《电力自动化设备》

引用本文:	李奎,佟盟,武一,卢志伟,胡博凯,徐子健.磁脱扣器动作响应分析及储能电容匹配设计[J].电力自动化设备,2024,44(1):167-173.
	LI Kui,TONG Meng,WU Yi,LU Zhiwei,HU Bokai,XU Zijian.Tripping response analysis and capacitor matching design of magnetic release[J].Electric Power Automation Equipment,2024,44(1):167-173.

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磁脱扣器动作响应分析及储能电容匹配设计
李奎¹, 佟盟¹, 武一², 卢志伟², 胡博凯¹, 徐子健²
1.河北工业大学河北省电磁场与电器可靠性重点实验室，天津 300401;2.河北工业大学省部共建电工装备可靠性与智能化国家重点实验室，天津 300401

摘要:

驱动电路与磁脱扣器是电磁式漏电保护器的核心组件，磁脱扣器需与储能电容匹配。在电磁式漏电保护器基本工作原理分析的基础上，建立磁脱扣器的数学模型与有限元计算模型，根据激磁安匝变化进行衔铁响应状态分析，仿真不同线圈激励形式下磁脱扣器动作响应状态。研究衔铁角动量与角位移变化特征，根据无激励时衔铁释放临界角动量与角位移关系，确定不同线圈激励形式下的衔铁临界释放条件。研究电容电压激励源下衔铁所受力矩冲量的变化规律，分析电容及其储能对衔铁释放响应状态的影响，根据临界储能最小的原则确定电容匹配，可以降低衔铁可靠释放所需储能。通过对磁脱扣器样机进行实验测试，验证了理论分析与仿真计算的正确性。

关键词: 电磁式漏电保护器磁脱扣器临界释放条件电容电压激励储能电容匹配

DOI：10.16081/j.epae.202302012

分类号:TM561

基金项目:国家自然科学基金资助项目(51977059)；河北省自然科学基金资助项目(E2020202042)

Tripping response analysis and capacitor matching design of magnetic release

LI Kui¹, TONG Meng¹, WU Yi², LU Zhiwei², HU Bokai¹, XU Zijian²

1.Key Laboratory of Electromagnetic Field and Electrical Apparatus Reliability of Hebei Province, Hebei University of Technology, Tianjin 300401, China;2.State Key Laboratory of Reliability and Intelligence of Electrical Equipment, Hebei University of Technology, Tianjin 300401, China

Abstract:

The driving circuit and magnetic release are the core components of electromagnetic residual current device. The magnetic release and energy storage capacitor should be well matched. The mathematical model and finite element calculation model of the magnetic release are established based on the analysis of basic operating principle of the residual current circuit device, the armature response states are analyzed according to the change of the exciting ampere turn, and the action response states of magnetic release under different coil excitation modes are simulated and analyzed. The variation characteristics of armature angular momentum and angular displacement are studied, and the critical release criterion of armature under different coil excitation modes is determined, which is based on the relationship between the critical angular momentum and the angular displacement of the armature without excitation. The variation law of the moment impulse of the armature under the excitation of the capacitor voltage is studied, and the influence of the capacitor and its energy storage on the armature release response states is analyzed. A capacitor matching is determined according to the principle of minimum critical energy storage, which can reduce the energy storage required for reliable release of the armature. The correctness of theoretical analysis and simulation calculation is verified by the experimental test of the magnetic release.

Key words: electromagnetic residual current device magnetic release critical release criterion capacitor voltage excitation matching of energy storage capacitor

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