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    • 6. 发明授权
    • Hybrid vehicle
    • 混合动力汽车
    • US07216943B2
    • 2007-05-15
    • US10984844
    • 2004-11-10
    • Ryo NishikawaHirokatsu AmanumaKazuhisa Yamamoto
    • Ryo NishikawaHirokatsu AmanumaKazuhisa Yamamoto
    • B60L7/18
    • B60K6/44B60K1/02B60K6/52B60L7/18B60L2240/423B60L2240/486B60T2270/602B60W10/08B60W10/18B60W20/11B60W30/18127B60W2510/244B60W2520/10B60W2540/12B60W2540/16B60W2550/148B60W2710/083B60W2720/106Y02T10/623Y02T10/6265Y02T10/642
    • A hybrid vehicle is capable of performing regenerative operations of generator-motors disposed adjacently to front wheels and/or rear wheels of the vehicle so as to achieve efficient conversion of kinetic energy of the vehicle into electric energy as much as possible when the vehicle slows down, thereby permitting higher use efficiency of energy. When the vehicle decelerates, a target deceleration force or a target deceleration torque of the vehicle is set, and a permissible maximum value of the braking torque to be imparted to rear wheels from a second generator-motor is set, and the permissible maximum value and the target deceleration torque of the vehicle, whichever is smaller, is set as a target braking torque to be imparted from the second generator-motor to the rear wheels. Furthermore, with the remaining torque of the target deceleration torque being set as an upper limit, a target braking torque to be imparted to front wheels from a first generator-motor is determined, and a friction type braking mechanism compensates a shortfall torque of a total sum of the target braking torques of the two generator-motors to reach the target deceleration torque.
    • 混合动力车辆能够执行与车辆的前轮和/或后轮相邻设置的发电机的再生操作,以便在车辆减速时尽可能多地实现车辆的动能有效地转换成电能 从而允许更高的能量使用效率。 当车辆减速时,设定车辆的目标减速力或目标减速力矩,并且设定从第二发电电动机赋予后轮的制动转矩的允许最大值,并且允许最大值和 车辆的目标减速力矩(以较小者为准)被设定为从第二发电电动机向后轮赋予的目标制动转矩。 此外,由于将目标减速转矩的剩余转矩设定为上限,因此确定了从第一发电电动机向前轮施加的目标制动转矩,并且摩擦式制动机构补偿总共的减速转矩 两个发电机的目标制动力矩之和达到目标减速转矩。
    • 7. 发明授权
    • Control apparatus for automatic starting/stopping internal combustion engine
    • 自动起动/停止内燃机的控制装置
    • US07100558B2
    • 2006-09-05
    • US10911629
    • 2004-08-05
    • Hirokatsu AmanumaYusuke Tatara
    • Hirokatsu AmanumaYusuke Tatara
    • F02N11/08
    • B60K6/44B60K6/52B60L2240/445B60W2510/068F02D41/1446F02N11/0833F02N11/10F02N2200/124Y02T10/48Y02T10/623Y02T10/6265
    • A CAT temperature sensor which detects the temperature of a catalyst (catalyst temperature TCAT) is provided in an exhaust purification apparatus of an exhaust pipe, and an exhaust vent temperature sensor which detects the temperature of an exhaust vent (exhaust vent TEND) is provided in near the exhaust vent. A FIECU, in the case where the catalyst temperature TCAT is above a predetermined temperature TCAT1, or in the case where a temperature difference ΔT obtained by subtracting the catalyst temperature TCAT from the exhaust vent temperature TEND is above a predetermined temperature difference ΔT1, sets the flag value of a flooding determination flag F_INUN to “1”, and sets the flag value of an idle rotation speed increase flag F_INEUP which indicates that a target engine speed in the idle operating state of the internal combustion engine is increased by a predetermined rotation speed, to “1”.
    • 在排气管的排气净化装置中设置有检测催化剂温度的CAT温度传感器(催化剂温度TCAT),并且在排气通风口TEND中检测出排气口温度的排气温度传感器 靠近排气口。 在催化剂温度TCAT高于预定温度TCAT 1的情况下,或者在从排气温度TEND中减去催化剂温度TCAT而获得的温度差DeltaT高于预定温差DeltaT 1的情况下,FIECU, 将溢流判定标志F_INUN的标志值设定为“1”,并设定空转速度提高标志F_INEUP的标志值,该标志值表示内燃机的怠速运转状态下的目标发动机转速增加预定 转速为“1”。
    • 8. 发明申请
    • Regeneration control system
    • 再生控制系统
    • US20060102395A1
    • 2006-05-18
    • US11265300
    • 2005-11-03
    • Kazuhisa YamamotoHirokatsu AmanumaAkihiro Yamamoto
    • Kazuhisa YamamotoHirokatsu AmanumaAkihiro Yamamoto
    • B60K6/00
    • B60W20/13B60K6/52B60K23/0808B60L7/18B60L2240/24B60W10/08B60W20/00B60W2520/14B60W2540/18B60W2550/142Y02T10/6265
    • A regeneration control system permits highly efficient regeneration while a vehicle is traveling stably, and also permits regeneration to be performed without interfering with a smooth behavior correction made by a driver when the behavior of the vehicle has been disturbed. The regeneration control system includes a total regeneration amount determiner for determining the total regeneration amount of a first electric motor connected to front wheels and a second electric motor connected to rear wheels, a regeneration amount allocation determiner for determining regeneration amount allocation to each electric motor, a determination value calculator for calculating a determination value based on a steering angle and a yaw rate, and a determiner for determining whether a determination value lies within a predetermined range. The system further includes a selector that selects a current regeneration amount allocation if the determination value lies within the predetermined range, whereas, if the determination value is out of the predetermined range, then the selector determines that a driver is trying to correct a vehicle behavior and selects the regeneration amount allocation obtained while the determination value was still within the predetermined range, i.e., the regeneration amount allocation immediately before the determination value deviated from the predetermined range. The system further includes a regeneration command issuer that issue regeneration amount commands to the electric motors on the basis of the selected regeneration amount allocation.
    • 再生控制系统能够在车辆行驶稳定的同时进行高效再生,并且还能够在不妨碍车辆的行为受到干扰的情况下由驾驶员进行的平滑行为校正的情况下进行再生。 再生控制系统包括用于确定连接到前轮的第一电动机的总再生量和与后轮相连的第二电动机的总再生量确定器,用于确定对每个电动机的再生量分配的再生量分配确定器, 确定值计算器,用于基于转向角和横摆率计算确定值;以及确定器,用于确定确定值是否在预定范围内。 该系统还包括选择器,如果确定值在预定范围内,则选择当前再生量分配,而如果确定值在预定范围之外,则选择器确定驾驶员正尝试校正车辆行为 并且在确定值仍然在预定范围内时获得的再生量分配,即紧接在从预定范围偏离的确定值之前的再生量分配。 该系统还包括根据选择的再生量分配向电动机发出再生量指令的再生指令发行者。