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    • 2. 发明授权
    • Heat exchanger assembly
    • 换热器总成
    • US08196646B2
    • 2012-06-12
    • US12334790
    • 2008-12-15
    • Lin-Jie HuangPrasad S. Kadle
    • Lin-Jie HuangPrasad S. Kadle
    • F28F1/22
    • F28D1/0435F28D1/05383F28F1/128F28F2215/02
    • A heat exchanger assembly including a first and second heat exchangers disposed in sandwiched relationship with one another. The tubes and air fins of the first and second heat exchangers are aligned with one another in a transverse air flow direction. A plurality of middle connecting portions are integral with and extend in the transverse air flow direction between the aligned first and second air fins of the two heat exchangers. Each of the middle connecting portions has a slot for impeding heat conduction between the first and second air fins, and each of the slots in the middle connecting portions is disposed closer to the first tubes than to the second tubes to maximize the effective length of the second air fin.
    • 一种热交换器组件,其包括彼此夹持的第一和第二热交换器。 第一和第二热交换器的管和空气翅片在横向空气流动方向上彼此对准。 多个中间连接部分在两个热交换器的对准的第一和第二空气翅片之间与横向空气流动方向成一体并且延伸。 每个中间连接部分具有用于阻止第一和第二空气翅片之间的热传导的狭槽,并且中间连接部分中的每个狭槽设置成比第二管更靠近第一管而使第二管的有效长度最大化 第二个空气翅片
    • 5. 发明申请
    • HEAT EXCHANGER ASSEMBLY
    • 热交换器总成
    • US20100147498A1
    • 2010-06-17
    • US12334790
    • 2008-12-15
    • Lin-Jie HuangPrasad S. Kadle
    • Lin-Jie HuangPrasad S. Kadle
    • F28D1/04
    • F28D1/0435F28D1/05383F28F1/128F28F2215/02
    • A heat exchanger assembly including a first and second heat exchangers disposed in sandwiched relationship with one another. The tubes and air fins of the first and second heat exchangers are aligned with one another in a transverse air flow direction. A plurality of middle connecting portions are integral with and extend in the transverse air flow direction between the aligned first and second air fins of the two heat exchangers. Each of the middle connecting portions has a slot for impeding heat conduction between the first and second air fins, and each of the slots in the middle connecting portions is disposed closer to the first tubes than to the second tubes to maximize the effective length of the second air fin.
    • 一种热交换器组件,其包括彼此夹持的第一和第二热交换器。 第一和第二热交换器的管和空气翅片在横向空气流动方向上彼此对准。 多个中间连接部分在两个热交换器的对准的第一和第二空气翅片之间与横向空气流动方向成一体并且延伸。 每个中间连接部分具有用于阻止第一和第二空气翅片之间的热传导的狭槽,并且中间连接部分中的每个狭槽设置成比第二管更靠近第一管而使第二管的有效长度最大化 第二个空气翅片
    • 7. 发明申请
    • Compressor cycle control method for a vehicle air conditioning system
    • 一种车辆空调系统的压缩机循环控制方法
    • US20090260374A1
    • 2009-10-22
    • US12148160
    • 2008-04-17
    • Mingyu WangPrasad S. KadleMark J. Zima
    • Mingyu WangPrasad S. KadleMark J. Zima
    • F25B1/00F25B49/02
    • B60H1/3205B60H1/00835B60H2001/3261B60H2001/327
    • A control methodology for dynamically adjusting the switching limits of a cycled refrigerant compressor in an air conditioning system with the objective of achieving an optimal or specified tradeoff between compressor cycling frequency and discharge air temperature variation under all operating conditions. In a first embodiment, the compressor cycling limits are controlled to maintain a virtually constant discharge air temperature variation for all operating conditions. In a second embodiment, the compressor cycling limits are controlled so that the discharge air temperature variation changes in relation to the discharge air temperature to provide a virtually constant human comfort level for the occupants. And in a third embodiment, the compressor cycling limits are controlled so that the discharge air temperature variation changes in relation to the ambient or outside air temperature to provide a virtually constant human comfort level for the occupants.
    • 一种用于动态调节空调系统中的循环制冷剂压缩机的开关限制的控制方法,其目的是在所有操作条件下实现压缩机循环频率和排气温度变化之间的最佳或规定的权衡。 在第一实施例中,控制压缩机循环极限,以保持对于所有操作条件的实际恒定的排出空气温度变化。 在第二实施例中,控制压缩机循环极限,使得排出空气温度变化相对于排出空气温度变化,以为乘客提供几乎恒定的人类舒适度。 并且在第三实施例中,控制压缩机循环极限,使得排出空气温度变化相对于环境或外部空气温度变化,以为乘客提供几乎恒定的人类舒适度。
    • 8. 发明申请
    • Control method for a variable displacement refrigerant compressor in a high-efficiency AC system
    • 高效交流系统中可变排量制冷剂压缩机的控制方法
    • US20080289347A1
    • 2008-11-27
    • US11805469
    • 2007-05-22
    • Prasad S. KadleMark J. Zima
    • Prasad S. KadleMark J. Zima
    • F25B49/02
    • B60H1/3211B60H1/00735B60H1/00835B60H2001/3245B60H2001/3261B60H2001/3275
    • A high efficiency air conditioning system includes a pneumatically-controlled variable displacement compressor and a compressor clutch that is selectively cycled on and off to minimize series re-heating of conditioned air. Conditioned air is discharged after passing through an evaporator core, and a target value for the evaporator outlet air temperature is determined based on the desired air discharge temperature. The compressor clutch is cycled off when the evaporator outlet air temperature falls below the target value by at least a calibrated amount, and is thereafter cycled on again when the evaporator outlet air temperature rises above the target value. The target value is preferably biased to prevent compressor operation when the desired air discharge temperature exceeds outside air temperature by at least a calibrated amount and to prevent the relative humidity in the air-conditioned space from rising above a desired level.
    • 高效空调系统包括气动可变排量压缩机和选择性循环打开和关闭的压缩机离合器,以使调节空气的串联再加热最小化。 通过蒸发器芯后,排出的空气排出,蒸发器出口空气温度的目标值根据期望的排气温度来确定。 当蒸发器出口空气温度低于目标值至少校准量时,压缩机离合器循环,然后当蒸发器出口空气温度升高到目标值以上时再次循环。 优选地,目标值被偏压以在期望的空气排放温度超过外部空气温度至少校准量时防止压缩机操作,并且防止空调空间中的相对湿度升高到高于期望水平。