirai, Hiroaki Kitamura, Yuichi Inaba, Yoshifumi Watabe, Takayuki Nishikawa, Takahiro Sono
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Patent number: 6677547Abstract: A method and an apparatus for classifying and recovering the main components of used batteries, particularly, a method and an apparatus by which the batteries are conveyed on a conveyor while an alternating magnetic field of a plurality of frequencies is applied to each and a detection means detects what sort of induced magnetic field has resulted from the eddy current induced in the battery. The orthogonal components in the change of the induced magnetic field are detected; the relationship between these orthogonal components and the frequencies are compared with the database of the same which is previously obtained, and the batteries are sorted according to their classification and size. This method can sort large amounts of used batteries continuously. In this invention, the battery will be drawn down into the detection region either magnetically or mechanically while the stable transport of the battery is achieved.Type: GrantFiled: November 9, 2001Date of Patent: January 13, 2004Assignee: Mitsubishi Heavy Industries, Ltd.Inventors: Tadaaki Tanii, Satoshi Tsuzuki, Shiro Honnmura, Takeo Kamimura, Takahiko Hirai, Masaaki Kurokawa, Reizou Miyauchi
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Publication number: 20020027095Abstract: A method and an apparatus for classifying and recovering the main components of used batteries, particularly, a method and an apparatus by which the batteries are conveyed on a conveyor while an alternating magnetic field of a plurality of frequencies is applied to each and a detection means detects what sort of induced magnetic field has resulted from the eddy current induced in the battery. The orthogonal components in the change of the induced magnetic field are detected; the relationship between these orthogonal components and the frequencies are compared with the database of the same which is previously obtained, and the batteries are sorted according to their classification and size. This method can sort large amounts of used batteries continuously. In this invention, the battery will be drawn down into the detection region either magnetically or mechanically while the stable transport of the battery is achieved.Type: ApplicationFiled: November 9, 2001Publication date: March 7, 2002Applicant: Mitsubishi Heavy Industries, Ltd.Inventors: Tadaaki Tanii, Satoshi Tsuzuki, Shiro Honnmura, Takeo Kamimura, Takahiko Hirai, Masaaki Kurokawa, Reizou Miyauchi
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Patent number: 6337450Abstract: A method and an apparatus for classifying and recovering the main components of used batteries, particularly, a method and an apparatus by which the batteries are conveyed on a conveyor while an alternating magnetic field of a plurality of frequencies is applied to each and a detection means detects what sort of induced magnetic field has resulted from the eddy current induced in the battery. The orthogonal components in the change of the induced magnetic field are detected; the relationship between these orthogonal components and the frequencies are compared with the database of the same which is previously obtained, and the batteries are sorted according to their classification and size. This method can sort large amounts of used batteries continuously. In this invention, the battery will be drawn down into the detection region either magnetically or mechanically while the stable transport of the battery is achieved.Type: GrantFiled: December 8, 1999Date of Patent: January 8, 2002Assignee: Mitsubishi Heavy Industries, Ltd.Inventors: Tadaaki Tanii, Satoshi Tsuzuki, Shiro Honnmura, Takeo Kamimura, Takahiko Hirai, Masaaki Kurokawa, Reizou Miyauchi