Investigation of Soft Impacts in Elements of Pipe Robots

IF 0.6 4区 工程技术 Q4 MECHANICS Mechanika Pub Date : 2022-10-21 DOI:10.5755/j02.mech.29342
K. Ragulskis, B. Spruogis, M. Bogdevičius, A. Matuliauskas, V. Mištinas, L. Ragulskis
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Abstract

Vibrators with deformable impact support under harmonic excitation are especially useful in the case when their stationary regimes of motion are stable. This is useful in practice by applying those vibrators to single direction manipulators and various robots of space type. For practical application it is necessary to reveal dynamical qualities of the system from where it would be possible to determine optimal regimes. For this purpose investigations of dynamics of the system by numerical methods were performed. Investigation of dynamics of impact interactions in elements of robots is an important engineering problem. Dynamics of soft impacts in elements of manipulators and robots is investigated. The model of the investigated system is described. Numerical investigations for various parameters of the system are performed. Free and forced vibrations are investigated. From the presented results it can be noted that for the smaller values of the coefficient of stiffness of the support period of steady state motion coincides with the period of the exciting force, while for the higher values of the coefficient of stiffness of the support period of steady state motion is equal to two periods of the exciting force. Thus it is concluded that with the increase of the coefficient of stiffness of the support behavior of the investigated vibro impact system with soft impacts experiences essential changes. Main characteristics of steady state motion as functions of frequency of excitation are investigated. From the presented results the minimum and maximum inter impact intervals as functions of frequency of excitation, minimum and maximum velocities before impact as functions of frequency of excitation, minimum and maximum minimum displacements in inter impact intervals as functions of frequency of excitation are seen. Three resonant zones of expected single valued motions are observed in the presented results. They correspond to optimal regions of operation of the vibro impact system with soft impacts. Results of the performed analysis of dynamic interactions with soft impacts in the elements of manipulators and robots are used in the process of design of pipe robots of advanced type.
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管道机器人元件的软碰撞研究
谐波激励下具有可变形冲击支撑的振动器在其静止运动状态稳定的情况下尤其有用。通过将这些可控震源应用于单向机械手和各种空间型机器人,这在实践中是有用的。对于实际应用,有必要揭示系统的动力学性质,从中可以确定最佳状态。为此,通过数值方法对系统的动力学进行了研究。机器人元件碰撞相互作用的动力学研究是一个重要的工程问题。研究了机械手和机器人元件的软碰撞动力学。描述了所研究系统的模型。对系统的各种参数进行了数值研究。研究了自由振动和强迫振动。从给出的结果可以看出,对于较小的稳态运动支撑周期的刚度系数值,与激振力的周期一致,而对于较高的稳态运动支持周期的刚性系数值,等于激振力两个周期。因此,随着刚度系数的增加,所研究的具有软冲击的振动冲击系统的支撑性能发生了本质变化。研究了稳态运动作为激励频率函数的主要特性。从给出的结果可以看出,最小和最大相互冲击间隔是激励频率的函数,冲击前的最小和最大速度是激励频率函数,相互冲击间隔中的最小和最小位移是激励频率函函数。在给出的结果中观察到了预期单值运动的三个共振区。它们对应于具有软冲击的振动冲击系统的最佳操作区域。对机械手和机器人元件中具有软冲击的动态相互作用进行分析的结果被用于高级管道机器人的设计过程中。
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来源期刊
Mechanika
Mechanika 物理-力学
CiteScore
1.30
自引率
0.00%
发文量
50
审稿时长
3 months
期刊介绍: The journal is publishing scientific papers dealing with the following problems: Mechanics of Solid Bodies; Mechanics of Fluids and Gases; Dynamics of Mechanical Systems; Design and Optimization of Mechanical Systems; Mechanical Technologies.
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