共查询到19条相似文献,搜索用时 718 毫秒
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根据车辆悬架最佳阻尼匹配要求,利用开阀流量、压力和阀片变形之间的关系,建立基于车辆参数的油气弹簧阀系参数设计公式.利用等效厚度和应力计算公式,建立了油气弹簧叠加阀片和调整垫圈厚度设计方法.通过实例,对油气弹簧阀系参数进行了设计,对设计参数进行验证,并对所设计油气弹簧进行了阻力特性试验.结果表明,基于车辆参数的油气弹簧阀系参数设计方法是正确的,对油气弹簧设计具有一定参考价值. 相似文献
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文章梳理了当前乘用车产业中广泛使用的阀控阻尼可调减振器的种类,分别介绍了各类型的代表产品、应用车型、系统组成、阻尼力特性、硬件结构和工作原理等,并对阀控阻尼可调减振器的升级发展方向做出了展望。 相似文献
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根据阀片变形、内力和应力之间关系,建立油气弹簧节流阀片应力解析计算式,对单片阀片应力进行了解析计算,并与<机械设计手册>和ANSYS有限元分析软件计算方法进行了比较.对多片叠加阀片等效厚度、应力进行了研究,建立了最大许用厚度计算式.通过实例,对油气弹簧叠加阀片进行了厚度设计和应力计算与分析. 相似文献
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Internal vibration of the valve spring is a critical factor in determining the dynamic characteristics of high-speed valve
train systems. Because precise prediction of the spring surge amplitude is a difficult problem, especially for nonlinear variable-pitch
springs, the development stage requires a process of trial and error. In the present study, a new method that considers the
variable natural frequency and variable damping ratio is proposed to predict the spring surge amplitude. First, the change
in the natural frequency and damping ratio caused by compression is predicted from the initially given pitch curve at the
free height. Second, the spring surge amplitude is estimated by solving the wave equation with nonlinear variable coefficients.
The surge amplitudes of typical valve springs are also measured using a motoring test rig and are compared with theoretical
results predicted by the spring drawing and cam profile data. 相似文献
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Model development and experimental research on an air spring with auxiliary reservoir 总被引:1,自引:0,他引:1
This paper focuses on the dynamic stiffness and overall equivalent damping of an air spring connected to an orifice and an
auxiliary reservoir, with respect to the displacement excitation frequency, orifice area, and auxiliary reservoir volume.
A theoretical model of this air spring with its auxiliary reservoir is derived by utilizing the energy conservation equation,
gas state equation, and orifice flow rate equation. Simulation results from the presented model reveal that, when the air
spring is subject to harmonic displacement excitation, its dynamic stiffness increases with an increase in excitation frequency
and decrease in orifice area. Smaller orifice areas and lower excitation frequencies result in higher overall equivalent damping.
A validation experiment is also implemented. When compared with experimental results, simulations show consistent varying
trends of the dynamic stiffness and overall equivalent damping. The model developed here can correctly describe the behavior
of the air spring with auxiliary reservoir, indicating that it is reasonable and feasible. 相似文献
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Research on the electro-hydraulic variable valve actuation system based on a three-way proportional reducing valve 总被引:1,自引:0,他引:1
J. -R. Liu B. Jin Y. -J. Xie Y. Chen Z. -T. Weng 《International Journal of Automotive Technology》2009,10(1):27-36
As the internal combustion engine moves into the 21st century, fully flexible valve actuation systems are being proposed as
an enabling technology for advanced internal combustion engine concepts. Electro-hydraulic valve actuator systems are being
considered as a potential variable valve technology. Compared to the servo control system, the system using a proportional
valve has the advantages of low price, high anti-pollution ability and high reliability. Our research focuses on exploring
the dynamic characteristic of the electro-hydraulic variable valve system, which is based on three-way proportional reducing
valve. In this paper, the structure and working principles of the system are described. The dynamic mathematical model of
the system is derived. From the analysis of a linearized model and dynamic simulation, it is demonstrated that the system
will be stable only if the proportional reducing valve has a positive opening. Some structural factors that affect the system’s
dynamic characteristics, such as input signal, the stiffness of the return spring and the pre-tightening force of the return
spring, are studied using AMESim. The experimental results coincide with the theoretical and simulated analyses. Further study
shows that the dynamic response can be improved effectively by adopting closed-loop control of valve lift. 相似文献