共查询到19条相似文献,搜索用时 156 毫秒
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馈能式悬架是为了回收汽车悬架中被减振器消耗的振动能量。本文首先介绍几种理论上已有馈能式悬架的结构设计和工作原理,然后提出一种集减振与回收振动能量功能于一体的新型机-电-液混合系统馈能式悬架,并研究该新型馈能式悬架的工作原理,评价了不同馈能悬架之间的结构方案。最后利用跨学科仿真软件AMESim对其建立动力学仿真模型。 相似文献
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汽车磁流变半主动悬架的控制研究 总被引:6,自引:0,他引:6
为了改善汽车的乘坐舒适性和行驶安全性,提出了一种汽车磁流变半主动悬架的控制策略。首先,设计了磁流变减振器的工作模式,通过试验获得了其速度特性和力学特性,建立了磁流变减振器的数学模型;其次,建立了带磁流变减振器的二自由度车辆简化模型及其参数表;最后,基于双环控制理论,设计了一种控制系统,其外环产生理想的结构阻尼力,内环调节电流驱动器的电流,以使磁流变减振器实时地产生控制阻尼力。仿真结果表明:以磁流变减振器为基础,通过半主动控制技术,悬架系统的振动动态性能得到了有效的控制。 相似文献
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为解决惯性质量带来的馈能式悬架性能恶化的问题,研究了减振器串联缓冲器的解决方案。建立了带缓冲器的2自由度馈能式悬架模型,理论研究表明增加缓冲器利于改善簧载质量加速度、悬架动挠度,同时降低惯性力;通过传递特性分析,揭示了缓冲器对减振器速度幅值通低频阻高频的作用。对比有无缓冲器时悬架耗散功率,结果表明缓冲器降低了悬架耗散功率。通过台架对比测试,验证了增加缓冲器能够有效提升馈能式悬架性能,簧载质量加速度均方根值降低58.0%,车轮相对动载荷均方根值降低33.3%,悬架动挠度均方根值降低27.6%。 相似文献
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结合汽车用减振器的工作特点,按照国产某微型轿车后悬架的技术要求,设计了基于混合工作模式的单出杆单筒磁流变减振器,并进行了实物样品研制。根据流体力学理论,建立混合工作模式下磁流变减振器计算模型,并对磁流变减振器的阻尼力、动态响应时间及其影响因素进行了理论分析。对设计的磁流变减振器进行台架动态特性测试,试验结果表明:单出杆... 相似文献
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《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2012,50(7):1025-1041
In this paper, a magneto-rheological (MR) damper-based semi-active controller for vehicle suspension is developed. This system consists of a linear quadratic Gauss (LQG) controller as the system controller and an adaptive neuro-fuzzy inference system (ANFIS) inverse model as the damper controller. First, a modified Bouc–Wen model is proposed to characterise the forward dynamic characteristics of the MR damper based on the experimental data. Then, an inverse MR damper model is built using ANFIS technique to determine the input current so as to gain the desired damping force. Finally, a quarter-car suspension model together with the MR damper is set up, and a semi-active controller composed of the LQG controller and the ANFIS inverse model is designed. Simulation results demonstrate that the desired force can be accurately tracked using the ANFIS technique and the semi-active controller can achieve competitive performance as that of active suspension. 相似文献
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《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2012,50(4):297-312
In this paper, a load-leveling suspension system with a magnetorheological (MR) damper is investigated. In this suspension system, the MR damper is connected to a spring to form a load-leveling suspension system. The system effective stiffness and damping can be adjusted by controlling the MR damper. The characteristics of a load-leveling suspension system are studied first. When the linear damper is replaced with an MR damper, the averaging method is adopted to obtain the steady-state response of the nonlinear system. A comparison demonstrates that the results of the averaging method are in good agreement with those obtained by numerical simulations. The analytical results are then verified experimentally. The load-leveling suspension system studied here is able to adjust both suspension stiffness and damping and, hence, it may provide more effective vibration control in a wider frequency range, when the damper is controlled. 相似文献
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Y. Shen M. F. Golnaraghi G. R. Heppler 《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2007,45(4):297-312
In this paper, a load-leveling suspension system with a magnetorheological (MR) damper is investigated. In this suspension system, the MR damper is connected to a spring to form a load-leveling suspension system. The system effective stiffness and damping can be adjusted by controlling the MR damper. The characteristics of a load-leveling suspension system are studied first. When the linear damper is replaced with an MR damper, the averaging method is adopted to obtain the steady-state response of the nonlinear system. A comparison demonstrates that the results of the averaging method are in good agreement with those obtained by numerical simulations. The analytical results are then verified experimentally. The load-leveling suspension system studied here is able to adjust both suspension stiffness and damping and, hence, it may provide more effective vibration control in a wider frequency range, when the damper is controlled. 相似文献
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《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2012,50(5):341-360
Summary This paper presents an investigation of the feedback control performance of a full-vehicle suspension system featuring magnetorheological (MR) dampers. A cylindrical MR damper is designed and manufactured by incorporating a Bingham model of aMR fluid which is commercially available. After evaluating the field-dependent damping characteristics of the MR damper, a full-vehicle suspension system installed with 4 independent MR dampers is constructed and its governing equations of motion which include vertical, pitch and roll motions are derived. A H 8 controller which has inherent robustness against system uncertainties is formulated by treating the sprung mass of the vehicle as uncertain parameter. This is accomplished by adopting the loop shaping design procedure. For the demonstration of a practical feasibility, control performance characteristics for vibration suppression of the proposed MR suspension system are evaluated under various road conditions through the hardware-in-the-loop simulation (HILS) methodology. 相似文献
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Seung-Bok Choi Hwan-Soo Lee Young-Pil Park 《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2002,38(5):341-360
Summary This paper presents an investigation of the feedback control performance of a full-vehicle suspension system featuring magnetorheological (MR) dampers. A cylindrical MR damper is designed and manufactured by incorporating a Bingham model of aMR fluid which is commercially available. After evaluating the field-dependent damping characteristics of the MR damper, a full-vehicle suspension system installed with 4 independent MR dampers is constructed and its governing equations of motion which include vertical, pitch and roll motions are derived. A H 8 controller which has inherent robustness against system uncertainties is formulated by treating the sprung mass of the vehicle as uncertain parameter. This is accomplished by adopting the loop shaping design procedure. For the demonstration of a practical feasibility, control performance characteristics for vibration suppression of the proposed MR suspension system are evaluated under various road conditions through the hardware-in-the-loop simulation (HILS) methodology. 相似文献
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基于半主动自适应悬架系统的整车道路友好性研究 总被引:1,自引:0,他引:1
为了提高车辆的道路友好性与平顺性,设计了以磁流变减振器为控制对象的整车自适应模糊控制半主动悬架系统。在试验测试和理论分析的基础上,建立了基于磁流变减振器的整车半主动悬架模型及其状态方程,并用该模型对自适应模糊控制方法进行了研究。模型的输入采用B级和C级路面谱;道路友好性评价指标采用动载荷系数和动载荷应力因子;使用MATLAB/Simulink建立基于2个自适应模块的模糊控制器控制系统,模糊控制器的输入均采用车身与车桥的相对速度和相对加速度。仿真结果表明:与被动悬架相比,在B级和C级路面、不同速度下,半主动自适应悬架动载荷系数均降低30%左右,动载荷应力因子均降低40%以上,同时也提高了车辆的运行平顺性和稳定性。 相似文献
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应用于汽车减振的磁流变液阻尼器的设计原理 总被引:6,自引:0,他引:6
应用智能材料磁流变液(MR)构造出的半主动悬架减振系统,可以用于对车辆振动的控制。MR流体具有的独特性质在于:在强磁场的作用下,可由牛顿流体变为粘塑流体,而变液阻尼器则具有结构简单、体积小、工作连续可逆,能耗小等优点。本文介绍了磁流变液的材料特性,建立了磁流变液阻尼器的阻尼力数学模型,并提出设计变阻尼器时参数的选取原则。 相似文献
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《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2012,50(5):600-626
In this paper, semi-active H∞ control with magnetorheological (MR) dampers for railway vehicle suspension systems to improve the lateral ride quality is investigated. The proposed semi-active controller is composed of a H∞ controller as the system controller and an adaptive neuro-fuzzy inference system (ANFIS) inverse MR damper model as the damper controller. First, a 17-degree-of-freedom model for a full-scale railway vehicle is developed and the random track irregularities are modelled. Then a modified Bouc–Wen model is built to characterise the forward dynamic characteristics of the MR damper and an inverse MR damper model is built with the ANFIS technique. Furthermore, a H∞ controller composed of a yaw motion controller and a rolling pendulum motion (lateral motion+roll motion) controller is established. By integrating the H∞ controller with the ANFIS inverse model, a semi-active H∞ controller for the railway vehicle is finally proposed. Simulation results indicate that the proposed semi-active suspension system possesses better attenuation ability for the vibrations of the car body than the passive suspension system. 相似文献