Patents by Inventor Masaaki Takeda
Masaaki Takeda 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: 20230236286Abstract: A radio wave reflection reducing sheet provided with a laminate having a first primary surface and a second primary surface is disclosed. The laminate has: a first resin foam layer having a thickness from 0.05 to 3.00 mm and a density from 0.10 to 0.85 g/cm3, and a second resin foam layer having a thickness from 0.05 to 3.00 mm and a density from 0.20 to 0.90 g/cm3. The density of the second resin foam layer is greater than the density of the first resin foam layer. The first resin foam layer and the second resin foam layer are disposed in this order from the first primary surface side.Type: ApplicationFiled: March 16, 2021Publication date: July 27, 2023Inventors: Masataka Shinagawa, Tomoaki Uchiya, Koji Hishitani, Naoyuki Toriumi, Masaaki Takeda
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Publication number: 20200038791Abstract: Disclosed herein are a filter medium and a bag filter for exhaust gas removal in which dropping off and scattering of a catalyst is suppressed during production and during use. Provided is a filter medium containing a fiber layer and a catalyst layer, the catalyst layer containing a catalyst and fibril fibers as main components. Also provided herein is a bag filter comprising the said filter medium, wherein the filter medium is cylindrical.Type: ApplicationFiled: March 22, 2018Publication date: February 6, 2020Applicant: Toray Industries, Inc.Inventors: Masaaki Takeda, Yuto Onouchi
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Publication number: 20180370889Abstract: Disclosed is a method for preserving an ?,?-difluoroacetaldehyde alkyl hemiacetal of the following formula in a gas-liquid state having gas and liquid phases in a closed container under an atmosphere of oxygen (O2) or inert gas, characterized by: controlling the oxygen concentration of the gas phase in the container to be 5000 ppm or lower; and then storing the ?,?-difluoroacetaldehyde alkyl hemiacetal in the container under light-shielding conditions where R1 represents an alkyl group or a substituted alkyl group. It is possible by this method to suppress conversion of the ?,?-difluoroacetaldehyde alkyl hemiacetal to difluoroacetic acid over a long term.Type: ApplicationFiled: March 23, 2017Publication date: December 27, 2018Inventors: Masato KIMURA, Shinya AKIBA, Masaaki TAKEDA, Kazuki TANAKA, Masataka FUJIMOTO
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Patent number: 9845278Abstract: A method for improving preservation stability of 2,2-difluoroacetaldehyde according to the present invention include at least: a first step of forming a “2,2-difluoroacetaldehyde-alcohol composite system” in which a 2,2-difluoroacetaldehyde hemiacetal coexists with an excess alcohol, wherein the total molar amount of the alcohol is 1.15 to 4.00 times the total molar amount of 2,2-difluoroacetaldehyde; and a second step of storing, in a storage container, the “2,2-difluoroacetaldehyde-alcohol composite system” formed in the first step. It is possible by this method to suppress the conversion of the 2,2-difluoroacetaldehyde hemiacetal to a dimer and maintain the original aldehyde activity of the target compound with less composition change over a long term.Type: GrantFiled: June 19, 2015Date of Patent: December 19, 2017Assignee: Central Glass Company, LimitedInventors: Masaaki Takeda, Shinya Akiba, Ryo Nadano
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Publication number: 20170197899Abstract: A method for improving preservation stability of 2,2-difluoroacetaldehyde according to the present invention include at least: a first step of forming a “2,2-difluoroacetaldehyde-alcohol composite system” in which a 2,2-difluoroacetaldehyde hemiacetal coexists with an excess alcohol, wherein the total molar amount of the alcohol is 1.15 to 4.00 times the total molar amount of 2,2-difluoroacetaldehyde; and a second step of storing, in a storage container, the “2,2-difluoroacetaldehyde-alcohol composite system” formed in the first step. It is possible by this method to suppress the conversion of the 2,2-difluoroacetaldehyde hemiacetal to a dimer and maintain the original aldehyde activity of the target compound with less composition change over a long term.Type: ApplicationFiled: June 19, 2015Publication date: July 13, 2017Inventors: Masaaki TAKEDA, Shinya AKIBA, Ryo NADANO
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Patent number: 9637435Abstract: Disclosed is a method for producing a hexafluoroisopropanol, including the steps of (a) purifying a mixture containing hexafluoroacetone and at least 1,1,1-trifluoro-2,2-dichloroethane as an impurity, thereby obtaining a purified hexafluoroacetone containing 120 ppm or lower of the 1,1,1-trifluoro-2,2-dichloroethane; and (b) bringing hydrogen (H2) into contact with the purified hexafluoroacetone in the presence of a catalyst, thereby hydrogenating the hexafluoroacetone into the hexafluoroisopropanol. It is possible by this method to produce the hexafluoroisopropanol with a short reaction time and a high conversion. Therefore, it is possible to particularly advantageously produce fluoromethyl hexafluoroisopropyl ether (sevoflurane) by using the hexafluoroisopropanol produced by the method.Type: GrantFiled: November 29, 2016Date of Patent: May 2, 2017Assignee: Central Glass Company, LimitedInventors: Yuzuru Morino, Shigeru Fujii, Toshihiro Nakamichi, Shinya Akiba, Masaaki Takeda, Masaki Fujiwara
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Publication number: 20150354074Abstract: A diaphragm cloth for a water electrolyzer includes a woven fabric, non-woven cloth or knitted fabric composed of alkali-resistant fiber at a common use temperature of no less than 150° C., an average pore size of the diaphragm cloth is less than 10 ?m and, under conditions of pressure of 3 KPa, venting quality of the diaphragm cloth is 2 L/cm2/min or less.Type: ApplicationFiled: January 20, 2014Publication date: December 10, 2015Inventors: Lili Yang, Masaaki Takeda, Youjuan Zhang
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Publication number: 20090252943Abstract: Provided is a flexible adiabatic sound absorber with high thermal insulation performance and acoustic performance, particularly an adiabatic sound absorbing material that is suitable for a new severe requirement specification regarding aircrafts. The adiabatic sound absorber comprises mixing uniformly 20 to 80% of a high-thermostable inorganic fiber whose high-temperature strength is maintained at 1000° C. or more, 10 to 60% of a flame-retarded organic fiber whose thermal melting or decomposition temperature is 350° C. or more and 10 to 25% of an organic fiber having a low melting point and treating the obtained woolly felt with heating to transform the whole into the mat-form material of 8 to 50 mm in thickness.Type: ApplicationFiled: February 23, 2007Publication date: October 8, 2009Inventors: Masaaki Takeda, Hideo Nakamura
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Patent number: 7361312Abstract: In an improvement of a nozzle tip for a pipetting apparatus which is adapted to be removably attached to a nozzle base of the pipetting apparatus, the nozzle tip includes a head portion having an opening adapted to fit onto the nozzle base, a cylindrical portion extending downward from the head portion, a tip portion provided on the lower side of the cylindrical portion and having a tip opening for aspirating and dispensing a liquid, the tip portion having a diameter smaller than the diameter of the cylindrical portion, and a step portion formed between the cylindrical portion and the tip portion. A plurality of fins are integrally formed from the lower end portion of the cylindrical portion to the peripheral surface of the tip portion through the step portion with the same spacing in a circumferential direction for making the insertion of the nozzle tip into an upper opening of a target container smoothly and for structurally reinforcing the step portion.Type: GrantFiled: February 28, 2003Date of Patent: April 22, 2008Assignee: Aloka Co., Ltd.Inventors: Masaaki Takeda, Takayoshi Saito
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Patent number: 6969484Abstract: A manufacturing method of an electret processed product, comprising the steps of allowing a section nozzle (22) to come into contact with a nonconductive fiber sheet (S) so as to cross in the lateral direction of the sheet while running the sheet, allowing the surface of the sheet on the opposite side of the contact portion to come into contact with or to immerse into a water surface, sucking water from the suction nozzle (22) so that the water can be passed through the sheet in the thickness direction of the sheet to penetrate the water into the nonconductive fiber sheet (S), and drying the nonconductive fiber sheet (S), whereby a high quality and high performance electret processed product can be manufactured at a low cost.Type: GrantFiled: June 6, 2002Date of Patent: November 29, 2005Assignee: Toray Industries, Inc.Inventors: Hiroyoshi Horiguchi, Masaaki Takeda
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Publication number: 20050233161Abstract: A thermosetting adhesive sheet with electroconductive and thermoconductive properties, which comprises a thermosetting adhesive sheet composed of a thermosetting adhesive composition comprising an ethylene-glycidyl(meth)acrylate copolymer and a carboxyl group-containing rosin, where crosslinking is formed between the ethylene of the copolymer by electron beam radiation, and having at least one through-opening region formed at a prescribed location, and further including a low melting point solder placed within said through-opening region(s) formed at the prescribed location(s).Type: ApplicationFiled: April 1, 2003Publication date: October 20, 2005Inventors: Masaaki Takeda, Akihiko Mitsui, Kohichiro Kawate, Shigeyoshi Ishii
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Publication number: 20040063804Abstract: A thermosetting adhesive which produces no foul odor or discharged gas, or form no bubbles under irradiation, and which exhibits a satisfactorily high bonding property, even under low-dose irradiation. The thermosetting adhesive contains an ethylene-glycidyl (meth)acrylate copolymer, whose principal monomer components are an ethylene and a glycidyl (meth)acrylate, and a sulphonium salt-comprising cationic polymerization catalyst.Type: ApplicationFiled: July 31, 2003Publication date: April 1, 2004Inventors: Masaaki Takeda, Kohichiro Kawate, Shigeyoshi Ishii, Naoyuki Toriumi, Koji Itoh, Tomihiro Hara
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Publication number: 20040023577Abstract: A manufacturing method of an electret processed product, comprising the steps of allowing a section nozzle (22) to come into contact with a nonconductive fiber sheet (S) so as to cross in the lateral direction of the sheet while running the sheet, allowing the surface of the sheet on the opposite side of the contact portion to come into contact with or to immerse into a water surface, sucking water from the suction nozzle (22) so that the water can be passed through the sheet in the thickness direction of the sheet to penetrate the water into the nonconductive fiber sheet (S), and drying the nonconductive fiber sheet (S), whereby a high quality and high performance electret processed product can be manufactured at a low cost.Type: ApplicationFiled: April 21, 2003Publication date: February 5, 2004Inventors: Hiroyoshi Horiguchi, Masaaki Takeda
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Publication number: 20030165408Abstract: In an improvement of a nozzle tip for a pipetting apparatus which is adapted to be removably attached to a nozzle base of the pipetting apparatus, the nozzle tip includes a head portion having an opening adapted to fit onto the nozzle base, a cylindrical portion extending downward from the head portion, a tip portion provided on the lower side of the cylindrical portion and having a tip opening for aspirating and dispensing a liquid, the tip portion having a diameter smaller than the diameter of the cylindrical portion, and a step portion formed between the cylindrical portion and the tip portion. A plurality of fins are integrally formed from the lower end portion of the cylindrical portion to the peripheral surface of the tip portion through the step portion with the same spacing in a circumferential direction for making the insertion of the nozzle tip into an upper opening of a target container smoothly and for structurally reinforcing the step portion.Type: ApplicationFiled: February 28, 2003Publication date: September 4, 2003Applicant: Aloka Co., Ltd.Inventors: Masaaki Takeda, Takayoshi Saito
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Patent number: 6590070Abstract: This invention provides thermosetting adhesives which have properties advantageous for bonding electronic parts that are capable of being cured using a low dose of radiation such as electron beam. The thermosetting adhesive of the invention comprises (a) ethylene-glycidyl (meth)acrylate copolymer; (b) rosin having a carboxyl group; and (c) (meth)acrylate having a carboxyl group.Type: GrantFiled: September 19, 2000Date of Patent: July 8, 2003Assignee: 3M Innovative Properties CompanyInventors: Naoyuki Toriumi, Koichiro Kawate, Masaaki Takeda, Shigeyoshi Ishii, Koji Itoh
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Patent number: 5540081Abstract: A pipetting apparatus is provided with clot detection. The pipetting apparatus comprises a nozzle for aspirating a sample. A pressure sensor is connected with the nozzle for measuring pressure in said nozzle. A plurality of pressure difference calculating circuits are operatively connected with the pressure sensor, each for inputting an output of said pressure sensor and obtaining a pressure difference at a different pressure calculation period, respectively. A plurality of discriminating circuits each having a different discrimination threshold value determined according to each of the pressure calculation periods are provided. An alarm circuit is included for outputting a clot detection alarm signal when at least one of said discriminating circuits discriminates that the obtained pressure difference exceeds the discrimination threshold value.Type: GrantFiled: May 15, 1995Date of Patent: July 30, 1996Assignees: Abbott Laboratories, Aloka Co., LtdInventors: Masaaki Takeda, Hitomi Katagi, Yuko Kato, Junichi Kawanabe
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Patent number: 5537880Abstract: Embodiments described herein provide a pipetting apparatus with leak detection and a method for detecting a leak. In one embodiment, an automatic pipetting apparatus comprises a nozzle having a lower end portion through which a fluid sample is aspirated and dispensed by changes in air pressure supplied to the nozzle. A piping system operatively connects the nozzle to a pump for supplying the air pressure to the nozzle. A pressure sensor is operatively connected with the piping system for measuring internal pressure in the piping system. An XYZ robot is operatively connected with the nozzle for three-dimensionally moving the nozzle between an aspirating position of the fluid sample and a dispensing position.Type: GrantFiled: June 7, 1995Date of Patent: July 23, 1996Assignee: Abbott LaboratoriesInventors: Masaaki Takeda, Yuko Kato, Brent A. Pelletier
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Patent number: 5488874Abstract: The present invention aims to shorten an aspiration time, when aspirating a red blood cell component of a liquid sample having high viscosity. When aspirating the red blood cell component of a blood sample through a nozzle tip, a piston is pulled at its maximum to produce a maximum aspirating force, and starts aspiration. When a pressure in an aspirating system becomes equal to a predetermined value .alpha., the piston is returned to a position in which only a necessary aspiration volume of the liquid sample can be aspirated. Since the maximum aspirating force of the pump is utilized during the aspiration, the aspirating operation can be carried out more quickly.Type: GrantFiled: July 5, 1994Date of Patent: February 6, 1996Assignee: Abbott LaboratoriesInventors: Junichi Kawanabe, Masaaki Takeda, Hitomi Katagi, Yuko Kato, Gregory A. Bielarczyk, Rosie L. Magee
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Patent number: 5488854Abstract: The presence of air bubbles is detected during a dispensing of samples for determining if the volume of the sample dispensed is insufficient.The characteristic of a presence-of-bubbles curve (101) has a difference in a pressure inside a nozzle from the characteristic of a curve (100) under a normal condition in which no bubbles exist, at the time just before the dispensing of the sample is completed. Accordingly, it is possible to determine whether or not bubbles exist by detecting the pressure inside the nozzle at the determination time (105) and comparing the detected value with an established threshold value, and it is determined that an insufficient volume of sample has been dispensed, thereby a warning is generated.Type: GrantFiled: October 17, 1994Date of Patent: February 6, 1996Assignee: Abbott LaboratoriesInventors: Junichi Kawanabe, Masaaki Takeda, Hitomi Katagi, Yuko Kato, Brent A. Pelletier
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Patent number: 5452619Abstract: In pipetting a blood plasma component and a red blood cell component separated vertically in a blood sample by a centrifugation, the red blood cell component having a high viscosity is aspirated as quickly as possible. A nozzle 32 is composed of a nozzle base 35 and a disposable tip 36, and is transferred upwardly and downwardly and to the right and left by an XYZ robot 34. At first the blood plasma component in the blood sample put in a test tube 62 is pipetted by a nozzle 32, and then an inner wall of the disposable tip 36 is coated with the blood plasma component, and thereafter the red blood component is pipetted.Type: GrantFiled: July 5, 1994Date of Patent: September 26, 1995Assignee: Abbott LaboratoriesInventors: Junichi Kawanabe, Masaaki Takeda, Hitomi Katagi, Yuko Kato, Gregory A. Bielarczyk, Rosie L. Magee