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1. 发明授权

US6422264B2 Parallel divided flow-type fluid supply apparatus, and fluid-switchable pressure-type flow control method and fluid-switchable pressure-type flow control system for the same fluid supply apparatus 有权
标题翻译：平行分流式流体供给装置和流体切换式压力式流量控制方法以及用于同一流体供给装置的流体切换型压力式流量控制系统
公开(公告)号：US6422264B2
公开(公告)日：2002-07-23
申请号：US73464000
申请日：2000-12-13
申请人： FUJIKIN KK , OHMI TADAHIRO , TOKYO ELECTRON LTD
发明人： OHMI TADAHIRO , KAGATSUME SATOSHI , SUGIYAMA KAZUHIKO , MINAMI YUKIO , NISHINO KOUJI , DOHI RYOUSUKE , YONEHANA KATSUNORI , IKEDA NOBUKAZU , YAMAJI MICHIO , HIROSE JUN , FUKAZAWA KAZUO , KOIZUMI HIROSHI , NAGAOKA HIDEKI , MORIMOTO AKIHIRO , UNO TOMIO , IDETA EIJI , MATSUMOTO ATSUSHI , UENOYAMA TOYOMI , HIROSE TAKASHI
IPC分类号： G05D7/06
CPC分类号： G05D7/0658 , G05D7/0664 , Y10S438/935 , Y10T137/0396 , Y10T137/7759 , Y10T137/7761 , Y10T137/86389 , Y10T137/87877 , Y10T137/87917
摘要： A fluid supply apparatus with a plurality of flow lines branching out from one pressure regulator with the flow lines arranged in parallel and constructed so that opening or closing one flow passage will have no transient effect on the steady flow of the other flow passages. Each flow passage is provided with a time delay-type mass flow controller MFC so that when one closed fluid passage is opened, the mass flow controller on that flow passage reaches a set flow rate Qs in a specific delay time DELTAt from the starting point.The invention includes a method and an apparatus in which a plurality of gas types can be controlled in flow rate with high precision by one pressure-type flow control system.
摘要翻译：一种流体供给装置，具有从一个压力调节器分支出的多个流动管线，流动线平行布置并构造成使得打开或关闭一个流动通道对其它流动通道的稳定流动将没有暂时的影响。每个流路设置有时间延迟型质量流量控制器MFC，使得当一个封闭流体通道打开时，该流路上的质量流量控制器在起始点的特定延迟时间DELTAt中达到设定流量Qs。本发明包括通过一个压力式流量控制系统以高精度控制多种气体类型的方法和装置。

2. 发明专利

AT308074T 未知
公开(公告)号：AT308074T
公开(公告)日：2005-11-15
申请号：AT99935121
申请日：1999-08-09
申请人： FUJIKIN KK , TOKYO ELECTRON LTD , OHMI TADAHIRO
发明人： OHMI TADAHIRO , KAGATSUME SATOSHI , KITASHIMOJO FUJIICHO , HIROSE JUN , NISHINO KOUJI
IPC分类号： F16K7/14 , C01B5/00 , F15D1/04 , F16K31/06 , G05B11/36 , G05D7/06
摘要： A fluid-switchable flow rate control system that permits free changing of the full scale flow rate and which can control a plurality of kinds of fluids with high precision. The fluid-switchable flow rate control system controls the flow rate of fluid with the pressure P1 on the upstream side of the orifice member held about twice or more higher than the downstream pressure P2, the fluid-switchable flow rate control system comprising an orifice member 8 replaceable with another to provide a suitable orifice diameter according to the kind of fluid and the flow rate range, a control valve 2 provided on the upstream side thereof, a pressure detector 6 provided between the control valve 2 and the orifice member 8, and a flow rate calculation circuit 14 where, from the pressure P1 detected by the pressure detector, the flow rate Qc is calculated by the equation Qc = KP1 (K: constant), a flow rate-setting circuit 16 for outputting flow rate setting signal Qe, a flow rate conversion circuit 18 for multiplying the calculated flow rate signal Qc by the flow rate conversion rate k into switch-over calculated flow rate signal Qf (Qf = kQc) to change the full scale flow rate, and a calculation control circuit 20 to output the difference between the switch-over calculation flow rate signal Qf and the flow rate setting signal Qe as control signal Qy to the drive 4 of the control valve 2, thereby opening or closing the control valve to bring the control signal Qy to zero, thus controlling the flow rate on the downstream side of the orifice member.

3. 发明专利

CA2346202C STRUCTURE OR CONSTRUCTION FOR MOUNTING A PRESSURE DETECTOR 未知
公开(公告)号：CA2346202C
公开(公告)日：2005-02-08
申请号：CA2346202
申请日：2000-08-03
申请人： FUJIKIN KK , OHMI TADAHIRO , TOKYO ELECTRON LTD
发明人： IKEDA NOBUKAZU , KOIZUMI HIROSHI , NAGAOKA HIDEKI , KAGATSUME SATOSHI , HIROSE TAKASHI , IDETA EIJI , HIROSE JUN , FUKASAWA KAZUO , DOHI RYOUSUKE , YOSHIKAWA KAZUHIRO , NISHINO KOUJI , OHMI TADAHIRO
IPC分类号： G01L9/04 , G01L9/00 , G01L19/00 , G01L19/04 , G01L19/06 , G01L19/14 , G01L7/08
摘要： A construction for mounting a pressure detector prevents the detector diaphragm from being strained by stress applied to the pressure detector as the detector is mounted in a fixture main body provided in a pipe line or the like, thereby keeping the output characteristics and temperature characteristics o f the detector from greatly differing before and after the mounting. The pressure detector is constructed by combining and fastening together a diaphragm base having a diaphragm and a sensor base having a sensor element therein that is activated by displacement of the diaphragm base. The pressure detector, with a gasket placed thereunder, is disposed in a mounting hole of a fixture main body that is mounted in a pipe line. The pressure detector is air-tightly pressed and fastened by a presser member inserted from above in the mounting hole. The presser member is brought in contact with a block upper surface of t he diaphragm base, and the gasket is also brought in contact with the block low er surface of the diaphragm base. A shallow groove is defined in the form of a ring on the lower surface of the block at a place inward of the portion contactin g the metal gasket so that the shallow groove absorbs strain caused by the presser member.

4. 发明专利

DE69912239D1 未知
公开(公告)号：DE69912239D1
公开(公告)日：2003-11-27
申请号：DE69912239
申请日：1999-08-09
申请人： FUJIKIN KK , TOKYO ELECTRON LTD , OHMI TADAHIRO
发明人： OHMI TADAHIRO , IIDA SEIICHI , KAGATSUME SATOSHI , HIROSE JUN , NISHINO KOUJI , IKEDA NOBUKAZU , YAMAJI MICHIO , DOHI RYOUSUKE , YOSHIKAWA KAZUHIRO , KOYOMOGI MUTSUNORI , UNO TOMIO , IDETA EIJI , HIROSE TAKASHI
IPC分类号： G05D7/06 , F16K37/00
摘要： A method and apparatus for detection of the clogging of the orifice by measuring the upstream side pressure without breaking up the piping system in a flow rate control unit using an orifice, so as to extend the life of the flow control unit and enhance its safety. To be specific, the apparatus of detecting the clogging of the orifice in a pressure-type rate flow controller has a control valve (CV), an orifice (2), a pressure detector (14) for measuring the upstream pressure P1 therebetween and a flow rate setting circuit (32) wherein with the upstream pressure P1 maintained about two or more times higher than the downstream pressure P2, the downstream flow rate QC is calculated from the equation QC = KP1 (K: constant) and wherein the control valve (CV) is controlled by the difference signal QY between the calculated flow rate QC and the set flow rate QS, the apparatus comprising: a storage memory M memorizing standard pressure attenuation data Y(t) of the upstream pressure P1 measured with the flow rate switched from the high set flow rate QSH to the low set flow rate QSL, with the orifice (2) not clogged a pressure detector (14) for determination of the pressure attenuation data P(t) of the upstream pressure P1 with the flow rate switched from the high set flow rate QSR to the low set flow rate QSL, with the orifice (2) in the actual conditions a central processing unit CPU for checking the pressure attenuation data P(t) against standard pressure attenuation data Y(t) and an alarm circuit (46) that turns on a clogging alarm when the pressure attenuation data P(t) deviates from standard pressure attenuation data Y(t) to a specific degree or beyond that.

5. 发明专利

AT389202T 未知
公开(公告)号：AT389202T
公开(公告)日：2008-03-15
申请号：AT05076130
申请日：1999-08-09
申请人： FUJIKIN KK , TOKYO ELECTRON LTD , OHMI TADAHIRO
发明人： OHMI TADAHIRO , KAGATSUME SATOSHI , HIROSE JUN , NISHINO KOUJI
IPC分类号： F16K7/14 , G05D7/06 , C01B5/00 , F15D1/04 , F16K31/06 , G05B11/36
摘要： A fluid-switchable flow rate control system that permits free changing of the full scale flow rate and which can control a plurality of kinds of fluids with high precision. The fluid-switchable flow rate control system controls the flow rate of fluid with the pressure P1 on the upstream side of the orifice member held about twice or more higher than the downstream pressure P2, the fluid-switchable flow rate control system comprising an orifice member 8 replaceable with another to provide a suitable orifice diameter according to the kind of fluid and the flow rate range, a control valve 2 provided on the upstream side thereof, a pressure detector 6 provided between the control valve 2 and the orifice member 8, and a flow rate calculation circuit 14 where, from the pressure P1 detected by the pressure detector, the flow rate Qc is calculated by the equation Qc = KP1 (K: constant), a flow rate-setting circuit 16 for outputting flow rate setting signal Qe, a flow rate conversion circuit 18 for multiplying the calculated flow rate signal Qc by the flow rate conversion rate k into switch-over calculated flow rate signal Qf (Qf = kQc) to change the full scale flow rate, and a calculation control circuit 20 to output the difference between the switch-over calculation flow rate signal Qf and the flow rate setting signal Qe as control signal Qy to the drive 4 of the control valve 2, thereby opening or closing the control valve to bring the control signal Qy to zero, thus controlling the flow rate on the downstream side of the orifice member.

6. 发明专利

CA2345097C METHOD OF DETECTING ABNORMALITIES IN FLOW RATE IN PRESSURE-TYPE FLOW CONTROLLER 未知
公开(公告)号：CA2345097C
公开(公告)日：2004-05-11
申请号：CA2345097
申请日：2000-07-27
申请人： TOKYO ELECTRON LTD , IIDA SEIICHI , OHMI TADAHIRO , FUJIKIN KK
发明人： IIDA SEIICHI , KAGATSUME SATOSHI , IDETA EIJI , IKEDA NOBUKAZU , HIROSE JUN , FUKASAWA KAZUO , OHMI TADAHIRO , NAGAOKA HIDEKI , KOIZUMI HIROSHI , UNO TOMIO , NISHINO KOUJI , DOHI RYOUSUKE
IPC分类号： G01F1/36 , F16K37/00 , G05B23/02 , G05D7/06 , G01D21/00 , F16K17/22
摘要： A method checks the flow rate for abnormalities while controlling the fl ow rate of fluid in a pressure-type flow controller FCS using an orifice - the pressure-type flow controller wherein with the upstream pressure P1 maintained about two o r more times higher than the downstream pressure P2, the downstream flow rate Q C i s calculated by the equation Q C = KP1 (K: constant) and wherein the control valve CV is controlled on the basis of the difference signal Q Y between the calculated flow rate Q C and the set flow rate Q S. The method comprises, outputting a testing signal .DELTA.Qs having a testing amplitude Vo from a testing circuit provided separately or a flow rate setting circuit to the control valve CV, measuring the pressure amplitude V of the variable pressure .DELTA.P1 of the pressure P1 on the upstream side of the orifice th at arises in response to actuation of the control valve CV and setting off an alarm for t he clogging of the orifice when the pressure amplitude V is smaller than a limit amplitu de Vt. If the testing signal .DELTA.Qs is superimposed on a steady-state set flow rate signal Qso and outputted to control the valve CV from the testing circuit or the flow rate setting circuit, the flow rate can be checked for abnormalities while controlling the flow ra te by the steady-state set flow rate signal Qso.

7. 发明专利

DE69938368T2 未知
公开(公告)号：DE69938368T2
公开(公告)日：2009-03-05
申请号：DE69938368
申请日：1999-08-09
申请人： FUJIKIN KK , TOKYO ELECTRON LTD , OHMI TADAHIRO
发明人： OHMI TADAHIRO , KAGATSUME SATOSHI , HIROSE JUN , NISHINO KOUJI
IPC分类号： F16K7/14 , G05D7/06 , C01B5/00 , F15D1/04 , F16K31/06 , G05B11/36
摘要： A fluid-switchable flow rate control system that permits free changing of the full scale flow rate and which can control a plurality of kinds of fluids with high precision. The fluid-switchable flow rate control system controls the flow rate of fluid with the pressure P1 on the upstream side of the orifice member held about twice or more higher than the downstream pressure P2, the fluid-switchable flow rate control system comprising an orifice member 8 replaceable with another to provide a suitable orifice diameter according to the kind of fluid and the flow rate range, a control valve 2 provided on the upstream side thereof, a pressure detector 6 provided between the control valve 2 and the orifice member 8, and a flow rate calculation circuit 14 where, from the pressure P1 detected by the pressure detector, the flow rate Qc is calculated by the equation Qc = KP1 (K: constant), a flow rate-setting circuit 16 for outputting flow rate setting signal Qe, a flow rate conversion circuit 18 for multiplying the calculated flow rate signal Qc by the flow rate conversion rate k into switch-over calculated flow rate signal Qf (Qf = kQc) to change the full scale flow rate, and a calculation control circuit 20 to output the difference between the switch-over calculation flow rate signal Qf and the flow rate setting signal Qe as control signal Qy to the drive 4 of the control valve 2, thereby opening or closing the control valve to bring the control signal Qy to zero, thus controlling the flow rate on the downstream side of the orifice member.

8. 发明专利

DE60036362T2 未知
公开(公告)号：DE60036362T2
公开(公告)日：2008-06-12
申请号：DE60036362
申请日：2000-07-27
申请人： TOKYO ELECTRON LTD , FUJIKIN KK , OHMI TADAHIRO , IIDA SEIICHI
发明人： OHMI TADAHIRO , IIDA SEIICHI , KAGATSUME SATOSHI , HIROSE JUN , FUKASAWA KAZUO , KOIZUMI HIROSHI , NAGAOKA HIDEKI , UNO TOMIO , NISHINO KOUJI , IKEDA NOBUKAZU , DOHI RYOUSUKE , IDETA EIJI
IPC分类号： G01F1/36 , G05B23/02 , F16K17/22 , F16K37/00 , G01D21/00 , G05D7/06
摘要： A method checks the flow rate for abnormalities while controlling the flow rate of fluid in a pressure-type flow controller FCS using an orifice - the pressure-type flow controller wherein with the upstream pressure P1 maintained about two or more times higher than the downstream pressure P2, the downstream flow rate QC is calculated by the equation QC = KP1 (K: constant) and wherein the control valve CV is controlled on the basis of the difference signal QY between the calculated flow rate QC and the set flow rate QS. The method comprises, outputting a testing signal DELTA Qs having a testing amplitude Vo from a testing circuit provided separately or a flow rate setting circuit to the control valve CV, measuring the pressure amplitude V of the variable pressure DELTA P1 of the pressure P1 on the upstream side of the orifice that arises in response to actuation of the control valve CV and setting off an alarm for the clogging of the orifice when the pressure amplitude V is smaller than a limit amplitude Vt. If the testing signal DELTA Qs is superimposed on a steady-state set flow rate signal Qso and outputted to control the valve CV from the testing circuit or the flow rate setting circuit, the flow rate can be checked for abnormalities while controlling the flow rate by the steady-state set flow rate signal Qso.

9. 发明专利

AT373257T 未知
公开(公告)号：AT373257T
公开(公告)日：2007-09-15
申请号：AT00948265
申请日：2000-07-27
申请人： TOKYO ELECTRON LTD , FUJIKIN KK , OHMI TADAHIRO , IIDA SEIICHI
发明人： OHMI TADAHIRO , IIDA SEIICHI , KAGATSUME SATOSHI , HIROSE JUN , FUKASAWA KAZUO , KOIZUMI HIROSHI , NAGAOKA HIDEKI , UNO TOMIO , NISHINO KOUJI , IKEDA NOBUKAZU , DOHI RYOUSUKE , IDETA EIJI
IPC分类号： G01F1/36 , G05B23/02 , F16K17/22 , F16K37/00 , G01D21/00 , G05D7/06
摘要： A method checks the flow rate for abnormalities while controlling the flow rate of fluid in a pressure-type flow controller FCS using an orifice - the pressure-type flow controller wherein with the upstream pressure P1 maintained about two or more times higher than the downstream pressure P2, the downstream flow rate QC is calculated by the equation QC = KP1 (K: constant) and wherein the control valve CV is controlled on the basis of the difference signal QY between the calculated flow rate QC and the set flow rate QS. The method comprises, outputting a testing signal DELTA Qs having a testing amplitude Vo from a testing circuit provided separately or a flow rate setting circuit to the control valve CV, measuring the pressure amplitude V of the variable pressure DELTA P1 of the pressure P1 on the upstream side of the orifice that arises in response to actuation of the control valve CV and setting off an alarm for the clogging of the orifice when the pressure amplitude V is smaller than a limit amplitude Vt. If the testing signal DELTA Qs is superimposed on a steady-state set flow rate signal Qso and outputted to control the valve CV from the testing circuit or the flow rate setting circuit, the flow rate can be checked for abnormalities while controlling the flow rate by the steady-state set flow rate signal Qso.

10. 发明专利

DE69927932D1 未知
公开(公告)号：DE69927932D1
公开(公告)日：2005-12-01
申请号：DE69927932
申请日：1999-08-09
申请人： FUJIKIN KK , TOKYO ELECTRON LTD , OHMI TADAHIRO
发明人： OHMI TADAHIRO , KAGATSUME SATOSHI , HIROSE JUN , NISHINO KOUJI
IPC分类号： F16K7/14 , C01B5/00 , F15D1/04 , F16K31/06 , G05B11/36 , G05D7/06
摘要： A fluid-switchable flow rate control system that permits free changing of the full scale flow rate and which can control a plurality of kinds of fluids with high precision. The fluid-switchable flow rate control system controls the flow rate of fluid with the pressure P1 on the upstream side of the orifice member held about twice or more higher than the downstream pressure P2, the fluid-switchable flow rate control system comprising an orifice member 8 replaceable with another to provide a suitable orifice diameter according to the kind of fluid and the flow rate range, a control valve 2 provided on the upstream side thereof, a pressure detector 6 provided between the control valve 2 and the orifice member 8, and a flow rate calculation circuit 14 where, from the pressure P1 detected by the pressure detector, the flow rate Qc is calculated by the equation Qc = KP1 (K: constant), a flow rate-setting circuit 16 for outputting flow rate setting signal Qe, a flow rate conversion circuit 18 for multiplying the calculated flow rate signal Qc by the flow rate conversion rate k into switch-over calculated flow rate signal Qf (Qf = kQc) to change the full scale flow rate, and a calculation control circuit 20 to output the difference between the switch-over calculation flow rate signal Qf and the flow rate setting signal Qe as control signal Qy to the drive 4 of the control valve 2, thereby opening or closing the control valve to bring the control signal Qy to zero, thus controlling the flow rate on the downstream side of the orifice member.

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