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    • 1. 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
    • Brake control system for an electrically operated vehicle
    • 电动车辆制动控制系统
    • US5951115A
    • 1999-09-14
    • US903308
    • 1997-07-30
    • Toshiyuki SakaiMasamoto AndoNaoyasu EnomotoShingo UrababaHarumi Ohori
    • Toshiyuki SakaiMasamoto AndoNaoyasu EnomotoShingo UrababaHarumi Ohori
    • B60T8/00B60L7/24B60T8/17B60T13/58B60T13/74
    • B60T8/4072B60L7/26B60T13/586B60T13/74B60T8/267
    • The present invention is directed to a brake control system for an electrically operated vehicle which is adapted to add a hydraulic braking operation to a regenerative braking operation, or change the former for the latter, rapidly and smoothly. An electric motor is operatively connected to a wheel for rotating the wheel, and a motor control unit for controlling the electric motor to apply a rotating force and a regenerative braking force to the wheel. In a main passage for connecting a master cylinder with a wheel brake cylinder, a pressure limit changeover device is disposed. The changeover device includes a first pressure limit device which is adapted to close the main passage when a master cylinder pressure is lower than a first predetermined pressure, and open the main passage when the master cylinder pressure exceeds the first predetermined pressure, and a second pressure limit device which is adapted to close the main passage when the master cylinder pressure is lower than a second predetermined pressure which is lower than the first predetermined pressure, and open the main passage when the master cylinder pressure exceeds the second predetermined pressure. First and second valve devices for opening or closing the main passage are connected to the main passage in parallel with the first pressure limit device, and the second valve device is connected in series of the second pressure limit device.
    • 本发明涉及一种用于电动车辆的制动控制系统,其适用于向再生制动操作添加液压制动操作,或者为后者快速平稳地改变前者。 电动机可操作地连接到用于旋转车轮的车轮,以及用于控制电动机以向车轮施加旋转力和再生制动力的电动机控制单元。 在主缸与车轮制动缸连接的主通道中,设置压力限制切换装置。 切换装置包括第一压力限制装置,当主缸压力低于第一预定压力时,第一压力限制装置用于关闭主通道,并且当主缸压力超过第一预定压力时打开主通道,并且第二压力 限制装置,当主缸压力低于低于第一预定压力的第二预定压力时,适于闭合主通道,并且当主缸压力超过第二预定压力时打开主通道。 用于打开或关闭主通道的第一和第二阀装置与第一压力限制装置并联连接到主通道,并且第二阀装置串联连接第二限压装置。
    • 5. 发明授权
    • Brake controlling apparatus for electric vehicle
    • 电动汽车制动控制装置
    • US5326158A
    • 1994-07-05
    • US991196
    • 1992-12-16
    • Harumi OhoriShirou Monzaki
    • Harumi OhoriShirou Monzaki
    • B60L7/24B60T13/58B60T13/74
    • B60T13/585B60L15/025B60L15/2009B60L7/14B60L7/26B60L2220/12B60L2240/421B60L2240/423B60L2250/26Y02T10/643Y02T10/72Y02T10/7275Y10S303/03
    • A brake controlling apparatus in an electric vehicle comprising a hydraulic brake including a fluid pressure generating and applying device having a characteristic in which the fluid consumption rises in the fluid-pressure range of 0 to P.sub.0, and brakes the driving wheels by the fluid pressure of the fluid pressure applying device. A regenerative brake brakes the driving wheels by the regeneration of the power of a driving motor. A fluid flow cut-off device cuts off the flow of hydraulic fluid from the fluid pressure generating device to the fluid pressure applying device when the fluid pressure of the fluid pressure generating device exceeds P.sub.0. A fluid flow inducing device induces the flow of hydraulic fluid from the fluid pressure generating device to the fluid pressure applying device while maintaining the pressure difference between the fluid pressure generating and applying devices when the pressure difference exceeds .DELTA.P.sub.r. A fluid consuming device consumes the hydraulic fluid of the fluid pressure generating device with the characteristic approximate to the fluid consumption characteristic of the fluid pressure applying device when the fluid flow inducing device is inoperative. A regenerative braking controlling device controls the regenerative brake in correspondence with the pressure difference between the fluid pressure generating device and the fluid pressure applying device. The fluid consumption characteristic seen from the fluid pressure generating device is substantially the same as the fluid consumption characteristic of the fluid pressure applying device.
    • 一种电动车辆中的制动控制装置,包括液压制动器,该液压制动器包括流体压力产生和施加装置,其具有流体消耗在0至P0的流体压力范围内上升的特性,并且通过流体压力 流体压力施加装置。 再生制动器通过再生驱动电机的动力来制动驱动轮。 当流体压力产生装置的流体压力超过P0时,流体流动截止装置将液压流体从流体压力产生装置切断到流体压力施加装置。 当压力差超过DELTA Pr时,流体引导装置引起液压流体从流体压力产生装置流到流体压力施加装置,同时保持流体压力产生和施加装置之间的压力差。 当流体流动诱导装置不起作用时,流体消耗装置消耗流体压力产生装置的液压流体,其特性接近于流体压力施加装置的流体消耗特性。 再生制动控制装置根据流体压力产生装置和流体压力施加装置之间的压力差来控制再生制动。 从流体压力产生装置看到的流体消耗特性基本上与流体压力施加装置的流体消耗特性相同。
    • 6. 发明授权
    • Brake pressure control system of vehicle load responsive type
    • 车载负载型制动压力控制系统
    • US4750786A
    • 1988-06-14
    • US046287
    • 1987-05-06
    • Yoshiharu AdachiTakashi NagashimaKiyonobu NagamoriMasuo YamashitaHarumi OhoriRyuichi Sakakibara
    • Yoshiharu AdachiTakashi NagashimaKiyonobu NagamoriMasuo YamashitaHarumi OhoriRyuichi Sakakibara
    • B60T8/30B60T8/18F16F1/12
    • B60T8/185
    • A brake pressure control system for a wheeled vehicle includes a swingable lever pivotally mounted at a first end portion thereof to a sprung mass of the vehicle such as a body frame, a first tension coil spring connected at a first end thereof to the sprung mass and at a second end thereof to a second end portion of the swingable lever to bias the lever toward the sprung mass, a second tension coil spring connected at a first end thereof to an unsprung mass of the vehicle such as a wheel axle and at a second end thereof to the second end portion of the swingable lever to bias the lever against the biasing force of the first spring, a bushing rotatably mounted on the second end portion of the swingable lever, the bushing being formed with a first support portion for retaining the second end of the first spring and a second support portion for retaining the second end of the second spring, and a modulator valve secured to the sprung mass and incorporated in a hydraulic connection between a master cylinder and a wheel brake cylinder, the modulator valve having a spring-loaded valve member which is carried on the swingable lever to be applied with a biasing force proportional to the vehicle load.
    • 一种用于轮式车辆的制动压力控制系统包括:可摆动杆,其可枢转地安装在其第一端部处于诸如车身框架的车辆的簧上质量,第一张力螺旋弹簧的第一端连接到簧上质量块, 在其第二端延伸到可摆动杆的第二端部,以将杠杆朝向簧上质量块偏压;第二张力螺旋弹簧,其第一端连接到诸如轮轴的车辆的簧下质量,并且在第二端 端部到可摆动杆的第二端部,以克服第一弹簧的偏置力来偏压杆,可旋转地安装在可摆动杆的第二端部的衬套,衬套形成有第一支撑部分,用于保持 第一弹簧的第二端和用于保持第二弹簧的第二端的第二支撑部分,以及固定到簧上质量块的调节阀,并联在液压连接中 主缸和车轮制动缸,调节阀具有弹簧加载的阀构件,其承载在可摆动杆上,以施加与车辆负载成比例的偏压力。
    • 9. 发明授权
    • Brake control system of electric vehicle
    • 电动汽车制动控制系统
    • US5253929A
    • 1993-10-19
    • US991125
    • 1992-12-16
    • Harumi Ohori
    • Harumi Ohori
    • B60T7/04B60T13/58B60T13/66B60T13/74
    • B60T8/267B60T13/586B60T13/66B60T13/74B60T7/042B60T8/4081B60T2270/602B60T2270/608Y10S303/03
    • A brake control system mounted in an electrical vehicle for controlling a hydraulic brake and a regenerative brake. The hydraulic brake generates a hydraulic pressure depending on an amount of depression of a brake pedal so as to mechanically brake at least drive wheels. The regenerative brake brakes the drive wheels due to a regeneration of a running motor. A reducing valve is provided in a hydraulic pressure transmission path to the drive wheels to be braked by the hydraulic brake. The reducing valve is opened when the hydraulic pressure genrated in a cylinder is at least a valve open value to allow a hydraulic pressure transmission to drive wheel pipings. An ECU calculates a regenerative torque command value depending on a pressure difference between the front and rear of the reducing valve, detected by a sensor, and controls the regenerative brake on the basis of the regenerative torque command value. In turn, a liquid amount corresponding to the hydraulic pressure cut off by the reducing valve is consumed with a similar characteristic to the hydraulic brake by a stroke simulator.
    • 一种安装在电动车辆中用于控制液压制动器和再生制动器的制动控制系统。 液压制动器根据制动踏板的下压量产生液压,从而至少机械地制动驱动轮。 再生制动器由于运行电机的再生而制动驱动轮。 在通过液压制动器制动的驱动轮的液压传递路径中设置有减压阀。 当气缸中产生的液压压力至少为阀打开值以允许液压传动驱动车轮管道时,减压阀打开。 ECU根据由传感器检测到的减压阀前后的压力差来计算再生转矩指令值,并根据再生转矩指令值控制再生制动。 反过来,与通过减压阀切断的液压相对应的液体量也以与行程模拟器的液压制动器相似的特性消耗。