公开(公告)号：US07497482B2

公开(公告)日：2009-03-03

申请号：US10506671

申请日：2003-03-19

申请人： Kazuhiko Sugiyama ,  Keiko Hada ,  Eiji Ideta ,  Nobukazu Ikeda ,  Naofumi Yasumoto ,  Michio Yamaji

发明人： Kazuhiko Sugiyama ,  Keiko Hada ,  Eiji Ideta ,  Nobukazu Ikeda ,  Naofumi Yasumoto ,  Michio Yamaji

IPC分类号： F16L19/00

CPC分类号： F16L19/0218 ,  F16L19/0225 ,  F16L19/025

摘要： A pipe joint comprises a first joint member of synthetic resin having an annular recessed portion in an end face thereof, and a second joint member of synthetic resin having an annular ridge on an end face thereof. The ridge is fitted in the opening of the recessed portion, with a synthetic resin gasket fitted in the recessed portion. When the pipe joint is properly tightened up, the outer surface of the ridge of the second joint member is pressed against the inner surface of the recessed portion of the first joint member with the gasket interposed therebetween in intimate contact with the surfaces approximately over the entire areas thereof.

摘要翻译： 管接头包括合成树脂的在其端面上具有环形凹部的第一接头构件和在其端面上具有环形脊的合成树脂的第二接头构件。 脊部装配在凹部的开口中，合成树脂垫圈装配在凹部中。 当管接头被适当地紧固时，第二接头构件的脊部的外表面被压靠在第一接头构件的凹部的内表面上，垫圈插入其间，与表面大致整齐地紧密接触 区域。

公开(公告)号：US20050179259A1

公开(公告)日：2005-08-18

申请号：US10506671

申请日：2003-03-19

申请人： Kazuhiko Sugiyama ,  Keiko Hada ,  Eiji Ideta ,  Nobukazu Ikeda ,  Naofumi Yasumoto ,  Michio Yamaji

发明人： Kazuhiko Sugiyama ,  Keiko Hada ,  Eiji Ideta ,  Nobukazu Ikeda ,  Naofumi Yasumoto ,  Michio Yamaji

IPC分类号： F16L19/08 ,  F16L19/02 ,  F16L19/025 ,  F16L19/03 ,  F16L23/036 ,  F16L47/14 ,  F16L17/00

CPC分类号： F16L19/0218 ,  F16L19/0225 ,  F16L19/025

摘要： A pipe joint 1 comprises a first joint member 2 of synthetic resin having an annular recessed portion 7 in an end face thereof, and a second joint member 3 of synthetic resin having an annular ridge 8 on an end face thereof. The ridge 8 is fitted in the opening of the recessed portion 7, with a synthetic resin gasket 4 fitted in the recessed portion 7. When the pipe joint 1 is properly tightened up, the outer surface of the ridge 8 of the second joint member 3 is pressed against the inner surface of the recessed portion 7 of the first joint member 2 with the gasket 4 interposed therebetween in intimate contact the surfaces approximately over the entire areas thereof, a portion 2d of the end face of the first joint member 2 positioned radially inwardly of the recessed portion is then in intimate contact with a portion 3d of the end face of the second joint member 3 positioned radially inwardly of the ridge approximately over the entire surface areas thereof, a portion 2e of the end face of the first joint member 2 positioned radially outwardly of the recessed portion is then in intimate contact with a portion 3e of the end face of the second joint member 3 positioned radially outwardly of the ridge approximately over the entire surface areas thereof.

摘要翻译： 管接头1包括合成树脂的第一接头构件2，其端面具有环形凹部7，在其端面上具有合成树脂的第二接头构件3，其具有环形脊8。 脊8装配在凹部7的开口中，合成树脂垫圈4装配在凹部7中。 当管接头1被适当地紧固时，第二接头构件3的脊8的外表面被密封接触地压靠在第一接头构件2的凹部7的内表面上，垫圈4插入其中 表面大致在其整个区域上，位于凹部的径向内侧的第一接合构件2的端面的部分2d然后与位于第二接头构件3的端面的部分3d紧密接触 大致在其整个表面区域的脊部的径向内侧，位于凹部的径向外侧的第一接合部件2的端面的部分2e紧密接触于凹部的端面部分3e 第二接头构件3大致在其整个表面区域上径向向外设置。

公开(公告)号：US5609077A

公开(公告)日：1997-03-11

申请号：US697031

申请日：1996-08-20

申请人： Tadahiro Ohmi ,  Nobukazu Ikeda ,  Ryosuke Dohi ,  Kunio Nagai ,  Eiji Ideta ,  Koji Nishino ,  Michio Yamaji ,  Tsutomu Shinohara ,  Naofumi Yasumoto

发明人： Tadahiro Ohmi ,  Nobukazu Ikeda ,  Ryosuke Dohi ,  Kunio Nagai ,  Eiji Ideta ,  Koji Nishino ,  Michio Yamaji ,  Tsutomu Shinohara ,  Naofumi Yasumoto

IPC分类号： B25B13/48 ,  B25B21/00

CPC分类号： B25B21/00 ,  B25B13/481 ,  B25B21/002

摘要： A tightening device comprises an upper plate, a lower plate disposed below the upper plate in parallel thereto, a nut rotating gear supported by the lower plate so as to be rotatable in a horizontal plane, and a spur gear provided on an underside of the upper plate and meshable with the nut rotating gear for rotating the nut rotating gear. The upper plate has a portion fittable to a flange of an externally threaded member for preventing the rotation of the threaded member, while the nut rotating gear has a portion fittable to a nut. With the nut manually tightened on the threaded member in advance, the flange fitting portion of the upper plate is fitted to the flange, the nut is fitted in the fitting portion of the nut rotating gear, and the spur gear is thereafter rotated, whereby the nut rotating gear is driven to tighten up the nut on the threaded member.

摘要翻译： 紧固装置包括上板，与其平行地设置在上板下方的下板，由下板支撑以能够在水平面中旋转的螺母旋转齿轮，以及设置在上板的下侧上的正齿轮 可与螺母旋转齿轮啮合，用于旋转螺母旋转齿轮。 该上板具有一部分可配合到外螺纹构件的凸缘上，用于防止螺纹构件旋转，而螺母旋转齿轮具有可与螺母配合的部分。 预先在螺纹构件上手动地拧紧螺母，将上板的凸缘嵌合部嵌合在凸缘上，将螺母装配在螺母旋转齿轮的嵌合部分中，然后旋转正齿轮，由此， 螺母旋转齿轮被驱动以拧紧螺纹构件上的螺母。

公开(公告)号：US5502883A

公开(公告)日：1996-04-02

申请号：US253745

申请日：1994-06-03

申请人： Tadahiro Ohmi ,  Nobukazu Ikeda ,  Ryosuke Dohi ,  Kunio Nagai ,  Eiji Ideta ,  Koji Nishino ,  Michio Yamaji ,  Tsutomu Shinohara ,  Naofumi Yasumoto

发明人： Tadahiro Ohmi ,  Nobukazu Ikeda ,  Ryosuke Dohi ,  Kunio Nagai ,  Eiji Ideta ,  Koji Nishino ,  Michio Yamaji ,  Tsutomu Shinohara ,  Naofumi Yasumoto

IPC分类号： B25B21/00 ,  B25B23/14 ,  B25B23/147 ,  B23P19/06

CPC分类号： B25B21/002 ,  B25B23/14 ,  B25B23/147 ,  Y10T29/49766

摘要： A reference range of tightening torques is predetermined relative to the rotation angle of a threaded member as normally tightened. In tightening up a nut on an externally threaded member, the tightening torque is detected by a torque sensor every time the nut is rotated through a specified angle, and whether the tightening torque relative to the rotation angle is within the reference range is judged by a microcomputer. The result of judgment is indicated by a light-emitting diode and a buzzer.

摘要翻译： 紧固扭矩的参考范围相对于螺纹构件的旋转角度是预先确定的。 在拧紧外螺纹构件上的螺母时，每当螺母旋转指定角度时，扭矩传感器检测到紧固扭矩，并且相对于旋转角度的紧固扭矩是否在参考范围内是由 微电脑 判断结果由发光二极管和蜂鸣器指示。

公开(公告)号：US20090202957A1

公开(公告)日：2009-08-13

申请号：US11663557

申请日：2005-08-02

申请人： Nobukazu Ikeda ,  Akihiro Morimoto ,  Naofumi Yasumoto ,  Michio Yamaji ,  Tsuyoshi Tanikawa ,  Tadayuki Yakushijin ,  Hidehiro Doya

发明人： Nobukazu Ikeda ,  Akihiro Morimoto ,  Naofumi Yasumoto ,  Michio Yamaji ,  Tsuyoshi Tanikawa ,  Tadayuki Yakushijin ,  Hidehiro Doya

IPC分类号： F23L99/00 ,  F28F1/10

CPC分类号： F28F13/12 ,  F16L53/35 ,  F24H3/0405 ,  F28F1/40

摘要： Provided are a heating method making it possible that when a gas inside the body of a piping member, such as a pipe, is heated, the heating efficiency is improved; and a gas-heating piping member making it possible to perform such a heating method easily.A heat keeping member 4 which can transmit a gas to be heated is inserted to the inside of a piping member body 1 into which the gas can be passed in a state that the heat keeping member is brought into close contact with the inside, and further the piping member body 1 is heated from the outside thereof by means of a heating means 2.

摘要翻译： 提供一种加热方法，使得当诸如管道的管道构件的主体内的气体被加热时，提高了加热效率; 以及能够容易地进行这样的加热方法的燃气加热配管部件。 另外，在将保温体与内部紧密接触的状态下，将能够透过被加热气体的保温体4插入到能够通过气体的管道构件本体1的内部， 管道构件主体1通过加热装置2从外部加热。

公开(公告)号：US06193212B1

公开(公告)日：2001-02-27

申请号：US09308922

申请日：1999-07-23

申请人： Tadahiro Ohmi ,  Migaku Takahashi ,  Michio Yamaji ,  Tsuyoshi Tanikawa ,  Nobukazu Ikeda ,  Ryosuke Dohi ,  Kouji Nishino ,  Naofumi Yasumoto ,  Hiroyuki Fukuda ,  Tomio Uno ,  Yasuyuki Yanai

发明人： Tadahiro Ohmi ,  Migaku Takahashi ,  Michio Yamaji ,  Tsuyoshi Tanikawa ,  Nobukazu Ikeda ,  Ryosuke Dohi ,  Kouji Nishino ,  Naofumi Yasumoto ,  Hiroyuki Fukuda ,  Tomio Uno ,  Yasuyuki Yanai

IPC分类号： F16K3102

CPC分类号： F16K31/082 ,  F16K7/14 ,  F16K31/0655 ,  F16K31/0672 ,  Y10T137/8242

摘要： A fluid control valve, which can control a fluid having a pressure in the order of 10 kg/cm2, has a response time in the order of several milliseconds can be made small in size, and a fluid supply/exhaust system that provides less gas counter flow in the event of a plurality of valves being used. A fluid control valve of the invention controls a fluid moving in a valve body by closing and opening a portion between a valve seat and a valve holder by use of a drive unit. The drive unit has a rod-shaped shaft for application of pressure through the valve seat and the valve holder, and a member “a” fixed around the rod-shaped shaft. The member “a” is made from a magnetic material, and has a space between it and the shaft. A coil provided in parallel to the shaft, moves the shaft via the member “a” up and down by electromagnetic induction, and makes use of a spring force to close and open a portion between the valve seat and the valve holder.

摘要翻译： 可以控制具有10kg / cm 2量级的压力的流体的流体控制阀具有大约几毫秒数量级的响应时间，并且可以使得提供较少气体的流体供应/排出系统 在使用多个阀的情况下的逆流。 本发明的流体控制阀通过使用驱动单元闭合和打开阀座和阀座之间的部分来控制在阀体中移动的流体。 驱动单元具有用于通过阀座和阀保持器施加压力的杆状轴和围绕杆状轴固定的构件“a”。 构件“a”由磁性材料制成，并且在其与轴之间具有空间。 平行于轴设置的线圈通过电磁感应使组件“a”上下移动，并利用弹簧力来封闭和打开阀座与阀座之间的一部分。

公开(公告)号：US06394415B1

公开(公告)日：2002-05-28

申请号：US09627784

申请日：2000-07-27

申请人： Tadahiro Ohmi ,  Migaku Takahashi ,  Michio Yamaji ,  Tsuyoshi Tanikawa ,  Nobukazu Ikeda ,  Ryosuke Dohi ,  Kouji Nishino ,  Naofumi Yasumoto ,  Hiroyuki Fukuda ,  Tomio Uno ,  Yasuyuki Yanai

发明人： Tadahiro Ohmi ,  Migaku Takahashi ,  Michio Yamaji ,  Tsuyoshi Tanikawa ,  Nobukazu Ikeda ,  Ryosuke Dohi ,  Kouji Nishino ,  Naofumi Yasumoto ,  Hiroyuki Fukuda ,  Tomio Uno ,  Yasuyuki Yanai

IPC分类号： F16K3102

CPC分类号： F16K31/082 ,  F16K7/14 ,  F16K31/0655 ,  F16K31/0672 ,  Y10T137/8242

摘要： A fluid control valve, which can control a fluid having a pressure in the order of 10 kg/cm2, has a response time in the order of several milliseconds can be made small in size, and a fluid supply/exhaust system that provides less gas counter flow in the event of a plurality of valves being used. A fluid control valve of the invention controls a fluid moving in a valve body by closing and opening a portion between a valve seat and a valve holder by use of a drive unit. The drive unit has a rod-shaped shaft for application of pressure through the valve seat and the valve holder, and a member “a” fixed around the rod-shaped shaft. The member “a” is made from a magnetic material, and has a space between it and the shaft. A coil provided in parallel to the shaft, moves the shaft via the member “a” up and down by electromagnetic induction, and makes use of a spring force to close and open a portion between the valve seat and the valve holder.

摘要翻译： 可以控制具有10kg / cm 2量级的压力的流体的流体控制阀具有大约几毫秒数量级的响应时间，并且可以使得提供较少气体的流体供应/排出系统 在使用多个阀的情况下的逆流。 本发明的流体控制阀通过使用驱动单元闭合和打开阀座和阀座之间的部分来控制在阀体中移动的流体。 驱动单元具有用于通过阀座和阀保持器施加压力的杆状轴和围绕杆状轴固定的构件“a”。 构件“a”由磁性材料制成，并且在其与轴之间具有空间。 平行于轴设置的线圈通过电磁感应使组件“a”上下移动，并利用弹簧力来封闭和打开阀座与阀座之间的一部分。

公开(公告)号：US06129098A

公开(公告)日：2000-10-10

申请号：US139500

申请日：1998-08-25

申请人： Nobuhiro Miki ,  Takahisa Nitta ,  Tadahiro Ohmi ,  Nobukazu Ikeda ,  Naofumi Yasumoto

发明人： Nobuhiro Miki ,  Takahisa Nitta ,  Tadahiro Ohmi ,  Nobukazu Ikeda ,  Naofumi Yasumoto

IPC分类号： B01J4/02 ,  B01F3/08 ,  C02F1/68 ,  F04B13/00 ,  F04B53/14 ,  H01L21/00 ,  H01L21/304 ,  B08B3/02

CPC分类号： H01L21/67051 ,  B01F15/00357 ,  B01F3/0865 ,  B01F3/088 ,  C02F1/686 ,  F04B13/00 ,  F04B53/141 ,  C02F2103/04

摘要： An apparatus for injecting constant quantitative chemicals which is capable of injecting a chemical solution into ultra pure water without generating particulate contamination, and furthermore, the injection interval of the chemical solution to the cleaning nozzle is controlled in units of seconds within a range of a few seconds to 10 or more seconds, and the switching of the type of chemical solution and the changeover to ultra pure water cleaning can be conducted in a short period of time of approximately 1 second.The apparatus includes a chemical solution injection system having a chemical solution retaining part for retaining the chemical solution, a control system for pressurization and depressurization for controlling the pressure of the chemical solution in the chemical solution retaining part at regular intervals, an injection control system which operates in concert with the control of the pressure of the chemical solution, and is structured so as to conduct the intermittent injection and instantaneous mixing function of the chemical solution from the chemical solution injection system to the ultra pure water flow path, and the injection stoppage function, and a chemical solution replenishment system which is structured so as to operate in concert with the control of the chemical solution and to be capable of replenishing the chemical solution in the chemical solution retaining part from a chemical solution source.

摘要翻译： 一种用于注入恒定的定量化学品的装置，其能够将化学溶液注入超纯水中而不产生颗粒污染，此外，化学溶液到清洁喷嘴的注射间隔以几秒为单位进行控制 秒至10秒以上，化学溶液的种类和切换为超纯水清洗的时间可以在1秒钟的短时间内进行。 该装置包括具有用于保持化学溶液的化学溶液保留部分的化学溶液注入系统，用于加压和减压的控制系统，用于以规则的间隔控制化学溶液保留部分中的化学溶液的压力;注射控制系统， 与控制化学溶液的压力一致地进行操作，并且构成为将化学溶液从化学溶液注入系统到超纯水流路的间歇注入和瞬时混合功能进行，并且注射停止 功能和化学溶液补充系统，其结构化以便与化学溶液的控制协同工作，并且能够从化学溶液源补充化学溶液保留部分中的化学溶液。

公开(公告)号：US20090165534A1

公开(公告)日：2009-07-02

申请号：US12281564

申请日：2007-03-07

申请人： Gisuke Kohno ,  Teruo Hon'Iden ,  Akihiro Morimoto ,  Naofumi Yasumoto ,  Koji Kawada ,  Yutaka Ueji ,  Nobukazu Ikeda ,  Masayuki Hatano ,  Michio Kuramochi ,  Yoshiyuki Kindai ,  Kazuhiro Nagano ,  Toshiaki Wada

发明人： Gisuke Kohno ,  Teruo Hon'Iden ,  Akihiro Morimoto ,  Naofumi Yasumoto ,  Koji Kawada ,  Yutaka Ueji ,  Nobukazu Ikeda ,  Masayuki Hatano ,  Michio Kuramochi ,  Yoshiyuki Kindai ,  Kazuhiro Nagano ,  Toshiaki Wada

IPC分类号： G01M3/08

CPC分类号： G01M3/2815

摘要： A method for testing leakage of a pipe passage employs a flow rate of gas used in testing supplied to the inside of a pipe passage undergoing testing hermetically sealed on one side while detecting flow rate with a flow measuring device and pressure with a pressure detector, and detecting temperature of the gas used, and inputting the detected values of pressure, flow rate and temperature into a computation treatment apparatus, and internal capacity VL of the pipe passage is computed as VL=(supplied flow rate Q×pressure applied time Δt)/(pressure rise value ΔP2), and next, the volume QL leaked from the pipe passage is computed as QL=(pressure drop value ΔP2′×internal capacity VL)/(pressure drop time Δt′).

摘要翻译： 用于测试管道通道泄漏的方法采用供给到通过密封在一侧进行密封的管道内部的测试中使用的气体流量，同时利用流量测量装置和压力检测器检测流量，以及 检测所使用的气体的温度，并将检测出的压力，流量和温度的值输入计算处理装置，并且计算管道内部容量VL为VL =（供给流量Qx压力施加时间Deltat）/（压力 上升值DeltaP2），接下来，从管道泄漏的体积QL计算为QL =（压降值DeltaP2'内部容量VL）/（压降时间Deltat'）。