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    • 1. 发明申请
    • DRIVE FORCE TRANSMITTING APPARATUS
    • 驱动力传动装置
    • US20100288597A1
    • 2010-11-18
    • US12777600
    • 2010-05-11
    • Takashi KUWAHARAYasuo TAKAGI
    • Takashi KUWAHARAYasuo TAKAGI
    • F16D25/12
    • B60K6/48B60K6/387F16D25/083F16D25/12F16D2300/06F16D2300/26F16H57/0421Y02T10/6221
    • A drive force transmitting apparatus comprises a dry clutch, a hydraulic cylinder, a piston arm, an elastic partitioning member, a first seal member and a leakage lubricating fluid recovery path. The elastic partitioning member prevents lubricating fluid that has leaked from a sliding portion of a piston of the hydraulic cylinder from flowing into the dry clutch. The first seal member is disposed between opposing surfaces of a cylinder housing and a clutch cover at a position downstream from the elastic partitioning member in a leakage flow direction of lubricating fluid that has leaked. The leakage lubricating fluid recovery path is at least partially formed by a gap between the cylinder housing and the clutch cover, such that lubricating fluid leaking past the piston is conveyed to an inside of the transmission while maintaining a sealed state established by the elastic partitioning member and the first seal member.
    • 驱动力传递装置包括干式离合器,液压缸,活塞臂,弹性分隔件,第一密封件和泄漏润滑液回收路径。 弹性分隔构件防止从液压缸的活塞的滑动部分泄漏的润滑流体流入干式离合器。 第一密封构件在泄漏的润滑流体的泄漏流动方向上在弹性分隔构件的下游位置处设置在气缸壳体和离合器盖的相对表面之间。 泄漏润滑流体回收路径至少部分地由气缸壳体和离合器盖之间的间隙形成,使得通过活塞泄漏的润滑液被输送到变速器的内部,同时保持由弹性分隔构件建立的密封状态 和第一密封件。
    • 5. 发明申请
    • DEVICE AND METHOD FOR HUMIDITY ESTIMATION
    • 用于湿度估计的装置和方法
    • US20110088455A1
    • 2011-04-21
    • US12903640
    • 2010-10-13
    • Yasuo TAKAGIKoichi IkedaYukio HiraokaHisashi KobayashiAkihiro Fujii
    • Yasuo TAKAGIKoichi IkedaYukio HiraokaHisashi KobayashiAkihiro Fujii
    • G01N19/10
    • F24F11/30F24F2110/20
    • A humidity estimation device connected with an air-conditioner includes a charge airflow rate estimation (CARE) unit, a charge air absolute humidity estimation (CAAHE) unit, an indoor generated vapor amount estimation (IGVAE) unit, and an indoor absolute humidity estimation (IAHE) unit. The CARE unit calculates an estimated charge airflow rate (ECAR) of the air-conditioner based on operation control information of the charge fan and a preset fan differential pressure. The CAAHE unit calculates an estimated charge air absolute humidity (ECAAH) of the air-conditioner based on a charge air temperature and a preset charge air relative humidity. The IGVAE unit calculates an estimated indoor generated vapor amount (EIGVA) based on an indoor temperature, the number of persons in the room and activity index values of the persons. The IAHE unit calculates an estimated absolute humidity in the room based on the ECAR, the ECAAH and the EIGVA.
    • 与空调机连接的湿度估计装置包括充气流量估计(CARE)单元,增压空气绝对湿度估计(CAAHE)单元,室内产生蒸气量估计单元和室内绝对湿度估计( IAHE)单位。 CARE单元基于充电风扇的操作控制信息和预设的风扇差压来计算空调的估计的充气流量(ECAR)。 CAAHE单元基于增压空气温度和预设的充气空气相对湿度来计算空调器的估计的增压空气绝对湿度(ECAAH)。 IGVAE单元基于室内温度,房间中的人数和人的活动指标值来计算估计的室内产生蒸气量(EIGVA)。 IAHE单位根据ECAR,ECAAH和EIGVA计算房间的绝对湿度估计值。