子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 用于流路控制的阀门的控制方法以及器械,尤其医疗器械 | CN201310052420.X | 2009-02-26 | CN103143073A | 2013-06-12 | F·L·赫德曼; S·克劳特 |
| 本发明包括控制用于流路控制中的阀门的方法,特别是在用于医疗器械中的方法,该方法具有多个处理程序,用于通过控制一组阀门来产生流路,每个处理程序要求适合用于其执行的一组阀门,使得其它处理程序不能改变这些阀门的转换状态,并且每个处理程序自己决定其所要求的阀门的释放。本发明还包括用于监控多个阀门的当时实际和/或预定转换状态的方法,更具体地用于医疗器械的方法,该方法具有以下步骤:确定阀门的当时实际和/或预定转换状态;确定由阀门的转换状态产生的连接;比较产生的连接和预定数量的未允许连接。本发明还包括一种具有相应的阀门或者阀门致动器控制器的器械,特别是医疗器械。 | ||||||
| 2 | 用于流路控制的阀门的控制方法以及器械,尤其医疗器械 | CN200980115294.X | 2009-02-26 | CN102014983B | 2014-07-23 | F·L·赫德曼; S·克劳特 |
| 本发明包括控制用于流路控制中的阀门的方法,特别是在用于医疗器械中的方法,该方法具有多个处理程序,用于通过控制一组阀门来产生流路,每个处理程序要求适合用于其执行的一组阀门,使得其它处理程序不能改变这些阀门的转换状态,并且每个处理程序自己决定其所要求的阀门的释放。本发明还包括用于监控多个阀门的当时实际和/或预定转换状态的方法,更具体地用于医疗器械的方法,该方法具有以下步骤:确定阀门的当时实际和/或预定转换状态;确定由阀门的转换状态产生的连接;比较产生的连接和预定数量的未允许连接。本发明还包括一种具有相应的阀门或者阀门致动器控制器的器械,特别是医疗器械。 | ||||||
| 3 | 用于流路控制的阀门的控制方法以及器械,尤其医疗器械 | CN201310052420.X | 2009-02-26 | CN103143073B | 2016-05-25 | F·L·赫德曼; S·克劳特 |
| 本发明包括控制用于流路控制中的阀门的方法,特别是在用于医疗器械中的方法,该方法具有多个处理程序,用于通过控制一组阀门来产生流路,每个处理程序要求适合用于其执行的一组阀门,使得其它处理程序不能改变这些阀门的转换状态,并且每个处理程序自己决定其所要求的阀门的释放。本发明还包括用于监控多个阀门的当时实际和/或预定转换状态的方法,更具体地用于医疗器械的方法,该方法具有以下步骤:确定阀门的当时实际和/或预定转换状态;确定由阀门的转换状态产生的连接;比较产生的连接和预定数量的未允许连接。本发明还包括一种具有相应的阀门或者阀门致动器控制器的器械,特别是医疗器械。 | ||||||
| 4 | 用于流路控制的阀门的控制方法以及器械,尤其医疗器械 | CN200980115294.X | 2009-02-26 | CN102014983A | 2011-04-13 | F·L·赫德曼; S·克劳特 |
| 本发明包括控制用于流路控制中的阀门的方法,特别是在用于医疗器械中的方法,该方法具有多个处理程序,用于通过控制一组阀门来产生流路,每个处理程序要求适合用于其执行的一组阀门,使得其它处理程序不能改变这些阀门的转换状态,并且每个处理程序自己决定其所要求的阀门的释放。本发明还包括用于监控多个阀门的当时实际和/或预定转换状态的方法,更具体地用于医疗器械的方法,该方法具有以下步骤:确定阀门的当时实际和/或预定转换状态;确定由阀门的转换状态产生的连接;比较产生的连接和预定数量的未允许连接。本发明还包括一种具有相应的阀门或者阀门致动器控制器的器械,特别是医疗器械。 | ||||||
| 5 | Method and apparatus for controlling valves for flow path control | JP2010548022 | 2009-02-26 | JP5400805B2 | 2014-01-29 | エル.ヘドマン フランク; クラッテ シュテファン |
| A method for the control of valves for flow path control, in particular in a medical treatment machine, having a plurality of processes for the manufacture of flow paths by control of a group of valves, with each process claiming a group of valves suitable for its carrying out for itself so that other processes cannot change the switching state of these valves and with each process itself making a decision on the release of the valves claimed by it. In addition, a method is provided for monitoring the then current and/or scheduled state of a plurality of valves in the flow path control, determining the connections resulting from the switching state of the valves, and comparing the resulting connections with a predetermined number of non-permitted connections. | ||||||
| 6 | Method and apparatus for controlling valves for flow path control | JP2010548022 | 2009-02-26 | JP2011512917A | 2011-04-28 | クラッテ シュテファン; エル.ヘドマン フランク |
| The present invention includes a method for the control of valves for flow path control, in particular in a medical treatment machine, having a plurality of processes for the manufacture of flow paths by control of a group of valves, with each process claiming a group of valves suitable for its carrying out for itself so that other processes cannot change the switching state of these valves and with each process itself making a decision on the release of the valves claimed by it. The invention furthermore includes a method for the monitoring of the then current and/or scheduled state of a plurality of valves in the flow path control, in particular in a medical treatment machine, having the steps: determining the then current and/or scheduled switching state of the valves; determining the connections resulting from the switching state of the valves; comparing the resulting connections with a predetermined number of non-permitted connections. The invention furthermore includes machines, in particular medical treatment machines, having corresponding valve or valve actuator controls. | ||||||
| 7 | VERFAHREN ZUR ANSTEUERUNG VON VENTILEN ZUR FLUSSWEGSTEUERUNG UND MASCHINEN, INSBESONDERE MEDIZINISCHE BEHANDLUNGSMASCHINEN | EP09714488.5 | 2009-02-26 | EP2247323A2 | 2010-11-10 | HEDMANN, Frank L.; KLATTE, Stephan |
| The present invention includes a method for the control of valves for flow path control, in particular in a medical treatment machine, having a plurality of processes for the manufacture of flow paths by control of a group of valves, with each process claiming a group of valves suitable for its carrying out for itself so that other processes cannot change the switching state of these valves and with each process itself making a decision on the release of the valves claimed by it. The invention furthermore includes a method for the monitoring of the then current and/or scheduled state of a plurality of valves in the flow path control, in particular in a medical treatment machine, having the steps: determining the then current and/or scheduled switching state of the valves; determining the connections resulting from the switching state of the valves; comparing the resulting connections with a predetermined number of non-permitted connections. The invention furthermore includes machines, in particular medical treatment machines, having corresponding valve or valve actuator controls. | ||||||
| 8 | Method For Actuating Valves For Controlling a Flow Path and Machines, Especially Medical Treatment Machines | US12735889 | 2009-02-26 | US20100319780A1 | 2010-12-23 | Frank L. Hedmann; Stephan Klatte |
| The present invention includes a method for the control of valves for flow path control, in particular in a medical treatment machine, having a plurality of processes for the manufacture of flow paths by control of a group of valves, with each process claiming a group of valves suitable for its carrying out for itself so that other processes cannot change the switching state of these valves and with each process itself making a decision on the release of the valves claimed by it. The invention furthermore includes a method for the monitoring of the then current and/or scheduled state of a plurality of valves in the flow path control, in particular in a medical treatment machine, having the steps: determining the then current and/or scheduled switching state of the valves; determining the connections resulting from the switching state of the valves; comparing the resulting connections with a predetermined number of non-permitted connections. The invention furthermore includes machines, in particular medical treatment machines, having corresponding valve or valve actuator controls. | ||||||
| 9 | Pneumatic or hydraulic adding circuit | US33870964 | 1964-01-20 | US3380465A | 1968-04-30 | JANOS RONA |
| 10 | Fluid amplifier serial digital adder logic circuit | US53790766 | 1966-03-28 | US3350009A | 1967-10-31 | ROSE ROBERT K |
| 11 | Fluid logic half adder-subtractor | US37770364 | 1964-06-24 | US3239143A | 1966-03-08 | GOBHAI CAVAS M |
| 12 | Hydraulic computer | US37282064 | 1964-06-05 | US3239141A | 1966-03-08 | BEST STANLEY G |
| 13 | Pure fluid computer | US28911063 | 1963-06-19 | US3190554A | 1965-06-22 | GEHRING JR ARTHUR J; MARVIN JACOBY; DRAKE READER TREVOR |
| 14 | Fluid pressure digital computer | US64110957 | 1957-02-19 | US3057551A | 1962-10-09 | ETTER THOMAS L |
| 15 | SMOKESCREEN GENERATOR | EP16857273.3 | 2016-10-04 | EP3367049A1 | 2018-08-29 | MIMURA, Atsushi; HIGUCHI, Yuji; KURODA, Takao; NAKAHASHI, Katsuhiro |
The present invention provides a smoke screen generator with a high diffusion rate of a smoke screen. Openings at both ends of a cylindrical housing are closed by a first closure 20 including an igniter and a second closure 30 having a smoke screen source discharge port 38 respectively. A porous cylindrical body 50 is arranged between the first closure 20 and the second closure 30. When an igniter 5 is actuated, a smoke screen generating agent 56 in a smoke screen generating agent-accommodating chamber 55 is ignited and burned, and a smoke screen source is generated. The smoke screen source moves and passes through the porous cylindrical body 50 and, after passing through a smoke screen source discharge port 38, the smoke screen source is discharged to the outside to generate a smoke screen. |
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| 16 | VERFAHREN ZUR ANSTEUERUNG VON VENTILEN ZUR FLUSSWEGSTEUERUNG UND MASCHINEN, INSBESONDERE MEDIZINISCHE BEHANDLUNGSMASCHINEN | EP09714488.5 | 2009-02-26 | EP2247323B1 | 2011-08-24 | HEDMANN, Frank L.; KLATTE, Stephan |
| The present invention includes a method for the control of valves for flow path control, in particular in a medical treatment machine, having a plurality of processes for the manufacture of flow paths by control of a group of valves, with each process claiming a group of valves suitable for its carrying out for itself so that other processes cannot change the switching state of these valves and with each process itself making a decision on the release of the valves claimed by it. The invention furthermore includes a method for the monitoring of the then current and/or scheduled state of a plurality of valves in the flow path control, in particular in a medical treatment machine, having the steps: determining the then current and/or scheduled switching state of the valves; determining the connections resulting from the switching state of the valves; comparing the resulting connections with a predetermined number of non-permitted connections. The invention furthermore includes machines, in particular medical treatment machines, having corresponding valve or valve actuator controls. | ||||||
| 17 | Smoke screen generator | US15759934 | 2016-10-04 | US10145658B2 | 2018-12-04 | Atsushi Mimura; Yuji Higuchi; Takao Kuroda; Katsuhiro Nakahashi |
| The present invention provides a smoke screen generator with a high diffusion rate of a smoke screen.Openings at both ends of a cylindrical housing are closed by a first closure 20 including an igniter and a second closure 30 having a smoke screen source discharge port 38 respectively. A porous cylindrical body 50 is arranged between the first closure 20 and the second closure 30. When an igniter 5 is actuated, a smoke screen generating agent 56 in a smoke screen generating agent-accommodating chamber 55 is ignited and burned, and a smoke screen source is generated. The smoke screen source moves and passes through the porous cylindrical body 50 and, after passing through a smoke screen source discharge port 38, the smoke screen source is discharged to the outside to generate a smoke screen. | ||||||
| 18 | SMOKE SCREEN GENERATOR | US15759934 | 2016-10-04 | US20180259301A1 | 2018-09-13 | Atsushi MIMURA; Yuji HIGUCHI; Takao KURODA; Katsuhiro NAKAHASHI |
| The present invention provides a smoke screen generator with a high diffusion rate of a smoke screen.Openings at both ends of a cylindrical housing are closed by a first closure 20 including an igniter and a second closure 30 having a smoke screen source discharge port 38 respectively. A porous cylindrical body 50 is arranged between the first closure 20 and the second closure 30. When an igniter 5 is actuated, a smoke screen generating agent 56 in a smoke screen generating agent-accommodating chamber 55 is ignited and burned, and a smoke screen source is generated. The smoke screen source moves and passes through the porous cylindrical body 50 and, after passing through a smoke screen source discharge port 38, the smoke screen source is discharged to the outside to generate a smoke screen. | ||||||
| 19 | DEVICE INTEGRATION PLATFORM SYSTEMS AND METHODS | US15634337 | 2017-06-27 | US20180004550A1 | 2018-01-04 | Jarl NILSSON |
| This disclosure relates to a platform for integrating a variety of devices. The platform may provide a plurality of contact points configured to couple with one or more interfaces on a device and/or termination points of various connectors. Embodiments of the disclosed platform may facilitate construction and/or prototyping of chemical and/or biological analysis and/or diagnostic systems that include multiple devices. Further embodiments, allow for the management of various interconnected devices in accordance with one or more articulated policies. | ||||||
| 20 | METHOD FOR ACTUATING VALVES FOR CONTROLLING A FLOW PATH AND MACHINES, ESPECIALLY MEDICAL TREATMENT MACHINES | US14157322 | 2014-01-16 | US20140200720A1 | 2014-07-17 | Frank L. HEDMANN; Stephan KLATTE |
| A method is provided for the control of valves for flow path control, in particular in a medical treatment machine, having a plurality of processes for the manufacture of flow paths by control of a group of valves, with each process claiming a group of valves suitable for its carrying out for itself so that other processes cannot change the switching state of these valves and with each process itself making a decision on the release of the valves claimed by it. In addition, a method is provided for monitoring the then current and/or scheduled state of a plurality of valves in the flow path control, determining the connections resulting from the switching state of the valves, and comparing the resulting connections with a predetermined number of non-permitted connections. | ||||||
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