李承觊,张德远.垂直塔座椅弹射试验永磁涡流制动可行性分析[J].装备环境工程,2021,18(10):58-62. LI Cheng-ji,ZHANG De-yuan.Feasibility Analysis on Permanent Magnet Eddy Current Braking in Ejection Test of Vertical Tower Seat[J].Equipment Environmental Engineering,2021,18(10):58-62. |
垂直塔座椅弹射试验永磁涡流制动可行性分析 |
Feasibility Analysis on Permanent Magnet Eddy Current Braking in Ejection Test of Vertical Tower Seat |
投稿时间:2021-04-13 修订日期:2021-07-25 |
DOI:10.7643/issn.1672-9242.2021.10.010 |
中文关键词: 永磁涡流 缓冲防坠 定点制动 |
英文关键词:permanent magnet eddy current buffer anti-dropping fixed-point braking. |
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中文摘要: |
目的 针对传统垂直塔座椅弹射试验中采用刹车片制动所存在的试验准备时间长、效率低的问题,提出采用永磁涡流制动的方式进行制动。方法 通过理论计算和数值模拟,研究永磁涡流制动在滑车垂直坠落试验中定点缓冲制动的可行性,并在此基础上,优化永磁涡流制动系统中静子板的材料方案。结果 采用永磁涡流制动系统能够满足垂直塔座椅弹射试验对40 m制动距离的要求。结论 优化的静子板的选材方案为:高速制动段采用不锈钢,中速制动段采用铜镍合金,低速制动段采用铝合金。 |
英文摘要: |
In order to solve the problems of long preparation time and low test efficiency caused by using brake pads in the traditional vertical tower seat ejection test, this paper proposes the use of permanent magnet eddy current braking for braking. Through theoretical calculations and numerical simulation, this paper studies the feasibility of fixed-point buffer braking of permanent magnet eddy current braking in the vertical drop test of the pulley, and optimizes the material scheme of the stator plate in the permanent magnet eddy current braking system on this basis. The simulation calculation results show that the permanent magnet eddy current braking system can meet the requirements of the vertical tower seat ejection test for a braking distance of 40 meters. The optimized stator plate material selection scheme is:high-speed braking section uses stainless steel, medium-speed braking section adopts copper-nickel alloy, and aluminum alloy is used in the low-speed braking section. |
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