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1. 发明授权

US07976700B2 Water separation unit and fuel supply apparatus for internal-combustion engine 有权
标题翻译：用于内燃机的水分离装置和燃料供应装置
公开(公告)号：US07976700B2
公开(公告)日：2011-07-12
申请号：US11949857
申请日：2007-12-04
申请人： Miyao Arakawa , Yoshiaki Nishijima , Masatoshi Kuroyanagi , Yoshimichi Kiyozumi
发明人： Miyao Arakawa , Yoshiaki Nishijima , Masatoshi Kuroyanagi , Yoshimichi Kiyozumi
IPC分类号： F02M37/22
CPC分类号： B01D71/028 , B01D61/02 , B01D63/087 , B01D2313/20 , B01D2313/90 , F02M37/0082 , F02M37/221
摘要： A water separation unit includes a water separation portion. The water separation portion includes a component separation wall, a liquid chamber, and a gas chamber. The separation wall divides the water separation portion between the liquid chamber and the gas chamber. Liquid fuel is led to the liquid chamber. The separation wall includes a separation membrane, which water selectively permeates to be separated from liquid fuel in the liquid chamber. Water passing through the separation wall is temporarily stored in the gas chamber. A fuel supply apparatus supplies liquid fuel in a fuel tank to an internal-combustion engine. The apparatus includes the water separation unit. The water separation portion is disposed integrally in one of the fuel tank and a passage leading from a filler opening into the fuel tank, such that the liquid chamber is located above the gas chamber in a vertical direction of the water separation portion.
摘要翻译：水分离单元包括水分离部分。水分离部分包括部件分离壁，液体室和气体室。分隔壁将液体室和气室之间的水分离部分分开。液体燃料被引导到液体室。分离壁包括分离膜，该分离膜选择性渗透以与液体室中的液体燃料分离。通过分隔壁的水暂时储存在气室中。燃料供给装置将燃料箱内的液体燃料供给内燃机。该装置包括水分离单元。水分离部一体地设置在一个燃料箱和从填料开口引入燃料箱的通道中，使得液室在水分离部的垂直方向上位于气室的上方。

2. 发明申请

US20080283019A1 DILUTION LIMITING DEVICE 审中-公开
标题翻译：稀释限制装置
公开(公告)号：US20080283019A1
公开(公告)日：2008-11-20
申请号：US12118835
申请日：2008-05-12
申请人： Miyao ARAKAWA , Masatoshi Kuroyanagi , Yoshiaki Nishijima , Yoshimichi Kiyozumi
发明人： Miyao ARAKAWA , Masatoshi Kuroyanagi , Yoshiaki Nishijima , Yoshimichi Kiyozumi
IPC分类号： F16N39/00
CPC分类号： F01M1/10 , F01M2001/165
摘要： An anterior chamber receives a mixture fluid, in which a lubricant oil and a fuel are mixed. A semipermeable separation film is permeable to the fuel component in the anterior chamber and is not permeable to the lubricant oil in the anterior chamber due to a molecular size difference between the lubricant oil and the fuel, so that the semipermeable separation film selectively separates the fuel component from the mixture fluid. A posterior chamber is placed on an opposite side of the semipermeable separation film, which is opposite from the anterior chamber. The posterior chamber receives the separated fuel component, which is separated by the semipermeable separation film.
摘要翻译：前房接收混合流体，其中润滑油和燃料混合在一起。半透膜分离膜由于润滑油和燃料之间的分子尺寸差异而对前房中的燃料组分是可渗透的，并且对于前房中的润滑油是不可渗透的，使得半透膜分离膜选择性地分离燃料组分从混合液中。后室被放置在与前房相反的半透膜分离膜的相对侧上。后室接收被半透膜分离膜隔开的分离的燃料成分。

3. 发明授权

US07493897B2 Fuel supply apparatus and fuel supply control apparatus for internal-combustion engine 有权
标题翻译：用于内燃机的燃料供应装置和燃料供应控制装置
公开(公告)号：US07493897B2
公开(公告)日：2009-02-24
申请号：US11873609
申请日：2007-10-17
申请人： Miyao Arakawa , Yoshiaki Nishijima , Masatoshi Kuroyanagi , Yoshimichi Kiyozumi
发明人： Miyao Arakawa , Yoshiaki Nishijima , Masatoshi Kuroyanagi , Yoshimichi Kiyozumi
IPC分类号： F02B1/00 , F02B1/08
CPC分类号： F02M69/465 , B01D61/027 , B01D71/028 , F02M43/00 , F02M69/54 , F02M2200/90 , F02M2200/9046
摘要： A fuel supply apparatus includes a component adjustment unit, a low-pressure side passage, and a valve. The unit adjusts component composition of fuel by separating a particular component from fuel. The unit includes a component separation wall, which divides an interior of a portion of a fuel supply passage between an anterior chamber and a posterior chamber. The wall includes a separation membrane, which the particular component of fuel in the anterior chamber selectively permeates to be separated. The particular component after passing through the wall is temporarily stored in the posterior chamber. When the low-pressure side passage connected to the posterior chamber is opened by the valve, the particular component is separated. Fuel, from which the particular component is separated, is supplied to an injection valve from the anterior chamber. When the low-pressure side passage is closed by the valve, the separation of the particular component is restricted.
摘要翻译：燃料供给装置包括部件调整单元，低压侧通路和阀。该单元通过将特定组分与燃料分离来调节燃料的组分组成。该单元包括部件分隔壁，其将燃料供给通道的一部分的内部分隔在前房和后室之间。该壁包括分离膜，其中前房中的燃料的特定组分选择性渗透以分离。通过壁后的特定部件临时储存在后室中。当连接到后室的低压侧通道被阀打开时，特定部件被分离。特定部件从其分离的燃料从前房提供给注射阀。当低压侧通道被阀关闭时，特定部件的分离受到限制。

4. 发明申请

US20080128350A1 WATER SEPARATION UNIT AND FUEL SUPPLY APPARATUS FOR INTERNAL-COMBUSTION ENGINE 有权
标题翻译：用于内燃机的水分离装置和燃油供应装置
公开(公告)号：US20080128350A1
公开(公告)日：2008-06-05
申请号：US11949857
申请日：2007-12-04
申请人： Miyao ARAKAWA , Yoshiaki Nishijima , Masatoshi Kuroyanagi , Yoshimichi Kiyozumi
发明人： Miyao ARAKAWA , Yoshiaki Nishijima , Masatoshi Kuroyanagi , Yoshimichi Kiyozumi
IPC分类号： B01D63/00
CPC分类号： B01D71/028 , B01D61/02 , B01D63/087 , B01D2313/20 , B01D2313/90 , F02M37/0082 , F02M37/221
摘要： A water separation unit includes a water separation portion. The water separation portion includes a component separation wall, a liquid chamber, and a gas chamber. The separation wall divides the water separation portion between the liquid chamber and the gas chamber. Liquid fuel is led to the liquid chamber. The separation wall includes a separation membrane, which water selectively permeates to be separated from liquid fuel in the liquid chamber. Water passing through the separation wall is temporarily stored in the gas chamber. A fuel supply apparatus supplies liquid fuel in a fuel tank to an internal-combustion engine. The apparatus includes the water separation unit. The water separation portion is disposed integrally in one of the fuel tank and a passage leading from a filler opening into the fuel tank, such that the liquid chamber is located above the gas chamber in a vertical direction of the water separation portion.
摘要翻译：水分离单元包括水分离部分。水分离部分包括部件分离壁，液体室和气体室。分隔壁将液体室和气室之间的水分离部分分开。液体燃料被引导到液体室。分离壁包括分离膜，该分离膜选择性渗透以与液体室中的液体燃料分离。通过分隔壁的水暂时储存在气室中。燃料供给装置将燃料箱内的液体燃料供给内燃机。该装置包括水分离单元。水分离部一体地设置在一个燃料箱和从填料开口引入燃料箱的通道中，使得液室在水分离部的垂直方向上位于气室的上方。

5. 发明申请

US20080092851A1 FUEL SUPPLY APPARATUS AND FUEL SUPPLY CONTROL APPARATUS FOR INTERNAL-COMBUSTION ENGINE 有权
标题翻译：内燃机燃油供应设备和燃油供应控制装置
公开(公告)号：US20080092851A1
公开(公告)日：2008-04-24
申请号：US11873609
申请日：2007-10-17
申请人： Miyao Arakawa , Yoshiaki Nishijima , Masatoshi Kuroyanagi , Yoshimichi Kiyozumi
发明人： Miyao Arakawa , Yoshiaki Nishijima , Masatoshi Kuroyanagi , Yoshimichi Kiyozumi
IPC分类号： F02M57/00 , B01D63/00
CPC分类号： F02M69/465 , B01D61/027 , B01D71/028 , F02M43/00 , F02M69/54 , F02M2200/90 , F02M2200/9046
摘要： A fuel supply apparatus includes a component adjustment unit, a low-pressure side passage, and a valve. The unit adjusts component composition of fuel by separating a particular component from fuel. The unit includes a component separation wall, which divides an interior of a portion of a fuel supply passage between an anterior chamber and a posterior chamber. The wall includes a separation membrane, which the particular component of fuel in the anterior chamber selectively permeates to be separated. The particular component after passing through the wall is temporarily stored in the posterior chamber. When the low-pressure side passage connected to the posterior chamber is opened by the valve, the particular component is separated. Fuel, from which the particular component is separated, is supplied to an injection valve from the anterior chamber. When the low-pressure side passage is closed by the valve, the separation of the particular component is restricted.
摘要翻译：燃料供给装置包括部件调整单元，低压侧通路和阀。该单元通过将特定组分与燃料分离来调节燃料的组分组成。该单元包括部件分隔壁，其将燃料供给通道的一部分的内部分隔在前房和后室之间。该壁包括分离膜，其中前房中的燃料的特定组分选择性渗透以分离。通过壁后的特定部件临时储存在后室中。当连接到后室的低压侧通道被阀打开时，特定部件被分离。特定部件从其分离的燃料从前房提供给注射阀。当低压侧通道被阀关闭时，特定部件的分离受到限制。

6. 发明授权

US4981824A Novel ceramic material, method for the preparation thereof and ceramic shaped body obtained therefrom 失效
标题翻译：新型陶瓷材料，其制备方法和由其获得的陶瓷成形体
公开(公告)号：US4981824A
公开(公告)日：1991-01-01
申请号：US323826
申请日：1989-03-15
申请人： Michiko Yonemura , Tadao Sekine , Yoshimichi Kiyozumi , Kunio Suzuki , Kunio Uchida , Fumikazu Ikazaki , Shigemitsu Shin
发明人： Michiko Yonemura , Tadao Sekine , Yoshimichi Kiyozumi , Kunio Suzuki , Kunio Uchida , Fumikazu Ikazaki , Shigemitsu Shin
IPC分类号： C04B33/04 , C04B33/24
CPC分类号： C04B33/04
摘要： A novel ceramic material affording a ceramic molded bodies having a high toughness and a high tensile strength is disclosed which comprises a smectite clay mineral having at least a portion of ion-exchangeable cations thereof ion-exchanged with bismuth ions. The ceramic material is prepared by treating a smectite clay mineral with an aqueous solution containing bismuth ions to ion-exchange at least a portion of ion-exchangeable cations thereof with bismuth ions.

7. 发明授权

US06022519A Method of manufacturing crystalline microporous material 失效
标题翻译：制造结晶微孔材料的方法
公开(公告)号：US06022519A
公开(公告)日：2000-02-08
申请号：US322687
申请日：1999-05-28
申请人： Shinichi Shimizu , Fujio Mizukami , Yoshimichi Kiyozumi
发明人： Shinichi Shimizu , Fujio Mizukami , Yoshimichi Kiyozumi
IPC分类号： B01J29/035 , B01J29/072 , B01J29/40 , B01J37/02 , C01B37/02 , C01B39/02 , C01B39/04 , C01B39/26 , C01B39/38 , C01B39/46 , C01B33/021 , C01B39/36 , C01B39/40
CPC分类号： B01J29/40 , B01J29/035 , B01J29/072 , B01J37/0236 , C01B37/02 , C01B39/02 , C01B39/04 , C01B39/265 , C01B39/38 , C01B39/46 , B01J2229/26 , B01J2229/36 , B01J2229/42 , Y10S423/22 , Y10S423/25 , Y10S423/29
摘要： A method of manufacturing crystalline microporous material suitable for manufacturing a variety of crystalline microporous material under mild reaction conditions and under safe working environmental conditions by using simple installation. The crystalline microporous materials obtained by the present invention may be used as adsorbent agent, catalyst or separating material. According to the characterizing features of the manufacturing method of the present invention, there are provided a method of using cation compound or amine as crystallizing modifier and using, in combination, raw material including canemite or silicon dioxide and a further method using raw material including silicon dioxide and aluminum salt. The method includes a step of mixing these components, a solid-liquid separating step for separating produced fine particles, and a crystallizing step for crystallizing the separated solid component. The invention achieves improvement in safety, economy and so on, in comparison with the coventionally practiced hydrothermal synthesis method which requires severe reaction conditions of high-temperature, high-pressure and strong alkaline. Further, the method allows freedom in adjustment of the pore diameter and allows a higher proportion of porous structure to be maintained in a product when the material is formed into a molded product.
摘要翻译：一种制造结晶微孔材料的方法，适用于在温和的反应条件下，在安全的工作环境条件下，通过简单的安装制造各种结晶微孔材料。通过本发明获得的结晶微孔材料可以用作吸附剂，催化剂或分离材料。根据本发明的制造方法的特征，提供了使用阳离子化合物或胺作为结晶改性剂并且组合使用包括二硅酸钙的原料的方法，以及使用包括硅的原料的另一种方法二氧化物和铝盐。该方法包括混合这些组分的步骤，用于分离生成的细颗粒的固液分离步骤和用于使分离的固体组分结晶的结晶步骤。与需要高温，高压，强碱性苛刻反应条件的常规水热合成方法相比，本发明实现了安全性，经济性等方面的改进。此外，该方法允许调节孔径的自由度，并且当材料形成成型产品时允许在产品中保持较高比例的多孔结构。

8. 发明申请

US20090005543A1 PROTEIN-REFOLDING MATERIAL 审中-公开
标题翻译：蛋白质重建材料
公开(公告)号：US20090005543A1
公开(公告)日：2009-01-01
申请号：US12204496
申请日：2008-09-04
申请人： Fujio MIZUKAMI , Yoshimichi Kiyozumi , Takuji Ikeda , Akiko Kawai , Takako Nagase , Kengo Sakaguchi , Hiroyuki Chiku
发明人： Fujio MIZUKAMI , Yoshimichi Kiyozumi , Takuji Ikeda , Akiko Kawai , Takako Nagase , Kengo Sakaguchi , Hiroyuki Chiku
IPC分类号： C07K1/08 , C01B39/00 , B01J29/06
CPC分类号： C07K1/1133 , C07K1/1136 , C07K14/245
摘要： The present invention provides a method for refolding protein produced, for example, by Escherichia coli, that is inactive due to an as yet unformed higher order structure, or protein deactivated due to a change in conformation for some reason. The invention comprises a method, refolding kit, refolding agent, and molding that activate a native function or activity inherent to a protein through treatment with zeolite beta of protein produced, for example, by Escherichia coli, that is inactive due to an as yet unformed higher order structure, or protein deactivated due to a change in conformation for some reason. The invention also comprises a method for producing an active protein that utilizes the same. As compared with conventional methods, the present invention can provide a novel method for activating protein function that is highly versatile and generalizable, that employs a simple and easy protocol, and that is inexpensive and enables repeated use of the function activator.
摘要翻译：本发明提供了一种重新折叠由例如大肠杆菌产生的蛋白质的方法，其由于尚未形成的高级结构而不活跃，或由于某种原因由于构象变化而失活的蛋白质。本发明包括一种方法，重折叠试剂盒，重折叠剂和模制品，其通过用例如由大肠杆菌产生的蛋白质的β沸石处理而激活蛋白质固有的天然功能或活性，其由于尚未形成由于某些原因由于构象变化而导致高阶结构或蛋白质失活。本发明还包括一种制备利用其的活性蛋白质的方法。与常规方法相比，本发明可以提供一种新颖的激活蛋白质功能的方法，该蛋白质功能具有高度通用性和可广泛性，采用简单易用的方案，价格便宜，能重复使用功能活化剂。

9. 发明授权

US06270743B1 Method of manufacturing crystalline microporous materials 失效
标题翻译：制造结晶微孔材料的方法
公开(公告)号：US06270743B1
公开(公告)日：2001-08-07
申请号：US09469438
申请日：1999-12-21
申请人： Shinichi Shimizu , Fujio Mizukami , Yoshimichi Kiyozumi
发明人： Shinichi Shimizu , Fujio Mizukami , Yoshimichi Kiyozumi
IPC分类号： C01B3902
CPC分类号： C01B39/02 , B01J29/035 , B01J29/072 , B01J29/40 , B01J37/0236 , B01J2229/26 , B01J2229/36 , B01J2229/42 , C01B37/02 , C01B39/04 , C01B39/265 , C01B39/38 , C01B39/46 , Y10S423/22 , Y10S423/25 , Y10S423/29
摘要： A method of manufacturing crystalline microporous material suitable for manufacturing a variety of crystalline microporous material under mild reaction conditions and under safe working environmental conditions by using simple installation. The crystalline microporous materials obtained by the present invention may be used as adsorbent agent, catalyst or separating material. According to the characterizing features of the manufacturing method of the present invention, there are provided a method of using cation compound or amine as crystallizing modifier and using, in combination, raw material including kanemite or silicon dioxide and a further method using raw material including silicon dioxide and aluminum salt. The method includes a step of mixing these components, a solid-liquid separating step for separating produced fine particles, and a crystallizing step for crystallizing the separated solid component. The invention achieves improvement in safety, economy and so on, in comparison with the coventionally practiced hydrothermal synthesis method which requires severe reaction conditions of high-temperature, high-pressure and strong alkaline. Further, the method allows freedom in adjustment of the pore diameter and allows a higher proportion of porous structure to be maintained in a product when the material is formed into a molded product.
摘要翻译：一种制造结晶微孔材料的方法，适用于在温和的反应条件下，在安全的工作环境条件下，通过简单的安装制造各种结晶微孔材料。通过本发明获得的结晶微孔材料可以用作吸附剂，催化剂或分离材料。根据本发明的制造方法的特征，提供了一种使用阳离子化合物或胺作为结晶改性剂的方法，并且组合使用包含卡米质或二氧化硅的原料，以及使用包含硅的原料的另一种方法二氧化物和铝盐。该方法包括混合这些组分的步骤，用于分离生成的细颗粒的固液分离步骤和用于使分离的固体组分结晶的结晶步骤。与需要高温，高压，强碱性苛刻反应条件的常规水热合成方法相比，本发明实现了安全性，经济性等方面的改进。此外，该方法允许调节孔径的自由度，并且当材料形成成型产品时允许在产品中保持较高比例的多孔结构。

10. 发明授权

US4410751A Production of olefins from a lower alcohol or dimethyl ether 失效
标题翻译：从低级醇或二甲醚生产烯烃
公开(公告)号：US4410751A
公开(公告)日：1983-10-18
申请号：US357461
申请日：1982-03-12
申请人： Shigemitsu Shin , Kunio Suzuki , Yoshimichi Kiyozumi , Kiyoshi Ogawa , Haruo Takaya , Kenichiro Bando , Yasuo Takami , Yasuhiko Kohtoku , Hideo Watanabe , Kichinari Kawamura , Yuzi Shimazaki
发明人： Shigemitsu Shin , Kunio Suzuki , Yoshimichi Kiyozumi , Kiyoshi Ogawa , Haruo Takaya , Kenichiro Bando , Yasuo Takami , Yasuhiko Kohtoku , Hideo Watanabe , Kichinari Kawamura , Yuzi Shimazaki
IPC分类号： C07C43/04 , B01J21/16 , C07B61/00 , C07C1/00 , C07C1/20 , C07C11/02 , C07C41/00 , C07C67/00 , C07C1/24
CPC分类号： C07C1/20 , C07C2521/06 , C07C2521/16
摘要： A lower alcohol, especially methanol, or dimethyl ether is subjected to pyrolysis conditions in the presence of a specific catalyst to obtain lower olefins. The catalyst is comprised of a smectite, such as a montmorillonite clay, having superimposed aluminosilicate layers and zirconium oxide intercalated between the structural, aluminosilicate layers.
摘要翻译：在特定催化剂存在下，将低级醇，特别是甲醇或二甲醚进行热解条件，得到低级烯烃。该催化剂由蒙皂石（例如蒙脱石粘土）组成，其具有叠置的硅铝酸盐层和插入在结构硅铝酸盐层之间的氧化锆。

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