门型水泥杆塔中相复合横担新型节点设计研究

玻璃钢/复合材料 ›› 2019, Vol. 0 ›› Issue (9): 93-99.

门型水泥杆塔中相复合横担新型节点设计研究

张文锋¹, 曹明阳^2*, 李志伟¹, 张江鹏²

1.云南电网有限责任公司大理供电局,大理671000;
2.上海神马电力工程有限公司,上海201106

收稿日期:2018-05-20 出版日期:2019-09-28 发布日期:2019-09-28
通讯作者: 曹明阳(1992-),男,硕士研究生,工程师,主要研究方向为复合材料在输电线路中的应用,cmyang@shenmapower.com。
作者简介:张文锋(1984-),男,学士,工程师,主要从事输电线路运行维护管理方面的工作。

STUDY ON THE DESIGN OF A NEW TYPE OF COMPOSITE CROSSARM NODE IN THE MIDDLE PHASE OF A PORTAL CEMENT TOWER

ZHANG Wen-feng¹, CAO Ming-yang^2*, LI Zhi-wei¹, ZHANG Jiang-peng²

1.Yunnan Power Grid Company Dali Power Supply Bureau, Dali 671000, China;
2.Shanghai Shemar Power Engineering Co., Ltd., Shanghai 201106, China

Received:2018-05-20 Online:2019-09-28 Published:2019-09-28

摘要/Abstract

摘要： 针对220 kV门型水泥杆塔的复合化改造工作,设计了两种节点型式用于中相复合横担的连接。第一种中相节点为“猫头型”节点,其分为上下两个部分,通过螺栓将杆塔中相两侧的支柱绝缘子进行固结,同时节点的上侧两边各伸出一个搭板,与线路绝缘子进行连接,从而形成一种稳定的三角结构复合横担;第二种中相节点为“法兰对接型”节点,其分为三个部分,两侧各一个异形法兰,与支柱绝缘子之间通过胶装一体成型,并在两个异形法兰之间放置夹板,既为中相导线提供了挂线点,也方便调节门型水泥杆塔两侧水泥杆之间的距离。使用WorkBench对220 kV门型水泥杆塔中相复合横担两种新型节点进行力学仿真分析,得出节点各元件的应力分布情况,分析结果表明,“法兰对接型”节点设计合理,安装便捷。最后对“法兰对接型”节点的均压环电气性能进行了电气仿真和实验,实验结果表明,“法兰对接型”节点力学与电气性能稳定,可以满足改造工程的使用要求。

关键词: 复合横担, 门型水泥杆塔, 新型节点设计, 数值仿真

Abstract: For the composite transformation of 220 kV portal cement tower, we designed two types of nodes for connection of the middle phase composite crossarm. The first type of middle phase node is a "cat head type", which is divided into upper and lower parts, and the post insulators on both sides of the middle phase are consolidated by bolts. Meanwhile, a pair of boards are extended on both sides of the upper part of node, and connected to the line insulator to form a stable triangular structure composite crossarm. The second type of middle phase node is a "flange butt type", which is divided into three parts. First, specific flanges on both sides of node, and post insulator is integrally formed by glue. Second, a splint is arranged between the two special flanges. The splint not only provides the hanging point for the middle phase conductor, but also adjusts the distance between the cement rods on both sides of the door type cement pole tower. We used WorkBench to analyze the new composite crossarm node in the middle phase of the 220 kV portal cement tower, and obtained the stress distribution of each component. The analysis results show that the design of "flange butt type" node is reasonable and satisfy the stress requirements. Finally, we designed the electrical simulation and experiment for the "flange docking type" node and grading ring. The experimental results show that the mechanical and electrical performance of the "flange butt joint" node is stable and can meet the requirements of the engineering.

Key words: composite crossarm, portal cement tower, new node design, numerical simulation

中图分类号:

TB332

张文锋, 曹明阳, 李志伟, 张江鹏. 门型水泥杆塔中相复合横担新型节点设计研究[J]. 玻璃钢/复合材料, 2019, 0(9): 93-99.

ZHANG Wen-feng, CAO Ming-yang, LI Zhi-wei, ZHANG Jiang-peng. STUDY ON THE DESIGN OF A NEW TYPE OF COMPOSITE CROSSARM NODE IN THE MIDDLE PHASE OF A PORTAL CEMENT TOWER[J]. Fiber Reinforced Plastics/Composites, 2019, 0(9): 93-99.

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