基于雙向永磁保持的10 kV直流快速機構(gòu)設(shè)計
王小麗1,楊海鋒2,紀江輝1,汪威1,李燕燕1
(1 許繼集團有限公司,河南 許昌 461000;2 許昌許繼風(fēng)電科技有限公司,河南 許昌 461000)
摘 要:針對現(xiàn)有10 kV直流快速操作機構(gòu)對加工和裝配工藝要求高的問題,提出了一種對工藝要求不高的雙向永磁保持直流快速操作機構(gòu)。建立了電磁斥力機構(gòu)的仿真模型,通過Infolytica磁場仿真確定了斥力線圈參數(shù),得出電工純鐵線圈骨架比環(huán)氧樹脂和聚四氟乙烯材料更有利于降低分閘時間。通過對原理樣機的試驗測試,驗證了仿真優(yōu)化的正確性及雙向永磁保持直流快速操作機構(gòu)的可行性。
關(guān)鍵詞:直流斷路器;直流快速操作機構(gòu);雙向永磁保持;分閘時間;線圈骨架
中圖分類號:TM561 文獻標識碼:A 文章編號:1007-3175(2019)02-0021-04
Design of 10 kV Direct Current Fast Mechanism Based on Bi-Directional Permanent Magnetic Holding
WANG Xiao-li1, YANG Hai-feng2, JI Jiang-hui1, WANG Wei1, LI Yan-yan1
(1 XJ Group Corporation, Xuchang 461000, China; 2 XJ Wind Power Technology Co.,Ltd, Xuchang 461000,China)
Abstract: Aiming at the existing problem that the 10 kV direct current operation mechanism has high requirements on processing and assembly technology, this paper proposed a fast mechanism of two-way permanent magnet maintenance which had low requirements on technology. A simulated model of electromagnetismrepulsionmechanism was established to determine the parameters of the repulsion coilby Infolytica magnetic field simulation, so as to conclude that the electrical pure iron coil framework is more conducive to reducing the opening time than the material of epoxy resin and teflon. The experiment of principled sample machine verifies the correctness of simulating optimization and the feasibility of a fast mechanism of two-way permanent magnet maintenance.
Key words: direct current circuit breaker; direct current high-speed operation mechanism; two-way permanent magnet maintenance; opening time; coil framework
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