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    • 1. 发明申请
    • LOCK-UP CLUTCH CONTROL DEVICE
    • 锁定离合器控制装置
    • US20100145584A1
    • 2010-06-10
    • US12452463
    • 2008-07-07
    • Sei Kojima
    • Sei Kojima
    • G06F19/00
    • F16H61/143F16H2059/186F16H2061/0087Y10T477/75Y10T477/755Y10T477/78
    • When deceleration lock-up differential pressure learning control is entered and a difference between this deceleration lock-up differential pressure instruction value and a disengagement initial pressure of lock-up smooth off control becomes smaller than prior to deceleration lock-up differential pressure learning control, the disengagement initial pressure PS of lock-up smooth off control is corrected to a low side in accordance with a difference between that deceleration lock-up differential pressure instruction value and the disengagement initial pressure. Furthermore, by changing the sweep gradient of lock-up smooth off control to a small side, and in addition, correcting the disengagement initial pressure PS of lock-up smooth off control to a low side in consideration of disengagement delay of the lock-up clutch pursuant to that sweep gradient change, the actual disengagement time during lock-up smooth off control can be matched with a target disengagement time.
    • 当减速锁定差压学习控制进入时,该减速锁定差压指令值与解锁初始压力之间的差异平滑关闭控制变得比减速锁定差压学习控制之前的差, 根据该减速锁定差压指示值与分离初始压力的差,将锁定平滑关闭控制的分离初始压力PS修正为低侧。 此外,通过将锁定平滑关闭控制的扫掠梯度改变为小侧,并且另外,考虑到锁定的分离延迟,将锁定的分离初始压力PS修正到低侧 离合器根据该扫描梯度变化,锁定期间的实际分离时间平滑关闭控制可以与目标分离时间相匹配。
    • 5. 发明申请
    • CONTROL DEVICE FOR VEHICLE
    • 车辆控制装置
    • US20150134213A1
    • 2015-05-14
    • US14382040
    • 2012-02-29
    • Wataru MatsubaraSei KojimaAkira Hino
    • Wataru MatsubaraSei KojimaAkira Hino
    • B60W30/188B60W10/107B60W10/06
    • B60W30/188B60W10/06B60W10/107F02D29/00F16H61/66272F16H2061/6605
    • In a control device for a vehicle on which is mounted a continuously variable transmission capable of mechanically locking a primary pulley at the time of a maximum gear ratio (maximum Low), an idle rotational speed is not always set high to increase a hydraulic pressure at the time of stopping the vehicle. Instead, at the time of stopping the vehicle, when the gear ratio of the continuously variable transmission is the maximum gear ratio, normal idle rotational speed control is performed, and only when the gear ratio is not the maximum gear ratio, idle-up control is performed so that the idle rotational speed is set high, thereby the hydraulic pressure is set high. Thus, by restricting conditions in which the hydraulic pressure is set high by the idle-up control, it is possible to improve fuel efficiency while suppressing generation of a belt slip.
    • 在车辆的控制装置中,其安装有能够在最大变速比(最大低)时机械地锁定主滑轮的无级变速传动装置,怠速转速并不总是设定得很高以增加液压在 停车时间 相反,在车辆停车时,当无级变速器的变速比为最大变速比时,进行正常的怠速转速控制,只有当变速比不是最大变速比时,空转控制 进行怠速转速设定为高,从而将液压设定得高。 因此,通过限制通过怠速控制将液压设定得高的条件,可以在抑制皮带滑移的产生的同时提高燃料效率。
    • 7. 发明授权
    • Lock-up clutch control device
    • 锁止离合器控制装置
    • US08326503B2
    • 2012-12-04
    • US12452463
    • 2008-07-07
    • Sei Kojima
    • Sei Kojima
    • G06F7/00
    • F16H61/143F16H2059/186F16H2061/0087Y10T477/75Y10T477/755Y10T477/78
    • When deceleration lock-up differential pressure learning control is entered and a difference between this deceleration lock-up differential pressure instruction value and a disengagement initial pressure of lock-up smooth off control becomes smaller than prior to deceleration lock-up differential pressure learning control, the disengagement initial pressure PS of lock-up smooth off control is corrected to a low side in accordance with a difference between that deceleration lock-up differential pressure instruction value and the disengagement initial pressure. Furthermore, by changing the sweep gradient of lock-up smooth off control to a small side, and in addition, correcting the disengagement initial pressure PS of lock-up smooth off control to a low side in consideration of disengagement delay of the lock-up clutch pursuant to that sweep gradient change, the actual disengagement time during lock-up smooth off control can be matched with a target disengagement time.
    • 当减速锁定差压学习控制进入时,该减速锁定差压指令值与解锁初始压力之间的差异平滑关闭控制变得比减速锁定差压学习控制之前的差, 根据该减速锁定差压指示值与分离初始压力的差,将锁定平滑关闭控制的分离初始压力PS修正为低侧。 此外,通过将锁定平滑关闭控制的扫掠梯度改变为小侧,并且另外,考虑到锁定的分离延迟,将锁定的分离初始压力PS修正到低侧 离合器根据该扫描梯度变化,锁定期间的实际分离时间平滑关闭控制可以与目标分离时间相匹配。
    • 9. 发明授权
    • Control device for vehicle
    • 车辆控制装置
    • US09180886B2
    • 2015-11-10
    • US14382040
    • 2012-02-29
    • Wataru MatsubaraSei KojimaAkira Hino
    • Wataru MatsubaraSei KojimaAkira Hino
    • B60W10/06B60W10/107B60W30/188F02D29/00F16H61/66F16H61/662
    • B60W30/188B60W10/06B60W10/107F02D29/00F16H61/66272F16H2061/6605
    • In a control device for a vehicle on which is mounted a continuously variable transmission capable of mechanically locking a primary pulley at the time of a maximum gear ratio (maximum Low), an idle rotational speed is not always set high to increase a hydraulic pressure at the time of stopping the vehicle. Instead, at the time of stopping the vehicle, when the gear ratio of the continuously variable transmission is the maximum gear ratio, normal idle rotational speed control is performed, and only when the gear ratio is not the maximum gear ratio, idle-up control is performed so that the idle rotational speed is set high, thereby the hydraulic pressure is set high. Thus, by restricting conditions in which the hydraulic pressure is set high by the idle-up control, it is possible to improve fuel efficiency while suppressing generation of a belt slip.
    • 在车辆的控制装置中,其安装有能够在最大变速比(最大低)时机械地锁定主滑轮的无级变速传动装置,怠速转速并不总是设定得很高以增加液压在 停车时间 相反,在车辆停车时,当无级变速器的变速比为最大变速比时,进行正常的怠速转速控制,只有当变速比不是最大变速比时,空转控制 进行怠速转速设定为高,从而将液压设定得高。 因此,通过限制通过怠速控制将液压设定得高的条件,可以在抑制皮带滑移的产生的同时提高燃料效率。