发布时间 : 星期三 文章某站上行咽喉6502电气集中执行组电路设计_毕业设计更新完毕开始阅读8415227c366baf1ffc4ffe4733687e21ae45ff4f
摘 要
随着铁路运输的发展需要和科学技术的进步,车站信号设备发展很快,采用了许多新技术和新设备,我国主要采用6502电气集中自动控制系统进行车站信号的控制。6502电气集中具有电路定型化程度高、逻辑性强,操作方法简便灵活、不易出错,维修、施工比较方便,符合故障—安全原则,易于区间闭塞设备及其他信号设备集合等优点,又是调度集中和调度监督的基本设备,因此在我国铁路得到了广泛的应用。
本次设计为6502电气集中的两大主要组成部分之一的执行组。此次设计主要是对执行组的8线网路-11线网路进行设计。本文通过查阅文献资料,自建模型,绘制出站场平面图、执行组网络图,设计执行组继电器电路,对执行组8-11线网络电路进行详细分析。
关键词:6502电器集中 执行组 8-11线网络
Abstract
With the development of railway transportation and the progress of science and technology, the station signal equipment development quickly, adopted many new technology and new equipment, our country mainly adopts 6502 electric centralized control station signal automatic control system.6502 Electric has a circuit stereotypes degree high, logical, easy and flexible method of operation, less error-prone, more convenient maintenance, construction, in line with fail-safety principles, subject to section block collection of equipment and other signaling equipment, etc, and Centralized Traffic Control supervision of basic equipment and scheduling. So,it has been widely used in China's railway.
This design is about of che execution group which is one of two main components . The design is mainly the implementation of the 8-line network -11 line network design. Access to literature, self-built model, this article through the consult literature material, map out the station plan, execution groups, network diagram, design the execution group relay circuit, the execution group 8-11 line network circuit for detailed analysis.
Keywords: 6502 Electric executive group 8-11 line network
目 录
第1章 绪论 ·········································································································· 1 1.1 研究背景 ······································································································ 1 1.2 国内外的研究状况 ·························································································· 2 1.2.1 国外研究状况 ··························································································· 2 1.2.2 国内研究状况 ··························································································· 2 1.3 课题设计目的 ································································································ 3 第2章 电气集中 ···································································································· 4 2.1 电气集中概述 ································································································ 4 2.2 6502电气集中电路结构 ··················································································· 4 2.3 站场图介绍 ··································································································· 4 第3章 继电器组合的设置 ························································································ 6 3.1 继电器组合类型 ····························································································· 6 3.2 继电器组合的选用及组合连接图 ········································································ 6 3.3 继电器组合架 ································································································ 7 第4章 执行组电路设计 ··························································································· 8 4.1 执行组的任务和动作程序 ················································································· 8 4.2 执行组电路各网络线概述 ················································································· 8 4.3 信号检查继电器电路 ······················································································· 9 4.3.1 XJJ的设置和作用 ······················································································ 9 4.3.2 8线网络检查的联锁条件··········································································· 10 4.3.3 信号继电器电路分析 ················································································ 10 4.4 区段检查及股道检查继电器电路 ······································································ 13 4.4.1 QJJ与GJJ的设置及作用··········································································· 14 4.4.2 9线10线电路分析 ·················································································· 14 4.5 信号继电器电路 ··························································································· 18 4.5.1 信号继电器的基本连锁条件 ······································································· 18 4.5.2 信号继电器电路分析 ················································································ 18 第5章 结论与展望 ······························································································· 21 参考文献 ·············································································································· 22 致谢 ···················································································································· 23 附录 ···················································································································· 24 附录A 外文翻译 ······························································································· 24 附录B CAD图 ································································································· 32
第1章 绪 论
1.1 研究背景
铁路是国民经济的大动脉,是中国社会和经济发展的先行产业,是社会的基础设施,铁路运输部门又是国民经济中的一个重要部门,它肩负着国民经济各种物资运输的重任,对中国社会主义建设事业的发展有着举足轻重的作用。随着铁路运输的发展和科学技术的进步,保证列车行车安全的措施逐步从治理措施向技术措施过渡,直至发展到今天的自动控制系统。
车站信号设备是实现道岔、进路和信号机之间联锁关系的技术设备,用来指挥站内列车运行和调车作业,以保证车站信号行车安全,提高运输效率。随着我国铁路运输事业的发展,特别是铁路提速以来,车站信号设备发展很快,采用了许多新技术和新设备。为了保证行车安全,信号、道岔与进路之间必须以技术手段持一定的制约关系和操作顺序信号、道岔和进路之间必须有一定的制约关系,而且必须按照一定的程序才能动作和建立,只有遵循这种关系和程序才能保证列车安全运行,常称这种制约关系和操作顺序为联锁。车站联锁设备是保证站内运输作业安全、提高作业效率的铁路信号设备,它的控制对象是道岔、进路和信号机。将道岔、进路和信号机用电气方式集中控制监督,并实现它们之间联锁关系的技术方法和设备称为电气集中联锁,用继电器实现联锁关系的称为继电式电气集中联锁(简称电气集中)[1]。
6502电气集中具有电路定型化程度高、逻辑性强,操作方法简便灵活、不易出错,维修、施工比较方便,符合故障—安全原则,易于区间闭塞设备及其他信号设备集合等优点,又是调度集中和调度监督的基本设备,因此在我国铁路得到了广泛的应用。随着铁路运输的发展需要和科学技术的进步,保证行车安全的措施逐步从管理措施向技术措施过渡,直至发展成今天的自动控制系统。6502电气集中联锁设备作为实现控制车站范围内的道岔、进路和信号机,并实现它们的联锁,有着保证行车安全、缩短列车停站时间、提高铁路运输效率、改善行车人员的作业条件、提高车站通过能力等等优点,是一种高效、安全、经济的车站连锁设备。随着我国铁路运输生产的不断发展,全路信号设备不断地得到改善。要大力发展铁路运输,保证行车安全,提高运输效率,就必须在信号设备方面加大投人,大幅度地提高信号设备的装备数量和技术水平。目前6502电气集中作为一种较为先进的信号设备,在全路已经相当普及,而且,6502电气集中也确实在铁路运输中发挥了越来越重要的作用。它不论从电路结构上,还是从