共查询到20条相似文献,搜索用时 187 毫秒
1.
2.
3.
4.
例1.冷车起动困难,起动后工作正常故障现象:该车冷车起动困难,需连续起动多次,但起动后工作正常。故障排除:影响汽车起动困难的原因很多, 主要有:发动机气缸压力低;燃油泵压力低,燃油滤清器堵塞,燃油压力调节器故障,喷油器故障; 点火系统点火能量过弱,火花塞工作不良,点火系统有漏电处;进气系统有漏气处;怠速控制装置故障;空气流量计故障;凸轮轴位置传感器故障;冷 相似文献
5.
起动电路的作用是控制起动机工作,起动发动机,配合点火系统与喷油系统,克服各种阻力,使发动机由静止状态变为怠速运行状态,起动时,起动机必须能带动发动机运转到一定转速,否则会出现起动无力甚至不能起动,发动机起动之后,起动机便立即停止工作。 相似文献
6.
7.
8.
9.
10.
11.
公路工程试验检测与质量检验评定一体化系统研究与开发 总被引:4,自引:0,他引:4
在总结目前同类软件存在的问题的基础上,结合工程实际,提出将试验检测与质量检验评定业务相结合,开发集数据处理、资料管理于一体的信息系统辅助公路工程质检业务;采用Office二次开发、组件等开发技术,合理地规划了系统的体系结构,并充分考虑了其在公路建设项目集成管理系统中的架构与地位。研究与开发的系统成果已在实际工程中得到应用。 相似文献
12.
13.
14.
搭载自动驾驶功能的智能网联汽车因可在其设计运行条件内承担全部动态驾驶任务,面临安全验证与评估挑战。基于场景的智能网联汽车安全测试评估方法已成为广泛的行业共识,模拟仿真测试是其重要手段之一。从第三方视角,针对自动驾驶安全性、高场景覆盖度、逻辑完备性等测试验证目标,搭建基于软件在环的模拟仿真测试环境框架,在此基础上研究基于设计运行条件覆盖的测试场景集构建方法,探索形成一套高可信智能网联汽车模拟仿真测试评估方法,并在特定应用场景进行初步实践。研究成果为模拟仿真测试在智能网联汽车安全测试与评估中的落地应用提供了参考。 相似文献
15.
公路边坡破坏的类型及其加固处治措施 总被引:1,自引:0,他引:1
针对我国西部公路建设复杂的地形、地质等不利环境,通过对国内外相关资料的查阅和对典型路段的实地考察,并在依托工程实例的基础上对常见边坡的破坏类型和加固处治措施进行了分类,探究了其破坏的原因,提出了加固处治措施。 相似文献
16.
17.
18.
R. Conti E. Galardi E. Meli D. Nocciolini A. Rindi 《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2015,53(5):651-671
Traction and braking systems deeply affect longitudinal train dynamics, especially when an extensive blending phase among different pneumatic, electric and magnetic devices is required. The energy and wear optimisation of longitudinal vehicle dynamics has a crucial economic impact and involves several engineering problems such as wear of braking friction components, energy efficiency, thermal load on components, level of safety under degraded or adhesion conditions (often constrained by the current regulation in force on signalling or other safety-related subsystem). In fact, the application of energy storage systems can lead to an efficiency improvement of at least 10% while, as regards the wear reduction, the improvement due to distributed traction systems and to optimised traction devices can be quantified in about 50%. In this work, an innovative integrated procedure is proposed by the authors to optimise longitudinal train dynamics and traction and braking manoeuvres in terms of both energy and wear. The new approach has been applied to existing test cases and validated with experimental data provided by Breda and, for some components and their homologation process, the results of experimental activities derive from cooperation performed with relevant industrial partners such as Trenitalia and Italcertifer. In particular, simulation results are referred to the simulation tests performed on a high-speed train (Ansaldo Breda Emu V250) and on a tram (Ansaldo Breda Sirio Tram). The proposed approach is based on a modular simulation platform in which the sub-models corresponding to different subsystems can be easily customised, depending on the considered application, on the availability of technical data and on the homologation process of different components. 相似文献
19.
20.