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    • 2. 发明授权
    • Method for producing a motor rotor
    • 电机转子的制造方法
    • US09015926B2
    • 2015-04-28
    • US14113040
    • 2011-04-22
    • Masayuki MatsushitaKimimasa MurayamaKoji Matsuno
    • Masayuki MatsushitaKimimasa MurayamaKoji Matsuno
    • H02K5/02H02K15/02
    • H02K15/02H02K15/028Y10T29/49009Y10T29/49012
    • In a method for producing a motor rotor, a lamination stack made up of stacked thin steel sheets each formed with a through hole, the lamination stack having a shaft bore formed of the through holes aligned with one another, is retained as a rotor core in a thickness direction with a pair of jigs from both sides, and a shaft is inserted into the shaft bore and joined to the lamination stack by shrink fitting. Each jig includes a shaft hole, a radially inner peripheral portion for holding a peripheral edge of the shaft bore of the lamination stack at a position, in a radial direction of the shaft hole, surrounding the shaft hole radially inside; and a radially outer peripheral portion for holding the outer periphery of the lamination stack. The radially inner and outer peripheral portions are positioned at different heights in a jig height direction.
    • 在制造电动机转子的方法中,由堆叠的薄钢板构成的叠层叠层,每个堆叠的薄钢板均形成有通孔,所述层压叠层具有由彼此对准的通孔形成的轴孔,作为转子芯保持 厚度方向与两侧具有一对夹具,并且将轴插入轴孔中并通过收缩配合接合到叠片叠层。 每个夹具包括轴孔,径向内周部分,用于将层压叠层的轴孔的周缘保持在轴孔的径向方向上径向向内包围轴孔的位置; 以及用于保持层压叠层的外周的径向外周部。 径向内外周部分位于夹具高度方向上的不同高度处。
    • 5. 发明授权
    • Vehicle motion control device
    • 车辆运动控制装置
    • US07657357B2
    • 2010-02-02
    • US10953350
    • 2004-09-30
    • Koji Matsuno
    • Koji Matsuno
    • B60T8/32
    • B60T8/1755B60T8/1769B60T2270/303B60W40/068B60W2510/0275B60W2520/125B60W2710/02B60W2720/14
    • A transfer clutch control units operates a second transfer clutch torque corresponding to a yaw moment out of the transfer clutch torque to be output to a transfer clutch drive unit by a second transfer clutch torque operational unit. The second transfer clutch torque operational unit operates a reference lateral acceleration from a lateral acceleration to be operated based on a linear vehicle motion model from a vehicle driving state and a preset coefficient according to the vehicle driving state, in addition to the yaw moment sensing the yaw rate and the yaw moment sensing the steering wheel angle, and operate the yaw moment corresponding to the deviation between the reference lateral acceleration and the actual lateral acceleration as a corrected value of the yaw moment. Not only a high μ road but also a low μ road, even abrupt change of road surfaces or the like can be consistently and optimally coped with in excellent response.
    • 传递离合器控制单元通过第二传递离合器扭矩操作单元来操作对应于转移离合器扭矩之外的横摆力矩的第二传递离合器扭矩,以输出到传递离合器驱动单元。 第二传递离合器扭矩操作单元除了根据车辆行驶状态的车辆行驶状态的线性车辆运动模型和根据车辆行驶状态的预设系数之外,还从横向加速度来操作参考横向加速度,除了偏航力矩感测 偏航率和偏航力矩感测方向盘角度,并且将与参考横向加速度和实际横向加速度之间的偏差相对应的横摆力矩作为偏航力矩的校正值进行操作。 不仅高路公路,还有低路,甚至路面的突然变化等都能得到一贯优化的应对。
    • 8. 发明授权
    • Braking force angular slip control system
    • US06283560B1
    • 2001-09-04
    • US09769489
    • 2001-01-26
    • Koji Matsuno
    • Koji Matsuno
    • B60K2816
    • A vehicle speed, an actual steering angle, an actual vehicle yaw rate, and a lateral vehicle acceleration are detected. On the basis of the detected vehicle speed, the detected actual vehicle yaw rate, and the detected lateral vehicle acceleration, the vehicle body slip angular velocity calculating section (32) calculates a vehicle body slip angular velocity. On the basis of the calculated vehicle body slip angular velocity, the front wheel steering wheel angle correcting section (33) corrects the actual steering angle. Further, the braking signal output section (37) outputs a braking signal to the brake driving section (16) so that the target braking force calculated by the target braking force calculating section (35) can be applied to the braked wheel selected by the braked wheel selecting section (36). Therefore, even if the driver unavoidably turns the steering wheel excessively on a slippery road, for instance, the target braking force is not set to a large value beyond necessity, with the result that a stable vehicle turning travel can be attained.
    • 9. 发明授权
    • Braking force control system for automotive vehicle
    • US06280007B1
    • 2001-08-28
    • US09769316
    • 2001-01-26
    • Koji Matsuno
    • Koji Matsuno
    • B60T860
    • A vehicle speed, an actual steering angle, an actual vehicle yaw rate, and a lateral vehicle acceleration are detected. On the basis of the detected vehicle speed, the detected actual vehicle yaw rate, and the detected lateral vehicle acceleration, the vehicle body slip angular velocity calculating section (32) calculates a vehicle body slip angular velocity. On the basis of the calculated vehicle body slip angular velocity, the front wheel steering wheel angle correcting section (33) corrects the actual steering angle. On the other hand, the braked wheel selecting section (36) selects a braked wheel. Further, the braking signal output section (37) outputs a braking signal to the brake driving section (16) so that the target braking force calculated by the target braking force calculating section (35) can be applied to the braked wheel selected by the braked wheel selecting section (36). Therefore, even if the driver unavoidably turns the steering wheel excessively on a slippery road, for instance, the target braking force is not set to a large value beyond necessity, with the result that a stable vehicle turning travel can be attained.
    • 10. 发明授权
    • Steering control system for vehicle
    • 车辆转向控制系统
    • US08234044B2
    • 2012-07-31
    • US13052503
    • 2011-03-21
    • Koji MatsunoSatoru AkiyamaShinji MatsushitaShiro EzoeMasaru KogureHajime Oyama
    • Koji MatsunoSatoru AkiyamaShinji MatsushitaShiro EzoeMasaru KogureHajime Oyama
    • B62D6/00
    • B62D6/003B62D5/008
    • A steering control section has a first steering angle correction amount calculating section, a second steering angle correction amount calculating section, and a motor rotational angle calculating section. The first correction amount calculating section calculates a first correction amount based on a vehicle speed and an actual steering wheel angle. The second correction amount calculating section calculates a second correction amount through multiplying a control gain corresponding to the vehicle speed with a value calculated by low-pass filtering a differential value of steering wheel angle. The motor rotational angle calculating section calculates a motor rotational angle corresponding to the value adding the first and second steering angle correction amount, and outputs it to a motor driving section so as to drive an electric motor for correcting the steering angle. Thereby, an unstable vehicle behavior due to a resonance of a yaw motion caused in the steering operation can be suppressed.
    • 转向控制部具有第一转向角修正量计算部,第二转向角修正量计算部和电动机转动角计算部。 第一校正量计算部基于车速和实际方向盘角度来计算第一校正量。 第二校正量计算部分通过将与车速相对应的控制增益乘以通过对方向盘角度的差分值进行低通滤波而计算的值来计算第二校正量。 马达旋转角度计算部分计算与增加第一和第二转向角校正量的值相对应的马达旋转角度,并将其输出到马达驱动部分,以驱动用于校正转向角的电动马达。 由此,可以抑制由于在转向操作中引起的偏航运动的共振引起的不稳定的车辆行为。