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    • 2. 发明授权
    • Brake control system for an electrically operated vehicle
    • 电动车辆制动控制系统
    • US06244674B1
    • 2001-06-12
    • US09153849
    • 1998-09-16
    • Tetsuya KunoTadashi TerazawaYoshinori SuzukiHarumi OhoriShingo Urababa
    • Tetsuya KunoTadashi TerazawaYoshinori SuzukiHarumi OhoriShingo Urababa
    • B60L710
    • B60L7/24B60L7/26
    • The present invention is directed to a brake control system for an electrically operated vehicle, which is adapted to reduce a regenerative braking torque and add a hydraulic braking force. A motor control unit is provided for controlling an electric motor to apply a rotating force to a wheel and apply the regenerative braking torque to the wheel. A pressure control device is provided for controlling a hydraulic braking pressure generated by a pressure generator in response to operation of a manually operated braking member, and supplied to a wheel brake cylinder, which is operatively mounted on the wheel for applying a hydraulic braking force to the wheel. The regenerative braking torque is reduced in response to a braking condition monitored by a monitor. A pressure difference is detected between the hydraulic braking pressure of the brake fluid discharged from the pressure generator and the hydraulic braking pressure in the wheel brake cylinder. And, a characteristic of the regenerative braking torque to be reduced is modified in response to the pressure difference, to compensate for lack of regenerative braking torque by the hydraulic braking force, smoothly.
    • 本发明涉及一种用于电动车辆的制动控制系统,其适于减少再生制动转矩并增加液压制动力。 提供电动机控制单元,用于控制电动机向车轮施加旋转力并将再生制动转矩施加到车轮上。 提供一种压力控制装置,用于响应于手动操作的制动构件的操作来控制由压力​​发生器产生的液压制动压力,并被提供给可操作地安装在车轮上用于施加液压制动力的车轮制动缸 车轮。 响应于由监视器监视的制动条件,再生制动转矩减小。 在从压力发生器排出的制动液的液压制动压力与车轮制动液压缸的液压制动压力之间,检测出压力差。 并且,响应于压差而改变再生制动转矩的特性,通过液压制动力平滑地补偿再生制动转矩的不足。
    • 3. 发明授权
    • Brake control system for an electrically operated vehicle
    • 电动车辆制动控制系统
    • US06216808B1
    • 2001-04-17
    • US09124083
    • 1998-07-29
    • Tetsuya KunoTadashi TerazawaShingo UrababaHarumi OhoriKenji Asano
    • Tetsuya KunoTadashi TerazawaShingo UrababaHarumi OhoriKenji Asano
    • B60K600
    • B60T13/686B60L7/26B60T8/00B60T8/267B60T8/321B60T8/4809B60T2270/604
    • The present invention is directed to a brake control system for an electrically operated vehicle which is adapted to reduce a regenerative braking torque and add a hydraulic braking force to compensate for lack of the regenerative braking torque, when voltage of a battery exceeds an upper limit. A motor control unit is provided for controlling an electric motor to apply a rotating force to a wheel and apply the regenerative braking torque to the wheel. A pressure control device is provided for supplying pressurized brake fluid to a wheel brake cylinder in response to operation of a manually operated braking member to apply the hydraulic braking force to the wheel. A reducing device is provided for reducing the regenerative braking torque when the voltage of the battery exceeds a predetermined upper limit. And, a compensation device is provided for actuating the pressure control device to supply the pressurized brake fluid to the wheel brake cylinder when the regenerative braking torque reduced by the reducing device exceeds a predetermined level, e.g., when a rate for reducing the regenerative braking torque exceeds a predetermined rate, or when a reduced amount of the regenerative braking torque exceeds a predetermined amount.
    • 本发明涉及一种用于电动车辆的制动控制系统,其适用于当电池电压超过上限时,减少再生制动转矩并增加液压制动力以补偿再生制动转矩的不足。 提供电动机控制单元,用于控制电动机向车轮施加旋转力并将再生制动转矩施加到车轮上。 提供一种压力控制装置,用于响应于手动操作的制动构件的操作将加压的制动液供应到车轮制动缸,以将液压制动力施加到车轮。 提供了一种减小装置,用于当电池的电压超过预定的上限时减小再生制动转矩。 并且,当通过减速装置减小的再生制动转矩超过预定水平时,例如当用于减小再生制动转矩的速率时,提供补偿装置用于致动压力控制装置以将加压制动流体供应到车轮制动缸 超过预定速率时,或者当再生制动转矩减少量超过预定量时。
    • 4. 发明授权
    • Anti-skid control system for an electrically operated vehicle
    • 电动车辆的防滑控制系统
    • US5664850A
    • 1997-09-09
    • US710026
    • 1996-09-11
    • Tetsuya KunoToshiaki HamadaTadashi Terazawa
    • Tetsuya KunoToshiaki HamadaTadashi Terazawa
    • B60T8/58B60L3/10B60T8/172B60T8/1763B60T8/66B60L7/00B60T8/64
    • B60T8/17636B60L3/102B60T2270/602
    • The present invention is directed to an anti-skid control system for controlling a braking force applied to road wheels including driven wheels of an electrically operated vehicle which has an electrical motor for driving the driven wheels. A hydraulic braking pressure is supplied to each wheel brake cylinder through an actuator. The actuator is controlled by a braking force controller into which output signals of wheel speed sensors are fed. A band-pass filter is provided for passing the wheel speeds of the driven wheels having an oscillation property within a predetermined band of frequencies, out of the wheel speeds detected by the wheel speed sensors. And, a coefficient of friction of a road is estimated to be relatively low when the output of the band-pass filter is in a predetermined range of frequencies. The hydraulic braking pressure in each wheel brake cylinder is controlled by the braking force controller in accordance with the estimated coefficient of friction and in response to the wheel speeds detected by the wheel speed sensors, thereby to control the braking force applied to each road wheel.
    • 本发明涉及一种用于控制施加到包括具有用于驱动从动轮的电动机的电动车辆的从动轮的车轮的制动力的防滑控制系统。 通过致动器向每个车轮制动液压缸提供液压制动压力。 致动器由制动力控制器控制,其中馈送有车轮速度传感器的输出信号。 提供了一种带通滤波器,用于使得由车轮速度传感器检测的车轮速度之中的具有振动特性的从动轮的车轮速度在预定频带范围内。 并且,当带通滤波器的输出处于预定的频率范围内时,道路的摩擦系数被估计为相对较低。 每个车轮制动液压缸中的液压制动压力由制动力控制器根据估计的摩擦系数和由车轮速度传感器检测到的车轮速度来控制,从而控制施加到每个车轮的制动力。
    • 5. 发明授权
    • Vehicle brake hydraulic pressure generator
    • 车辆制动液压发生器
    • US07104612B2
    • 2006-09-12
    • US10902581
    • 2004-07-30
    • Tadashi TerazawaYoji Inoue
    • Tadashi TerazawaYoji Inoue
    • B60T8/34
    • B60T13/575
    • A brake hydraulic pressure generator is proposed which is simple in structure and can suppress fluctuations in the brake pedal operating amount due to fluctuations in the amount of brake fluid consumed in the brake circuit. The brake hydraulic pressure generator includes an input shaft operated by a brake pedal, a stroke simulator for imparting a stroke and a reaction force corresponding to the brake pedal operating amount to the input shaft, a master cylinder for generating brake hydraulic pressure, and a pressure detector member for applying a reaction force corresponding to the hydraulic pressure in the master cylinder to a valve member of the control valve. The reaction force is transmitted through the pressure detector member to the control member. The input to the brake pedal is transmitted to the control valve through the stroke simulator so as to oppose the reaction force. The control valve operates to balance the reaction force and the input.
    • 提出一种制动液压发生器,其结构简单,并且可以抑制由于制动回路中消耗的制动液量的波动而引起的制动踏板操作量的波动。 制动液压发生器包括由制动踏板操作的输入轴,用于向输入轴施加与制动踏板操作量相对应的行程和反作用力的行程模拟器,用于产生制动液压的主缸和压力 检测器构件,用于将对应于主缸中的液压的反作用力施加到控制阀的阀构件。 反作用力通过压力检测器构件传递到控制构件。 制动踏板的输入通过行程模拟器传递到控制阀,以便反作用力。 控制阀用于平衡反作用力和输入。
    • 8. 发明授权
    • Auxiliary hydraulic pressure source device for a vehicle
    • 车辆辅助液压源装置
    • US06679564B2
    • 2004-01-20
    • US10023552
    • 2001-12-21
    • Hirofumi NittaMichiharu NishiiTadashi TerazawaMasaki OishiKenichi Suzuki
    • Hirofumi NittaMichiharu NishiiTadashi TerazawaMasaki OishiKenichi Suzuki
    • B60T1318
    • B60T13/686B60T8/404B60T8/441B60T13/145B60T13/148Y10S303/01
    • An auxiliary vehicle hydraulic pressure source device includes a hydraulic pressure pump pressurizing and discharging fluid, an accumulator accumulating fluid pressurized and discharged by the hydraulic pressure pump, a hydraulic pressure detector continuously detecting the accumulator hydraulic pressure, and a controller controlling operation of the hydraulic pressure pump based on a comparison of the detection result of the hydraulic pressure detector with a predetermined target pressure. The controller includes a pressure difference calculator calculating the pressure difference between the detection result of the hydraulic pressure detector and the predetermined target pressure, a pressure change calculator calculating a pressure change of the accumulator hydraulic pressure per unit time based on the detection result of the hydraulic pressure detector, and an adjusting device adjusting operation of fluid accumulated in the accumulator by operation of the hydraulic pressure pump based on the pressure difference and the pressure change.
    • 辅助车辆液压源装置包括液压泵加压排出流体,由液压泵加压和排出的蓄能器的蓄能器,连续检测蓄能器液压的液压检测器,控制液压的运转的控制器 基于将液压检测器的检测结果与预定目标压力进行比较的泵。 控制器包括:压力差计算器,计算液压检测器的检测结果与预定目标压力之间的压差;压力变化计算器,基于液压检测结果计算每单位时间的蓄液器液压的压力变化; 压力检测器,以及调节装置,通过基于压力差和压力变化的液压泵的操作来调节蓄积器内蓄积的液体的运转。
    • 9. 发明授权
    • Throttle control apparatus
    • 油门控制装置
    • US5076385A
    • 1991-12-31
    • US622577
    • 1990-12-05
    • Tadashi TerazawaYasuhiro Kobayashi
    • Tadashi TerazawaYasuhiro Kobayashi
    • F02D9/02B60K28/16F02D9/10F02D11/10F02D17/02F02D29/02F02D41/04F02D41/14
    • B60K28/16F02D9/1065
    • A throttle control apparatus for use with an automotive internal combustion engine. The apparatus assures that the drive wheels are stopped from spinning on a snowy road surface if the driver pushes down on the accelerator pedal. The apparatus comprises an accelerator operation mechanism including the accelerator pedal, a first throttle-driving means capable of opening and closing the throttle valve, a controller, a second driving means, and a fuel-cutting means. The first throttle-driving means is mounted independent of the accelerator operation mechanism and includes a driving plate, a clutch plate, and a movable yoke. The controller controls the first throttle-driving means to adjust the throttle opening. When the first throttle-driving means becomes inoperative, the throttle valve can be driven by the accelerator operation mechanism via the second throttle-driving means. The fuel-cutting means is operated when excessive spin of the drive wheels is detected.
    • 一种与汽车内燃机一起使用的节气门控制装置。 该装置确保驱动轮在雪路面上停止旋转,如果驾驶员按下加速器踏板。 该装置包括具有加速器踏板的加速器操作机构,能够打开和关闭节气门的第一节气门驱动装置,控制器,第二驱动装置和燃料切断装置。 第一节气门驱动装置独立于加速器操作机构安装,并且包括驱动板,离合器片和可动轭。 控制器控制第一节气门驱动装置来调节节气门开度。 当第一节气门驱动装置不工作时,可以通过第二节气门驱动装置通过加速器操作机构来驱动节气门。 当检测到驱动轮的过度旋转时,燃料切割装置被操作。
    • 10. 发明授权
    • Throttle control apparatus
    • 油门控制装置
    • US5022369A
    • 1991-06-11
    • US470687
    • 1990-01-26
    • Tadashi Terazawa
    • Tadashi Terazawa
    • B60K31/02B60W30/00F02D11/10F02D29/02
    • F02D11/107
    • A throttle control apparatus for an internal combustion engine has a throttle opening and closing arrangement for opening and closing a throttle valve. The arrangement is biased in the throttle valve closing direction. An accelerator actuating mechanism, a driving element capable of driving the throttle opening and closing arrangement in the throttle valve opening and closing directions independently of the accelerator actuating mechanism, a driving source coupled to the driving element to drive it to rotate in response to the operation of the accelerator actuating mechanism, and a clutch for connecting and disconnecting the throttle opening and closing arrangement and the driving element. The throttle control apparatus includes a first detector for outputting a signal corresponding to the accelerator actuating quantity provided by the accelerator actuating mechanism, a second detector for outputting a signal corresponding to the degree of opening of the throttle valve, and a controller for driving the clutch to disconnect the throttle opening and closing arrangement and the driving element from each other when the output signal from the first detector indicates an accelerator actuating quantity not greater than a predetermined accelerator actuating quantity and the output signal from the second detector is a predetermined angle greater than the degree of opening of the throttle valve corresponding to the accelerator actuating quantity not greater than the predetermined accelerator actuating quantity.
    • 用于内燃机的节气门控制装置具有用于打开和关闭节流阀的节气门开闭装置。 该装置在节气门关闭方向上偏置。 一种加速器致动机构,能够独立于加速器致动机构而在节气门开闭方向上驱动节气门开闭装置的驱动元件,与驱动元件联接以驱动其响应于操作而旋转的驱动源 的加速器致动机构,以及用于连接和断开节气门开闭装置和驱动元件的离合器。 节流控制装置包括:第一检测器,用于输出对应于由加速器致动机构提供的加速器致动量的信号;第二检测器,用于输出对应于节流阀的开度的信号;以及控制器,用于驱动离合器 当来自第一检测器的输出信号指示不大于预定的加速器启动量的加速器致动量时,节流阀开启和关闭装置和驱动元件彼此断开,并且来自第二检测器的输出信号是大于 对应于加速器启动量的节流阀的开度不大于预定的加速器启动量。