Analysis of Deformations and Von-Misses Stresses of the Main Shaft System in a Load Break Switch

B&H Electrical Engineering Pub Date : 2021-10-01 DOI:10.2478/bhee-2021-0009

Džanko Hajradinović, S. Santamaria, S. Delić, N. Uzelac, Maroua O Touhami, M. Kapetanović

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Abstract

Abstract This paper presents the study of deformations and Von-Misses stresses of the main shaft system during opening and closing operations of a rotary SF6 load break switch (LBS). The shaft consists of three axially connected parts made of steel where components are on ground potential and of plastic material, which is on high potential. The insulating shaft carries three rotating knife-blade contacts for the three phases. Static deformation of the insulating shaft is calculated by applying a defined torque between the two ends of the shaft. The results allow deducing the dynamic deformation. Maximum values of Von-Misses stresses are located at the geared connection between the plastic and the steel shaft. The rotation of the shaft system is measured synchronously by two optical rotary encoders in the front and rear sides of the LBS. The results confirm the twisting of the shaft system and provide its elastic deformation values. Travel curves obtained on both side of the LBS show different courses with respect to overtravel and rebound. Discrepancies can be explained by the deformation of the main shaft due to the acting forces, whereas manufacturing tolerances resulting in loose have a certain contribution.

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负载开关主轴系统变形及非失效应力分析

摘要:本文研究了SF6型旋转负荷开关(LBS)开合过程中主轴系统的变形和von - miss应力。轴由三个轴向连接的部件组成，其中钢部件为接地电位，塑料部件为高电位。绝缘轴为三相携带三个旋转刀片触点。绝缘轴的静态变形是通过在轴的两端施加一个确定的扭矩来计算的。计算结果可以推导出动态变形。von - miss应力的最大值位于塑料轴和钢轴之间的齿轮连接处。轴系的旋转由LBS前后两侧的两个光学旋转编码器同步测量。结果证实了轴系的扭态，并给出了其弹性变形值。在LBS两侧得到的行程曲线显示出不同的超行程和回弹路线。差异可以用主轴受力引起的变形来解释，而制造公差导致的松动也有一定的贡献。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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B&H Electrical Engineering

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