适应架空输电线路自动化设计的全数字测量平断面图处理技术研究与应用OA
Research and application of full-digital plane-section map processing technology for automated design of overhead transmission lines
针对架空输电线路自动化设计的需求,突破传统跨专业无法实现数据贯通的测量平断面图处理局限,文章提出了基于架空输电线路内外业一体化的全要素地物编码技术、最低高程控制线的安全检测技术与"一文本、一张表、一张图"的测绘智能成图技术,生成全数字CAD平断面图.结果显示,该技术解决了测量数据信息无继承性、软件智能分析利用率低等问题,实现了架空输电线路测量与设计部分数据互通与成果共享,能够在各种工作界面下对全要素地物进行智能识别,进而实现杆塔自动优化排位与自动化校验统计,提升了勘测设计流程效率,降低了出错率,并提高了勘测设计质量.
In response to the automation design requirements for overhead transmission lines and to overcome the limitations of traditional cross-disciplinary processing of measurement profile diagrams,which cannot realize data continuity,this article proposes a full-element feature coding technology based on the integration of field and office work for overhead transmission lines,a safety detection technology for the minimum elevation control line,and an intelligent mapping technology of'one text,one table,one map',to generate fully digital CAD profile diagrams.This technology addresses issues such as the non-inheritance of measurement data information and low utilization of software intelligent analysis,achieving partial data interoperability and result sharing between measurement and design of overhead transmission lines.It can intelligently identify all elements of features under various work interfaces,thereby realizing automatic tower positioning optimization and automated verification statistics,improving the efficiency of surveying and design processes,reducing error rates,and enhancing the quality of surveying and design.
李卫军
中国能源建设集团广东省电力设计研究院有限公司,广东 广州 510663||广东科诺勘测工程有限公司,广东 广州 510663
天文与地球科学
架空输电线路平断面图全要素地物编码最低高程控制线
overhead transmission linesplane-section mapfull-element feature codingminimum elevation control line
《智能城市》 2026 (5)
16-19,4
中国能建广东院科技资助项目(EV10411W)中国电力工程顾问集团有限公司重大科技项目(DG3-F02-2025)
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