脚制动型式:单管路,气顶油,钳盘式四轮制动。
Travel brake type dual-pipe: air over hydraulic caliper disc brake.
针对四轮驱动汽车,应用模糊理论设计了牵引力控制系统的油门控制器和制动控制器。
Fuzzy theory was used to design throttle controller and braking controller of traction control system for four-wheel drive vehicles.
研究了具有EBD功能的四轮车辆制动过程;
The paper analyzes a four-wheel vehicle with the function of Electronic Brake force Distribution (EBD).
四轮驱动混合电动车辆稳定性控制逻辑建议采用后马达能量回收制动和一个电液制动器(EHB)。
Vehicle stability control logic for a four-wheel-drive hybrid electric vehicle is proposed using the regenerative braking of the rear motor and an electrohydraulic brake (EHB).
利用四轮车辆模型对汽车以较小刹车力矩制动、以最佳滑移率制动和车轮抱死后制动等几种典型工况进行了仿真。
Some typical brake conditions are simulated with four-wheel vehicle model, such as braking with a lesser brake moment, braking in the optimal slip and braking when wheels are locked.
为了实现气压abs的动态仿真,建立了汽车动力学的四个数学模型:整车模型、单轮模型、轮胎模型和制动器模型。
For achieving the dynamic simulation of air ABS, four math models whole vehicle model, single wheel model, tire model and arrester model were built in thesis.
采用四轮驱动送丝机,受焊接电源控制,送丝稳定,启动,制动良好,维护方便。
Wire feeder of four drive roll system is controlled bu welding power source with the advantages of stable feed speed, good start and brake characteristics, easy to move.
本发明涉及一种装载机的行走制动装置,具体地说是四轮驱动装载机的行走制动装置,属于工程机械设备领域。
The invention relates to the walking braking equipment of a loader, particularly to the walking braking equipment of four-wheel drive loader, which belongs to engineering machinery equipment field.
首先提出一种基于模糊控制器和PID算法的制动防抱死控制系统; 而后针对汽车纵向四轮模型,设计了模糊PID算法;
A fuzzy and PID control algorithm of Antilock Brake Control System is presented, and the fuzzy PID controller is designed according to the longitudinal 4-wheel brake model.
首先提出一种基于模糊控制器和PID算法的制动防抱死控制系统; 而后针对汽车纵向四轮模型,设计了模糊PID算法;
A fuzzy and PID control algorithm of Antilock Brake Control System is presented, and the fuzzy PID controller is designed according to the longitudinal 4-wheel brake model.
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