1) brake control
制动控制
1.
Improvement about brake control system of hydro-generating set of Danjiangkou Hydropower Plant;
丹江电厂水力发电机组制动控制系统的改进
2.
A brake control algorithm of the traction control system based on the self-adjusting wheel acceleration threshold was proposed for the 4×2 vehicles,and a control logic was designed using the relative slip rate of the driving wheel as the primary threshold and the wheel acceleration as the secondary threshold.
针对某4×2车辆提出了一种基于车轮加速度门限自调整的TCS制动控制算法。
3.
With the development of automobile industry, the brake control system also has a great improvement in modern vehicles.
随着汽车技术的发展,汽车制动控制系统也在不断改进。
2) braking control
制动控制
1.
Studied the braking control of larger mine winder, and advanced measures solving the steady and feasibility of braking control and raising its automatic level by hydraulic pressure Ⅲ level emergency braking control and electric liquid proportion regulate pressure control and double hydraulic pressure circuit.
对较大型提升机的制动控制问题进行了研究分析,提出采用液压三级紧急制动控制和电液比例调压控制及双套液压件回路以解决提升机制动的平稳性和安全可靠性,并提高了提升机的自动化程度。
2.
The adaptive neural-fuzzy inference system is applied in the braking control of the high-speed train in this paper, which realizes the intelligent control during the high-speed train braking course and has good effect on simulating man operation.
将自适应神经模糊推理系统应用到高速列车制动控制当中,实现了高速列车制动过程的智能控制,具有控制安全性好,停车误差小,同时在模拟人操作方面有很好的效果。
3.
A new method for vehicle braking control and road identification was introduced using the LuGre tire dynamic friction model, which is usually regarded as the most comprehensive control-oriented friction model .
本文在介绍LuGre轮胎动力学摩擦模型的基础上,利用单轮汽车操纵模型建立系统动力学模型,详细分析系统各个参数对轮胎/路面稳态摩擦特性的影响,对制动压力调节采用增压、保压、减压三种常规调节方式,设计汽车制动自适应控制器、轮胎内部摩擦状态观测器和路面估计器,并用Matlab/simulink实验分析汽车的制动过程,实现参数估计、制动过程的时域仿真等,根据仿真实验结果,比较基于动力学摩擦模型的制动控制与传统制动之间的不同,探讨改进提高制动效果的方法,包括模型、控制策略的改进和制动压力调节等。
3) controlled damping
控制制动
4) brake control
制动器控制
5) braking controller
制动控制器
6) brake control valve
制动控制阀
补充资料:制动器制动力分配系数
两轴汽车的前、后制动器制动力的比值一般为固定的常数。通常用前制动器制动力对汽车总制动器制动力之比来表明分配比例,即制动器制动力分配系数。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条