Patents by Inventor Koichi Inagaki
Koichi Inagaki 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: 11943685Abstract: A server system for an always-on connection includes: a plurality of always-on connection processing parts; and a controller. Each of the always-on connection processing parts includes a plurality of always-on connection execution parts, and the controller is configured to execute: a receiving process to receive a first request for the always-on connection from a terminal device; a determining process to determine a target always-on connection processing part, among the always-on connection processing parts according to the first request, the target always-on connection processing part being one always-on connection processing part to establish the always-on connection with the terminal device; and a sending process to send to the terminal device a destination data indicating a destination of the second request for the always-on connection after determining the target always-on connection processing part, the destination data also indicating the target always-on connection processing part.Type: GrantFiled: November 8, 2022Date of Patent: March 26, 2024Assignee: BROTHER KOGYO KABUSHIKI KAISHAInventors: Yuki Narita, Masashi Takeichi, Koichi Hayashi, Tomohiro Inagaki
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Patent number: 10745832Abstract: A material shape simulation apparatus for simulating deformation of a three-dimensional woven fiber material is provided and includes: an orientation vector field generation unit generating a model shape orientation vector field on three-dimensional meshes of a model shape of a three-dimensional woven fiber material obtained by stacking sheets of two-dimensional woven fabric made of X-yarn and Y-yarn and binding them with Z-yarn; a parameterization unit that searches for a gradient vector for calculating a material shape orientation vector field, being an orientation vector field of a material shape before deformation of the model shape, from the model shape orientation vector field; and an orientation vector updating unit that updates the model shape orientation vector field by applying a condition of preserving a volume between the model shape orientation vector field and the material shape orientation vector field and a condition that neither the X-yarn nor the Y-yarn expands or contracts.Type: GrantFiled: August 29, 2018Date of Patent: August 18, 2020Assignees: IHI CORPORATION, The University of TokyoInventors: Hiroyuki Hishida, Koichi Inagaki, Takeshi Nakamura, Fumiaki Watanabe, Kotaro Morioka, Yutaka Ohtake, Hiromasa Suzuki, Yukie Nagai
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Patent number: 10656121Abstract: Provided are a method and device for detecting arrangement disorder of fibers in a conductive composite material. A coil (7) is disposed at a position at which the coil (7) faces the conductive composite material, and thereby a current can be applied to the conductive composite material. Thus, work or the like for attaching electrodes to the conductive composite material is not required. As a result, the arrangement disorder of the fibers in the conductive composite material can easily be detected. A method for detecting meandering of fibers in a conductive composite material includes a step of disposing a magnetic field sensor (8) at a position at which the magnetic field sensor (8) faces a surface (Sa) of the conductive composite material such that a direction (D) of a magnetosensitive axis is horizontal with the surface (Sa) and is parallel to coil faces (7e).Type: GrantFiled: July 8, 2016Date of Patent: May 19, 2020Assignee: IHI CorporationInventors: Akinori Tsuda, Hiroki Kawai, Hiroaki Hatanaka, Yuichi Yamaguchi, Koichi Inagaki
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Patent number: 10650173Abstract: A design support apparatus supporting designing of a product which uses a fiber material includes a processor that creates a predicted shape model by predicting a shape of the product before a deformation processing. The processor: creates a 3-dimensional shape model of the product; creates curved shape models by separating the 3-dimensional shape model into two or more fiber layers; sets a correspondence relationship between the curved shape models; creates an orientation vector field in the curved shape models; and predicts the shape of the product before the deformation processing by developing the curved shape models on a flat surface based on the correspondence relationship between the curved shape models and the orientation vector field in the curved shape models, and creates the predicted shape model based on the predicted shape.Type: GrantFiled: September 16, 2015Date of Patent: May 12, 2020Assignees: IHI CORPORATION, THE UNIVERSITY OF TOKYOInventors: Hiroyuki Hishida, Koichi Inagaki, Takeshi Nakamura, Fumiaki Watanabe, Kotaro Morioka, Yutaka Ohtake, Hiromasa Suzuki, Yukie Nagai
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Patent number: 10605777Abstract: Provided is a method for inspecting an electroconductive composite material including disposing a detection magnetic field measurement unit, disposing a correction magnetic field measurement unit, applying a current, acquiring a detection magnetic field strength, acquiring a correction magnetic field strength, and detecting a portion in which arrangement of carbon fibers is disordered. The operation includes calculating a correction coefficient using the correction magnetic field strength and correcting the detection magnetic field strength using the correction coefficient.Type: GrantFiled: August 15, 2016Date of Patent: March 31, 2020Assignee: IHI CorporationInventors: Hiroki Kawai, Akinori Tsuda, Hiroaki Hatanaka, Yuichi Yamaguchi, Koichi Inagaki
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Patent number: 10242436Abstract: A non-destructive inspection apparatus is configured to perform non-destructive inspection of a bonded place between a base material and a bonding material of a gas turbine engine part formed by bonding the bonding material formed of a metal material to the base material formed of a fiber-strengthened material, and includes a moving apparatus configured to move the gas turbine engine part, a light source apparatus configured to emit a laser beam, an infrared imaging apparatus configured to image the gas turbine engine part to which the laser beam is radiated, and a control and arithmetic processing apparatus configured to store form data of the gas turbine engine part, control the moving apparatus such that the laser beam is radiated to the bonded place based on the form data, and obtain a result showing a state of the bonded place based on imaging data obtained by the infrared imaging apparatus.Type: GrantFiled: November 1, 2016Date of Patent: March 26, 2019Assignees: IHI Corporation, KEN AUTOMATION, INC.Inventors: Koichi Inagaki, Kunihiko Takao
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Publication number: 20190079054Abstract: Provided are a method and device for detecting arrangement disorder of fibers in a conductive composite material. A coil (7) is disposed at a position at which the coil (7) faces the conductive composite material, and thereby a current can be applied to the conductive composite material. Thus, work or the like for attaching electrodes to the conductive composite material is not required. As a result, the arrangement disorder of the fibers in the conductive composite material can easily be detected. A method for detecting meandering of fibers in a conductive composite material includes a step of disposing a magnetic field sensor (8) at a position at which the magnetic field sensor (8) faces a surface (Sa) of the conductive composite material such that a direction (D) of a magnetosensitive axis is horizontal with the surface (Sa) and is parallel to coil faces (7e).Type: ApplicationFiled: July 8, 2016Publication date: March 14, 2019Applicant: IHI CorporationInventors: Akinori TSUDA, Hiroki KAWAI, Hiroaki HATANAKA, Yuichi YAMAGUCHI, Koichi INAGAKI
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Publication number: 20190072521Abstract: Provided is a method for inspecting an electroconductive composite material including disposing a detection magnetic field measurement unit, disposing a correction magnetic field measurement unit, applying a current, acquiring a detection magnetic field strength, acquiring a correction magnetic field strength, and detecting a portion in which arrangement of carbon fibers is disordered. The operation includes calculating a correction coefficient using the correction magnetic field strength and correcting the detection magnetic field strength using the correction coefficient.Type: ApplicationFiled: August 15, 2016Publication date: March 7, 2019Applicant: IHI CorporationInventors: Hiroki KAWAI, Akinori TSUDA, Hiroaki HATANAKA, Yuichi YAMAGUCHI, Koichi INAGAKI
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Publication number: 20190040553Abstract: A material shape simulation apparatus for accurately simulating deformation of a three-dimensional woven fiber material is provided.Type: ApplicationFiled: August 29, 2018Publication date: February 7, 2019Applicants: IHI CORPORATION, The University of TokyoInventors: Hiroyuki HISHIDA, Koichi Inagaki, Takeshi Nakamura, Fumiaki Watanabe, Kotaro Morioka, Yutaka Ohtake, Hiromasa Suzuki, Yukie Nagai
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Patent number: 10132778Abstract: A pair of electrodes is connected to a test specimen in order to apply an electric current to the test specimen in the direction of a conductive fiber of each conductive fiber woven fabric of a plurality of prepregs as targets for verification of the presence or absence of waviness, among a plurality of prepregs constituting the test specimen composed of a conductive composite material, and then a magnetic field sensor is relatively scanned over the test specimen, while applying an electric current between the pair of electrodes, to determine a portion of the test specimen where a magnetic field variation is detected by the scanning of the magnetic field sensor as a portion where waviness of the conductive fibers of the conductive fiber woven fabric of the plurality of prepregs as targets for verification of the presence or absence of waviness is present. Thus, it is possible to grasp, for example, the condition of fibers of the conductive composite material in the test specimen as a whole.Type: GrantFiled: March 30, 2016Date of Patent: November 20, 2018Assignee: IHI CorporationInventors: Akinori Tsuda, Hiroaki Hatanaka, Shinji Muto, Koichi Inagaki, Hiroyuki Hishida, Akiyoshi Sato
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Publication number: 20180306303Abstract: A rack bar (10) includes a first bar member (11) having a first toothed portion (20), a second bar member (12) having a second toothed portion (21), and a joint member coaxially coupling the first and second bar members. The joint member (13) has a first joining portion (23) and a second joining portion (25) that are provided coaxially with each other. Each of the first and second joining portions has a hollow cylindrical shape. An inner peripheral surface of the first joining portion and an outer peripheral surface of an end portion (22) of the first bar member are joined to each other with an adhesive. An inner peripheral surface of the second joining portion and an outer peripheral surface of an end portion (24) of the second bar member are joined to each other with an adhesive.Type: ApplicationFiled: October 20, 2016Publication date: October 25, 2018Inventors: Koichi INAGAKI, Wataru MATSUMOTO
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Patent number: 10068349Abstract: An image analysis apparatus, which analyzes orientations of fiber bundles of X-yarns and Y-yarns from a three-dimensional image of a woven fabric made of fiber bundles of the X-yarns, the Y-yarns, and Z-yarns, includes: a binarization unit that binarizes the three-dimensional image; an overlapping area extraction unit that extracts an overlapping area from the binarized image; a reference direction determination unit that averages an overlapping direction of each voxel included in the overlapping area and determines the averaged direction as a reference direction; a Z-yarn removal unit that removes the Z-yarns from the binarized image by applying a directional distance method on a reference plane perpendicular to the reference direction; and a fiber bundle orientation estimation unit that applies the directional distance method on the reference plane and estimates the orientations of the fiber bundles of the X-yarns and the Y-yarns based on a calculated directional distance.Type: GrantFiled: September 29, 2015Date of Patent: September 4, 2018Assignees: IHI CORPORATION, THE UNIVERSITY OF TOKYOInventors: Hiroyuki Hishida, Koichi Inagaki, Takeshi Nakamura, Yu Hasegawa, Hiromasa Suzuki, Takashi Michikawa, Yutaka Ohtake, Suguru Kondo
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Patent number: 9824435Abstract: Proposed are an image analyzing apparatus and program in which the orientation of fiber bundles can be easily analyzed from a three-dimensional image of CMC.Type: GrantFiled: September 29, 2014Date of Patent: November 21, 2017Assignees: IHI CORPORATION, The University of TokyoInventors: HIroyuki Hishida, Koichi Inagaki, Takeshi Nakamura, Yuta Yamauchi, Hiromasa Suzuki, Takashi Michikawa, Yutaka Ohtake
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Patent number: 9811898Abstract: An image analyzing apparatus, a non-transitory computer readable medium storing a program, and a method are provided for extracting voids from a three-dimensional image of a fiber-reinforced composite material. The image analyzing apparatus includes a processor which executes image processing to the three-dimensional image. The processor binarizes the three-dimensional image and creates a binary image, transforms the binary image into a distance and creates a distance image, executes closing processing to the binary image by using the distance image, extracts voids from differences between images before and after the closing processing, among the extracted voids, classifies voids that are adjacent to a background voxel as open voids, and classifies voids that are not adjacent to a background voxel as closed voids, and executes opening processing to the open voids in order to eliminate fake voids.Type: GrantFiled: September 29, 2014Date of Patent: November 7, 2017Assignees: IHI CORPORATION, THE UNIVERSITY OF TOKYOInventors: Hiroyuki Hishida, Koichi Inagaki, Takeshi Nakamura, Takashi Michikawa, Hiromasa Suzuki
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Publication number: 20170308631Abstract: A design support apparatus supporting designing of a product which uses a fiber material includes a processor that creates a predicted shape model by predicting a shape of the product before a deformation processing. The processor: creates a 3-dimensional shape model of the product; creates curved shape models by separating the 3-dimensional shape model into two or more fiber layers; sets a correspondence relationship between the curved shape models; creates an orientation vector field in the curved shape models; and predicts the shape of the product before the deformation processing by developing the curved shape models on a flat surface based on the correspondence relationship between the curved shape models and the orientation vector field in the curved shape models, and creates the predicted shape model based on the predicted shape.Type: ApplicationFiled: September 16, 2015Publication date: October 26, 2017Applicants: IHI CORPORATION, THE UNIVERSITY OF TOKYOInventors: Hiroyuki HISHIDA, Koichi INAGAKI, Takeshi NAKAMURA, Fumiaki WATANABE, Kotaro MORIOKA, Yutaka OHTAKE, Hiromasa SUZUKI, Yukie NAGAI
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Patent number: 9739175Abstract: An additional pad 27 is additionally and integrally arranged from an outer surface of a flange 17 opposite to a contacting side of the flange 17 to a small-diameter curved surface of a bend 19 and from there to an end of an outer surface of a part body 13. On an outer surface side of the additional pad 27, a fastening seat 27f is formed by machining. An area end PAe of a processed area PA formed by machining is positioned on the part body 13 beyond the bend 19.Type: GrantFiled: October 18, 2013Date of Patent: August 22, 2017Assignees: IHI Corporation, IHI AEROSPACE CO., LTD.Inventors: Takashi Harada, Yu Shigenari, Koichi Inagaki, Agamu Tanaka, Tadahiro Ishigure
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Patent number: 9719966Abstract: A transducer main body has, on a front end side thereof, an oscillating plane having a bent shape in a side view and corresponding to a larger-diameter curved surface formed at a bend of a laminated part. Over the oscillating plane of the transducer main body, a plurality of piezoelectric oscillators is distributed in a matrix in a bent direction and a width direction. In each oscillator group, a controlling unit switches the piezoelectric oscillators to transmission and reception piezoelectric oscillators by turns in the width direction according to a preset transmission/reception pattern and processes a received signal from the reception piezoelectric oscillator according to an aperture synthesis method.Type: GrantFiled: November 29, 2013Date of Patent: August 1, 2017Assignee: IHI CorporationInventors: Koichi Inagaki, Mamoru Izumi, Hirokazu Karasawa
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Publication number: 20170213357Abstract: An image analysis apparatus, which analyzes orientations of fiber bundles of X-yarns and Y-yarns from a three-dimensional image of a woven fabric made of fiber bundles of the X-yarns, the Y-yarns, and Z-yarns, includes: a binarization unit that binarizes the three-dimensional image; an overlapping area extraction unit that extracts an overlapping area from the binarized image; a reference direction determination unit that averages an overlapping direction of each voxel included in the overlapping area and determines the averaged direction as a reference direction; a Z-yarn removal unit that removes the Z-yarns from the binarized image by applying a directional distance method on a reference plane perpendicular to the reference direction; and a fiber bundle orientation estimation unit that applies the directional distance method on the reference plane and estimates the orientations of the fiber bundles of the X-yarns and the Y-yarns based on a calculated directional distance.Type: ApplicationFiled: September 29, 2015Publication date: July 27, 2017Applicants: IHI CORPORATION, THE UNIVERSITY OF TOKYOInventors: Hiroyuki HISHIDA, Koichi INAGAKI, Takeshi NAKAMURA, Yu HASEGAWA, Hiromasa SUZUKI, Takashi MICHIKAWA, Yutaka OHTAKE, Suguru KONDO
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Publication number: 20170046831Abstract: A non-destructive inspection apparatus is configured to perform non-destructive inspection of a bonded place between a base material and a bonding material of a gas turbine engine part formed by bonding the bonding material formed of a metal material to the base material formed of a fiber-strengthened material, and includes a moving apparatus configured to move the gas turbine engine part, a light source apparatus configured to emit a laser beam, an infrared imaging apparatus configured to image the gas turbine engine part to which the laser beam is radiated, and a control and arithmetic processing apparatus configured to store form data of the gas turbine engine part, control the moving apparatus such that the laser beam is radiated to the bonded place based on the form data, and obtain a result showing a state of the bonded place based on imaging data obtained by the infrared imaging apparatus.Type: ApplicationFiled: November 1, 2016Publication date: February 16, 2017Applicants: IHI Corporation, KEN AUTOMATION, INC.Inventors: Koichi INAGAKI, Kunihiko TAKAO
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Publication number: 20160247271Abstract: Proposed are an image analyzing apparatus and program in which the orientation of fiber bundles can be easily analyzed from a three-dimensional image of CMC.Type: ApplicationFiled: September 29, 2014Publication date: August 25, 2016Applicants: IHI CORPORATION, UNIVERSITY OF TOKYOInventors: Hiroyuki HISHIDA, Koichi INAGAKI, Takeshi NAKAMURA, Yuta YAMAUCHI, Hiroshima SUZUKI, Takashi MICHIKAWA, Yutaka OHTAKE