摘要
以白土窑线路工程为依托,根据白土窑线路工程特点,研究机械化施工的应用情况和应用成效。白土窑线路工程通过机械化施工的全面应用大幅降低了工程建设风险,提高了整个工程的机械化施工率,实现了精益求精抓安全的目的,保障了工程实体质量。着重以旋挖钻机为例,介绍了其施工优点,并与人工挖孔进行对比,对成本效益进行了对比测算,总结了高效适用条件和不利条件,并提出机械、设备、安全工器具反违章管理理念和管理思路,杜绝现场违章情况的发生。通过精益化管控的理念,提升了工程绿色建造水平,节约了资源和成本,保护了水土和环境,实现了工程、企业、社会的提质增效。
Mechanized construction is an important measure in the"Six Jing and Four Hua"three-year action of State Grid Corporation of China.Vigorously promoting"mechanized replacement"can improve the quality,efficiency,and intrinsic safety level of construction.Based on the 500 kV Baituyao transmission line project and its characteristics,this paper studies the application and effectiveness of mechanized construction.The comprehensive application of mechanized construction in the 500 kV Baituyao transmission Line Project has significantly reduced the risk of project construction,improved the mechanized construction rate of the entire project,achieved the goal of excellence of safety management,and ensured the quality of the project entity.Taking the rotary drilling rig as an example,this article introduces its construction advantages,compares it with manual hole digging,calculates its cost effectiveness,and summarizes its efficient application conditions and unfavorable conditions.And propose anti violation management concepts and management ideas for machinery,equipment,safety tools and instruments to eliminate on-site violations.Through the concept of lean management and control,the level of green construction in engineering is improved,resources and costs are saved,water and soil are protected,and the environment is protected,achieving quality and efficiency improvement for engineering,enterprises,and society.
作者
刘杰锋
王帅
王艳军
王阳阳
郑晓斌
乔平
LIU Jiefeng;WANG Shuai;WANG Yanjun;WANG Yangyang;ZHEGN Xiaobin;QIAO Ping(State Grid Jibei Engineering Management Company,Beijing 100070,China)
出处
《电工技术》
2023年第S01期80-82,84,共4页
Electric Engineering
关键词
机械化施工
风险压降
成本效益
反违章
绿色建造
提质增效
mechanized construction
risk reduction
cost effectiveness
anti violation
green construction
quality and efficiency improvement
