| 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 | 用于输出或启用具有潜在危险的控制命令的可移动手动设备的操作方法及相应手动设备 | CN200980135245.2 | 2009-07-15 | CN102150089A | 2011-08-10 | G·普赖辛格; M·申宁格; C·沃戈; A·泽尼戈 |
| 本发明涉及可移动手动设备(9)的操作方法,手动设备(9)用于对与该手动设备或其他手动设备(9’)有效连接的可控技术装置(1)输出或启用具有潜在危险的控制命令。设置包括至少一个评估电路和与评估电路信号连接的至少一个确认键(18)的安全开关装置(16),确认键具有在无操作力时自动位于的静止状态和通过不同操作力和/或通过不同调整行程确定的确认操作状态和惊慌操作状态形式的两个连续操作状态。为该至少一个确认键(18)分配激活模式或不活动模式,激活模式中当进入确认操作状态时能提供或信号发送确认状态以执行具有潜在危险的操作命令,不活动模式中抑制或不支持确认状态的提供或信号发送。当评估电路基于信号探测到进入惊慌操作状态或进入惊慌操作状态及静止状态时或之后,为相应确认键(18)分配激活模式。此外提供相应的可移动手动设备(9、9’)和相应的安全开关装置(16)。 | ||||||
| 2 | 用于使电厂的热效率最大化的系统及方法 | CN201080059215.0 | 2010-11-08 | CN102713859B | 2015-04-29 | 以利·雅思尼 |
| 用于使电厂的热效率最大化的方法,该方法包括从可用的测量数据中获得电厂的当前状态;获得表示电厂的当前状态的变量组;对变量应用约束组;生成代表电厂的修正状态的修正变量组;以及在数学模型中测试修正变量组的收敛性。生成修正变量组至少部分基于:欧拉方程、质量守恒方程以及可逆连续体的数学描述。还提供了相关的电厂热效率最大化系统以及计算机程序。 | ||||||
| 3 | 用于输出或启用具有潜在危险的控制命令的可移动手动设备的操作方法及相应手动设备 | CN200980135245.2 | 2009-07-15 | CN102150089B | 2014-06-04 | G·普赖辛格; M·申宁格; C·沃戈; A·泽尼戈 |
| 本发明涉及可移动手动设备(9)的操作方法,手动设备(9)用于对与该手动设备或其他手动设备(9’)有效连接的可控技术装置(1)输出或启用具有潜在危险的控制命令。设置包括至少一个评估电路和与评估电路信号连接的至少一个确认键(18)的安全开关装置(16),确认键具有在无操作力时自动位于的静止状态和通过不同操作力和/或通过不同调整行程确定的确认操作状态和惊慌操作状态形式的两个连续操作状态。为该至少一个确认键(18)分配激活模式或不活动模式,激活模式中当进入确认操作状态时能提供或信号发送确认状态以执行具有潜在危险的操作命令,不活动模式中抑制或不支持确认状态的提供或信号发送。当评估电路基于信号探测到进入惊慌操作状态或进入惊慌操作状态及静止状态时或之后,为相应确认键(18)分配激活模式。此外提供相应的可移动手动设备(9、9’)和相应的安全开关装置(16)。 | ||||||
| 4 | 用于使电厂的热效率最大化的系统及方法 | CN201080059215.0 | 2010-11-08 | CN102713859A | 2012-10-03 | 以利·雅思尼 |
| 用于使电厂的热效率最大化的方法,该方法包括从可用的测量数据中获得电厂的当前状态;获得表示电厂的当前状态的变量组;对变量应用约束组;生成代表电厂的修正状态的修正变量组;以及在数学模型中测试修正变量组的收敛性。生成修正变量组至少部分基于:欧拉方程、质量守恒方程以及可逆连续体的数学描述。还提供了相关的电厂热效率最大化系统以及计算机程序。 | ||||||
| 5 | SYSTEM AND METHOD FOR MAXIMISING THERMAL EFFICIENCY OF A POWER PLANT | PCT/NZ2010/000222 | 2010-11-08 | WO2011056081A2 | 2011-05-12 | YASNI, Eli |
| 6 | METHOD FOR OPERATING A MOBILE HAND-OPERATED DEVICE FOR THE GIVING OR TRIGGERING OF POTENTIALLY DANGEROUS CONTROL COMMANDS AND CORRESPONDING HAND-OPERATED DEVICE | PCT/AT2009000276 | 2009-07-15 | WO2010009488A3 | 2010-07-01 | PREISINGER GERNOT; SCHININGER MANFRED; WOEGER CLEMENS; ZEININGER ALOIS |
| The invention relates to a method for operating a mobile hand-operated device (9) suitable for the giving or triggering of potentially dangerous control commands to a controllable technical device (1) operationally connected thereto or to a further hand-operated device (9'). A safety switch device (16) is also provided, comprising at least one analytical circuit and at least one enabling switch (18), which has an idle-state automatically adopted with no operating force and two other operation states differentiated by differing levels of operating force and/or differing movement paths to give a type of enabling operational state and a panic operational state. The at least one enabling switch (18) is provided with either an active mode, in which on adopting the enable operating state an enable sate for carrying out potentially dangerous control commands is signalled or switched or an inactive mode in which a signalling or switching of the enable state is suppressed or not possible. On or after adopting the panic operating state recorded by signal by the analytical circuit or the panic operating state and the idle state the relevant enabling button (18) is put in the active state. A corresponding mobile hand-operated device (9, 9') and a corresponding safety switch device (16) are further disclosed. | ||||||
| 7 | Pneumatic force balancing servo mechanism | JP18894582 | 1982-10-29 | JPS5979112A | 1984-05-08 | KITAMURA KENSHIYOU |
| PURPOSE:To extend and change continuously the measuring range with a small- sized constitution, by constituting a pneumatic servo mechanism and lessening the influence of the friction or the like of an indicating part due to its powerful driving force by force balance and providing a range changing mechanism in the servo mechanism. CONSTITUTION:When a differential pressure is applied from a differential pressure detecting part such as an orifice to a high and low pressure leading-in port, a sealed liquid 3a is moved to a right low pressure chamber, and diaphragms 1 and 2 are displaced to the right. This displacement displaces the free end of a force transmitting rod 42 to the left, and a range rod 16 is inclined with a range nut 17 as the fulcrum, and the tip of an operation adjusting screw 5 is separated from a flapper 6. Therefore, the flapper 6 approaches a nozzle 7, and the nozzle back pressure rises. Consequently, the back pressure is applied to a feedback bellows 9 to extend its free end side to the lift, and the free end side of an operating lever 10 pulls a feedback spring 11 to pull back diaphragms 1 and 2 from displacement to the right, and they are balanced. Thus, the measuring range is extended and changed continuously with a small-sized constitution. | ||||||
| 8 | JPS5830963Y2 - | JP6749076 | 1976-05-26 | JPS5830963Y2 | 1983-07-08 | |
| 9 | Pneumatic function generator assembly | JP12139082 | 1982-07-14 | JPS5824901A | 1983-02-15 | JIEIMUZU SHII WARITSUKU |
| 10 | Air type operator for extraction of square root | JP2576081 | 1981-02-23 | JPS57139801A | 1982-08-30 | KASAMA YASUO |
| PURPOSE:To drop out by a desired input, by transferring the displacement of a feedback bellows to a flapper through a bellows displacement transferring means of an elastic material. CONSTITUTION:In the aixal center position in a feedback bellows 22, a stopper pin 26 is set to a fixed plate 25 to which a fixed end of the bellows has been installed. Accordingly, a space between the tip of the bellows 22 and the fixed plate 25 does not become a constant value or below since it is limited by the stopper pin 26. On the contact part of a flapper 17 and the bellows 22, a tongue 29 is formed by a U-cut groove 28, and with this tongue 29, the tip of the feedback bellows 22 contact. That is, displacement of the tip of the bellows 22 is transferred to the flapper 17 through the elastic tongue 29. | ||||||
| 11 | JPS54105391U - | JP82778 | 1978-01-09 | JPS54105391U | 1979-07-25 | |
| 12 | JPS53142696U - | JP4646477 | 1977-04-15 | JPS53142696U | 1978-11-10 | |
| 13 | JPS49138295U - | JP3784773 | 1973-03-30 | JPS49138295U | 1974-11-28 | |
| 14 | 유체 제어 장치, 및 유량 비율 제어 장치 | KR1020190068520 | 2019-06-11 | KR1020190142721A | 2019-12-27 | |
| 15 | SYSTEM AND METHOD FOR MAXIMISING THERMAL EFFICIENCY OF A POWER PLANT | EP10828599.0 | 2010-11-08 | EP2510441B1 | 2021-05-26 | YASNI, Eli |
| A method for maximizing thermal efficiency of a power plant, the method comprising obtaining the current state of the plant from available measured data; obtaining a set of Variables representing a current state of the power plant; applying a set of constraints to the Variables; generating a revised set of Variables representing a revised state of the power plant; and testing the revised set of Variables within a mathematical model for convergence. Generating the revised set of Variable is based at least partly on: Euler's equation, the conservation of mass equation, and a mathematical description of a reversible continuum. There are also provided a related power plant thermal efficiency maximization system and computer program. | ||||||
| 16 | VERFAHREN ZUM BETREIBEN EINES MOBILEN HANDBEDIENGERÄTES FÜR DIE ABGABE ODER FREISCHALTUNG VON POTENTIELL GEFAHRBRINGENDEN STEUERKOMMANDOS SOWIE ENTSPRECHENDES HANDBEDIENGERÄT | EP09775562.3 | 2009-07-15 | EP2324398B1 | 2013-03-20 | PREISINGER, Gernot; SCHININGER, Manfred; WÖGER, Clemens; ZEININGER, Alois |
| 17 | JPS6143721B2 - | JP12139082 | 1982-07-14 | JPS6143721B2 | 1986-09-29 | JEIMUZU SHII WARITSUKU |
| 18 | JPS609841Y2 - | JP82778 | 1978-01-09 | JPS609841Y2 | 1985-04-05 | |
| 19 | JPS5830965Y2 - | JP6749276 | 1976-05-26 | JPS5830965Y2 | 1983-07-08 | |
| 20 | JPS5728121B2 - | JP13394276 | 1976-11-08 | JPS5728121B2 | 1982-06-15 | |
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