公开(公告)号：US08210022B2

公开(公告)日：2012-07-03

申请号：US12332897

申请日：2008-12-11

申请人： Shuji Moriya ,  Wataru Okase ,  Tsutomu Shinohara ,  Nobukazu Ikeda ,  Michio Yamaji ,  Yasutaka Hayashi ,  Toshihide Yoshida ,  Yasuyuki Omata

发明人： Shuji Moriya ,  Wataru Okase ,  Tsutomu Shinohara ,  Nobukazu Ikeda ,  Michio Yamaji ,  Yasutaka Hayashi ,  Toshihide Yoshida ,  Yasuyuki Omata

IPC分类号： G01F25/00 ,  G05D7/06

CPC分类号： G05D7/0635 ,  Y10T137/2708 ,  Y10T137/776 ,  Y10T137/7761 ,  Y10T137/7793

摘要： A pressure type flow rate control reference allows the performance of flow rate calibrations of a flow rate controller on all types of gases, including corrosive gases, at low costs, and also has excellent flow rate control accuracy. The pressure type flow rate control reference includes a pressure controller for adjusting the pressure of a calibration gas from a calibration gas supply source, a first volume provided on the downstream side of a pressure controller, a first connection mouth of an uncalibrated flow rate controller provided on the downstream side of the first volume, a reference pressure type flow rate controller connected to a second connection mouth on the downstream side of the uncalibrated flow rate controller, a second volume provided on the downstream side of a reference pressure type flow rate controller, and an evacuation device provided on the downstream side of the second volume.

摘要翻译： 压力式流量控制参考允许以低成本执行流量控制器对所有类型气体（包括腐蚀性气体）的流量校准，并且还具有优异的流量控制精度。 压力型流量控制基准包括用于调节来自校准气体供给源的校准气体的压力的压力控制器，设置在压力控制器的下游侧的第一容积，未校准的流量控制器的第一连接口， 在第一容积的下游侧具有与未校准流量控制器的下游侧的第二连接口连接的基准压力型流量控制器，设置在基准压力型流量控制器的下游侧的第二容积， 以及设置在第二容积的下游侧的抽空装置。

公开(公告)号：US20100139775A1

公开(公告)日：2010-06-10

申请号：US11913277

申请日：2006-06-22

申请人： Tadahiro Ohmi ,  Masahito Saito ,  Shoichi Hino ,  Tsuyoshi Shimazu ,  Kazuyuki Miura ,  Kouji Nishino ,  Masaaki Nagase ,  Katsuyuki Sugita ,  Kaoru Hirata ,  Ryousuke Dohi ,  Takashi Hirose ,  Tsutomu Shinohara ,  Nobukazu Ikeda ,  Tomokazu Imai ,  Toshihide Yoshida ,  Hisashi Tanaka

发明人： Tadahiro Ohmi ,  Masahito Saito ,  Shoichi Hino ,  Tsuyoshi Shimazu ,  Kazuyuki Miura ,  Kouji Nishino ,  Masaaki Nagase ,  Katsuyuki Sugita ,  Kaoru Hirata ,  Ryousuke Dohi ,  Takashi Hirose ,  Tsutomu Shinohara ,  Nobukazu Ikeda ,  Tomokazu Imai ,  Toshihide Yoshida ,  Hisashi Tanaka

IPC分类号： F15D1/00

CPC分类号： G05D7/0641 ,  G01F1/363 ,  G01F1/6842 ,  G01F1/6847 ,  G01F5/005 ,  G01F7/005 ,  G05D7/0635 ,  G05D7/0647 ,  G05D23/1927 ,  Y10T137/0379 ,  Y10T137/7759 ,  Y10T137/776 ,  Y10T137/8593 ,  Y10T137/86734 ,  Y10T137/86815 ,  Y10T137/87265 ,  Y10T137/87314 ,  Y10T137/8741 ,  Y10T137/87499 ,  Y10T137/87684

摘要： A pressure type flow control device enabling a reduction in size and an installation cost by accurately controlling the flow of a fluid in a wide flow range. Specifically, the flow of the fluid flowing in an orifice (8) is calculated as Qc=KP1 (K is a proportionality factor) or Qc=KP2m(P1−P2)n (K is a proportionality factor and m and n are constants) by using a pressure P1 on the upstream side of the orifice and a pressure P2 on the downstream side of the orifice. A fluid passage between the downstream side of the control valve of the flow control device and a fluid feed pipe is formed of at least two or more fluid passages positioned parallel with each other. Orifices with different fluid flow characteristics are interposed in the fluid passages positioned parallel with each other. For the control of the fluid in a small flow area, the fluid in the small flow area is allowed to flow to one orifice. For the control of the flow in the large flow area, the fluid in the large flow area is allowed to flow to the other orifice by switching the fluid passages.

摘要翻译： 一种压力式流量控制装置，通过精确地控制在大流量范围内的流体的流动，能够减小尺寸和安装成本。 具体地说，在孔（8）中流动的流体的流量被计算为Qc = KP1（K是比例因子）或Qc = KP2m（P1-P2）n（K是比例因子，m和n是常数） 通过使用孔口上游侧的压力P1和孔口下游侧的压力P2。 在流量控制装置的控制阀的下游侧和流体供给管之间的流体通道由彼此平行定位的至少两个或更多个流体通道形成。 具有不同流体流动特性的孔口插入彼此平行定位的流体通道中。 为了控制小流量区域中的流体，允许小流量区域中的流体流到一个孔口。 为了控制大流量区域中的流动，通过切换流体通道允许大流量区域中的流体流向另一个孔口。

公开(公告)号：US09163748B2

公开(公告)日：2015-10-20

申请号：US13522536

申请日：2010-11-25

申请人： Takashi Hirose ,  Hiroshi Ogawa ,  Toshihide Yoshida ,  Kohei Shigyou

发明人： Takashi Hirose ,  Hiroshi Ogawa ,  Toshihide Yoshida ,  Kohei Shigyou

IPC分类号： F16K31/02 ,  F16K31/124 ,  F16K31/122 ,  F16K37/00 ,  G05D7/06

CPC分类号： F16K31/124 ,  F16K31/1226 ,  F16K37/0066 ,  G05D7/0635

摘要： This invention provides a fluid control device capable of making compact a fluid control device in which a valve and a limit switch are combined. A valve 6 includes a piston 26 as a moving member which includes a protruding portion protruding from an opening of a casing 21, and which linearly moves according to opening and closing of the valve 6 so as to abut against a limit switch 7. The limit switch 7 is made to face the piston 26 and is attached via a limit switch positioning unit 8 so as to be adjustable about its position. The limit switch positioning unit 8 includes a first bolt 42 fixed to a body 2, a second bolt 43 fixed to the limit switch 7, and a connection screw 44 which connects both the bolts 42, 43. The first bolt 42 and the second bolt 43 have different pitches from each other.

摘要翻译： 本发明提供一种流体控制装置，其能够使流体控制装置紧凑化，其中阀和限位开关组合在一起。 阀6包括作为移动构件的活塞26，其包括从壳体21的开口突出的突出部分，并且其根据阀6的打开和关闭直线移动以抵靠限位开关7。 开关7被制成面向活塞26并通过限位开关定位单元8附接，以便围绕其位置可调。 限位开关定位单元8包括固定到主体2的第一螺栓42，固定到限位开关7的第二螺栓43和连接两个螺栓42,43的连接螺钉44.第一螺栓42和第二螺栓 43具有彼此不同的间距。

公开(公告)号：US08381755B2

公开(公告)日：2013-02-26

申请号：US13483159

申请日：2012-05-30

申请人： Shuji Moriya ,  Wataru Okase ,  Tsutomu Shinohara ,  Nobukazu Ikeda ,  Michio Yamaji ,  Yasutaka Hayashi ,  Toshihide Yoshida ,  Yasuyuki Omata

发明人： Shuji Moriya ,  Wataru Okase ,  Tsutomu Shinohara ,  Nobukazu Ikeda ,  Michio Yamaji ,  Yasutaka Hayashi ,  Toshihide Yoshida ,  Yasuyuki Omata

IPC分类号： G05D7/06 ,  G05D7/00 ,  F16K31/12 ,  F16K31/02 ,  G01F25/00

CPC分类号： G05D7/0635 ,  Y10T137/2708 ,  Y10T137/776 ,  Y10T137/7761 ,  Y10T137/7793

摘要： A pressure type flow rate control reference allows the performance of flow rate calibrations of a flow rate controller on all types of gases, including corrosive gases, at low costs, and also has excellent flow rate control accuracy. The pressure type flow rate control reference includes a pressure controller for adjusting the pressure of a calibration gas from a calibration gas supply source, a first volume provided on the downstream side of a pressure controller, a first connection mouth of an uncalibrated flow rate controller provided on the downstream side of the first volume, a reference pressure type flow rate controller connected to a second connection mouth on the downstream side of the uncalibrated flow rate controller, a second volume provided on the downstream side of a reference pressure type flow rate controller, and an evacuation device provided on the downstream side of the second volume.

摘要翻译： 压力式流量控制参考允许以低成本执行流量控制器对所有类型气体（包括腐蚀性气体）的流量校准，并且还具有优异的流量控制精度。 压力型流量控制基准包括用于调节来自校准气体供给源的校准气体的压力的压力控制器，设置在压力控制器的下游侧的第一容积，未校准的流量控制器的第一连接口， 在第一容积的下游侧具有与未校准流量控制器的下游侧的第二连接口连接的基准压力型流量控制器，设置在基准压力型流量控制器的下游侧的第二容积， 以及设置在第二容积的下游侧的抽空装置。

公开(公告)号：US20130001453A1

公开(公告)日：2013-01-03

申请号：US13522536

申请日：2010-11-25

申请人： Takashi Hirose ,  Hiroshi Ogawa ,  Toshihide Yoshida ,  Kohei Shigyou

发明人： Takashi Hirose ,  Hiroshi Ogawa ,  Toshihide Yoshida ,  Kohei Shigyou

IPC分类号： F16K51/00

CPC分类号： F16K31/124 ,  F16K31/1226 ,  F16K37/0066 ,  G05D7/0635

摘要： This invention provides a fluid control device capable of making compact a fluid control device in which a valve and a limit switch are combined. A valve 6 includes a piston 26 as a moving member which includes a protruding portion protruding from an opening of a casing 21, and which linearly moves according to opening and closing of the valve 6 so as to abut against a limit switch 7. The limit switch 7 is made to face the piston 26 and is attached via a limit switch positioning unit 8 so as to be adjustable about its position. The limit switch positioning unit 8 includes a first bolt 42 fixed to a body 2, a second bolt 43 fixed to the limit switch 7, and a connection screw 44 which connects both the bolts 42, 43. The first bolt 42 and the second bolt 43 have different pitches from each other.

摘要翻译： 本发明提供一种流体控制装置，其能够使流体控制装置紧凑化，其中阀和限位开关组合在一起。 阀6包括作为移动构件的活塞26，其包括从壳体21的开口突出的突出部分，并且其根据阀6的打开和关闭直线移动以抵靠限位开关7。 开关7被制成面向活塞26并通过限位开关定位单元8附接，以便围绕其位置可调。 限位开关定位单元8包括固定到主体2的第一螺栓42，固定到限位开关7的第二螺栓43和连接两个螺栓42,43的连接螺钉44.第一螺栓42和第二螺栓 43具有彼此不同的间距。

公开(公告)号：US20110315905A1

公开(公告)日：2011-12-29

申请号：US13169971

申请日：2011-06-27

申请人： Takashi HIROSE ,  Tsutomu SHINOHARA ,  Toshihide YOSHIDA ,  Kohei SHIGYOU ,  Michio YAMAJI

发明人： Takashi HIROSE ,  Tsutomu SHINOHARA ,  Toshihide YOSHIDA ,  Kohei SHIGYOU ,  Michio YAMAJI

IPC分类号： F16K31/12

CPC分类号： F16L23/20 ,  F15D1/025 ,  G01F1/40 ,  G01F1/42 ,  G05D7/0635

摘要： A gasket type orifice includes a first orifice base having a through-type passage in a central area thereof, a second orifice base having in a central area thereof a through-type passage communicating with the passage of the first orifice base, and an orifice plate having an orifice hole formed in a central area thereof, wherein the orifice plate is mounted by insertion in an airtight manner between both orifice bases, and the gasket type orifice is installed in a fluid passage, in which the outer end faces of both orifice bases respectively serve as sealing faces, and an outer diameter of the second orifice base, located on the downstream side, is larger than an outer diameter of the first orifice base located on the upstream side, and an outer peripheral edge portion of an inner end face of the second orifice base serves as another sealing face.

摘要翻译： 垫圈型孔口包括在其中心区域具有通孔型通道的第一孔口基座，在其中心区域具有与第一孔口基座的通道连通的通孔型通道的第二孔口基座，以及孔板 具有形成在其中心区域的孔口孔，其中孔板通过在两个孔口底座之间以气密方式插入而安装，并且垫片型孔口安装在流体通道中，其中两个孔口基座的外端面 分别用作密封面，位于下游侧的第二孔基部的外径大于位于上游侧的第一孔基部的外径，内端面的外周缘部 的另一个密封面。

公开(公告)号：US20090171507A1

公开(公告)日：2009-07-02

申请号：US11913271

申请日：2006-05-10

申请人： Tadahiro Ohmi ,  Kouji Nishino ,  Ryousuke Dohi ,  Nobukazu Ikeda ,  Masaaki Nagase ,  Kaoru Hirata ,  Katsuyuki Sugita ,  Tsutomu Shinohara ,  Takashi Hirose ,  Tomokazu Imai ,  Toshihide Yoshida ,  Hisashi Tanaka

发明人： Tadahiro Ohmi ,  Kouji Nishino ,  Ryousuke Dohi ,  Nobukazu Ikeda ,  Masaaki Nagase ,  Kaoru Hirata ,  Katsuyuki Sugita ,  Tsutomu Shinohara ,  Takashi Hirose ,  Tomokazu Imai ,  Toshihide Yoshida ,  Hisashi Tanaka

IPC分类号： G05D7/06 ,  F16L55/027 ,  F16K31/12

CPC分类号： F16K27/003 ,  F16L55/02718 ,  G01F1/36 ,  G01F15/001 ,  G01F15/005 ,  G05D7/0635

摘要： An orifice changeable pressure type flow rate control apparatus comprises a valve body of a control valve for a pressure type flow rate control apparatus installed between an inlet side fitting block provided with a coupling part of a fluid supply pipe and an outlet side fitting block provided with a coupling part of a fluid takeout pipe; a fluid inlet side of the valve body and the inlet side fitting block, and a fluid outlet side of the valve body and the outlet side fitting block are detachably and hermitically connected respectively so a flow passage for gases through the control valve is formed; and, a gasket type orifice for a pressure type flow rate control apparatus is removably inserted between a gasket type orifice insertion hole provided on the outlet side of the valve body and a gasket type orifice insertion hole of the outlet side fitting block.

摘要翻译： 节流孔可变压力型流量控制装置包括安装在设置有流体供给管的联接部的入口侧配件块和设置有流体供给管的出口侧配件块之间的压力型流量控制装置的控制阀的阀体 流体取出管的联接部分; 阀体和入口侧配件块的流体入口侧和阀体和出口侧配件块的流体出口侧分别可拆卸地和隐蔽地连接，从而形成用于通过控制阀的气体的流动通道; 并且用于压力式流量控制装置的垫圈型孔口可移除地插入设置在阀体的出口侧的垫圈型孔插入孔和出口侧配件块的衬垫型孔插入孔之间。

公开(公告)号：US20110120566A1

公开(公告)日：2011-05-26

申请号：US12950798

申请日：2010-11-19

申请人： Tadahiro OHMI ,  Kouji NISHINO ,  Ryousuke DOHI ,  Masaaki NAGASE ,  Katsuyuki SUGITA ,  Kaoru HIRATA ,  Takashi HIROSE ,  Tsutomu SHINOHARA ,  Nobukazu IKEDA ,  Toshihide YOSHIDA ,  Hisashi TANAKA

发明人： Tadahiro OHMI ,  Kouji NISHINO ,  Ryousuke DOHI ,  Masaaki NAGASE ,  Katsuyuki SUGITA ,  Kaoru HIRATA ,  Takashi HIROSE ,  Tsutomu SHINOHARA ,  Nobukazu IKEDA ,  Toshihide YOSHIDA ,  Hisashi TANAKA

IPC分类号： F17D1/00

CPC分类号： G05D7/0635 ,  G01F1/42 ,  G01F7/005 ,  Y10T137/0379

摘要： A fluid flow rate control method is provided that uses a flow rate range variable type pressure type flow rate control device provided with at least two or more parallel fluid passages disposed between the downstream side of a control valve of the control device and a fluid supply pipe passage, and orifices having different fluid flow rate characteristics are respectively interposed in parallel fluid passages to pass fluid in a first flow rate region through one orifice for flow rate control, and to pass fluid in a second flow rate region through at least another orifice for flow rate control. Flow rate characteristics of the respective orifices are selected so that a maximum controllable flow rate of fluid in the first flow rate region at low flow rate is smaller than 10% of a maximum controllable flow rate in the second flow rate region at high flow rate.

摘要翻译： 提供了一种流体流量控制方法，其使用流量范围可变型压力型流量控制装置，该流量范围可变型压力型流量控制装置设置有至少两个或更多个平行的流体通道，该流体通道设置在控制装置的控制阀的下游侧与流体供给管 具有不同流体流速特性的通道和孔分别插入在平行的流体通道中，以使第一流量区域中的流体通过一个孔口用于流量控制，并使第二流量区域中的流体通过至少另一个孔口， 流量控制。 选择相应孔口的流量特性，使得在低流量下第一流量区域中的流体的最大可控流量小于第二流量区域在高流速下的最大可控流量的10％。

公开(公告)号：US20010014815A1

公开(公告)日：2001-08-16

申请号：US09739818

申请日：2000-12-20

申请人： MATSUSHITA ELECTRIC WORKS, Ltd. And Toshihide YOSHIDA

发明人： Yuko Matsumura ,  Yasuhiro Sato ,  Hideo Iwata ,  Toshihide Yoshida

IPC分类号： A61N001/00

CPC分类号： A61H23/0245

摘要： A slimming device capable of activating effectively an uncoupling protein to provide a good slimming action is disclosed. The slimming device comprises a means for a physical stimulation that comprises physically stimulating an uncoupling protein that is responsible for thermogenesis to activate the same, thereby generating the heat. An uncoupling protein can be effectively activated by the physical stimulation.

摘要翻译： 公开了能够有效激活解偶联蛋白以提供良好的减肥作用的减肥装置。 减肥装置包括用于物理刺激的装置，其包括物理刺激负责生热的解偶联蛋白以使其活化，由此产生热量。 解偶联蛋白可以通过物理刺激被有效的激活。

公开(公告)号：US09127796B2

公开(公告)日：2015-09-08

申请号：US13169971

申请日：2011-06-27

申请人： Takashi Hirose ,  Tsutomu Shinohara ,  Toshihide Yoshida ,  Kohei Shigyou ,  Michio Yamaji

发明人： Takashi Hirose ,  Tsutomu Shinohara ,  Toshihide Yoshida ,  Kohei Shigyou ,  Michio Yamaji

IPC分类号： G05D7/06 ,  F16L23/20 ,  F15D1/02 ,  G01F1/40 ,  G01F1/42

CPC分类号： F16L23/20 ,  F15D1/025 ,  G01F1/40 ,  G01F1/42 ,  G05D7/0635

摘要： A gasket type orifice includes a first orifice base having a through-type passage in a central area thereof, a second orifice base having in a central area thereof a through-type passage communicating with the passage of the first orifice base, and an orifice plate having an orifice hole formed in a central area thereof, wherein the orifice plate is mounted by insertion in an airtight manner between both orifice bases, and the gasket type orifice is installed in a fluid passage, in which the outer end faces of both orifice bases respectively serve as sealing faces, and an outer diameter of the second orifice base, located on the downstream side, is larger than an outer diameter of the first orifice base located on the upstream side, and an outer peripheral edge portion of an inner end face of the second orifice base serves as another sealing face.

摘要翻译： 垫圈型孔口包括在其中心区域具有通孔型通道的第一孔口基座，在其中心区域具有与第一孔口基座的通道连通的通孔型通道的第二孔口基座，以及孔板 具有形成在其中心区域的孔口孔，其中孔板通过在两个孔口底座之间以气密方式插入而安装，并且垫片型孔口安装在流体通道中，其中两个孔口基座的外端面 分别用作密封面，位于下游侧的第二孔基部的外径大于位于上游侧的第一孔基部的外径，内端面的外周缘部 的另一个密封面。