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    • 1. 发明授权
    • Suspension control system
    • 悬架控制系统
    • US06434460B1
    • 2002-08-13
    • US09911617
    • 2001-07-25
    • Toru UchinoNobuyuki IchimaruMasaaki UchiyamaTakahide Kobayashi
    • Toru UchinoNobuyuki IchimaruMasaaki UchiyamaTakahide Kobayashi
    • B60G17015
    • B60G17/01933B60G2202/40B60G2400/10B60G2400/40B60G2400/61B60G2500/10Y10S180/902
    • By passing the vertical acceleration through a phase adjusting filter and a gain adjusting filter, the phase of the vertical acceleration is advanced by 49 degrees so that the phase difference with respect to the actual relative velocity becomes 180 degrees in the neighborhood of the vehicle body resonance point, thereby making the phase of the vertical acceleration, in effect, coincident with the phase of the relative velocity. In the neighborhood of the vehicle body resonance point (1 Hz), the gain of the estimated relative velocity takes a small value. In frequency regions other than the neighborhood of the vehicle body resonance point, the gain of the estimated relative velocity is increased. Consequently, the controlled variable in the neighborhood of the vehicle body resonance point increases, and the controlled variable in higher frequency regions decreases. Damping force is adjusted in correspondence to the controlled variable. Thus, it is possible to improve ride quality in the neighborhood of the vehicle body resonance point (1 Hz).
    • 通过使垂直加速度通过相位调整滤波器和增益调整滤波器,垂直加速度的相位提前49度,使得相对于实际相对速度的相位差在车身谐振附近变为180度 点,从而使垂直加速度的相位实际上与相对速度的相位一致。 在车体共振点(1Hz)附近,估计的相对速度的增益取小值。 在车体共振点附近的频率区域中,估计的相对速度的增益增加。 因此,车体共振点附近的受控变量增大,高频区域的受控变量减小。 阻尼力相应于受控变量进行调整。 因此,能够提高车体共振点附近的乘坐质量(1Hz)。
    • 2. 发明授权
    • Suspension control apparatus
    • 悬架控制装置
    • US06158746A
    • 2000-12-12
    • US273264
    • 1999-03-22
    • Masaaki UchiyamaNobuyuki Ichimaru
    • Masaaki UchiyamaNobuyuki Ichimaru
    • B60G17/015B60G17/016B60G17/15
    • B60G17/0162B60G2400/104B60G2400/204B60G2400/41B60G2500/10B60G2600/02B60G2600/14B60G2600/184B60G2800/24B60G2800/702
    • In the suspension control apparatus of the present invention, when a lateral acceleration differential value falls outside a lateral acceleration differential value range, a controller calculates a control input for an actuator, based on the lateral acceleration differential value, in preference to a lateral acceleration. Therefore, immediately after the start of rolling of a vehicle and just prior to the end of the rolling when the lateral acceleration differential value falls outside the lateral acceleration differential value range, the control input for the actuator is calculated based on the lateral acceleration differential value. By this arrangement, it is possible to suppress any uncomfortable sensation which is likely to be transmitted to an occupant of the vehicle immediately after the start of rolling and just prior to the end of rolling in a conventional technique, in which the control input for the actuator is calculated by adding the control input varying in proportion to the lateral acceleration and the control input varying in proportion to the lateral acceleration differential value.
    • 在本发明的悬架控制装置中,当横向加速度差分值落在横向加速度差异值范围之外时,控制器基于横向加速度微分值,优先于侧向加速度来计算执行机构的控制输入。 因此,当横向加速度差分值落在横向加速度差值范围之外时,在车辆开始滚动之后并且刚好在滚动结束之前,基于横向加速度差分值来计算用于致动器的控制输入 。 通过这种布置,可以在常规技术中抑制可能在刚刚开始轧制之后刚好在轧制结束之前传递给车辆的乘客的任何不适感,其中,用于 通过将与横向加速度成比例的控制输入和与横向加速度差值成比例变化的控制输入相加来计算执行器。
    • 6. 发明授权
    • Stabilizer device
    • 稳定装置
    • US07287759B2
    • 2007-10-30
    • US10925422
    • 2004-08-25
    • Masaaki UchiyamaNobuyuki Ichimaru
    • Masaaki UchiyamaNobuyuki Ichimaru
    • B60G21/055
    • B60G21/0555B60G2202/135B60G2202/413B60G2202/44B60G2202/441B60G2204/4193
    • The piston 10 is constituted so as to rotate relative to the first cylinder 8 while moving relative to the first cylinder 8 in the axial direction when fluid is supplied to and discharged from the interior of the first cylinder 8, and the piston 16 is constituted to be incapable of rotation relative to the second cylinder 9, but capable of movement relative to the second cylinder 9 in the axial direction. Hence when fluid is supplied to and discharged from the interior of the first cylinder 8, the piston 10 is caused to rotate relative to the first cylinder 8 while moving relative to the first cylinder 8 in the axial direction, and the piston 16 is caused to move relative to the second cylinder 9 in the axial direction but prevented from rotating relative to the second cylinder 9. As a result, torsional elasticity is generated in shaft portions 4a and 5a.
    • 当向第一气缸8的内部供应流体并从第一气缸8的内部排出时,活塞10相对于第一气缸8相对于第一气缸8沿轴向移动而构成,活塞16构成为 不能相对于第二气缸9旋转,而是能够相对于第二气缸9沿轴向移动。 因此,当向第一气缸8的内部供给流体并从第一气缸8的内部排出时,使活塞10相对于第一气缸8相对于第一气缸8沿轴向移动,并使活塞16 在轴向上相对于第二气缸9移动但是相对于第二气缸9被阻止旋转。结果,在轴部分4a和5a中产生扭转弹性。
    • 7. 发明申请
    • Stabilizer device
    • 稳定装置
    • US20050067798A1
    • 2005-03-31
    • US10925422
    • 2004-08-25
    • Masaaki UchiyamaNobuyuki Ichimaru
    • Masaaki UchiyamaNobuyuki Ichimaru
    • B60G21/055
    • B60G21/0555B60G2202/135B60G2202/413B60G2202/44B60G2202/441B60G2204/4193
    • The piston 10 is constituted so as to rotate relative to the first cylinder 8 while moving relative to the first cylinder 8 in the axial direction when fluid is supplied to and discharged from the interior of the first cylinder 8, and the piston 16 is constituted to be incapable of rotation relative to the second cylinder 9, but capable of movement relative to the second cylinder 9 in the axial direction. Hence when fluid is supplied to and discharged from the interior of the first cylinder 8, the piston 10 is caused to rotate relative to the first cylinder 8 while moving relative to the first cylinder 8 in the axial direction, and the piston 16 is caused to move relative to the second cylinder 9 in the axial direction but prevented from rotating relative to the second cylinder 9. As a result, torsional elasticity is generated in shaft portions 4a and 5a.
    • 当向第一气缸8的内部供应流体并从第一气缸8的内部排出时,活塞10相对于第一气缸8相对于第一气缸8沿轴向移动而构成,活塞16构成为 不能相对于第二气缸9旋转,而是能够相对于第二气缸9沿轴向移动。 因此,当向第一气缸8的内部供给流体并从第一气缸8的内部排出时,使活塞10相对于第一气缸8相对于第一气缸8沿轴向移动,并使活塞16 在轴向上相对于第二气缸9移动,但是相对于第二气缸9被阻止旋转。结果,在轴部4a和5a中产生扭转弹性。