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    • 2. 发明公开
    • LOCK-UP-CLUTCH CONTROL DEVICE FOR VEHICLE
    • 车辆锁止 - 离合器控制装置
    • EP3168503A1
    • 2017-05-17
    • EP14897020.5
    • 2014-07-09
    • NISSAN MOTOR CO., LTD.
    • KAMIYA, Kohei
    • F16H61/14
    • B60W30/18072B60W10/026B60W10/06B60W10/107B60W2510/0233B60W2510/0241B60W2510/0638B60W2510/1095B60W2540/10B60W2710/024B60W2710/0627B60W2710/1005F16H59/18F16H61/14F16H2059/186
    • The present invention reduces the occurrence of a shock when depressing and operating the accelerator from a state of coasting.
      An engine-equipped vehicle provided with a torque converter (4) comprising a lock-up clutch (3) between the engine (1) and a continuously variable transmission (6), the engine-equipped vehicle being further provided with a fuel cutoff control unit (11 a) and a CVT control unit (12). The fuel cutoff control unit (11 a) prevents fuel injection to the engine (1) while in a coasting state with the driver's foot away from the accelerator, and restarts the fuel injection on the basis of a fuel recovery permission. The CVT control unit (12) carries out a cooperative control of a lock-up release control for reducing the clutch engagement capacity of the lock-up clutch (3) and a transmission control for shifting the transmission. Then, if there is an accelerator depression operation while coasting with the lock-up clutch (3) in an engaged state, the lock-up release timing and the shift timing are offset from one another.
    • 本发明在从加速状态下踩踏油门时,减少冲击的发生。 一种配备有发动机的车辆,该发动机配备的车辆在发动机(1)和无级变速器(6)之间设置有包括锁止离合器(3)的变矩器(4),该发动机搭载车辆还设置有燃料切断控制 单元(11a)和CVT控制单元(12)。 燃料切断控制部11a在驾驶员的脚远离加速踏板的滑行状态下,防止向发动机1的燃料喷射,基于燃料恢复许可重新开始燃料喷射。 CVT控制单元(12)对用于减小锁止离合器(3)的离合器接合容量的锁止释放控制和用于切换变速器的变速控制进行协同控制。 然后,如果在锁止离合器(3)处于接合状态下滑行时存在加速器踩踏操作,则锁止释放正时和换挡正时彼此偏移。
    • 5. 发明公开
    • LOCK-UP-CLUTCH CONTROL DEVICE
    • 锁紧离合器控制装置
    • EP3168504A1
    • 2017-05-17
    • EP15818981.1
    • 2015-06-22
    • Jatco LtdNISSAN MOTOR CO., LTD.
    • HONMA, TomoakiKAMIYA, KoheiSUZUKI, YutaSHINOHARA, ItaruSEKIYA, HiroshiOGINO, HiromuENDO, YasuhiroTOHTA, YuzuruSAITOU, Kouki
    • F16H61/14
    • F16H61/143F16D48/06F16D2500/10412F16D2500/1045F16D2500/30412F16D2500/3144F16D2500/70426F16D2500/7082F16H45/02F16H59/14F16H59/18F16H2059/145F16H2061/145Y10T477/635Y10T477/73
    • [Summary] A control device for a lock-up-clutch (20) installed in a torque converter (2) arranged between a prime mover (1) serving as a driving source and an automatic transmission mechanism (4) is described, the control device including an engagement control means (8H) that carries out a calculation to increase an engaging capacity of the lock-up-clutch (20) with the passage of time during an engagement control time in which the torque converter (2) is shifted from a converter condition to a lock-up condition, the prime mover (1) driving an auxiliary device (110), in which when, during the control to increase the engaging capacity of the lock-up-clutch (20), an input torque inputted to the torque converter from the prime mover (1) is increased due to reduction in load of the auxiliary device (110), the engagement control means (8H) promotes the increase of the engaging capacity of the lock-up-clutch (20) based on the amount of increase of the input torque. According to the control device for the lock-up-clutch of the present invention, the pressure shortage that would be induced in the period toward the lock-up condition is assuredly eliminated.
    • 【总结】描述了一种用于安装在设置在用作驱动源的原动机(1)与自动变速机构(4)之间的变矩器(2)中的锁止离合器(20)的控制装置,控制装置 装置,该装置包括接合控制装置(8H),该接合控制装置进行计算,以在变矩器(2)从接合控制时间移开的过程中随着时间的推移增加锁止离合器(20)的接合能力 (1)驱动辅助装置(110),其中,在增加锁止离合器(20)的接合容量的控制期间,当变矩器状态为锁止状态时,原动机(1) 由于辅助装置(110)的负荷降低,从原动机(1)输入到转矩变换器的转矩提高,所以接合控制单元(8H)促进锁止离合器 )基于输入转矩的增加量。 根据本发明的用于锁止离合器的控制装置,可靠地消除了在朝向锁止状态的时期内所引起的压力不足。
    • 7. 发明公开
    • AUTOMATIC TRANSMISSION CONTROL DEVICE AND CONTROL METHOD
    • 自动变速器控制装置和控制方法
    • EP3279521A1
    • 2018-02-07
    • EP16771961.6
    • 2016-02-22
    • Jatco Ltd.Nissan Motor Co., Ltd.
    • KAMIYA, KoheiHONMA, TomoakiENDO, Yasuhiro
    • F16H61/16F16H61/14
    • When a torque converter (2) is being switched from a slip engagement state to a full engagement state as a result of an ON operation of an accelerator, during the execution of control that achieves the full engagement state after increasing the rotation of an internal combustion engine (1) in the slip engagement state while expanding the torque transmission capacity of a lockup clutch (20) by means of slip engagement, if it is determined that there has been a gain in the output torque of the internal combustion engine (1) when, within a prescribed period of time after the beginning of the control, the detected input/output differential rotation speed of the lockup clutch (20) is at or below a second prescribed value (ΔN2) that is smaller than a first prescribed value (ΔN1) after having increased to or above the first prescribed value, a prescribed capacity is added to the expanding torque transmission capacity of the lockup clutch (20). It is possible to avoid judder variation caused by the release of an accelerator pedal during a transition to a lockup state.
    • 通过加速器的接通动作,在变矩器(2)从滑动接合状态切换为完全接合状态时,在进行使内燃机的旋转增加后成为完全接合状态的控制 如果确定内燃机(1)的输出扭矩存在增益,则通过打滑接合来扩大锁止离合器(20)的扭矩传递容量,同时使发动机(1)处于滑动接合状态, 在控制开始后的规定时间内,检测到的锁止离合器(20)的输入输出差转速成为小于第一规定值(ΔN2)的第二规定值(ΔN2) ΔN1)增大到第一规定值以上时,在锁止离合器20的膨胀扭矩传递容量上加上规定的容量。 可以避免在过渡到锁定状态期间由于释放加速踏板而引起的抖动变化。