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    • 3. 发明授权
    • Air conditioning controller
    • 空调控制器
    • US07757504B2
    • 2010-07-20
    • US11783936
    • 2007-04-13
    • Kenzo YonezawaYasuo TakagiYutaka IinoNobutaka Nishimura
    • Kenzo YonezawaYasuo TakagiYutaka IinoNobutaka Nishimura
    • F25B49/00F25D17/04G05D22/02
    • F24F11/62F24F11/30F24F2110/00
    • An air conditioning controller is provided with a room temperature-humidity combination calculation unit, a temperature-humidity setting value determination unit and a temperature-humidity control unit. The room temperature-humidity combination calculation unit is configured to calculate combinations of room temperature and room humidity corresponding to a target value of a thermal comfort index PMV. The temperature-humidity setting value determination unit is configured to select and determine a combination of the room temperature and humidity that achieves energy saving among the calculated combinations of the room temperature and humidity. The temperature-humidity control unit is configured to separately control the room temperature and humidity so that the room temperature and humidity would measure up respectively to the determined temperature and humidity values.
    • 空调控制器设置有室温湿度组合计算单元,温度 - 湿度设定值确定单元和温度 - 湿度控制单元。 室温湿度组合计算单元被配置为计算与热舒适指数PMV的目标值对应的室温和室内湿度的组合。 温度 - 湿度设定值确定单元被配置为在所计算的室温和湿度的组合中选择并确定实现节能的室温和湿度的组合。 温湿度控制单元被配置为分别控制室内温度和湿度,使得室温和湿度将分别测量到所确定的温度和湿度值。
    • 6. 发明申请
    • Remote Performance Monitor and Remote Performance Monitoring Method
    • 远程性能监控和远程性能监控方法
    • US20080234869A1
    • 2008-09-25
    • US12051111
    • 2008-03-19
    • Kenzo YonezawaYasuo TakagiYasuyuki ItoYoshiki MurakamiNobutaka NishimuraNobuyuki Donen
    • Kenzo YonezawaYasuo TakagiYasuyuki ItoYoshiki MurakamiNobutaka NishimuraNobuyuki Donen
    • G01M1/38F24F12/00
    • F24F11/30F24F11/47F24F11/56
    • A remote performance monitor to acquire monitoring data concerning an air-conditioning system of a monitoring target building and to determine an operating condition of the air-conditioning system, the remote performance monitor comprises a monitoring data receiver (11), a characteristic function calculator (12) and an operating condition calculator (13). The monitoring data receiver (11) receives monitoring data from a monitoring data collecting apparatus in the monitoring target building. The monitoring data is data concerning performance characteristics of air-conditioning machines installed in the air-conditioning system of the monitoring target building. The characteristic function calculator (12) calculates a characteristic function for the monitoring target building and for each of the air-conditioning machines based on the monitoring data. The operating condition calculator (13) calculates operating condition data to minimize a sum of amounts of energy consumed by the air-conditioning machines by using the characteristic function.
    • 一种遥控性能监视器,用于获取关于监视目标大楼的空调系统的监视数据并确定空调系统的运行状况,远程执行监视器包括监视数据接收器(11),特征功能计算器 12)和操作条件计算器(13)。 监视数据接收器(11)从监视对象建筑物中的监视数据采集装置接收监视数据。 监视数据是关于安装在监控对象大楼的空调系统中的空调机的性能特征的数据。 特征函数计算器(12)基于监视数据计算用于监视目标建筑物和每个空调机器的特征功能。 操作条件计算器(13)计算操作条件数据,以通过使用特征函数来最小化空调机消耗的能量的总和。
    • 7. 发明申请
    • Air conditioning controller
    • 空调控制器
    • US20070240437A1
    • 2007-10-18
    • US11783936
    • 2007-04-13
    • Kenzo YonezawaYasuo TakagiYutaka IinoNobutaka Nishimura
    • Kenzo YonezawaYasuo TakagiYutaka IinoNobutaka Nishimura
    • F24F3/14F25D17/04
    • F24F11/62F24F11/30F24F2110/00
    • An air conditioning controller is provided with a room temperature-humidity combination calculation unit, a temperature-humidity setting value determination unit and a temperature-humidity control unit. The room temperature-humidity combination calculation unit is configured to calculate combinations of room temperature and room humidity corresponding to a target value of a thermal comfort index PMV. The temperature-humidity setting value determination unit is configured to select and determine a combination of the room temperature and humidity that achieves energy saving among the calculated combinations of the room temperature and humidity. The temperature-humidity control unit is configured to separately control the room temperature and humidity so that the room temperature and humidity would measure up respectively to the determined temperature and humidity values.
    • 空调控制器设置有室温湿度组合计算单元,温度 - 湿度设定值确定单元和温度 - 湿度控制单元。 室温湿度组合计算单元被配置为计算与热舒适指数PMV的目标值对应的室温和室内湿度的组合。 温度 - 湿度设定值确定单元被配置为在所计算的室温和湿度的组合中选择并确定实现节能的室温和湿度的组合。 温湿度控制单元被配置为分别控制室内温度和湿度,使得室温和湿度将分别测量到所确定的温度和湿度值。
    • 8. 发明授权
    • Optimized process control method and apparatus therefor
    • 优化的过程控制方法及其设备
    • US4975827A
    • 1990-12-04
    • US324784
    • 1989-03-17
    • Kenzo Yonezawa
    • Kenzo Yonezawa
    • G05B13/02G05B13/04
    • G05B13/04G05B13/0215
    • An optimized process control method comprises the steps of: delivering an operation variable to a control system model device which includes one or more model equations which are so modeled that the output obtained when the same process value is delivered to a control object process, is within a predetermined tolerable range and which receives the valve representative of the condition of a real process; receiving an evaluation function which is the result of the arithmetic operation of the one or more model equations, thereby causing the control system model device to carry out an operation for searching for a first optimum control point; defining said first optimum point as an initial value and outputting a set value for the real process from the region whose center is the initial value and which is within an allowable degree of error with respect to a true optimum point; and in response to the set value, searching for a second optimum point for the real process on the basis of the value representative of the condition of the real process according to a trial-and-error searching optimization algorithm, such as simplex method. An optimized process control apparatus which realize the method is also disclosed.
    • 优化的过程控制方法包括以下步骤:将操作变量递送到控制系统模型设备,所述控制系统模型设备包括一个或多个模型方程,所述模型方程被设计成使得当相同过程值被传送到控制对象过程时获得的输出在 预定的可容许范围并且接收代表实际过程条件的阀; 接收作为所述一个以上的模型式的运算结果的评价函数,从而使所述控制系统模型装置执行用于搜索第一最优控制点的操作; 将所述第一最佳点定义为初始值,并从中心为初始值的区域输出相对于真实最优点的容许误差范围内的实际过程的设定值; 并且响应于设定值,根据代表真实处理条件的值,根据诸如单纯形法的试错法搜索优化算法来搜索实际处理的第二最优点。 还公开了一种实现该方法的优化过程控制装置。