Open Access Article
Journal of Electrical Engineering and Automation. 2022; 1: (1) ; 21-26 ; DOI: 10.12208/j.jeea.20220006.
Design and application of standardization of BAS system integration products for Beijing line 17
北京17号线BAS集成产品标准化设计与应用
作者:
冀卫杰 *
北京和利时系统集成有限公司 北京
*通讯作者:
冀卫杰,单位:北京和利时系统集成有限公司 北京;
发布时间: 2022-04-19 总浏览量: 559
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万方数据(WANFANG DATA)
摘要
传统地铁BAS(环控与设备监控系统)的硬件集成设计、编程设计存在的问题较多如:设计繁琐、调试缓慢、维护困难。BAS集成系统包括:箱柜设计、集成电路设计、PLC编程集成设计、软硬件集成测试。BAS集成产品设计对后续产品交付、安装调试、运营维护等环节带来一系列的影响。为了提高北京17号线BAS系统的GWQS(绿色、智慧、品质、安全)设计效率和质量[1]。本文提出一种BAS硬件集成标准化同步PLC编程自动化的方法,分别从硬件、集成电路、图纸生成自动化、程序输出自动化等不同维度进行设计。该方法优化了设计流程和方法,可以提升各环节效率、缩短工期,实现图纸和编程生成自动化的转变,还解决了维护方便、调试便捷。
关键词: 环境与设备监控BAS;硬件集成;标准化;自动化
Abstract
The hardware design, programming design ideas and methods of traditional Metro bas (environmental control and equipment monitoring) can not meet the design requirements of GWQS-ISCS (green, intelligent, quality and safe ISCS) of Beijing Metro New Metro Project [1]. Bas integrated design includes: cabinet design, integrated circuit design, PLC programming integrated design, software and hardware integration test. BAS system integrated product design has a series of impacts on subsequent product delivery, installation and commissioning, operation and maintenance. In order to improve the GWQS design efficiency and quality of BAS system of Beijing line 17 [1]. This paper presents a method of BAS hardware integration standardization, which is designed from different dimensions, such as hardware design standard, integrated circuit standardization, drawing generation automation, and program output automation. This method optimizes the design process and method, can improve the efficiency of each link, shorten the construction period, realize the transformation of drawing generation automation and product integration automation, and can also meet the high-quality and safety standards to ensure the safety of public transportation .
Key words: Building Automation System (BAS); Hardware Integration; Standardization;Automation
参考文献 References
[1] 卢萌萌,安俊峰,高元军,城市轨道交通综合监控系统顶层设计中的GWQS-ISCS理念[J].城市轨道交通研究,2018(11):104.
[2] 北京市轨道交通建设管理有限公司.北京市轨道交通17号线工程信号系统招标文件[A].2018
[3] 计算机软件可靠性和可维护性管理:GB/T 14394-2008[S].北京:中国标准出版社,2008
[4] 黄力宁,邓嫔,地铁环控与设备监控系统自动生成与自动测试软件研究[J].2021(07)
[5] 外壳防护等级(IP代码)GB/T 4208-2017[S].北京:中国标准出版社
[6] 彭瑜,何衍庆,IEC 61131-3编程语言及应用基础[G]
:机械工业出版,2009
[7] 伍俊良.VB程序设计与系统开发案列[M].北京:清华大学出版社,2006
[8] 张增良,侯申 计算机程序设计基础[M].西安:西安交通大学出版社,2017
[9] 电气/电子/可编程电子安全系统的功能安全IEC61508-2000 [S]:国际电工委员会,2000
[10] 岑军健,非标准机械设计手册[M].北京:国防工业出版社出版,2008
引用本文
冀卫杰, 北京17号线BAS集成产品标准化设计与应用[J]. 电气工程与自动化, 2022; 1: (1) : 21-26.