设计参数对材料传递引起的接触联锁的影响

M. Reichart, A.R. Neuhaus, C. Schrank, S. Ilincic, G. Vorlaufer
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引用次数: 2

摘要

触点,切换直流负载,可以产生材料传递pip和火山口形成,这可能导致非打开故障,由于联锁。接触系统的设计参数对材料传递的形成和在明显的材料传递时打开触点的能力都有影响。由于这两种现象的解耦不能在实验研究中进行,因此在不改变材料传递形成的情况下改变设计参数通常是不可能的。因此,设计了一个类似于量产继电器的触点系统的有限元模型,该模型在触点上具有简单的预定材料传递。通过模拟动态开启过程,计算相关物理量(如分离力),研究了某些设计参数对开启能力的影响。计算表明,打开接触系统所需的力与某些设计参数有本质的依赖关系。虽然对于实际的开关来说,广泛散射的材料传输形成和开断能力之间没有可预测的相互依赖关系,但如果假设材料传输,计算可以帮助优化定义良好的开关柜设计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The influence of design parameters on contact interlocking caused by material transfer
Contacts, switching DC loads, can create material transfer pip and crater formations which may cause non opening faults due to interlocking. Both, the material transfer formation and the capability to open the contacts at pronounced material transfer, are affected by the design parameters of the contact system. Since the decoupling of these two phenomena cannot be carried out in experimental investigations, a variation of design parameters without a changed material transfer formation is generally not possible. Therefore a finite element model of a contact system, similar to a mass-produced relay, with simple predetermined material transfer on the contacts was designed. By simulating the dynamic opening process and calculating relevant physical quantities (e.g. the separation force) the influence of certain design parameters on the opening capability was investigated. The calculations showed essential dependencies of the required force to open the contact system on certain design parameters. Although for real switches there is not a predictable interdependence between the widely scattering material transfer formation and the opening capability, the calculation can assist to optimize a well-defined switchgear design if material transfer is assumed.
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