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| A secondary cable auxiliary threading lead mechanism based on the principle of electromagnetic adsorption |
| JIAN Chuanqian, DONG Hongsong, CHEN Yuxue, CHEN Peng, LI Tao |
| State Grid Suining Electric Power Supply Company, Suining, Sichuan 629000 |
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Abstract Aiming at the problems of poor working environment and low working efficiency of secondary cable manual threading, this paper proposes a design method of secondary cable auxiliary threading lead mechanism based on the principle of electromagnetic adsorption. Firstly, the principle of electromagnetic adsorption is analyzed, and the structure of traction end, threading end and electromagnetic adsorption are designed. Then, the finite element model of the adsorption device is constructed to analyze the relationship between the magnetic flux density in the inner and outer magnetic poles, the adsorption force and the air gap. The adsorption force of the designed adsorption device is determined to be 77.8N. Finally, the experimental platform is built to carry out related experimental studies such as primitive verification, repeatability and efficiency comparison. The experimental results show that the designed mechanism can work stably for about 12h, and the efficiency is increased by 87.99% compared with the manual threading method.
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Received: 20 September 2024
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| Cite this article: |
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JIAN Chuanqian,DONG Hongsong,CHEN Yuxue等. A secondary cable auxiliary threading lead mechanism based on the principle of electromagnetic adsorption[J]. Electrical Engineering, 2025, 26(2): 63-68.
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| URL: |
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https://dqjs.cesmedia.cn/EN/Y2025/V26/I2/63
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[1] 郭红斌, 马驰, 文正其. 预制舱式模块化变电站关键技术及展望[J]. 电气技术, 2023, 24(9): 1-10, 19.
[2] 陈维江. “高压电缆绝缘基础理论与关键技术”专题特约主编寄语[J]. 电工技术学报, 2024, 39(1): 1-2.
[3] 陶宇航, 张熹, 宫祥龙. 10kV电缆故障测距及定位典型案例分析[J]. 电气技术, 2022, 23(2): 88-93.
[4] 严有祥, 朱婷, 张那明, 等. 交直流电缆共沟敷设电磁环境影响因素[J]. 电工技术学报, 2022, 37(6): 1329-1337.
[5] 董章, 李思尧, 陈雅旎, 等. 计及罕见变量的配电电缆线路故障风险预警方法[J]. 电气技术, 2023, 24(5): 35-40.
[6] 梁钟颖, 周凯, 孟鹏飞, 等. 基于频域反射系数谱的电缆故障定位与故障类型识别方法研究[J]. 电工电能新技术, 2022, 41(8): 79-88.
[7] 叶海, 李彩云, 任旭超, 等. 变电站二次电缆瞬态电磁骚扰的特征统计方法与不确定度分析[J]. 电力系统保护与控制, 2023, 51(15): 166-174.
[8] 雷佳成, 杨鑫, 秦睿, 等. 高压电缆接头防爆保护装置的泄能孔优化设计方法[J]. 电工电能新技术, 2024, 43(3): 83-92.
[9] CALCARA L, D' ORAZIO L, DELLA CORTE M, et al. Faults evaluation of MV underground cable joints[C]//2019 AEIT International Annual Conference (AEIT), Florence, Italy, 2019: 1-6.
[10] 朱晓中, 张勇, 王瑞刚, 等. 基于小波奇异熵和BP神经网络的电力电缆故障识别方法[P]. 中国: CN 202111617851.7, 2022-05-20.
[11] 朱克平, 何英静, 倪瑞君, 等. 浅谈变电站电缆敷设与二次接线的工艺改进策略[J]. 电工材料, 2019(2): 46-48.
[12] 杨拯, 温才权, 刘炜, 等. 500kV GIS变电站隔离开关操作对二次电缆的影响[J]. 南方电网技术, 2022, 16(6): 147-155.
[13] 林海明, 魏美玲, 张源, 等. 一种电力安装用电缆引线装置[P]. 中国: CN218040474U, 2022-12-13.
[14] 王圣昌, 徐剑峰, 王晓飞. 变电站电缆敷设及二次接线的工艺改进[J]. 流体测量与控制, 2024, 5(4): 62-65.
[15] 王世超, 王世全, 许靖, 等. 一种高效电缆引线器[P]. 中国: CN217984301U, 2022-12-06.
[16] 罗玉堂, 侯雁峰, 段志珍, 等. 多功能二次电缆抓取工具改进分析[J]. 集成电路应用, 2024, 41(1): 150-151.
[17] 宋大成, 张健, 陈卫宇, 等. 一种电缆引线器[P]. 中国: CN220273173U, 2023-12-29.
[18] 李扬. 高速强力电磁铁的设计与仿真[D]. 北京: 清华大学, 2012.
[19] 洪晓玮, 陈勇. 一种新型电磁吸附式爬壁机器人的研制[J]. 机械科学与技术, 2021, 40(3): 337-343. |
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2025, Vol. 26 
