本论文重点讨论液力传动车辆动力传动系统的优化匹配。
Present paper key discussion fluid drive vehicles drivetrain's optimized match.
精确的发动机动态模型是制定换挡规律并实现车辆动力传动系统最佳匹配的基础。
Precise dynamic model of engine is the foundation of making shift schedule and realizing optimal match of vehicle powertrain.
针对AMT的一些关键问题,进行了以下几方面的工作:研究并建立车辆动力传动系统模型。
Given some of the key issues for AMT, following aspects of work has been done in this paper: Vehicle power-train model has been researched and established.
发动机空载工况的辨识在车辆动力传动系统仿真和车辆的起步、换档自动控制中起着重要的作用。
Important function is played by identification of engine no-load mode in simulation of power transmission system, starting and automatic shifting control of motor vehicle.
在垂直循环停车设备中,动力装置带动链传动系统运行,再经链条外伸件牵引存车托架循环运动,完成存、取车辆作业。
In the vertical circulating parking equipment, the power device drives the chain transmission system , and the latter pulls the cages to circulate through the chain extension components.
行驶阻力消耗车辆的功率并且影响车辆动力系统和传动系统的寿命。
Resistance consume the power of vehicle and affect life-span of dynamic system or transmission system.
第二章工程车辆传动系统动力性分析。
The drive analysis on hydrodynamic mechanical transmission system.
经过良好匹配的电动汽车动力传动系统,满足车辆动力性与经济性要求,降低电动汽车驱动电机的控制难度。
The electric power train is carefully matched to meet requirements for vehicle performance and energy economy and to reduce the complexity of drive motor control.
经过良好匹配的电动汽车动力传动系统,满足车辆动力性与经济性要求,降低电动汽车驱动电机的控制难度。
The electric power train is carefully matched to meet requirements for vehicle performance and energy economy and to reduce the complexity of drive motor control.
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