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    • 3. 发明授权
    • Air conditioner for vehicles
    • 车用空调
    • US5769316A
    • 1998-06-23
    • US855154
    • 1997-05-13
    • Susumu IkedaToshimi IsobeAtsuo InoueToshihiko FujitaAkihiro TajiriMitsuru IshikawaChoji SakumaNobuyuki Yuri
    • Susumu IkedaToshimi IsobeAtsuo InoueToshihiko FujitaAkihiro TajiriMitsuru IshikawaChoji SakumaNobuyuki Yuri
    • B60H1/00F24F3/153F25B41/04F25B30/02
    • B60H1/00921F24F3/153F25B41/04
    • An air conditioner for a vehicle has a heat pump type refrigerant circuit capable of operating at least in a heating mode. The air conditioner comprises a motor fan for supplying air heated by a heat exchanger to the interior of the vehicle during operation of the heating mode, a sensor for detecting the temperature of the air at a position downstream of the heat exchanger and a control unit for controlling the volume of the air supplied by the motor fan to a predetermined minimum volume by controlling the drive of the motor fan when the detected air temperature is lower than a predetermined temperature. Even in a condition where a sufficiently large heat radiation from the heat exchanger cannot be expected, a large volume of cold air that has been insufficiently heated can be prevented from being discharged into the interior of the vehicle. Because the motor fan is driven at a condition of minimum air volume even when the detected temperature is lower than the predetermined temperature, a rapid variation of air volume caused at the time of changing a fan-stopping condition to a fan-driving condition can be avoided and an abnormal increase in the discharge pressure of the heat pump compressor can be prevented.
    • 一种用于车辆的空调器具有能够至少在加热模式下运行的热泵式制冷剂回路。 该空调装置包括一个电动机风扇,用于在加热模式运行期间将由热交换器加热的空气供给到车辆内部;一个传感器,用于检测热交换器下游位置处的空气温度;以及一个控制单元, 当检测到的空气温度低于预定温度时,通过控制电机风扇的驱动来将由电动机风扇供应的空气的体积控制到预定的最小容积。 即使在不能期望来自热交换器的足够大的热辐射的情况下,也可以防止未充分加热的大量冷空气被排放到车辆的内部。 由于即使在检测到的温度低于预定温度的情况下,电机风扇在最小风量的条件下被驱动,因此在将风扇停止状态改变为风扇驱动状态时引起的风量的快速变化可以是 避免了热泵压缩机的排出压力的异常增加。
    • 7. 发明授权
    • Air conditioner for vehicles
    • 车用空调
    • US5572877A
    • 1996-11-12
    • US477920
    • 1995-06-07
    • Susumu IkedaToshimi IsobeAkihiro TajiriMitsuru IshikawaChoji SakumaNobuyuki Yuri
    • Susumu IkedaToshimi IsobeAkihiro TajiriMitsuru IshikawaChoji SakumaNobuyuki Yuri
    • B60H3/00B60H1/00B60H1/32C04B28/06F25D21/06B60S1/54
    • B60H1/3207B60H1/0075B60H1/00821
    • An air conditioner for vehicles can operate at a dehumidifying-operation mode including at least a dry-cooling or a dry-heating mode. The air conditioner comprises a plurality of discharge ports including a defroster discharge port and discharge port switching dampers, a control system for opening at least the defroster discharge port for a predetermined time when the dehumidifying-operation mode is selected, and a control system for opening another discharge port determined in accordance with an operation mode and the like after the predetermined time has elapsed. When the dehumidifying operation is selected, at least the defroster discharge port is opened only for the predetermined time and temperature-conditioned air is discharged to the windshield from the defroster discharge port. After the predetermined time has elapsed, a discharge port in accordance with an operation mode is opened. Traveling safety can be increased by removing the cloud of moisture from the windshield at first in the environment of a dehumidifying operation, that is, in the environment that the humidity in the interior of the vehicle is high and the windshield is likely to be clouded up. The troublesome job of manually selecting the defroster discharge port to remove the cloud of moisture becomes unnecessary.
    • 用于车辆的空调可以在至少包括干冷或干热模式的除湿操作模式下操作。 空调机包括多个排气口,包括除霜器排放口和排气口开关阻尼器,当选择除湿操作模式时,用于至少在除霜运行模式被打开至少除霜器排放口的控制系统;以及控制系统,用于打开 在预定时间过去之后根据操作模式等确定的另一个排出口。 当选择除湿操作时,至少除霜器排出口仅在预定时间打开,并且温度调节的空气从除霜器排放口排放到挡风玻璃。 在预定时间过去之后,打开根据操作模式的排出口。 首先在除湿操作的环境中,即在车内内部的湿度高,挡风玻璃易于蒙上阴影的环境中,首先除去挡风玻璃,可以提高旅行安全性 。 手动选择除霜器排放口以除去水分云的麻烦是不必要的。
    • 9. 发明授权
    • Absorption type refrigerating apparatus
    • 吸收式制冷装置
    • US06176096B1
    • 2001-01-23
    • US09362662
    • 1999-07-29
    • Nobuyuki YuriHidetaka KayanumaMitsuru IshikawaToshimitsu Takaishi
    • Nobuyuki YuriHidetaka KayanumaMitsuru IshikawaToshimitsu Takaishi
    • F25B1500
    • F25B15/02F25B49/043Y02A30/277Y02B30/62
    • The purity of a refrigerant liquid can be maintained to an appropriate level without being varied corresponding to a change in the atmospheric condition and the loading state. A portion of the refrigerant liquid in an evaporator is conveyed from the evaporator to the upper end of a rectifier where it is used as a vapor/liquid contact fluid. A temperature sensor T6 is provided at the upper end of the rectifier for detecting the temperature at the top of the rectifier or the temperature of the refrigerant vapor. The temperature and the purity of the refrigerant vapor are closely related to each other. The higher the temperature, the lower the purity is deteriorated. When the temperature T detected by the temperature sensor T6 is higher than a reference temperature level Tref, a flow control valve V5 is actuated to increase the flow of the refrigerant liquid to the rectifier. This recovers the purity of the refrigerant vapor, thus preventing declination of the purity of the refrigerant vapor in the evaporator.
    • 可以将制冷剂液体的纯度保持在适当的水平,而不会随着大气条件和装载状态的变化而变化。 蒸发器中的一部分制冷剂液体从蒸发器输送到整流器的上端,其中它用作蒸气/液体接触流体。 在整流器的上端设有温度传感器T6,用于检测整流器顶部的温度或制冷剂蒸汽的温度。 制冷剂蒸汽的温度和纯度彼此密切相关。 温度越高,纯度越低劣化。 当由温度传感器T6检测的温度T高于参考温度水平Tref时,启动流量控制阀V5以增加制冷剂流向整流器的流量。 这样可以恢复制冷剂蒸汽的纯度,从而防止蒸发器中的制冷剂蒸汽的纯度下降。