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    • 1. 发明授权
    • Ventilation airflow rate control
    • 通风量控制
    • US08672733B2
    • 2014-03-18
    • US11703518
    • 2007-02-06
    • Jie ChenAaron D. HerzonAllan J. ReifelYi Chen
    • Jie ChenAaron D. HerzonAllan J. ReifelYi Chen
    • F24F11/00F24F11/02F24F7/00
    • F04D27/004F24F11/77
    • Airflow rates within a ventilation system are controlled using motor speed or torque and motor electric current or pressure. Fan speed or torque may be varied to compensate for differing restriction in ductwork, and may provide a constant airflow rate over a range of varying airflow restriction. Air handlers or air conditioning units may be mass produced in common configurations, and installed in different buildings or structures with different ductwork configurations. Methods operate a fan motor at a present speed or torque, sample speed or torque, sample current of the fan motor or pressure within the ventilation system, calculate a present airflow rate within the ventilation system, calculate a new input setting using the present airflow rate and a target airflow rate, change the speed or torque to the new input setting, and repeat these steps to converge on the target airflow rate, often avoiding overshoot.
    • 通风系统内的气流速率可通过电机转速或转矩,电机电流或压力进行控制。 可以改变风扇速度或扭矩以补偿管道系统中的不同限制,并且可以在变化的气流限制的范围内提供恒定的气流速率。 空气处理机或空调机可以通常配置大量生产,并安装在具有不同管道结构的不同建筑物或结构中。 方法以当前速度或扭矩,采样速度或扭矩,风扇电机的采样电流或通风系统内的压力来操作风扇电机,计算通风系统内的当前气流速率,使用当前气流速率计算新的输入设置 和目标气流速率,将速度或扭矩改变到新的输入设置,并重复这些步骤以收敛于目标气流速率,通常避免过冲。
    • 2. 发明申请
    • Ventilation airflow rate control
    • 通风量控制
    • US20080188173A1
    • 2008-08-07
    • US11703518
    • 2007-02-06
    • Jie ChenAaron D. HerzonAllan J. ReifelYi Chen
    • Jie ChenAaron D. HerzonAllan J. ReifelYi Chen
    • F24F11/04
    • F04D27/004F24F11/77
    • Airflow rates within a ventilation system are controlled using motor speed or torque and motor electric current or pressure. Fan speed or torque may be varied to compensate for differing restriction in ductwork, and may provide a constant airflow rate over a range of varying airflow restriction. Air handlers or air conditioning units may be mass produced in common configurations, and installed in different buildings or structures with different ductwork configurations. Methods operate a fan motor at a present speed or torque, sample speed or torque, sample current of the fan motor or pressure within the ventilation system, calculate a present airflow rate within the ventilation system, calculate a new input setting using the present airflow rate and a target airflow rate, change the speed or torque to the new input setting, and repeat these steps to converge on the target airflow rate, often avoiding overshoot.
    • 通风系统内的气流速率可通过电机转速或转矩,电机电流或压力进行控制。 可以改变风扇速度或扭矩以补偿管道系统中的不同限制,并且可以在变化的气流限制的范围内提供恒定的气流速率。 空气处理机或空调机可以通常配置大量生产,并安装在具有不同管道结构的不同建筑物或结构中。 方法以当前速度或扭矩,采样速度或扭矩,风扇电机的采样电流或通风系统内的压力来操作风扇电机,计算通风系统内的当前气流速率,使用当前气流速率计算新的输入设置 和目标气流速率,将速度或扭矩改变到新的输入设置,并重复这些步骤以收敛于目标气流速率,通常避免过冲。
    • 6. 发明授权
    • Temperature control in variable-capacity HVAC system
    • 可变容量HVAC系统中的温度控制
    • US07770806B2
    • 2010-08-10
    • US11820521
    • 2007-06-19
    • Aaron D. HerzonAllan J. Reifel
    • Aaron D. HerzonAllan J. Reifel
    • F24F11/053
    • G05D23/1919F24F11/30F24F2110/10F25B49/02F25B2500/12F25B2600/0253F25B2600/112F25B2600/21F25B2700/197F25B2700/21175Y02B30/741Y02B30/743
    • Relatively constant temperatures are maintained in a space by varying the capacity of heating or cooling equipment. A proportional band is used to adjust capacity to compensate for changes in heating or cooling load, and the proportional band is adjusted to bring the actual temperature within the space closer to the set point temperature. Such an adjustment may be made by determining the difference between the present temperature and the set point temperature, and adjusting a floating temperature set point by a percentage (e.g., ten percent) of the difference. Such a process may be repeated, for example, at regular intervals, such as once per minute. As a result, the temperature within the space approaches (e.g., asymptotically) the set point temperature whether the heating or cooling load is high or low. Methods, systems, and apparatuses are contemplated, including HVAC units and controls, including for residential applications, including using variable-speed drives.
    • 通过改变加热或冷却设备的容量,在空间中保持相对恒定的温度。 使用比例带来调整容量以补偿加热或制冷负载的变化,并调整比例带以使实际温度在空间内更接近设定点温度。 可以通过确定当前温度和设定点温度之间的差异以及将浮动温度设定点调整为差的百分比(例如,10%)来进行这种调整。 这样的过程可以例如以规则的间隔重复,例如每分钟一次。 因此,无论加热或制冷负载是高还是低,空间内的温度接近(例如,渐近地)设定点温度。 涵盖方法,系统和装置,包括HVAC单元和控制,包括用于住宅应用,包括使用变速驱动器。
    • 7. 发明申请
    • Temperature control in variable-capacity HVAC system
    • 可变容量HVAC系统中的温度控制
    • US20080314998A1
    • 2008-12-25
    • US11820521
    • 2007-06-19
    • Aaron D. HerzonAllan J. Reifel
    • Aaron D. HerzonAllan J. Reifel
    • G05D23/19F25B1/00G05D23/12
    • G05D23/1919F24F11/30F24F2110/10F25B49/02F25B2500/12F25B2600/0253F25B2600/112F25B2600/21F25B2700/197F25B2700/21175Y02B30/741Y02B30/743
    • Relatively constant temperatures are maintained in a space by varying the capacity of heating or cooling equipment. A proportional band is used to adjust capacity to compensate for changes in heating or cooling load, and the proportional band is adjusted to bring the actual temperature within the space closer to the set point temperature. Such an adjustment may be made by determining the difference between the present temperature and the set point temperature, and adjusting a floating temperature set point by a percentage (e.g., ten percent) of the difference. Such a process may be repeated, for example, at regular intervals, such as once per minute. As a result, the temperature within the space approaches (e.g., asymptotically) the set point temperature whether the heating or cooling load is high or low. Methods, systems, and apparatuses are contemplated, including HVAC units and controls, including for residential applications, including using variable-speed drives.
    • 通过改变加热或冷却设备的容量,在空间中保持相对恒定的温度。 使用比例带来调整容量以补偿加热或制冷负载的变化,并调整比例带以使实际温度在空间内更接近设定点温度。 可以通过确定当前温度和设定点温度之间的差异以及将浮动温度设定点调整为差的百分比(例如,百分之十)来进行这种调整。 这样的过程可以例如以规则的间隔重复,例如每分钟一次。 因此,无论加热或制冷负载是高还是低,空间内的温度接近(例如,渐近地)设定点温度。 涵盖方法,系统和装置,包括HVAC单元和控制,包括用于住宅应用,包括使用变速驱动器。
    • 10. 发明申请
    • Humidity control and air conditioning
    • 湿度控制和空调
    • US20080307803A1
    • 2008-12-18
    • US11811690
    • 2007-06-12
    • Aaron D. Herzon
    • Aaron D. Herzon
    • F25D21/04F25D17/06
    • F24F3/147F24F11/41F24F11/77
    • Air conditioning systems that cool and dehumidify spaces within enclosures, buildings having such systems, and methods of controlling humidity within a space. Embodiments adjust speed of a blower or fan motor based on inputs from sensors within the system, using automated processes, to reduce airflow rates to provide for lower temperatures of the cooling coil and to increase the ratio of latent to sensible heat transfer. Fan speeds may be increased as appropriate to avoid frost formation on the cooling coil, to give priority to cooling when temperatures within the space are high, or periodically to provide for mixing within the space.
    • 用于冷却和除湿外壳内的空间,具有这种系统的建筑物以及控制空间内的湿度的方法的空调系统。 实施例基于来自系统内的传感器的输入,使用自动化过程来调节鼓风机或风扇马达的速度,以减小气流速率以提供冷却盘管的较低温度并增加潜热与显热传递的比率。 可以适当地增加风扇速度以避免在冷却盘管上产生结霜,以便在空间内的温度高时优先冷却,或周期性地提供在空间内的混合。