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《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2012,50(5):283-295
Abstract In this work three first-order nonlinear, nonstationary differential equations describing a hydraulic torque converter in a power transmission system are used. A linear model is obtained on the basis of these equations. This model is verified both theoretically and by an experimental test. On the basis of the calculations the torsional damping was determined. This permitted the damping performance of a power transmission system with a hydraulic torque converter to be defined and established. 相似文献
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自动变速器主要由变矩器、行星变速系统、液压控制系统和电控系统四个部分组成、结合丰田豪华型轿车使用的A43DE型自动变速器和蓝鸟车装用的RLF02A型自动变速器,对自动变速器中的变矩器和行星变速系统的结构,工作原理和特性进行了详细介绍。 相似文献
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根据液力变矩器的工作原理及闭锁条件,制定液力变矩器控制策略。利用Simulink建立液力变矩器控制模型,并利用Cruise和Simulink进行联合仿真,验证控制策略的可行性。仿真结果表明,液力变矩器控制模型正确,闭锁离合器能够准确按照闭锁条件闭锁,并且可以显著改善车辆的燃油经济性和排放性能。本文的研究可以为液力变矩器的闭锁研究提供一定的理论依据。 相似文献
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S. M. Park T. W. Park S. H. Lee S. W. Han S. K. Kwon 《International Journal of Automotive Technology》2010,11(1):49-56
In this study, a new concept for a power delivery system is developed. Power Shift Drive (PSD) Axle vehicle modeling and dynamic
movement analysis are performed via simulation. The dynamic vehicle model is constructed from data obtained from the derived
equation, considering the specific characteristics of each part. The model is composed of a torque converter, a gear box,
a differential, hub reduction and an engine, which is the power source of the 1st forward and reverse PSD-Axle. By unifying
the mathematical equations for each component, a mathematical model of the 1st forward gear is derived. The system dynamic
model is created using MATLAB/Simulink based on the mathematical model. Simulation is carried out using Simulink to estimate
the dynamic behavior of the PSD-Axle. In addition, the dynamo test result is used to verify the model. Finally, a successful
model is created. This study will be used to establish the basic conceptual design for the PSD-Axle multi-gear system. 相似文献
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本文介绍了由DFZFB-323型带锁止离合器导轮可反转型的液力变矩器与动力换机械变速箱组成的GYB-100型新型城市公共汽车液力机械变速器及电子控制的结构特点,通过样车试验表明,城市公共汽车采用电子控制的液力机械变速器后,具有良好的起步,加速性能,易于驾驶,并且有良好的燃油经济性,提高了我国大客车的生产技术水平以及多种性能和可靠性水平,因而它是一种有发展前景的优于传统机械变速器的客车传动装置。 相似文献
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Xiao-Yun Lu J. Karl Hedrick 《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2005,43(9):653-669
This paper addresses modelling, longitudinal control design and implementation for heavy-duty vehicles (HDVs). The challenging problems here are: (a) an HDV is mass dominant with low power to mass ratio; (b) They possess large actuator delay and actuator saturation. To reduce model mismatch, it is necessary to obtain a nonlinear model which is as simple as the control design method can handle and as complicated as necessary to capture the intrinsic vehicle dynamics. A second order nonlinear vehicle body dynamical model is adopted, which is feedback linearizable. Beside the vehicle dynamics, other main dynamical components along the power-train and drive-train are also modelled, which include turbocharged diesel engine, torque converter, transmission, transmission retarder, pneumatic brake and tyre. The braking system is the most challenging part for control design, which contains three parts: Jake (engine compression) brake, air brake and transmission retarder. The modelling for each is provided. The use of engine braking effect is new complementary to Jake (compression) brake for longitudinal control, which is united with Jake brake in modelling. The control structure can be divided into upper level and lower level. Upper level control uses sliding mode control to generate the desired torque from the desired vehicle acceleration. Lower level control is divided into two branches: (a) engine control: from positive desired torque to desired fuel rate (engine control) using a static engine mapping which basically captures the intrinsic dynamic performance of the turbo-charged diesel engine; (b) brake control: from desired negative torque to generate Jake brake cylinder number to be activated and ON/OFF time periods, applied pneumatic brake pressure and applied voltage of transmission retarder. Test results are also reported. 相似文献
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《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2012,50(9):653-669
This paper addresses modelling, longitudinal control design and implementation for heavy-duty vehicles (HDVs). The challenging problems here are: (a) an HDV is mass dominant with low power to mass ratio; (b) They possess large actuator delay and actuator saturation. To reduce model mismatch, it is necessary to obtain a nonlinear model which is as simple as the control design method can handle and as complicated as necessary to capture the intrinsic vehicle dynamics. A second order nonlinear vehicle body dynamical model is adopted, which is feedback linearizable. Beside the vehicle dynamics, other main dynamical components along the power-train and drive-train are also modelled, which include turbocharged diesel engine, torque converter, transmission, transmission retarder, pneumatic brake and tyre. The braking system is the most challenging part for control design, which contains three parts: Jake (engine compression) brake, air brake and transmission retarder. The modelling for each is provided. The use of engine braking effect is new complementary to Jake (compression) brake for longitudinal control, which is united with Jake brake in modelling. The control structure can be divided into upper level and lower level. Upper level control uses sliding mode control to generate the desired torque from the desired vehicle acceleration. Lower level control is divided into two branches: (a) engine control: from positive desired torque to desired fuel rate (engine control) using a static engine mapping which basically captures the intrinsic dynamic performance of the turbo-charged diesel engine; (b) brake control: from desired negative torque to generate Jake brake cylinder number to be activated and ON/OFF time periods, applied pneumatic brake pressure and applied voltage of transmission retarder. Test results are also reported. 相似文献
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Nonlinear Robust Control of Torque Converter Clutch Slip System for Passenger Vehicles Using Advanced Torque Estimation Algorithms 总被引:3,自引:0,他引:3
Jin-Oh Hahn Kyo-Il Lee 《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2002,37(3):175-192
In this paper, a torque-estimation-based robust controller for passenger car torque converter clutch slip system is presented. The proposed robust controller uses only the measurements available from inexpensive sensors that are installed in current passenger vehicles for torque estimation and feedback control. A conventional full state observer along with a neural-network-based open-loop hydraulic actuator observer is designed to estimate the unknown driving load, and a neural-network-based turbine torque estimator considering the temperature of oil circulating the torque converter is developed for improved turbine torque estimation accuracy. The stability of the internal dynamics is also investigated, and the performance and robustness of the robust controller is validated by simulation studies. 相似文献
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张朝山 《筑路机械与施工机械化》2011,(10):90-92
对履带推土机行驶系统进行介绍,并通过运动学及动力学分析,得出了影响履带推土机行驶速度的主要因素,确定了保证发动机正常工作的牵引条件。针对其样机进行了牵引性能试验,为改善推土机性能提供了依据。试验结果表明:合理配备发动机与液力变矩器有利于提高推土机的牵引性能。 相似文献
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国外车辆液力传动研究现状及其展望 总被引:9,自引:0,他引:9
本文综合了国外近几年来车辆液力传动研究的进展和研究水平的现状,内容包括求解液力变矩器内部三维,粘性,湍流,不稳定流动的数值模拟,采用先进流动测量技术的流场测试,以及将液力传动元件为车辆传动系的子系统所进行的动态特性辨识。 相似文献
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本文首先介绍了机械动力传动系统及其匹配方法,然后介绍了动力系统匹配流程,最后以一款机械设备为例,通过发动机与液力变矩器的优化,详细的说明了发动机与液力变矩器的应用匹配情况。 相似文献