[1]宋恒东,韩学春,张瑞曦,等.基于局部电场的零值绝缘子操作杆检测研究[J].机械与电子,2025,(03):35-40.
 SONG Hengdong,HAN Xuechun,ZHANG Ruixi,et al.Research on Zero-value Insulator Lever Detection Based on Local Electric Field[J].Machinery & Electronics,2025,(03):35-40.
点击复制

基于局部电场的零值绝缘子操作杆检测研究()
分享到:

《机械与电子》[ISSN:1001-2257/CN:52-1052/TH]

卷:
期数:
2025年03期
页码:
35-40
栏目:
自动控制与检测
出版日期:
2025-03-25

文章信息/Info

Title:
Research on Zero-value Insulator Lever Detection Based on Local Electric Field
文章编号:
1001-2257 ( 2025 ) 03-0035-06
作者:
宋恒东韩学春张瑞曦潘灵敏鲍 奕
国网江苏超高压公司,江苏 南京 211102
Author(s):
SONG Hengdong HAN Xuechun ZHANG Ruixi PAN Lingmin BAO Yi
( State Grid Jiangsu UHV Company , Nanjing 211102 , China )
关键词:
零值绝缘子有限元仿真电场阵列检测操作杆
Keywords:
zero-value insulator finite element simulation electric field array lever detection
分类号:
TM75 ;TM216
文献标志码:
A
摘要:
为提升电场场强法检测零值绝缘子的效率,设计了一种基于局部电场的零值绝缘子检测装置。首先通过 COMSOL 有限元仿真软件建立零值绝缘子检测模型,得到 3 个典型位置的电场畸变特性;然后提出一种识别零值的判据,研制出阵列式电场检测装置操作杆,并作进一步实验验证。实验结果显示,当零值绝缘子出现在高压端时,最佳检测位置为正对钢脚;当零值绝缘子出现在中压端和低压端时,最佳检测位置为正对伞裙。
Abstract:
To further improve the efficiency of zero-value insulator detection by Electric Field Intensity Method , a zero-value insulator detection device based on electric field array is developed.Firstly , a zero value insulator detection model was established by COMSOL finite element simulation software , and the electric field distortion characteristics of three typical locations were obtained ; then , a criterion for identifying zero-value was proposed , and the array electric field detection device is developed for further experimental verification.The experimental results show that when the zero-value insulator appears at the high voltage end , the best detection position is opposite to the steel foot ; when the zero-value insulator appears at the middle voltage end and the low voltage end , the best detection position is directly opposite the parachute skirt.

参考文献/References:

[ 1 ] 常彬,吴旭涛,闫振华,等 . 一起 220 kV 瓷绝缘子钢帽炸裂故障分析[ J ] . 电工材料, 2021 ( 3 ): 28-29 , 33.

[ 2 ] 马立新,豆晨飞,宋晨灿,等 . 基于 VGGNet 算法的绝缘子无损检测[ J ] . 光电工程, 2021 , 48 ( 1 ): 38-45.
[ 3 ] 张晓春,欧阳广泽,何洪英,等 . 基于红外图像匹配的零值绝缘子检测[ J ] . 电测与仪表, 2019 , 56 ( 6 ): 100-105.
[ 4 ] LIN Y , YIN F H , LIU Y H , et al.Influence of vulcanization factors on UV-A resistance of silicone rubber for outdoor insulators [ J ] .IEEE Transactions on dielectrics and electrical insulation , 2020 , 27 ( 1 ):296-304.
[ 5 ] XU C F , HU C B , XU J Y , et al.Influence of deteriorated porcelain insulator on electric field and potential distribution of insulators strings in 110 kV transmission lines [ C ] ∥ IEEE International Conference on Smart Grid and Smart Cities ( ICSGSC ) .New York : IEEE , 2017 : 162-166.
[ 6 ] 夏强峰 . 瓷质悬式绝缘子劣化非接触式检测方法的研究[ D ] . 重庆:重庆大学,2010.
[ 7 ] 陈国宏,高嵩,黄瑞平,等 . 机械振动疲劳条件下装配缺陷盘形悬式瓷绝缘子串元件劣化试验研究[ J ] . 电瓷避雷器,2021 ( 4 ): 203-208.
[ 8 ] HE H Y , HU Z , WANG B Z , et al.A contactless zero value insulators detection method based on infrared images matching [ J ] .IEEE Access , 2020 , 8 : 133882-133889.
[ 9 ] 刘天,鲍奕,潘灵敏,等 . 辅助带电测零工具的研制[ J ] .电力安全技术,2021 , 23 ( 8 ): 67-69.
[ 10 ] 张博禹 . 瓷质劣化绝缘子串非接触式电场检测方法研究[ D ] . 保定:华北电力大学,2022.
[ 11 ] 徐建源,滕云,林莘,等 . 基于双重人工神经网络的 XP-70 绝缘子串污闪概率模型的建立[ J ] . 电工技术学报,2008 , 23 ( 12 ): 23-27 , 47.
[ 12 ] 吴其,刘晓明,邹积岩,等 . 采用响应面法-几何特征模拟电荷法的电场数值求解及精度验证[ J ] . 高电压技术,2018 , 44 ( 6 ): 2060-2066.
[ 13 ] 周吉刚,李希元,徐中凯,等 . 基于有限元的瓷绝缘子劣化对输电线路绝缘子串轴向电场分 布影 响研 究[ J ] . 绝缘材料, 2021 , 54 ( 10 ): 79-83.
[ 14 ] 王平,李抗,耿江海,等 .110 kV 劣化瓷质悬式绝缘子空间电场研究 [ J ] . 电测与仪表, 2020 , 57 ( 14 ):93-98.
[ 15 ] 何柏娜,孔杰,姜仁卓,等 . 盆式绝缘子金属丝缺陷下电场分布仿真研究 [ J ] . 绝缘材料, 2021 , 54 ( 1 ):39-44.
[ 16 ] 张东东,万武艺,刘欣,等 . 基于无人机的绝缘子带电零值检测技术 [ J ] . 电力工程技术, 2023 ,42 ( 1 ):234-242.
[ 17 ] 张志猛,李抗,刘杰,等 . 基于无人机巡检平台的劣化绝缘子带电检测技术[ J ] . 科学技术与工程, 2020 , 20( 21 ): 8616-8621.
[ 18 ] 曲金 . 不同状态下绝缘子电场分析与检测研究[ D ] .沈阳:沈阳工业大学,2020.

相似文献/References:

[1]郑夕健,陈 超.20m 大跨度升降工作平台作业平台振动力学性能分析[J].机械与电子,2019,(12):20.
 .Research on Working Platform’s Vibration Mechanical Propertiesof 20m Large Span Lifting Work Platform[J].Machinery & Electronics,2019,(03):20.
[2]翁程琳,贾 山,赵建华,等.星表着陆缓冲装置缩比样机全工况落震试验系统设计与试验方法开发[J].机械与电子,2021,(02):8.
 WENG Chenglin,JIA Shan,ZHAO Jianhua,et al.Design and Test Method Development of a Overall-condition Drop Test System for Scale Prototype of Planetary-surface Soft Lander[J].Machinery & Electronics,2021,(03):8.
[3]王振炬,管恩广,刘积昊,等.基于磁隙式吸附机构的槽车清洗机器人[J].机械与电子,2021,(02):65.
 WANG Zhenju,GUAN Enguang,LIU Jihao,et al.Tank Car Cleaning Robot Based on Magnetic Gap Adsorption Mechanism[J].Machinery & Electronics,2021,(03):65.
[4]陈明东,许 涛,冯育龙,等.基于 ABAQUS 的角接触球轴承动力学仿真分析[J].机械与电子,2022,(03):35.
 CHEN Mingdong,XU Tao,FENG Yulong,et al.Dynamic Simulation Analysis of Angular Contact Ball Bearing Based on ABAQUS[J].Machinery & Electronics,2022,(03):35.
[5]孙海力,吴恩启,闵 锐,等.盾构机盾尾变形检测与有限元分析[J].机械与电子,2022,(05):42.
 SUN Haili,WU Enqi,MIN Rui,et al.Deformation Detection and Finite Element Analysis of Tail of Shield Machine[J].Machinery & Electronics,2022,(03):42.
[6]宋恒东,韩学春,陈 轩,等.污秽与串偏斜对劣化绝缘子空间电场的影响研究[J].机械与电子,2023,41(09):8.
 SONG Hengdong,HAN Xuechun,CHEN Xuan,et al.Influence Research of Pollution and String Deflection on the Space Electric Field of Deteriorated Insulators[J].Machinery & Electronics,2023,41(03):8.
[7]孙天圣,刘芳华,江 来,等.基于 Halbach 阵列的爬壁机器人永磁吸附模块优化设计[J].机械与电子,2023,41(10):54.
 SUN Tiansheng,LIU Fanghua,JIANG Lai,et al.Optimal Design of Permanent Magnet Adsorption Module Based on Halbach Array for Wall-climbing Robot[J].Machinery & Electronics,2023,41(03):54.
[8]李 旭,刘 胜.三腔道软体驱动器弯曲预测方法的研究[J].机械与电子,2023,41(12):10.
 LI Xu,LIU Sheng.Research on Bending Prediction Method of Three-chamber Soft Actuator[J].Machinery & Electronics,2023,41(03):10.
[9]张 昊,阙妙玲,李静雯.基于建筑变形监测的高性能压力传感器的仿真研究[J].机械与电子,2024,42(02):3.
 ZHANG Hao,QUE Miaoling,LI Jingwen.Simulation Study of High-performance Pressure Sensor Based on Building Deformation Monitoring[J].Machinery & Electronics,2024,42(03):3.
[10]李苗苗,朱世瑄,陈凯杰,等.舰船用限位器垂向冲击刚度特性研究[J].机械与电子,2024,42(09):3.
 LI Miaomiao,ZHU Shixuan,CHEN Kaijie,et al.Study on the Vertical Impact Stiffness Characteristics of the Limiter for Ships[J].Machinery & Electronics,2024,42(03):3.

备注/Memo

备注/Memo:
收稿日期: 2024-07-18
基金项目:国网江苏超高压公司科技项目( CGY-2024004 )
作者简介:宋恒东 ( 1989- ),男,江苏徐州人,硕士,工程师,研究方向为输电线路运检。
更新日期/Last Update: 2025-04-08