基于AFCS反馈的直升机悬吊不稳定性耦合线性化模型分析

Rhys M. Lehmann, David Howe
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引用次数: 0

摘要

在CH-47F飞机运载重外部负载的间隙测试中,澳大利亚陆军经历了一次涉及悬停高频分散振荡的事件。为了确定可能的振荡源,进行了建模和仿真。在本文中,一个高阶3自由度的线性CH-47F直升机模型与一个双点结构的外挂载荷线性化模型耦合。这与纵向飞行控制系统的线性化版本相结合,以估计闭环耦合直升机/负载动力学。使用耦合模型对预测的稳定裕度进行分析表明,载荷和闭环动力学之间的相互作用可能在这种配置中发生,低机身总重配置会导致系统的不稳定。耦合线性化模型方法扩展到促进参数研究,允许使用根轨迹技术分析配置参数和索具几何形状对整体稳定性的影响。本文介绍了耦合线性化模型的生成方法和参数化分析方法。它还强调了对外部负载配置进行稳定裕度分析的重要性,特别是对于高负载-质量比和双点配置。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analysis of Helicopter Slung-Load Instabilities with AFCS Feedback using Coupled Linearised Models
During conduct of clearance testing for the carriage of a heavy external load under a CH-47F aircraft, the Australian Army experienced an incident involving high frequency divergent oscillations in hover. Modelling and simulation was conducted in order to identify the likely source of the oscillations. In this paper, a high order 3 degree of freedom linear CH-47F helicopter model is coupled with a linearised model of an externally slung load in the dual point configuration. This is combined with a linearised version of the longitudinal flight control system to estimate the closed loop coupled helicopter/load dynamics. Analysis of predicted stability margins using the coupled model indicated that interactions between the load and the closed loop dynamics were likely in this configuration, with low airframe gross weight configurations contributing to the destabilisation of the system. The coupled linearised model approach is extended to facilitate parametric studies, allowing for analysis of the impact of configuration parameters and rigging geometry on the overall stability using root locus techniques. This paper presents the methods for generating the coupled linearised model and parametric analysis. It also highlights the importance of conducting stability margin analysis for external load configurations, particularly for high load-mass ratios and dual point configurations.
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