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    • 1. 发明申请
    • DISTRIBUTED MONITORING AND CONTROL FLUID HANDLING SYSTEM
    • 分布式监控和控制流体处理系统
    • WO2008151174A1
    • 2008-12-11
    • PCT/US2008/065605
    • 2008-06-03
    • GRACO MINNESOTA INC.LANGE, Christopher M.SCHERER, William C.SUTTER, Fred A.MROZEK, Greg T.PARNES, Gary S.
    • LANGE, Christopher M.SCHERER, William C.SUTTER, Fred A.MROZEK, Greg T.PARNES, Gary S.
    • G01F23/00
    • G05B19/052G05B2219/1204
    • A fluid handling control/monitoring system is divided into a network of modular, intelligent components. These individual components are generally specific to a certain function within the system and contain all the intelligence necessary to perform that function without external guidance. Examples of the different types of components include but are not limited to: human-machine interface (HMI), fluid control, heater control, motor control, field-bus communications and the like. While each type of board is specialized in function, it may control several items of the same nature. For instance, a heater control may be able to control several heaters on one system. Similarly, a fluid board may have the ability to receive input from more than one flow meter and then control fluid flow of more than one point. An example might be a plural component metering and dispensing system where two fluid components have to be combined in a precise mix ratio.
    • 流体处理控制/监控系统分为模块化智能组件网络。 这些单独的组件通常特定于系统内的某个功能,并且包含在没有外部指导的情况下执行该功能所需的所有智能。 不同类型组件的示例包括但不限于:人机界面(HMI),流体控制,加热器控制,电动机控制,现场总线通信等。 虽然每种类型的板都是专门的功能,它可以控制几个相同性质的项目。 例如,加热器控制可能能够在一个系统上控制多个加热器。 类似地,流体板可以具有从多于一个流量计接收输入并且然后控制多于一个点的流体流动的能力。 一个例子可能是复数分量计量和分配系统,其中两个流体组分必须以精确的混合比组合。
    • 2. 发明申请
    • SPRING RETURN ACTUATOR FOR A DAMPER
    • 用于阻尼器的弹簧返回执行器
    • WO2004097276A1
    • 2004-11-11
    • PCT/US2004/012360
    • 2004-04-22
    • HONEYWELL INTERNATIONAL INC.McMILLAN, Scott, D.MROZEK, Greg, T.LANGE, Christopher, M.
    • McMILLAN, Scott, D.MROZEK, Greg, T.LANGE, Christopher, M.
    • F16K31/04
    • F16K31/046Y10T137/0318Y10T307/615Y10T307/625
    • An actuator (100) including an electric motor (120) driven by a drive circuit (125) powered by a power source (110), and a load coupled to the electric motor. The actuator further includes a spring (140) biasing the load to a first position, and a microcontroller (130) coupled to the electric motor to commutate the electric motor. Upon failure of the power source, the spring returns the damper to the first position, and, as the spring returns the load to the first position, the electric motor is spun to generate electricity that is used to power the microcontroller. The microcontroller can govern a speed at which the spring returns the load to the first position. In addition, a potentiometer (155) can be used to indicate when the load approaches the first position so that the microcontroller can slow the speed of return prior to the load reaching the first position.
    • 一种致动器(100),包括由电源(110)供电的驱动电路(125)驱动的电动机(120)和耦合到所述电动机的负载。 致动器还包括将负载偏压到第一位置的弹簧(140)以及耦合到电动机以使电动机换向的微控制器(130)。 在电源故障时,弹簧将阻尼器返回到第一位置,并且当弹簧将负载返回到第一位置时,电动机被旋转以产生用于为微控制器供电的电力。 微控制器可以控制弹簧将负载返回到第一位置的速度。 另外,可以使用电位计(155)来指示负载何时接近第一位置,使得微控制器可以在负载到达第一位置之前减慢返回速度。