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    • 2. 发明申请
    • ENGINE COOLING SYSTEM FOR VEHICLE
    • 发动机冷却系统
    • US20080115745A1
    • 2008-05-22
    • US11943314
    • 2007-11-20
    • Kazuhiko KAWAIKEMotohiko KoushimaMinoru HanahashiMari Nagata
    • Kazuhiko KAWAIKEMotohiko KoushimaMinoru HanahashiMari Nagata
    • F01P7/14
    • F01P7/084F01P5/04F01P5/12F01P2005/046
    • In order to reduce driving power of an engine cooling system in which a cooling fan for cooling a radiator and a water pump are driven by a motor, according to the invention, a pump motor of the water pump 5 which circulates liquid coolant is used as a drive source of the cooling fan. An electromagnetic clutch is provided between the pump motor and the cooling fan, and when the liquid coolant exiting from an engine is at a predetermined temperature or higher, the electromagnetic clutch is brought into a connected state, whereas when the liquid coolant is at a temperature lower than the predetermined temperature, the electromagnetic clutch is brought into a disconnected state. When the liquid coolant is at a temperature lower than the predetermined temperature, and the vehicle speed is at a predetermined speed or higher, the electromagnetic clutch is brought into a connected state, and a rotational force of the cooling fan receiving driving wind is transmitted to the pump motor to reduce its load.
    • 为了降低发动机冷却系统的驱动力,其中用于冷却散热器和水泵的冷却风扇由电动机驱动,根据本发明,使用循环液体冷却剂的水泵5的泵电动机作为 冷却风扇的驱动源。 在泵电动机和冷却风扇之间设置电磁离合器,当从发动机排出的液体冷却剂处于预定温度以上时,电磁离合器处于连接状态,而当液体冷却剂处于温度 低于预定温度时,电磁离合器进入断开状态。 当液体冷却剂处于低于预定温度的温度,并且车速处于预定速度或更高速度时,电磁离合器进入连接状态,并且将冷却风扇接受驱动风的旋转力传递至 泵电机减少其负载。
    • 3. 发明申请
    • Multi-lobe foil gas bearing
    • 多叶箔气体轴承
    • US20070211970A1
    • 2007-09-13
    • US11716689
    • 2007-03-12
    • Mari NagataMinoru HanahashiKazuhiko Kawaike
    • Mari NagataMinoru HanahashiKazuhiko Kawaike
    • F16C32/06
    • F16C17/024F16C17/26F16C27/063F16C33/101F16C2370/12
    • A multi-lobe foil gas bearing which can accomplish high accuracy rotation by means of a stable fluid lubricating film without being affected by a rotational position or a driving system of a journal at the time of starting is provided. Since two foils are arranged with different phases in a circumferential direction so that each vertex part of one of the two foils is positioned in an arc surface part of the other foil in a plan view seen from a shaft end of the journal, a part having low rigidity and a part having high rigidity of the multi-lobe foil gas bearing compensate each other to eliminate a local part having low bearing rigidity. As a result, it is possible to eliminate a phenomenon such as moving or leaning of the journal at the time of starting, while the fluid lubricating film can exist over the entire circumferential surface of the journal to keep stable high accuracy rotation of the journal.
    • 提供了一种多叶片箔气体轴承,其可以通过稳定的流体润滑膜实现高精度的旋转,而不受起动时的轴颈的旋转位置或驱动系统的影响。 由于两个箔片在圆周方向上具有不同的相位布置,使得两个箔片中的一个的每个顶点部分在从轴颈的轴端看到的平面图中位于另一箔片的弧形表面部分中, 多片箔气体轴承的低刚性和高刚性部分相互补偿以消除具有低轴承刚度的局部部件。 结果,可以消除在起动时轴颈移动或倾斜的现象,同时流体润滑膜可以存在于轴颈的整个圆周表面上,以保持轴颈稳定的高精度旋转。