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    • 2. 发明授权
    • Water heater
    • 热水器
    • US06943325B2
    • 2005-09-13
    • US09897644
    • 2001-06-29
    • Robert PittmanDavid J. ClinePaul RosenauTimothy S. Clark
    • Robert PittmanDavid J. ClinePaul RosenauTimothy S. Clark
    • A61H33/00H05B1/02
    • A61H33/60A61H33/005A61H33/02A61H2201/5082
    • An improved water heater for use in spas, hot tubs, pools, hydrotherapy pools, bath tubs, and similar bodies of water used indoors, outdoors, or both indoors and outdoors are used for both therapeutic and recreational purposes. The water heater uses heating element technology know as thick film on substrate comprising resistive elements bonded to the outer dry surface of a pipe to heat the pipe which in turn heats the water flowing therethrough. The heater is highly efficient due to the direct contact of the wet heating surface with the water and provides a smooth seamless inner heating surface by eliminating the need to pass electrical leads into the wet region of the heater. This virtually eliminates the risk of leaks in the water heater due to bulkhead fittings. The invention further eliminates the need for a heating element to be contained in the inner wet region of a spa heater, thereby reducing the risk of corrosion. The water heater is used in combination with an electronic controller having a microprocessor to control and regulate the operation of the water heater. The water heater can be used with electrical, electro-mechanical, and mechanical control systems for spas and can be retrofitted into existing spa applications.
    • 用于室内,户外或室内或室外的用于温泉,热水浴池,游泳池,水疗池,浴缸和类似体内的改进的热水器用于治疗和娱乐目的。 热水器使用加热元件技术,称为基板上的厚膜,包括结合到管的外部干燥表面的电阻元件,以加热管道,其又加热流过其中的水。 由于湿加热表面与水的直接接触,加热器是高效的,并且通过消除将电引线通入加热器的湿区域的需要而提供光滑的无缝内部加热表面。 这实际上消除了由于舱壁配件导致的热水器泄漏的风险。 本发明进一步消除了在温暖加热器的内部湿区域中容纳加热元件的需要,从而降低了腐蚀的风险。 热水器与具有微处理器的电子控制器组合使用以控制和调节热水器的操作。 热水器可以与电气,机电和机械控制系统一起用于水疗中心,并可以升级到现有的水疗应用。
    • 3. 发明授权
    • Apparatus for dispensing liquids and solids
    • 用于分配液体和固体的装置
    • US06913166B2
    • 2005-07-05
    • US10719936
    • 2003-11-20
    • David J. ClineTimothy S. ClarkStephen P. GordonMichael R. Engle
    • David J. ClineTimothy S. ClarkStephen P. GordonMichael R. Engle
    • B05B7/32B05B12/14G05D16/20G05D27/02B67D5/52
    • B29B7/748B05B7/32B05B12/1418B29B7/726B29B7/728G05D16/2066
    • A system for metering and dispensing single and plural component liquids and solids as described herein. The dispensing system has a microprocessor-based control system and progressive cavity pumps which provide a very accurate control of component ratios, shot sizes, flow rates and dispense durations. The system has numerous feedback components for accurately controlling the pressure, flow rates, fluid levels and amounts of fluids dispensed. Where a valved nozzle is used, the pressure in the flow system is used to control the pumps rather than the valve. Such a system may be used as a sprayer with compressed air added. Drum rams are associated with the supply drums and the progressive cavity pumps may be placed on the drum ram. Maintenance of a steady state in the system is accomplished with back and forth movement of the pump, with compensation for pressure changes. Absolute rotational position of the pump can be monitored when a set pressure is maintained, to diagnose system conditions. A high flow system uses ball valves and a releasably coupled manifold. A mold charging system uses pressure to control the pumps which are cycled on and off to avoid overpressurizing the mold. The rate of pressure increase is used to control the rate of flow from the pumps as the mold approaches completion of the charge, again to avoid overpressurizing the mold. A signal controlled by a timer can indicate elapsed time as a warning that material within the mixer conduit is hardening to a condition such that flow cannot be reinitiated.
    • 用于计量和分配如本文所述的单组分和多组分液体和固体的系统。 分配系统具有基于微处理器的控制系统和渐进腔泵,其提供组件比率,喷射尺寸,流速和分配持续时间的非常准确的控制。 该系统具有许多反馈组件,用于精确控制分配的流体的压力,流速,流体水平和量。 在使用带阀的喷嘴的情况下,流量系统中的压力用于控制泵而不是阀。 这种系统可以用作喷雾器,其中加入了压缩空气。 鼓筒与供应滚筒相关联,并且渐进式泵可以放置在滚筒冲头上。 在系统中维持稳定状态是通过泵的前后运动实现的,并补偿压力变化。 当保持设定压力时,可以监测泵的绝对旋转位置,以诊断系统状况。 高流量系统使用球阀和可释放地联接的歧管。 模具充电系统使用压力来控制循环开启和关闭的泵,以避免模具过压。 当模具接近充电完成时,压力增加率用于控制来自泵的流量,再次避免过度加压模具。 由定时器控制的信号可以指示经过时间作为警告,即混合器管道内的材料硬化到不能重新流动的状态。
    • 6. 发明申请
    • Detachable Wireless Motion System for Human Kinematic Analysis
    • 用于人体运动学分析的可拆卸无线运动系统
    • US20160100801A1
    • 2016-04-14
    • US14509832
    • 2014-10-08
    • Timothy S. ClarkJohn C. Litschert
    • Timothy S. ClarkJohn C. Litschert
    • A61B5/00A61B5/11
    • A61B5/6807A61B5/0004A61B5/112A61B5/1122A61B5/7246A61B5/7278A61B2503/10A61B2560/0475A61B2562/0219
    • A system for determining user kinematic characteristics includes a detachable motion sensor, a processing system, and a wireless transceiver. The motion sensor may be coupled with a user's footwear in order to generate one or more signals corresponding to the motion of the user's foot/feet. The processing system is in communication with the motion sensor and is programmed to use the one or more signals to determine one or more kinematic parameters. The present invention measures various parameters about each individual stride. The stride based kinematic characteristics may include, but are not limited to, pitch, roll, yaw, vertical position, horizontal position, horizontal velocity, vertical velocity, distance traveled, foot strike, foot strike classification, toe off, contact time, stride rate, stride length, rate of pronation, maximum pronation, rate of plantarflexion and dorsiflexion, swing velocity, and pitch-roll signature.
    • 用于确定用户运动特性的系统包括可拆卸运动传感器,处理系统和无线收发器。 运动传感器可以与用户的鞋类结合,以便产生对应于使用者的脚/脚的运动的一个或多个信号。 处理系统与运动传感器通信,并被编程为使用一个或多个信号来确定一个或多个运动参数。 本发明测量关于每个单独步幅的各种参数。 基于步幅的运动学特征可以包括但不限于俯仰,俯仰,偏航,垂直位置,水平位置,水平速度,垂直速度,行驶距离,脚踏撞击,脚蹬分类,脚趾脱离,接触时间,步幅 ,步幅长度,旋前率,最大旋前,跖屈和背屈速率,摆动速度和俯仰辊签名。
    • 7. 发明授权
    • Apparatus for dispensing liquids and solids
    • 用于分配液体和固体的装置
    • US06675988B2
    • 2004-01-13
    • US09741356
    • 2000-12-19
    • David J. ClineTimothy S. ClarkStephen P. GordonMichael R. Engle
    • David J. ClineTimothy S. ClarkStephen P. GordonMichael R. Engle
    • B67B700
    • B29B7/748B05B7/32B05B12/1418B29B7/726B29B7/728G05D16/2066
    • A system for metering and dispensing single and plural component liquids and solids as described herein. The dispensing system has a microprocessor-based control system and progressive cavity pumps which provide a very accurate control of component ratios, shot sizes, flow rates and dispense durations. The system has numerous feedback components for accurately controlling the pressure, flow rates, fluid levels and amounts of fluids dispensed. Where a valved nozzle is used, the pressure in the flow system is used to control the pumps rather than the valve. Such a system may be used as a sprayer with compressed air added. Drum rams are associated with the supply drums and the progressive cavity pumps may be placed on the drum ram. Maintenance of a steady state in the system is accomplished with back and forth movement of the pump, with compensation for pressure changes. Absolute rotational position of the pump can be monitored when a set pressure is maintained, to diagnose system conditions. A high flow system uses ball valves and a releasably coupled manifold. A mold charging system uses pressure to control the pumps which are cycled on and off to avoid overpressurizing the mold. The rate of pressure increase is used to control the rate of flow from the pumps as the mold approaches completion of the charge, again to avoid overpressurizing the mold. A signal controlled by a timer can indicate elapsed time as a warning that material within the mixer conduit is hardening to a condition such that flow cannot be reinitiated.
    • 用于计量和分配如本文所述的单组分和多组分液体和固体的系统。 分配系统具有基于微处理器的控制系统和渐进腔泵,其提供组件比率,喷射尺寸,流速和分配持续时间的非常准确的控制。 该系统具有许多反馈组件,用于精确控制分配的流体的压力,流速,流体水平和量。 在使用带阀的喷嘴的情况下,流量系统中的压力用于控制泵而不是阀。 这种系统可以用作喷雾器,其中加入了压缩空气。 鼓筒与供应滚筒相关联,并且渐进式泵可以放置在滚筒冲头上。 在系统中维持稳定状态是通过泵的前后运动实现的,并补偿压力变化。 当保持设定压力时,可以监测泵的绝对旋转位置,以诊断系统状况。 高流量系统使用球阀和可释放地联接的歧管。 模具充电系统使用压力来控制循环开启和关闭的泵,以避免模具过压。 当模具接近充电完成时,压力增加率用于控制来自泵的流量,再次避免过度加压模具。 由定时器控制的信号可以指示经过时间作为警告,即混合器管道内的材料硬化到不能重新流动的状态。
    • 8. 发明授权
    • Method and apparatus for dispensing liquids and solids
    • 用于分配液体和固体的方法和设备
    • US6161723A
    • 2000-12-19
    • US451411
    • 1999-11-30
    • David J. ClineTimothy S. ClarkStephen P. GordonMichael R. Engle
    • David J. ClineTimothy S. ClarkStephen P. GordonMichael R. Engle
    • B05B7/32B05B12/14G05D16/20G05D27/02B67B7/00
    • B29B7/748B05B7/32B05B12/1418B29B7/726B29B7/728G05D16/2066
    • A system for metering and dispensing single and plural component liquids and solids as described herein. The dispensing system has a microprocessor-based control system and progressive cavity pumps which provide a very accurate control of component ratios, shot sizes, flow rates and dispense durations. The system has numerous feedback components for accurately controlling the pressure, flow rates, fluid levels and amounts of fluids dispensed. Where a valved nozzle is used, the pressure in the flow system is used to control the pumps rather than the valve. Such a system may be used as a sprayer with compressed air added. Drum rams are associated with the supply drums and the progressive cavity pumps may be placed on the drum ram. Maintenance of a steady state in the system is accomplished with back and forth movement of the pump, with compensation for pressure changes. Absolute rotational position of the pump can be monitored when a set pressure is maintained, to diagnose system conditions. A high flow system uses ball valves and a releasably coupled manifold. A mold charging system uses pressure to control the pumps which are cycled on and off to avoid overpressurizing the mold. The rate of pressure increase is used to control the rate of flow from the pumps as the mold approaches completion of the charge, again to avoid overpressurizing the mold. A signal controlled by a timer can indicate elapsed time as a warning that material within the mixer conduit is hardening to a condition such that flow cannot be reinitiated.
    • 用于计量和分配如本文所述的单组分和多组分液体和固体的系统。 分配系统具有基于微处理器的控制系统和渐进腔泵,其提供组件比率,喷射尺寸,流速和分配持续时间的非常准确的控制。 该系统具有许多反馈组件,用于精确控制分配的流体的压力,流速,流体水平和量。 在使用带阀的喷嘴的情况下,流量系统中的压力用于控制泵而不是阀。 这种系统可以用作喷雾器,其中加入了压缩空气。 鼓筒与供应滚筒相关联,并且渐进式泵可以放置在滚筒冲头上。 在系统中维持稳定状态是通过泵的前后运动实现的,并补偿压力变化。 当保持设定压力时,可以监测泵的绝对旋转位置,以诊断系统状况。 高流量系统使用球阀和可释放地联接的歧管。 模具充电系统使用压力来控制循环开启和关闭的泵,以避免模具过压。 当模具接近充电完成时,压力增加率用于控制来自泵的流量,再次避免过度加压模具。 由定时器控制的信号可以指示经过时间作为警告,即混合器管道内的材料硬化到不能重新流动的状态。