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    • 3. 发明授权
    • Variable duty cycle antilock braking system with accelerometer
    • 带加速度计的可变占空比防抱死制动系统
    • US5487598A
    • 1996-01-30
    • US353861
    • 1994-12-12
    • Robert M. RivardMichael J. SchneiderTamas I. PattantyusKenneth S. TowersJack R. Phipps
    • Robert M. RivardMichael J. SchneiderTamas I. PattantyusKenneth S. TowersJack R. Phipps
    • B60T8/72B60T8/1763B60T8/44B60T8/66B60T8/32
    • B60T8/17636B60T8/445Y10S303/04
    • Vehicle antilock braking systems having an operator controlled master cylinder (11) and a second source (55, 57) of pressurized hydraulic fluid for selectively supplying rebuild pressure after an antilock event are disclosed. The system is selectively operable in one of three braking modes, a normal braking mode (119) where braking force is proportional to an operator brake pedal pressure, an enhanced anti-skid braking mode (69) where braking force may be maintained at a maximum nonskid level, and a conventional anti-skid braking mode (71) where braking force follows a cyclic pattern of fluid pressure bleed and build. The system includes circuitry (17, 19, 35, 37, 93, 95) for determining the speed of each wheel and an arrangement (59) operable independently of any vehicle wheels for determining vehicle deceleration. This comparison normally invokes the enhanced anti-skid braking mode, wherein the system is continually searching for an optimum wheel speed reference (39) by determining (119) on which side of the peak of a mu-slip curve the vehicle is operating, for example, by calculating the sign of the slope of the mu-slip curve at the current vehicle operating point, and then incrementing (88) a prior wheel speed reference by a value (79) which changes the wheel speed reference toward the peak (75) of the mu-slip curve thereby calculating an updated wheel speed reference to control approximately the braking system. The enhanced anti-skid mode utilizes a pulse width modulated solenoid actuated two position valve (41, 43) operable in one position to provide a fluid flow path from the braking device, and in the other position to provide a fluid flow path from a second source to the braking device.
    • 公开了具有操作员控制的主缸(11)和加压液压流体的第二源(55,57)的车辆防抱死制动系统,用于在防锁事件之后有选择地提供重建压力。 系统可选择性地在三种制动模式中的一种中工作,其中制动力与操作者制动踏板压力成比例的正常制动模式(119),增强的防滑制动模式(69),其中制动力可以保持在最大值 以及常规的防滑制动模式(71),其中制动力遵循流体压力流出和构建的循环模式。 该系统包括用于确定每个车轮的速度的电路(17,19,35,37,99,95)以及用于确定车辆减速度的任何车辆车轮独立操作的装置(59)。 该比较通常调用增强的防滑制动模式,其中系统通过确定(119)在车辆正在操作的微滑曲线的峰值的哪一侧来不断寻找最佳车轮速度参考(39),以便 例如,通过计算当前车辆操作点上的μ滑动曲线的斜率的符号,然后将先前的车轮速度参考值增加(88)一个将车轮速度基准改变为峰值(75)的值(79) ),从而计算更新的车轮速度基准以近似地控制制动系统。 增强的防滑模式使用脉冲​​宽度调制电磁致动的两位置阀(41,43),其可在一个位置操作以提供来自制动装置的流体流动路径,并且在另一位置提供来自第二位置的流体流动路径 来源于制动装置。
    • 5. 发明授权
    • Method of skid dection without speed sensors
    • 无速度传感器的滑移方法
    • US5236252A
    • 1993-08-17
    • US809463
    • 1991-12-18
    • Jack R. Phipps
    • Jack R. Phipps
    • B60T8/72B60T8/1761B60T8/1766B60T8/50B60T13/66
    • B60T13/66B60T8/17616B60T8/5037Y10S303/04
    • A method of controlling the operation of a vehicle brake system, the brake system including a master cylinder controlled by the operator of the vehicle to vary applied brake pressure to various brake mechanisms during normal service brake operation and an antiskid brake subsystem, activated when one or more vehicle wheels are skidding, for controlling brake pressure in the various brake mechanisms to permit various wheels to operate in a nonskidding manner. The method comprising the steps of: 1) determining and storing a control relationship which relates changes in vehicle deceleration and changes in applied brake pressure, with none of the wheels of the vehicle skidding, 2) subsequently measuring at least two values (P.sub.1 P.sub.2) of applied brake pressure to determine changes in applied brake pressure .DELTA.P during a measurement interval and calculating the change in control deceleration .DELTA.D.sub.ci corresponding to the change .DELTA.P in applied brake pressure utilizing the control relationship; directly measuring actual vehicle deceleration D.sub.i ; determining a change in actual vehicle deceleration .DELTA.D.sub.i corresponding to the change in applied brake pressure; determining if the change in actual vehicle deceleration over the measurement interval is inconsistent with the change in control deceleration; and if such inconsistancy is determined, reducing applied brake pressure to a determinable first level sufficient to cause actual vehicle deceleration to approach the control deceleration resulting from the reduced brake pressure.
    • 一种控制车辆制动系统的操作的方法,所述制动系统包括由车辆操作者控制的主缸,以在正常行车制动操作期间改变施加的制动压力到各种制动机构,以及防滑制动器子系统,当一个或 更多的车轮滑动,用于控制各种制动机构中的制动压力,以允许各种车轮以不开心的方式操作。 该方法包括以下步骤:1)确定和存储控制关系,该控制关系涉及车辆减速度的变化和所施加的制动压力的变化,车辆的车轮不滑动,2)随后测量至少两个值(P1P2) 施加制动压力,以确定测量间隔期间施加的制动压力DELTA P的变化,并且利用控制关系计算对应于施加的制动压力中的变化DELTA P的控制减速度DELTA Dci的变化; 直接测量实际车辆减速度Di; 确定对应于所施加制动压力变化的实际车辆减速度DELTA Di的变化; 确定测量间隔内实际车辆减速度的变化是否与控制减速度的变化不一致; 并且如果确定了这种不一致,将施加的制动压力减小到可确定的第一水平,足以使实际车辆减速度接近由制动压力降低而产生的控制减速度。
    • 6. 发明授权
    • Distributor pump with floating piston single control valve
    • 分配泵带浮动活塞单控制阀
    • US4453896A
    • 1984-06-12
    • US217296
    • 1980-12-17
    • Louis V. VilardoJack R. Phipps
    • Louis V. VilardoJack R. Phipps
    • F02M41/14F04B19/02
    • F02M41/1422
    • A distributor pump type fuel injection system for a diesel engine wherein the pump is driven by the engine and the control of the timing and metering of fuel being delivered to each cylinder of the engine is controlled by a single electromagnetic solenoid device. The control system includes a distribution head for distributing pulses of fuel to each cylinder, the control of the fuel to the cylinder, both metering and timing, being controlled by the above-mentioned single electromagnetic control device. The fuel system includes a metering chamber and a timing chamber, the two chambers being separated by a free piston. In the control system to be described, fuel is premetered into the metering chamber, the quantity of fuel therein being controlled by the duration of energization of the control valve during the metering portion of the cycle. The time of injection of the premetered fuel is similarly under the control of the control valve and is initiated upon energization of the control valve.
    • 一种用于柴油发动机的分配器泵式燃料喷射系统,其中泵由发动机驱动,并且输送到发动机的每个气缸的燃料的定时和计量的控制由单个电磁螺线管装置控制。 控制系统包括用于将燃料脉冲分配到每个气缸的分配头,通过上述单个电磁控制装置控制燃料对气缸的计量和定时的控制。 燃料系统包括计量室和定时室,两个室由自由活塞分开。 在要描述的控制系统中,将燃料预先计量到计量室中,其中的燃料量由在循环的计量部分期间控制阀通电的持续时间来控制。 注射预计燃料的时间类似地在控制阀的控制下,并且在控制阀通电时启动。
    • 7. 发明授权
    • Variable duty cycle antilock braking system with accelerometer and
fail-safe
    • US5553929A
    • 1996-09-10
    • US524272
    • 1995-09-06
    • Robert M. RivardMichael J. SchneiderTamas I. PattantyusKenneth S. TowersJack R. Phipps
    • Robert M. RivardMichael J. SchneiderTamas I. PattantyusKenneth S. TowersJack R. Phipps
    • B60T8/72B60T8/1763B60T8/44B60T8/66B60T8/32
    • B60T8/17636B60T8/445Y10S303/04
    • Improvements in vehicle antilock braking systems of the type having an operator controlled master cylinder (11) and a second source (55, 57) of pressurized hydraulic fluid for selectively supplying rebuild pressure after an antilock event are disclosed. The improved system is selectively operable in one of three braking modes, a normal braking mode (119) where braking force is proportional to an operator brake pedal pressure, an enhanced anti-skid braking mode (69) where braking force may be maintained at a maximum nonskid level, and a conventional anti-skid braking mode (71) where braking force follows a cyclic pattern of fluid pressure bleed and build. The system includes circuitry (17, 19, 35, 37, 93, 95) for determining the speed of each wheel and an arrangement (59) operable independently of any vehicle wheels for determining vehicle deceleration. This comparison normally invokes the enhanced anti-skid braking mode. In the enhanced mode, the system is continually searching for an optimum wheel speed reference (39) by determining (119) on which side of the peak of a mu-slip curve the vehicle is operating, for example, by calculating the sign of the slope of the mu-slip curve at the current vehicle operating point, and then incrementing (88) a prior wheel speed reference by a value (79) which changes the wheel speed reference toward the peak (75) of the mu-slip curve thereby calculating an updated wheel speed reference to control appropriately the braking system. The accuracy of the determined vehicle deceleration, and in particular, of the accelerometer is confirmed by comparison (63) to an expected deceleration based on operator brake pressure, and the conventional anti-skid braking mode is substituted for the enhanced anti-skid braking mode in the event the determined vehicle deceleration is determined to be inaccurate. The enhanced anti-skid mode utilizes a pulse width modulated solenoid actuated two position valve (41, 43) operable in one position to provide a fluid flow path from the braking device, and in the other position to provide a fluid flow path from a second source to the braking device.
    • 8. 发明授权
    • Flow control valve and pressure regulator for an anti-lock braking system
    • 用于防抱死制动系统的流量控制阀和压力调节器
    • US5472267A
    • 1995-12-05
    • US305537
    • 1994-09-14
    • Christian TanguyJack R. Phipps
    • Christian TanguyJack R. Phipps
    • B60T8/34B60T8/40B60T8/44B60T8/50B60T8/32B60T13/16
    • B60T8/4054B60T8/341B60T8/445B60T8/5031Y10S303/02Y10S303/90Y10S303/901
    • A vehicle antilock braking system having an operator controlled master cylinder for developing a first source of pressurized fluid and a second source of pressurized hydraulic fluid for selectively supplying rebuild pressure after an antilock event to simultaneously provide for actuation of each wheel braking device. A solenoid operated first flow control valve for each wheel controls communication of either the first source or second source of pressurized hydraulic fluid to the braking device and the braking device to a low pressure return. A hydraulically operated second control valve has a first inlet port connected to receive the first source of hydraulic pressurized fluid and a second inlet connected to receive the second source of hydraulic fluid and an outlet port connected to the first flow control valve. A bypass pressure regulator responsive to the first source of pressurized fluid and the second source of pressurized fluid supplies pressurized hydraulic fluid from the second source to each of the hydraulically operated second control valve when the operator controlled master cylinder supplies the first pressurized hydraulic fluid to the braking device. The pressure of the second source is directly proportional to the pressure of the first source and when sufficient to overcome a resilient member in the second control valve is supplied to the first valve to independently operate braking device.
    • 一种车辆防抱死制动系统,其具有用于显影第一加压流体源的操作者控制的主缸和用于在防堵塞事件之后选择性地提供重建压力的第二加压液压源,以同时提供每个车轮制动装置的致动。 用于每个车轮的电磁操作的第一流量控制阀控制加压液压流体的第一源或第二源与制动装置和制动装置的通信至低压返回。 液压操作的第二控制阀具有连接以接收第一液压加压流体源的第一入口端口和连接以接收第二液压流体源的第二入口和连接到第一流量控制阀的出口。 响应于第一加压流体源的旁路压力调节器和第二加压流体源将加压的液压流体从第二源供应到每个液压操作的第二控制阀,当操作者控制的主缸将第一加压液压流体供应到 制动装置。 第二源的压力与第一源的压力成正比,并且当足够克服第二控制阀中的弹性构件被供应到第一阀以独立地操作制动装置时。
    • 9. 发明授权
    • Variable duty cycle antilock braking system with accelerometer and
fail-safe
    • US5553930A
    • 1996-09-10
    • US524271
    • 1995-09-06
    • Robert M. RivardMichael J. SchneiderTamas I. PattantyusKenneth S. TowersJack R. Phipps
    • Robert M. RivardMichael J. SchneiderTamas I. PattantyusKenneth S. TowersJack R. Phipps
    • B60T8/72B60T8/1763B60T8/44B60T8/66B60T8/32
    • B60T8/17636B60T8/445Y10S303/04
    • Improvements in vehicle antilock braking systems of the type having an operator controlled master cylinder (11) and a second source (55, 57) of pressurized hydraulic fluid for selectively supplying rebuild pressure after an antilock event are disclosed. The improved system is selectively operable in one of three braking modes, a normal braking mode (119) where braking force is proportional to an operator brake pedal pressure, an enhanced anti-skid braking mode (69) where braking force may be maintained at a maximum nonskid level, and a conventional anti-skid braking mode (71) where braking force follows a cyclic pattern of fluid pressure bleed and build. The system includes circuitry (17, 19, 35, 37, 93, 95) for determining the speed of each wheel and an arrangement (59) operable independently of any vehicle wheels for determining vehicle deceleration. This comparison normally invokes the enhanced anti-skid braking mode. In the enhanced mode, the system is continually searching for an optimum wheel speed reference (39) by determining (119) on which side of the peak of a mu-slip curve the vehicle is operating, for example, by calculating the sign of the slope of the mu-slip curve at the current vehicle operating point, and then incrementing (88) a prior wheel speed reference by a value (79) which changes the wheel speed reference toward the peak (75) of the mu-slip curve thereby calculating an updated wheel speed reference to control appropriately the braking system. The accuracy of the determined vehicle deceleration, and in particular, of the accelerometer is confirmed by comparison (63) to an expected deceleration based on operator brake pressure, and the conventional anti-skid braking mode is substituted for the enhanced anti-skid braking mode in the event the determined vehicle deceleration is determined to be inaccurate. The enhanced anti-skid mode utilizes a pulse width modulated solenoid actuated two position valve (41, 43) operable in one position to provide a fluid flow path from the braking device, and in the other position to provide a fluid flow path from a second source to the braking device.
    • 10. 发明授权
    • Braking by deceleration control
    • 减速控制制动
    • US5233528A
    • 1993-08-03
    • US692104
    • 1991-04-26
    • Jack R. PhippsDouglas R. Verner
    • Jack R. PhippsDouglas R. Verner
    • B60T8/72B60T8/172B60T8/1761B60T8/78
    • B60T8/17616B60T8/172B60T2240/08
    • A method of controlling the braking behavior of various wheels of a vehicle during a normal braking mode of operation and during an antilock braking mode of operation, the method using a control unit which calculates various parameters over a known time increment (t-t.sub.1) the method including the steps of: obtaining a value of the actual rotational velocity of each wheel (W.sub.1,W.sub.2); generating a first signal indicative of braking effort P(in) or desired vehicle deceleration; generating a per wheel velocity command signal the slope or deceleration of which is proportional to the desired vehicle deceleration p(in) and a multiplicative scale factor (ABSG.sub.i +G.sub.I) for adjusting such deceleration during the normal braking mode and antilock braking mode, generating a per wheel error signal Ei as a difference between the wheel velocity command and actual rotational velocity of each wheel; operating upon the error signal Ei to generate a brake activity command signal B.sub.i, regulating brake force in response to the brake activity command signal B.sub.i.
    • 一种在正常制动操作模式和防抱死制动操作模式期间控制车辆的各种车轮的制动行为的方法,所述方法使用控制单元,所述控制单元以已知的时间增量(t-t1)计算各种参数 方法,包括以下步骤:获得每个车轮(W1,W2)的实际旋转速度的值; 产生指示制动力P(in)或期望的车辆减速度的第一信号; 产生与所需车辆减速度p(in)成比例的斜率或减速度的每轮速度指令信号,以及用于在正常制动模式和防抱死制动模式期间调节该减速度的乘法比例因子(ABSGi + GI),产生 每个车轮误差信号Ei作为车轮速度指令和每个车轮的实际转速之差; 对误差信号Ei进行动作,生成制动活动指令信号Bi,根据制动活动指令信号Bi来调节制动力。