Patents by Inventor Shinji Miyauchi
Shinji Miyauchi 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: 11796491Abstract: A spectroscopic element and a detector are disposed along a circumference of one Rowland circle. The spectroscopic element has a spectral surface whose length, measured along the Rowland circle, is shorter than a length in the Rowland circle plane, of an irradiation surface irradiated with excitation beams emitted to a sample holder. The spectroscopic element and the sample holder are disposed to separate a group of characteristic X-rays within a common spectral range of the spectroscopic element.Type: GrantFiled: December 17, 2021Date of Patent: October 24, 2023Assignee: Shimadzu CorporationInventors: Shinji Miyauchi, Susumu Adachi, Asaka Kohiyama, Takuro Izumi, Takashi Omori, Kenji Sato
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Publication number: 20220214291Abstract: A spectroscopic element and a detector are disposed along a circumference of one Rowland circle. The spectroscopic element has a spectral surface whose length, measured along the Rowland circle, is shorter than a length in the Rowland circle plane, of an irradiation surface irradiated with excitation beams emitted to a sample holder. The spectroscopic element and the sample holder are disposed to separate a group of characteristic X-rays within a common spectral range of the spectroscopic element.Type: ApplicationFiled: December 17, 2021Publication date: July 7, 2022Inventors: Shinji MIYAUCHI, Susumu ADACHI, Asaka KOHIYAMA, Takuro IZUMI, Takashi OMORI, Kenji SATO
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Publication number: 20210296108Abstract: An ion guide (222) is for use in transport of an ion incident from an upstream side toward a downstream side. The ion guide includes 2n rod electrodes (n is an integral number greater than or equal to 2) equally spaced and surrounding an ion optical axis (C) that is a central axis of a flight path of the ion, a voltage applying unit (30) that applies a radio-frequency voltage to the 2n rod electrodes, and a controller (43) that controls the voltage applying unit (30). The controller (43) prompts the voltage applying unit (30) to apply a radio-frequency voltage that generates, in a space surrounded by the 2n rod electrodes, an electric field which is a 2n-multipole electric field superimposed by a higher-order electric field component than the 2n-multipole electric field.Type: ApplicationFiled: October 11, 2016Publication date: September 23, 2021Applicant: SHIMADZU CORPORATIONInventors: Yusuke TATEISHI, Yoshihiro UENO, Shinji MIYAUCHI
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Patent number: 10707066Abstract: Four main rod electrodes included in a main electrode section are disposed in a rotationally symmetric manner around an ion optical axis. Among four pre-rod electrodes included in a pre-electrode section disposed in front of the main electrode section, two are in contact with a circle of a radius r0, whereas the other two are disposed to be in contact with a circle of a radius R0 larger than r0, resulting in rotational asymmetry around the ion optical axis. Accordingly, a shape of acceptance on an x-y plane regarding positions of ions in the pre-electrode section becomes elliptical. This allows the shape of the acceptance to become gradually flat as the ions travel along the ion optical axis, reducing a mismatch between emittance of incoming ions and the acceptance on a receiving side, and relieving ion loss during ion introduction.Type: GrantFiled: December 2, 2015Date of Patent: July 7, 2020Assignee: SHIMADZU CORPORATIONInventors: Shinji Miyauchi, Hiroko Ueda, Yoshihiro Ueno
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Publication number: 20190051508Abstract: Four main rod electrodes included in a main electrode section are disposed in a rotationally symmetric manner around an ion optical axis. Among four pre-rod electrodes included in a pre-electrode section disposed in front of the main electrode section, two are in contact with a circle of a radius r0, whereas the other two are disposed to be in contact with a circle of a radius R0 larger than r0, resulting in rotational asymmetry around the ion optical axis. Accordingly, a shape of acceptance on an x-y plane regarding positions of ions in the pre-electrode section becomes elliptical. This allows the shape of the acceptance to become gradually flat as the ions travel along the ion optical axis, reducing a mismatch between emittance of incoming ions and the acceptance on a receiving side, and relieving ion loss during ion introduction.Type: ApplicationFiled: December 2, 2015Publication date: February 14, 2019Applicant: SHIMADZU CORPORATIONInventors: Shinji MIYAUCHI, Hiroko UEDA, Yoshihiro UENO
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Publication number: 20190035618Abstract: A pre-electrode unit (32) placed in front of a main electrode unit (31) have a two-stage configuration. A front pre-electrode unit (32A) and rear pre-electrode unit (32B) are respectively supplied with radio-frequency voltages whose frequency is the same as that of a radio-frequency voltage applied to rod electrodes in the main electrode unit (31), and whose amplitude decreases in a stepwise manner toward the front side. Decreasing the amplitude of a radio-frequency voltage increases the ion acceptance. Therefore, by appropriately adjusting the amplitudes, the matching between the emittance of an incoming ion beam and the acceptance can be improved.Type: ApplicationFiled: November 11, 2015Publication date: January 31, 2019Applicant: Shimadzu CorporationInventors: Hiroko UEDA, Shinji MIYAUCHI, Yoshihiro UENO
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Patent number: 9219284Abstract: A controller in a fuel cell system operates a fuel cell in a normal mode or in a special mode. In the normal mode, the fuel cell is operated to satisfy at least one of a first operation condition and a second operation condition, under the first operation condition an operation time of the fuel cell per unit period is equal to or shorter than a unit allowable operation time, under the second operation condition the number of times of operation of the fuel cell per unit time is equal to or less than a unit allowable number of times of operation, and in the special mode, the fuel cell is operated without being limited by at least one of the first operation condition and the second operation condition.Type: GrantFiled: July 13, 2011Date of Patent: December 22, 2015Assignee: PANASONIC INTELLECTUAL PROPERTY MANAGEMENT CO., LTD.Inventors: Shinji Miyauchi, Motomichi Katou
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Patent number: 8958923Abstract: A distributed power supply system is configured to execute a process for determining whether or not to permit a diagnostic process in such a manner that it is determined whether or not a difference between a set upper limit value and an actual measurement current value is not less than a load current value, the set upper limit value being a predetermined upper limit value set with respect to a detected current of a current sensor, the measurement current value being detected by the current sensor in a state where the diagnostic process is not executed, and the load current value being a value of a current flowing from a commercial power utility to a power load during execution of the diagnostic process; and if it is determined that the difference is not less than the load current value, the controller permits the diagnostic process.Type: GrantFiled: August 1, 2011Date of Patent: February 17, 2015Assignee: Panasonic Intellectual Property Management Co., Ltd.Inventors: Nin Kake, Shinji Miyauchi, Hiroaki Kaku, Keiichi Sato, Hiroshi Nagasato, Akihito Ootani, Toru Kushisaka, Motomichi Katou, Manabu Takahashi
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Patent number: 8664592Abstract: Provided is a time-of-flight mass spectrometer having a reflectron which eliminates energy dependency of the flight time of ions having the same m/z while ensuring a high degree of design freedom. An electric field created by the reflectron is virtually divided into a decelerating region for decelerating ions and a reflecting region for reflecting ions. For an ion having a mass-to-charge ratio which has departed with initial energy higher than Ud, the total flight time required for the ion to travel through a free-flight region and the decelerating region into the reflecting region and return will be equal to the total flight time required for an ion of the same mass-to-charge ratio to make a round trip in which the ion turns around at a point of the reference potential value at the boundary between the decelerating region and the reflecting region or in the decelerating region.Type: GrantFiled: September 6, 2011Date of Patent: March 4, 2014Assignee: Shimadzu CorporationInventors: Masaru Nishiguchi, Shinji Miyauchi, Yoshihiro Ueno
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Publication number: 20130337352Abstract: A controller (81) in a fuel cell system (1A) operates a fuel cell (60) in a normal mode or in a special mode which is switched by the controller (81); in which in the normal mode, the fuel cell (60) is operated so as to satisfy at least one of a first operation condition and a second operation condition, the first operation condition being a condition in which an operation time of the fuel cell per unit period is equal to or shorter than a unit allowable operation time defined based on a total durable operation time of at least one of the fuel cell and the auxiliary device, the second operation condition being a condition in which the number of times of operation of the fuel cell per unit time is equal to or less than a unit allowable number of times of operation defined based on a total durable number of times of operation of at least one of the fuel cell and the auxiliary device, and in the special mode, the fuel cell (60) is operated without being limited by at least one of the first operation condition anType: ApplicationFiled: July 13, 2011Publication date: December 19, 2013Applicant: PANASONIC CORPORATIONInventors: Shinji Miyauchi, Motomichi Katou
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Publication number: 20130322858Abstract: A power generation system includes: a hot water storage tank; a fuel cell apparatus configured to generate electric power; a heat supply apparatus provided separately from the fuel cell apparatus and configured to supply heat to the hot water storage tank; and a controller configured to operate the fuel cell apparatus in accordance with a predetermined first operation plan, and to operate the heat supply apparatus in accordance with a predetermined second operation plan. The controller is configured to perform, based on the first operation plan, second operation plan change control to operate the heat supply apparatus in a manner different from the predetermined second operation plan. The second operation plan change control is to reduce an output of the heat supply apparatus in accordance with an operation of the fuel cell apparatus, the operation being performed in accordance with the first operation plan.Type: ApplicationFiled: March 15, 2012Publication date: December 5, 2013Applicant: PANASONIC CORPORATIONInventors: Hitoshi Oishi, Masashi Fujii, Shinji Miyauchi, Rui Zhang
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Publication number: 20130211786Abstract: A fuel cell power generation apparatus (1) includes an installation environment information inputting section (25), a notification device (26) and a controller (23). The controller (23) is configured to set a first period between a maintenance time and a notification time based on the installation environment information input by an installation environment information inputting section.Type: ApplicationFiled: March 7, 2012Publication date: August 15, 2013Applicant: PANASONIC CORPORATIONInventors: Hiroaki Kaku, Shinji Miyauchi, Hitoshi Oishi, Rui Zhang
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Patent number: 8486572Abstract: A fuel cell power generation system includes a fuel gas generating means for generating a hydrogen-rich fuel gas from a source material having, as a main ingredient, a compound containing carbon and hydrogen; a source material supply source for supplying a source material to the fuel gas generating means; a fuel gas supply means for supplying the fuel gas from the fuel gas generating means to a fuel gas flow channel of a fuel cell at which channel a fuel electrode is placed; and a bypass means for supplying the source material from the source material supply source to the fuel gas flow channel, bypassing the fuel gas generating means. At least at one of time periods before start of and after end of power generation, the source material, as a displacement gas, is injected into the fuel gas flow channel of the fuel cell via the bypass means.Type: GrantFiled: February 21, 2007Date of Patent: July 16, 2013Assignee: Panasonic CorporationInventors: Akinari Nakamura, Masataka Ozeki, Shinji Miyauchi, Tomonori Asou
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Publication number: 20130168547Abstract: Provided is a time-of-flight mass spectrometer having a reflectron which eliminates energy dependency of the flight time of ions having the same m/z while ensuring a high degree of design freedom. An electric field created by the reflectron is virtually divided into a decelerating region for decelerating ions and a reflecting region for reflecting ions. For an ion having a mass-to-charge ratio which has departed with initial energy higher than Ud, the total flight time required for the ion to travel through a free-flight region and the decelerating region into the reflecting region and return will be equal to the total flight time required for an ion of the same mass-to-charge ratio to make a round trip in which the ion turns around at a point of the reference potential value at the boundary between the decelerating region and the reflecting region or in the decelerating region.Type: ApplicationFiled: September 6, 2011Publication date: July 4, 2013Applicant: SHIMADZU CORPORATIONInventors: Masaru Nishiguchi, Shinji Miyauchi, Yoshihiro Ueno
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Patent number: 8415064Abstract: A fuel cell system of the present invention includes: a fuel cell (11) configured to generate electric power using a fuel gas and an oxidizing gas; an anode off gas channel (34) through which an anode off gas discharged from an anode (2a) of the fuel cell (11) flows; a gas-liquid separator (10) disposed on the anode off gas channel (34) to separate moisture from the anode off gas, and including a water reservoir (18) configured to store the separated moisture as water; a temperature detector (28) configured to detect a temperature of the water reservoir (18); and an operation allowing device (52) configured not to allow an operation of the fuel cell system in a case where the temperature detected by the temperature detector (28) is equal to or higher than a first threshold that is higher than a standard ambient temperature.Type: GrantFiled: January 22, 2009Date of Patent: April 9, 2013Assignee: Panasonic CorporationInventors: Shinji Miyauchi, Yoshikazu Tanaka, Hitoshi Oishi, Motomichi Katou
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Patent number: 8263281Abstract: A stable and high reliability fuel cell electricity-generating device capable of generating electricity even in the case of sudden drop of load power includes a fuel cell generating electric power from a fuel and an oxidizer, a fuel processor producing fuel to be supplied into the fuel cell from an electricity-generating material, a combustion device combusting a residual fuel gas unconsumed in the fuel cell to raise the temperature of the fuel processor, and an electric power generation instructor determining the electric power generated by the fuel cell, wherein when the electric power generation instructor either decreases or prevents a decrease in the electric power generated by the fuel cell upon a decrease of load power to be supplied, depending on the temperature of the fuel processor.Type: GrantFiled: July 28, 2011Date of Patent: September 11, 2012Assignee: Panasonic CorporationInventors: Masataka Ozeki, Akinari Nakamura, Shinji Miyauchi
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Publication number: 20120218794Abstract: A distributed power supply system is configured to execute a process for determining whether or not to permit a diagnostic process in such a manner that it is determined whether or not a difference between a set upper limit value and an actual measurement current value is not less than a load current value, the set upper limit value being a predetermined upper limit value set with respect to a detected current of a current sensor, the measurement current value being detected by the current sensor in a state where the diagnostic process is not executed, and the load current value being a value of a current flowing from a commercial power utility to a power load during execution of the diagnostic process; and if it is determined that the difference is not less than the load current value, the controller permits the diagnostic process.Type: ApplicationFiled: August 1, 2011Publication date: August 30, 2012Applicant: PANASONIC CORPORATIONInventors: Nin Kake, Shinji Miyauchi, Hiroaki Kaku, Keiichi Sato, Hiroshi Nagasato, Akihito Ootani, Toru Kushisaka, Motomichi Katou, Manabu Takahashi
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Patent number: 8159087Abstract: The invention provides a power generation system having a power generator (1) configured to generate DC power; an electric power load (5); a current detector configured to detect a current flowing between a system power supply (8) and an interconnection point (9); and a switch (4) configured to switch to supply the DC power from the power generator (1) and AC power which is fed from the system power supply (8) through the interconnection point (9), to the electric power load (5).Type: GrantFiled: February 19, 2008Date of Patent: April 17, 2012Assignee: Panasonic CorporationInventors: Shinji Miyauchi, Motomichi Katou, Yasuhiro Mori
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Patent number: 8129062Abstract: A method of operating fuel cell system includes generating electricity by a fuel cell using fuel gas and oxidizing gas and allowing cooling water to flow in the fuel cell and thereby cooling the fuel cell. The method includes transferring moisture from exhaust gas to supply gas using a first humidifier, the exhaust gas being discharged from the fuel cell, the supply gas being supplied to the fuel cell, and transferring moisture from the cooling water to the supply gas humidified using a second humidifier. The method includes at least one of detecting humidity of the supply gas humidified, detecting temperature of the cooking water, detecting the flow rate of the supply gas and detecting the amount of electricity generated by the fuel cell. The method also includes controlling the humidity of the supply gas humidified based on the value detected.Type: GrantFiled: June 21, 2010Date of Patent: March 6, 2012Assignee: Panasonic CorporationInventors: Yoshikazu Tanaka, Terumaru Harada, Shinji Miyauchi, Tetsuya Ueda
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Patent number: 8092701Abstract: A grating of the present invention has a groove cross section shaped, for example, like a sinusoidal wave or a sawtooth other than a laminar shape, and a groove bottom part shaped as a flat form. In a region wherein the groove cycle and the used wavelength are the same degree for wavelengths from near infrared to infrared, the grating of the present invention has the excellent spectrum performance (high efficiency in balance in a wide wavelength zone) more than a holographic grating and an echellette grating in related arts. When replicas for the grating of the present invention are manufactured, the engagement force of grooves with each other is small as the groove aspect ratio is small, and a release agent sufficiently reaches the groove bottom as the groove bottom is large.Type: GrantFiled: November 30, 2007Date of Patent: January 10, 2012Assignee: Shimadzu CorporationInventors: Tetsuya Nagano, Masaru Koeda, Makoto Sato, Akira Sato, Shinji Miyauchi