塔机多体系统动力学分析及有效载荷摆动控制

Kun Li, Man-shing Liu, Zuqing Yu, P. Lan, N. Lu
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引用次数: 6

摘要

本文提出了一种考虑塔机振动的有效载荷摆动控制方法。现有塔机减振研究忽略了结构振动与有效载荷摆动之间的耦合关系。吊索长度的变化被认为是扰动。它们使现有的摆振抑制方法在实际工作中失效。与此相反,本文考虑了塔式起重机的结构振动。同时,将吊带长度作为控制变量,减小载荷摆幅。结合相平面分析法,提出了一种新的摆振抑制算法。建立了考虑吊索长度变化的塔机多体系统动力学分析平台,验证了算法的有效性。塔机塔身和臂架采用传统的有限元方法进行建模,吊索采用任意拉格朗日欧拉绝对节点坐标法(ALE-ANCF)索单元进行建模。这两部分通过滑动接头连接,得到塔机多体系统模型。数值算例表明,在考虑结构振动与载荷摆幅耦合的情况下,该方法能有效地减小载荷摆幅。
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Multibody system dynamic analysis and payload swing control of tower crane
A new payload swing control method considering the vibration of tower crane is proposed in this study. The coupling between the structural vibration and the payload swing is neglected in existing studies on tower crane swing suppression. Changes of sling length are considered as disturbances. They cause the existing methods of swing suppression method ineffectual in the actual working situation. In contrast, the structural vibration of the tower crane is taken into account in this study. At the same time, the sling length is regarded as a control variable to reduce the payload swing. A new swing suppression algorithm is proposed in conjunction with phase plane analysis method. In addition, a systematical tower crane multibody system dynamic analysis platform with changing of sling length is established to verify the effectiveness of the algorithm. The traditional finite element method is used to model the tower body and boom of tower crane while the Arbitrary Lagrange Euler Absolute Nodal Coordinate Formulation (ALE-ANCF) cable element is applied for modeling the sling. This two parts are connected with sliding joint obtaining the tower crane multibody system model. Numerical examples show that the proposed method can reduce the swing amplitude the payload effectively when considering the coupling between the structural vibration and the payload swing.
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来源期刊
CiteScore
4.10
自引率
11.10%
发文量
38
审稿时长
>12 weeks
期刊介绍: The Journal of Multi-body Dynamics is a multi-disciplinary forum covering all aspects of mechanical design and dynamic analysis of multi-body systems. It is essential reading for academic and industrial research and development departments active in the mechanical design, monitoring and dynamic analysis of multi-body systems.
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