自主创新CBTC系统的核心技术研究

介绍自主创新的基于通信的列车控制( communication based train control,CBTC)系统.历经10年的核心技术攻关、现场试验、中试与示范工程,首次建立覆盖安全系统全生命周期的移动闭塞系统设计理论及技术体系,提出列车运行安全控制的模型和算法;采用高密度列车追踪防护技术,解决复杂线路条件下、高...     

HX_D2C型大功率交流传动电力机车电传动系统

文章介绍HXD2C型大功率交流传动电力机车电传动系统的结构组成、工作原理、技术基础、主要作用、保护设计理念和保护功能,并对机车电传动系统集成功能进行了简要说明。     

中低速磁浮交通运行的安全性与可靠性分析

阐述磁浮交通的基本原理及其与传统轮轨交通的区别,通过故障救援及安全运营实践,得出以下结论：中低速磁浮交通系统结构可保证在列车运营中不发生列车脱轨和颠覆的事故;支撑的可靠性能得到成倍的提高;采用信息化技术在线监控,提高支撑的可靠性;假设出现突然断电和列车备用电源也同时出故障的最不利情况下,列车会自动落在10 mm高的轨道上面,与轨道间产生摩擦阻力可使运行列车安全停下。实践证明,信息化技术支撑中低速磁浮交通,具有更高的安全性和可靠性。     

机车远程监视与诊断系统研究与设计

基于车载信息采集技术、通信技术和计算机技术,提出了一套适合我国机车运用检修管理的机车远程监视与诊断系统,详细阐述了系统结构、网络结构、通信方式、信息处理和综合应用情况,并结合系统的实际装车运用考核情况分析了该系统的应用现状及广阔的应用前景.     

上海通用别克4T65-E型自动变速器维修要点

上海通用在别克GL、GLX和新世纪3种车型上均采用4T65-E型电控自动变速器，该电控自动变速器有4个前进挡和1个倒挡。介绍了该自动变速器的故障代码，要提取故障代码和故障数据，必须使用SCAN诊断仪。     

液压机械无级变速器控制系统特性研究

液压机械无级变速器作为一种无级变速装置在车辆上逐渐开始应用。本文主要对变速器控制系统的动态和静态特性进行分析与讨论,以便对它进行准确的控制。     

Simulation model of an electrohydraulic-actuated double-clutch transmission vehicle: modelling and system design

Automated and manual transmissions are the main link between engine and powertrain. The technical term when the transmission provides the desired torque during all possible driving conditions is denoted as powertrain matching. Recent developments in the last years show that double-clutch-transmissions (DCTs) are a reasonable compromise in terms of production costs, shifting quality, drivability and fuel efficiency. They have several advantages compared to other automatic transmissions (AT). Most DCTs nowadays consist of a hydraulic actuation control unit, which controls the clutches of the gearbox in order to induce a desired drivetrain torque into the driveline. The main functions of hydraulic systems are manifold: they initiate gear shifts, they provide sufficient oil for lubrication and they control the shift quality by suitably providing a desired oil flow or pressure for the clutch actuation. In this paper, a mathematical model of a passenger car equipped with a DCT is presented. The objective of this contribution is to get an increased understanding for the dynamics of the hydraulic circuit and its coupling to the vehicle drivetrain. The simulation model consists of a hydraulic and a mechanical domain: the hydraulic actuation circuit is described by nonlinear differential equations and includes the dynamics of the line pressure and the proportional valve, as well as the influence of the pressure reducing valve, pipe resistances and accumulator dynamics. The drivetrain with its gear ratios, moments of inertia, torsional stiffness of the rotating shafts and a simple longitudinal vehicle model represent the mechanical domain. The link between hydraulic and mechanical domain is given by the clutch, which combines hydraulic equations and Newton's laws. The presented mathematical model may not only be used as a simulation model for developing the transmission control software, it may also serve as a virtual layout for the design process phase. At the end of this contribution a parametric study shows the influence of the mechanical components, the accumulator and the temperature of the oil.     

A locomotive–track coupled vertical dynamics model with gear transmissions

A gear transmission system is a key element in a locomotive for the transmission of traction or braking forces between the motor and the wheel–rail interface. Its dynamic performance has a direct effect on the operational reliability of the locomotive and its components. This paper proposes a comprehensive locomotive–track coupled vertical dynamics model, in which the locomotive is driven by axle-hung motors. In this coupled dynamics model, the dynamic interactions between the gear transmission system and the other components, e.g. motor and wheelset, are considered based on the detailed analysis of its structural properties and working mechanism. Thus, the mechanical transmission system for power delivery from the motor to the wheelset via gear transmission is coupled with a traditional locomotive–track dynamics system via the wheel–rail contact interface and the gear mesh interface. This developed dynamics model enables investigations of the dynamic performance of the entire dynamics system under the excitations from the wheel–rail contact interface and/or the gear mesh interface. Dynamic interactions are demonstrated by numerical simulations using this dynamics model. The results indicate that both of the excitations from the wheel–rail contact interface and the gear mesh interface have a significant effect on the dynamic responses of the components in this coupled dynamics system.     

出口巴西SDD8型内燃机车交流辅助传动系统

详细阐述了出口巴西SDD8型内燃机车交流辅助传动系统的设计原理和系统组成,解决了出口内燃机车静液压传动系统故障率高、漏油、维护工作量大的技术难题,该车已投入运营近万公里,没有出现任何故障,系统状态良好.     

编组站机车综合安全控制系统的应用

介绍编组站机车综合安全控制系统的构成和功能,并提出典型编组站的工程应用方案。