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1. 发明授权

US5558409A Electrohydraulic braking system 失效
标题翻译：电液制动系统
公开(公告)号：US5558409A
公开(公告)日：1996-09-24
申请号：US355468
申请日：1994-12-14
申请人： Allen J. Walenty , Kevin G. Leppek , Alexander Kade
发明人： Allen J. Walenty , Kevin G. Leppek , Alexander Kade
IPC分类号： B60T13/12 , B60T7/04 , B60T8/00 , B60T8/62 , B60T13/66 , B60T13/74 , B60T13/16
CPC分类号： B60T13/745 , B60T13/662 , B60T7/042 , B60T8/00 , B60T8/4072
摘要： Electrohydraulic braking applied to a plurality of automotive vehicle braking channels operates to drive brake pressure modulator position toward a position corresponding to a braking input and corrected for channel to channel braking variations and vehicle deceleration error. A function for adapting the braking input to a position command is provided for each channel and is periodically adapted in accord with a difference between the channel's brake pressure modulator position error and a desired position error.
摘要翻译：施加到多个机动车辆制动通道的电液制动操作以将制动压力调节器位置驱动到对应于制动输入的位置，并且对于通道制动变化和车辆减速误差进行了校正。为每个通道提供用于使制动输入适应于位置指令的功能，并且根据通道的制动压力调制器位置误差和期望位置误差之间的差异周期性地调整。

2. 发明授权

US5511859A Regenerative and friction brake blend control 失效
标题翻译：再生和摩擦制动器共混控制
公开(公告)号：US5511859A
公开(公告)日：1996-04-30
申请号：US519871
申请日：1995-08-25
申请人： Alexander Kade , Allen J. Walenty , Kevin G. Leppek
发明人： Alexander Kade , Allen J. Walenty , Kevin G. Leppek
IPC分类号： B60L7/26 , B60T8/1761 , B60T8/26 , B60T13/58 , B60T13/74
CPC分类号： B60W20/13 , B60K6/442 , B60K6/52 , B60L7/26 , B60T13/586 , B60T8/17613 , B60T8/267 , B60W10/08 , B60W30/18109 , B60W30/18127 , B60K1/02 , B60T2270/602 , B60W20/00 , B60W2540/12 , Y02T10/6234 , Y02T10/6265
摘要： A regenerative and friction brake blend control method for use in a vehicle with at least one positionable hydraulic brake actuator for achieving friction braking and an electric propulsion motor with regenerative braking capability wherein an amount of regenerative braking achieved is indicated by a signal, wherein the method comprises the steps of determining a hydraulic actuator position command indicating a desired vehicle braking, determining responsive the hydraulic actuator position command a regenerative braking command, commanding the electric propulsion motor to regeneratively brake the vehicle responsive to the regenerative braking command, receiving the signal indicative of regenerative braking achieved, converting the signal indicative of regenerative braking achieved to an actuator position reduction signal, subtracting the actuator position reduction signal from the hydraulic actuator position command to determine a difference command, and commanding the hydraulic actuator according to the difference command, wherein the hydraulic actuator and the regenerative braking together achieve the desired vehicle braking.
摘要翻译：一种用于具有至少一个用于实现摩擦制动的可定位的液压制动致动器的车辆的再生和摩擦制动器共混控制方法以及具有再生制动能力的电推进电动机，其中所获得的再生制动量由信号指示，其中所述方法包括以下步骤：确定指示期望的车辆制动的液压致动器位置指令，响应于液压致动器位置指令确定再生制动指令，命令电推进电机响应于再生制动指令再次制动车辆，接收指示实现再生制动，将表示再生制动的信号转换为致动器位置减小信号，从液压致动器位置指令中减去执行机构位置减小信号以确定差速指令，并指令液压致动器或者根据差分指令，其中液压致动器和再生制动一起实现期望的车辆制动。

3. 发明授权

US5234262A Vehicle brake control with torque imbalance compensation 失效
标题翻译：车辆制动控制与扭矩不平衡补偿
公开(公告)号：US5234262A
公开(公告)日：1993-08-10
申请号：US808140
申请日：1991-12-16
申请人： Allen J. Walenty , Kevin G. Leppek
发明人： Allen J. Walenty , Kevin G. Leppek
IPC分类号： B60T8/1764 , B60T8/26 , B60T8/62
CPC分类号： B60T8/267 , B60T8/1764
摘要： The left and right rear brake systems of a vehicle each are controlled by a respective electric torque motor. A rear wheel braking system controls the current to each of the torque motors so that each rear wheel is controlled to a speed having a predetermined relationship to the corresponding front wheel. The relationship between the motor currents when each wheel speed has been established at the predetermined relationship is used to determine a bias current value used to equalize the gains of the left and right rear brake systems.
摘要翻译：车辆的左后制动系统由各自的电动力矩电动机控制。后轮制动系统控制到每个扭矩电动机的电流，使得每个后轮被控制到与相应的前轮具有预定关系的速度。使用以预定关系建立每个车轮速度时的电动机电流之间的关系来确定用于均衡左后制动系统和右后制动系统的增益的偏置电流值。

4. 发明授权

US4916619A Adaptive wheel slip threshold 失效
标题翻译：自适应轮滑差阈值
公开(公告)号：US4916619A
公开(公告)日：1990-04-10
申请号：US337726
申请日：1989-04-13
申请人： Allen J. Walenty , Kevin G. Leppek , Alex Kade
发明人： Allen J. Walenty , Kevin G. Leppek , Alex Kade
IPC分类号： B60T8/58 , B60T8/172 , B60T8/1761 , B60T8/1763 , B60T8/42 , B60T8/62 , B60T8/66 , B60T8/70
CPC分类号： B60T8/172 , B60T8/17636
摘要： A brake control system is described that maximizes vehicle braking efficiency by first determining, and then cycling wheel brake pressure and consequently wheel slip about, the critical slip value for the road surface. As each road surface has unique tractive characteristics, the amount of brake pressure required to produce critical wheel slip, and hence maximum brake force, varies for different coefficient of friction road surfaces. This invention determines the coefficient of friction for the operating surface and adjusts the system slip threshold to accurately mimic the actual critical slip value for the road surface. The invention then applies and releases wheel brake pressure so as to cycle wheel slip about this critical slip value.
摘要翻译：描述了一种制动控制系统，其通过首先确定车轮制动压力并因此绕过路面的临界滑移值来循环车轮制动压力，从而使轮滑动最大化，以使车辆制动效率最大化。由于每个路面具有独特的牵引特性，所以产生关键车轮滑移所需的制动压力量以及因此最大制动力的变化对于不同摩擦系数的路面而言是不同的。本发明确定操作表面的摩擦系数，并调整系统滑移阈值，以准确地模拟路面的实际临界滑移值。然后，本发明施加和释放车轮制动器压力，以便围绕该临界滑移值循环车轮滑动。

5. 发明授权

US5163743A Antilock brake control which induces rear brake lockup upon front brake lockup 失效
标题翻译：防抱死制动控制，在前制动器锁定时引起后制动锁定
公开(公告)号：US5163743A
公开(公告)日：1992-11-17
申请号：US808146
申请日：1991-12-16
申请人： Kevin G. Leppek , Allen J. Walenty
发明人： Kevin G. Leppek , Allen J. Walenty
IPC分类号： B60T8/1764 , B60T8/26
CPC分类号： B60T8/267 , B60T8/1764 , Y10S303/04
摘要： A brake system for the rear wheels of a vehicle applies brake pressure to each rear wheel so as to establish the rear wheel speed at a predetermined relationship to the speed of the front wheel on the same side of the vehicle. The brake pressure applied to each of the front and rear wheels is limited by antilock controlled braking in response to a sensed incipient lockup condition of the wheel. When a front wheel first enters into an antilock controlled braking, in response to an incipient wheel lockup condition, the brake pressure to the rear wheel on the same side of the vehicle is rapidly increased to induce an incipient wheel lockup condition thereby inducing antilock controlled braking of the rear wheel.
摘要翻译：用于车辆后轮的制动系统对每个后轮施加制动压力，以便以与车辆同侧的前轮速度成预定关系来确定后轮速度。施加到前轮和后轮中的每一个的制动压力受到防止锁定制动的响应于车轮的初始锁定状态的限制。当前轮首先进入防抱死控制制动时，响应于初始车轮锁定状态，车辆同一侧上的后轮的制动压力迅速增加以引起初始车轮锁定状态，从而引起防抱死制动的后轮。

6. 发明授权

US4917445A ABS variant nominal hold pressure 失效
标题翻译： ABS变量标称保持压力
公开(公告)号：US4917445A
公开(公告)日：1990-04-17
申请号：US322138
申请日：1989-03-13
申请人： Kevin G. Leppek , Alex Kade , Allen J. Walenty
发明人： Kevin G. Leppek , Alex Kade , Allen J. Walenty
IPC分类号： B60T8/58 , B60T8/1761 , B60T8/42 , B60T8/62
CPC分类号： B60T8/17616 , B60T8/4266 , Y10S303/04
摘要： A brake control system is described that maximizes the braking efficiency of an under-damped actuator, such as a motor-driven linear screw. When an incipient lock condition is detected, the system determines the optimal brake pressure, relieves brake pressure and measures the duration of the pressure release. When the wheel is approaching recovery, but has not yet substantially recovered, the system holds brake pressure constant at a value calculated to represent the amount of pressure remaining at the wheel brake. This calculated hold value is based upon the measured optimal pressure and the measured release duration, and allows the wheel to continue to reaccelerate towards recovery while preventing unnecessary pressure relief. Once the wheel recovers, the system reapplies brake pressure to a substantial fraction of the optimal pressure without over-exciting the actuator and over-shooting the desired pressure.

7. 发明授权

US5390992A Vehicle electric brake system with static brake torque control 失效
标题翻译：车辆电动制动系统具有静态制动力矩控制
公开(公告)号：US5390992A
公开(公告)日：1995-02-21
申请号：US26040
申请日：1993-03-04
申请人： Allen J. Walenty , Kevin G. Leppek
发明人： Allen J. Walenty , Kevin G. Leppek
IPC分类号： B60L7/24 , B60L15/20 , B60T13/66 , B60T13/74
CPC分类号： B60T8/3255 , B60L15/2009 , B60L7/24 , B60T13/662 , B60T13/745 , B60T8/267 , B60L2240/26 , B60T2201/06 , Y02T10/645 , Y02T10/7275
摘要： An electric braking system controls the vehicle brake torque based on the pressure applied by the vehicle operator to the vehicle brake pedal and a moving vehicle brake system gain to provide normal power assisted braking while the vehicle is moving. The deviation of the vehicle braking condition from a level incline and lowest vehicle weight (LVW) is determined based upon a determined percent difference between the actual vehicle deceleration while the vehicle is being braked to a stop and an expected deceleration that would result from the total brake torque, a level road surface, and the vehicle weight at LVW. The expected deceleration is determined by determining the total vehicle brake torque represented by the sum of the brake torques applied by the individual wheel brakes and dividing by the LVW of the vehicle. The target torque required to hold the vehicle when stationary is then determined by adjusting a minimum torque value, corresponding to a level road surface and the vehicle weight at LVW, based upon the percent difference in the deceleration values. Finally, a static gain of the electric braking system is determined by dividing the required torque by the operator applied pedal pressure. When the vehicle comes to a rest, the brake system gain is adjusted to the static gain to establish the brake torque at the lowest level required to hold the vehicle stationary on the road surface to thereby minimize static braking actuator current.
摘要翻译：电动制动系统基于车辆操作者对车辆制动踏板施加的压力以及移动的车辆制动系统增益来控制车辆制动转矩，以在车辆移动时提供正常的辅助制动。车辆制动条件与水平倾斜和最低车辆重量（LVW）的偏差基于车辆正在制动到停车时的实际车辆减速度与由总计制造的预期减速度之间的确定的百分比差异来确定制动扭矩，水平路面以及LVW处的车辆重量。通过确定由各个车轮制动器施加的制动转矩和车辆的LVW除以总和的总车辆制动转矩来确定预期减速度。然后，通过基于减速度值的百分比差来调整对应于水平路面和LVW处的车辆重量的最小扭矩值来确定在静止时保持车辆所需的目标扭矩。最后，电动制动系统的静态增益通过用操作者施加的踏板压力除以所需的扭矩来确定。当车辆休息时，制动系统增益被调整到静态增益，以将制动器扭矩建立在将车辆固定在路面上所需的最低水平，从而最小化静态制动致动器电流。

8. 发明授权

US4835695A Add-on vehicle wheel slip controller 失效
标题翻译：附加车轮滑动控制器
公开(公告)号：US4835695A
公开(公告)日：1989-05-30
申请号：US120597
申请日：1987-11-13
申请人： Allen J. Walenty , Kevin G. Leppek
发明人： Allen J. Walenty , Kevin G. Leppek
IPC分类号： B60T8/175 , B60T8/1761 , B60T8/42 , B60T8/48 , B60T8/62 , B60T13/66
CPC分类号： B60T13/66 , B60T8/175 , B60T8/17616 , B60T8/4266 , B60T8/48 , B60T8/4863 , B60T2270/203
摘要： Vehicle wheel slip is controlled by an add-on brake pressure modulator that may function in addition to limit the brake pressure applied to the vehicle wheels during anti-lock braking. A piston is moved in a cylinder to regulate the braking pressure. During non-operating conditions of the modulator the piston is moved to provide minimum cylinder volume to be in condition to be moved to withdraw fluid from the brake system to limit brake pressure. When a potential for excessive slip of a driven wheel is detected, the piston is moved to increase the volume of the cylinder to draw in braking fluid from a reservoir. The modulator is then in condition to apply regulated brake pressure to limit excessive slip. When the potential for excessive slip no longer exists, the piston is controlled to provide minimum volume while returning the brake fluid to the reservoir. The modulator is then again in condition for limiting brake pressure.
摘要翻译：车轮打滑由附加制动压力调节器控制，除了在防抱死制动期间限制施加到车辆车轮的制动压力之外，该制动压力调节器可以起作用。活塞在气缸中移动以调节制动压力。在调节器的非操作条件下，活塞被移动以提供最小的气缸容积以便被移动以从制动系统抽出流体以限制制动压力。当检测到从动轮过度滑动的可能性时，活塞被移动以增加气缸的体积，以从储液器吸入制动流体。调制器然后处于施加调节制动压力以限制过度滑动的状态。当不再存在过度滑移的可能性时，控制活塞以提供最小的体积，同时将制动流体返回到储存器。然后调制器再次处于限制制动压力的状态。

9. 发明授权

US06748311B1 Methods and apparatus for inhibiting movement of an automobile in a pitched position 有权
标题翻译：用于抑制汽车在俯仰位置的运动的方法和装置
公开(公告)号：US06748311B1
公开(公告)日：2004-06-08
申请号：US10431743
申请日：2003-05-08
申请人： Allen J. Walenty , Kevin G. Leppek , Calvin E. Wolf
发明人： Allen J. Walenty , Kevin G. Leppek , Calvin E. Wolf
IPC分类号： G06G776
CPC分类号： B60W10/06 , B60T2260/08 , B60W10/02 , B60W10/184 , B60W30/18118 , B60W2510/0638 , B60W2520/10 , B60W2540/14 , B60W2550/142
摘要： Apparatus and methods are provided for controlling movement of an automobile in a pitched position. The apparatus has an attitude sensor that is configured to determine a pitch of the automobile and a speed sensor that is configured to determine a speed of the automobile. In addition, the apparatus has a braking mechanism that is configured to inhibit movement of the automobile and a controller that is configured to control the braking mechanism. The controller is configured to receive the pitch and the speed determined by the attitude sensor and the speed sensor, respectively, and control the braking mechanism based at least in part upon an evaluation of the pitch and the speed in order to inhibit movement of the automobile in the pitched position.
摘要翻译：提供了用于控制汽车在倾斜位置的运动的装置和方法。该装置具有姿态传感器，其被配置为确定汽车的俯仰和被配置为确定汽车的速度的速度传感器。另外，该装置具有制动机构，该制动机构被构造成禁止汽车的移动，以及构造成控制制动机构的控制器。控制器被配置为分别接收由姿态传感器和速度传感器确定的俯仰和速度，并且至少部分地基于俯仰和速度的评估来控制制动机构，以便抑制汽车的移动在高调的位置。

10. 发明授权

US4750125A Vehicle wheel slip control system 失效
标题翻译：车轮滑移控制系统
公开(公告)号：US4750125A
公开(公告)日：1988-06-07
申请号：US917779
申请日：1986-10-10
申请人： Kevin G. Leppek , Allen J. Walenty
发明人： Kevin G. Leppek , Allen J. Walenty
IPC分类号： B60W10/04 , B60T8/172 , B60T8/175 , B60T8/1755 , B60T8/48 , B60T8/62 , B60W10/00 , B60W10/18 , F02D29/02 , F02D45/00 , B60T8/32
CPC分类号： B60T8/326 , B60T8/172 , B60T8/175 , B60T8/48 , B60T2201/16
摘要： An excessive slipping condition of one of the driven wheels of a vehicle that is indicative of a loss of traction of that wheel is sensed based on the difference in the driven wheel speeds. An increasing braking force is applied to the wheel with excessive slip to transfer driving torque through the differential to the non-slipping wheel so as to equalize the driven wheel speeds. In order to provide for compensation of the difference in wheel speeds that is not due to slip that occurs as the vehicle is turning, the speeds of the driven wheels are compensated based on the difference in speeds of the undriven wheels.
摘要翻译：基于从动轮速度的差异来检测指示车轮的牵引力损失的车辆的一个从动轮的过度滑动状态。增加的制动力以过大的滑动施加到车轮上，以通过差速器将驱动扭矩传递到非滑动轮，以便使从动轮速度平衡。为了提供不会因车辆转弯而发生的滑动导致的车轮速度差异的补偿，从动轮的速度基于未驱动轮的速度差来补偿。

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