公开(公告)号：US5132604A

公开(公告)日：1992-07-21

申请号：US498050

申请日：1990-03-22

申请人： Iwao Shimane ,  Yoshio Kojima ,  Toshio Yokoyama ,  Sadao Shinohara

发明人： Iwao Shimane ,  Yoshio Kojima ,  Toshio Yokoyama ,  Sadao Shinohara

IPC分类号： F02N11/04

CPC分类号： F02N11/04 ,  F02N15/046

摘要： An engine starter and electric generator system transmits rotative power to a crankshaft to start an engine and generates electric power based on rotative power from the crankshaft after the engine has started. The engine starter and electric generator system includes a starter/generator operable selectively as a starter motor to produce the rotative power and a generator for generating the electric power, and an electric power supply device for supplying electric power to the starter motor. A power transmitting mechanism operatively interconnects the crankshaft and the starter/generator, for bidirectionally transmitting the rotative power between the crankshaft and the starter/generator. A transmission mechanism is disposed in the power transmitting mechanism, for changing the speed of rotation transmitted between the crankshaft and the starter/generator. The system also has a control device for controlling operation of the starter/generator and establishing different speed-reduction ratios for the transmission mechanism when the starter/generator operates as the generator and when the starter/generator operates as the starter motor.

公开(公告)号：US20070089996A1

公开(公告)日：2007-04-26

申请号：US10571424

申请日：2004-09-13

申请人： Yoshio Kojima

发明人： Yoshio Kojima

IPC分类号： B01D57/02 ,  C25D13/06

CPC分类号： C09D5/4488

摘要： It is an object of the present invention to provide a method of forming a cationic electrodeposition film, which has no detrimental effect on basic performances of electrodeposition that a curing property in low temperature and the stability of pigment dispersion are good and basic performances such as corrosion resistance and a rust-preventive property are maintained while maintaining both surface smoothness and economical advantage and exhibits the extremely precise throwing power and can attain an excellent ability of preventing a pinhole due to gas. A method of forming a cationic electrodeposition film, comprising immersing an article to be coated, composed of a galvanized steel sheet, into a bath tank filled with a cationic electrocoating liquid containing a base resin and forming an electrodeposition film on the surface of the above galvanized steel sheet by current-carrying, wherein an electric through hole is formed within the above film to secure the conductivity of the above film in order to wipe out a spark discharge phenomenon arising due to the presence of a hydrogen bubble produced through cohesion of hydrogen gas, with the passage of time, generated by the above current-carrying at a gap of the film, which develops in depositing/forming the film by the above current-carrying and increasing its thickness with the passage of time, on the surface of the above galvanized steel sheet, and thereby an increase in an electric resistance value (kΩ·cm2) per unit weight (mg) of the above film is inhibited.

摘要翻译： 本发明的目的是提供一种形成阳离子电沉积膜的方法，其对电沉积的基本性能没有不利影响，即低温下的固化性能和颜料分散体的稳定性良好，腐蚀性等基本性能 保持电阻和防锈性，同时保持表面光滑度和经济性，并且具有极其精确的抛光力，并且可以获得防止由于气体引起的针孔的优异的能力。 一种形成阳离子电沉积膜的方法，包括将由镀锌钢板构成的待涂覆制品浸入填充有含有基础树脂的阳离子电泳涂料的浴槽中，并在上述镀锌层的表面上形成电沉积膜 钢板，其中在上述膜内形成电气通孔以确保上述膜的导电性，以便消除由于氢气的内聚产生的氢气泡的存在而产生的火花放电现象 随着时间的推移，由上述载流子在膜的间隙产生的上述电流产生，该膜的间隙通过上述载流子沉积/形成膜而随着时间的推移而增加其厚度， 上述镀锌钢板，因此上述膜的单位重量（mg）的电阻值（kOmega.cm 2）的上升被抑制。

公开(公告)号：US20060201821A1

公开(公告)日：2006-09-14

申请号：US11372048

申请日：2006-03-10

申请人： Teruzo Toi ,  Yoshio Kojima

发明人： Teruzo Toi ,  Yoshio Kojima

IPC分类号： C25D9/00 ,  C08G18/08

CPC分类号： C08G18/8074 ,  C08G18/003 ,  C08G18/3256 ,  C08G18/4879 ,  C08G18/58 ,  C08G18/643 ,  C08G18/792 ,  C08G18/8064 ,  C08G18/8077 ,  C09D5/4438 ,  C25D9/08

摘要： To provide a method for forming an electrodeposited coating excellent in finish-appearance and capable of a higher film resistance value. A method for forming an electrodeposited coating including a step of electrodeosition-coating a cationic electrodeposition coating composition on an object to be coated, wherein a film viscosity of an electrodeposited coating obtained from the cationic electrodeposition coating composition is in the range of 3000 to 5000 Pa·s at 50° C.

摘要翻译： 提供一种形成电镀淀积涂层的方法，该涂膜具有优异的外观并且能够获得更高的膜电阻值。 一种形成电沉积涂层的方法，包括在阳离子电沉积涂料组合物上获得的电沉积涂层的膜粘度在3000至5000Pa的范围内的阳离子电沉积涂料组合物的涂布步骤 .s在50℃

公开(公告)号：US07005051B2

公开(公告)日：2006-02-28

申请号：US10107372

申请日：2002-03-28

申请人： Yoshio Kojima ,  Mitsuo Yamada ,  Shoki Tsuji

发明人： Yoshio Kojima ,  Mitsuo Yamada ,  Shoki Tsuji

IPC分类号： C25D13/10

CPC分类号： C09D5/443 ,  C25D13/22 ,  Y10T428/31504

摘要： Disclosed is a three coat one bake coating process for forming an intermediate coated film, a base coated film and a clear coated film on an electrodeposition coated film. The electrodeposition coating composition is a lead-free cationic electrodeposition coating composition which has a volatile organic content of 1% by weight or less, a metal ion content of 500 ppm or less, a neutralizing acid amount of 10 to 30 mg equivalent based on 100 g of binder resin solid content. The intermediate coating composition and/or the base coated composition comprises a specific amount of a nonaqueous dispersion resin as a resin component. In the coating process, a baking step is omitted from the conventional intermediate coating process, or from the conventional base coating process.

摘要翻译： 公开了一种用于在电沉积涂膜上形成中间涂膜，底涂层和透明涂膜的三层一烘烤方法。 电沉积涂料组合物是无铅阳离子电沉积涂料组合物，其挥发性有机含量为1重量％以下，金属离子含量为500ppm以下，中和酸量为10〜30mg当量，基于100 g粘合剂树脂固体含量。 中间涂料组合物和/或底涂层组合物包含特定量的作为树脂组分的非水分散体树脂。 在涂布过程中，从常规的中间涂布工艺或常规的基底涂布工艺中省去烘烤步骤。

公开(公告)号：US06336296B1

公开(公告)日：2002-01-08

申请号：US09472810

申请日：1999-12-28

申请人： Yutaka Ishibashi ,  Shigeru Fujimoto ,  Isako Tsushima ,  Yoshio Kojima ,  Junko Oikawa

发明人： Yutaka Ishibashi ,  Shigeru Fujimoto ,  Isako Tsushima ,  Yoshio Kojima ,  Junko Oikawa

IPC分类号： E04C252

CPC分类号： E04F15/02476 ,  E04F15/02405 ,  E04F15/02411

摘要： A floor system includes a plurality of panels placed on a base floor. A space is formed between the panels and the base floor for laying cables. A plurality of sliding plates are arranged on the base floor. A plurality of supports are provided and each support of the plurality of supports is arranged on each of the sliding plates so as to freely slide. The plurality of panels are supported by the plurality of supports by being fixed on a pedestal of the each support of the plurality of supports. The plurality of panels are hence connected to each other to form a single floor surface. The dynamic coefficient of friction between the bottom of the supports and the sliding plates is selected to be a value within a range of 0.09 to 0.25.

摘要翻译： 地板系统包括放置在底座上的多个面板。 在面板和基座之间形成用于铺设电缆的空间。 多个滑板布置在底座上。 提供多个支撑件，并且每个支撑件的每个支撑件布置在每个滑板上以便自由滑动。 多个面板通过固定在多个支撑件的每个支撑件的基座上由多个支撑件支撑。 因此，多个面板彼此连接以形成单个地板表面。 支撑体底部和滑板之间的动态摩擦系数选择为0.09〜0.25的范围内的值。

公开(公告)号：US4631879A

公开(公告)日：1986-12-30

申请号：US674088

申请日：1984-11-23

申请人： Hiroshi Kobayashi ,  Jiro Kano ,  Yoshio Kojima ,  Yoshitoyo Nishite ,  Yutaka Tsuruta

发明人： Hiroshi Kobayashi ,  Jiro Kano ,  Yoshio Kojima ,  Yoshitoyo Nishite ,  Yutaka Tsuruta

IPC分类号： H02G3/38 ,  E04F15/024 ,  E04F15/18 ,  E04B1/00 ,  E04B5/58 ,  E04C1/00 ,  E04F17/00

CPC分类号： E04F15/024 ,  E04F15/02411

摘要： An interior panel according to the present invention comprises a plurality of support units fixedly arranged on a floor slab, a panel member supported by the support units so as to be located over the slab surface at a predetermined distance therefrom, and a cable separator supported by the support units and dividing the space between the panel member and the slab surface into upper and lower space sections. Cables and electric devices in a signal system are arranged in the upper space section defined by the cable separator, and electric-system cables and devices in the lower space section. A bendable portion is provided at the peripheral edge portion of the cable separator so that an opening to connect the upper and lower space sections is formed by bending part of the bendable portion.

摘要翻译： 根据本发明的内部面板包括固定地布置在楼板上的多个支撑单元，由所述支撑单元支撑以便以预定距离位于所述板表面上方的板构件，以及由所述支撑单元支撑的电缆分离器 支撑单元并且将板构件和板坯表面之间的空间分成上部和下部空间部分。 信号系统中的电缆和电气设备布置在由电缆分离器限定的上部空间部分中，以及下部空间部分中的电力系统电缆和设备。 弯曲部分设置在电缆分离器的周边部分处，从而通过弯曲可弯曲部分的一部分来形成用于连接上空间部分和下空间部分的开口。

公开(公告)号：US4463095A

公开(公告)日：1984-07-31

申请号：US444374

申请日：1982-11-26

申请人： Shigenori Emi ,  Yoshio Kojima ,  Makoto Ando

发明人： Shigenori Emi ,  Yoshio Kojima ,  Makoto Ando

IPC分类号： C12N9/04 ,  C12R1/01 ,  C12R1/225 ,  C12R1/46

CPC分类号： C12N9/0006 ,  Y10S435/822 ,  Y10S435/853 ,  Y10S435/885

摘要： .alpha.-glycerophosphate oxidase is produced by cultivating microorganisms belonging to genus Pediococcus, Streptococcus, Lactobacillus or Leuconostoc in a nutrient medium containing at least one compound selected from the group consisting of .alpha.-keto acids represented by the formula,R--COCOOHwherein R is CH.sub.3 (CH.sub.2).sub.m --, HOOC(CH.sub.2).sub.n -- or CH.sub.2 (OH)CH(OH)CH(OH)CH-- (in which m is an integer of 1 to 3 and n is an integer of 0 to 2) and salts thereof, and then .alpha.-glycerophosphate oxidase is recovered from the resulting culture broth. .alpha.-ketobutyric acid, .alpha.-ketovaleric acid, .alpha.-ketocaproic acid, .alpha.-ketomalonic acid, oxalacetic acid, .alpha.-ketoglutaric acid and .alpha.-ketogluconic acid are disclosed.

摘要翻译： 通过在含有至少一种选自由下式表示的α-酮酸的化合物的营养培养基中培养属于类球菌属，链球菌属，乳杆菌属或明串珠星菌属的微生物来产生α-甘油磷酸酯氧化酶，R-COCOOH其中R为CH 3 （CH 2）m - ，HOOC（CH 2）n - 或CH 2（OH）CH（OH）CH（OH）CH-（其中m为1〜3的整数，n为0〜2的整数） 然后从所得培养液中回收α-甘油磷酸氧化酶。 α-酮丁酸，α-酮戊酸，α-酮己酸，α-酮酸，草乙酸，α-酮戊二酸和α-酮羧酸。

公开(公告)号：USD271908S

公开(公告)日：1983-12-20

申请号：US333907

申请日：1981-12-23

申请人： Yoshio Kojima ,  Masumi Nanba ,  Hisaaki Katoh

设计人： Yoshio Kojima ,  Masumi Nanba ,  Hisaaki Katoh

公开(公告)号：US20080257748A1

公开(公告)日：2008-10-23

申请号：US12213337

申请日：2008-06-18

申请人： Yoshio Kojima ,  Mitsuo Yamada ,  Satoru Uchidoi

发明人： Yoshio Kojima ,  Mitsuo Yamada ,  Satoru Uchidoi

IPC分类号： C25D9/00

CPC分类号： C08K9/04

摘要： The present invention provides a lead-free cationic electrodeposition coating composition which contains an aqueous medium, a binder resin composed of a cationic epoxy resin and a blocked isocyanate curing agent dispersed or dissolved in the aqueous medium, a neutralizing acid in order to neutralize the cationic epoxy resin, an organic solvent, and a metal catalyst, wherein the electrodeposition coating composition has a volatile organic content of 1% by weight or less, a metal ion content of 500 ppm or less, a neutralizing acid amount of 10 to 30 mg equivalent based on 100 g of binder resin solid content. The lead-free cationic electrodeposition coating composition has high throwing power, and exert a little influence on the environment due to its low VOC, low metal ion content, and reduced consumption of a coating composition itself.

公开(公告)号：US07315798B2

公开(公告)日：2008-01-01

申请号：US10630776

申请日：2003-07-31

申请人： Yoshitsugu Goto ,  Tatsuyuki Amago ,  Yoshio Kojima ,  Mizuho Inagaki ,  Kazuaki Chiku ,  Toru Matsushima ,  Keisuke Hayakawa

发明人： Yoshitsugu Goto ,  Tatsuyuki Amago ,  Yoshio Kojima ,  Mizuho Inagaki ,  Kazuaki Chiku ,  Toru Matsushima ,  Keisuke Hayakawa

IPC分类号： G06F7/60 ,  G06F17/10

CPC分类号： G06F17/5018 ,  G06F2217/02

摘要： A natural frequency and a calculated mode vector are calculated by using a finite-element method models for analysis which include an object of analysis including a plurality of components and a plurality of elements which are positioned between the components of the object of analysis and indicate a boundary condition between the components, the calculated mode vector having high degree of correlation for an experimental mode vector is extracted and set to a pair, and identifying the boundary condition of the elements based on the extracted calculated mode vector and the natural frequency corresponding to the extracted calculated mode vector.

摘要翻译： 通过使用包括分析对象的有限元方法模型来计算固有频率和计算的模式向量，所述分析对象包括多个分量，以及位于分析对象的分量之间的多个元素，并且指示 提取组分之间的边界条件，提取与实验模式向量具有高相关性的计算的模式向量并将其设置为一对，并且基于提取的计算的模式向量和对应于固有频率的固有频率来识别元素的边界条件 提取计算模式向量。