Synthesis of Four-Link Initial Kinematic Chains with Spherical Pairs for Spatial Mechanisms
Abdreshova S. Zhauyt A. Alipbayev K. Kosbolov S. Aden A. Orazaliyeva A.
April 2025Multidisciplinary Digital Publishing Institute (MDPI)
Applied Sciences (Switzerland)
2025#15Issue 7
This research addresses the problem of the initial synthesis of kinematic chains with spherical kinematic pairs, which are essential in the design of spatial mechanisms used in robotics, aerospace, and mechanical systems. The goal is to establish the existence of solutions for defining the geometric and motion constraints of these kinematic chains, ensuring that the synthesized mechanism achieves the desired motion with precision. By formulating the synthesis problem in terms of nonlinear algebraic equations derived from the spatial positions and orientations of the links, we analyze the conditions under which a valid solution exists. We explore both analytical and numerical methods to solve these equations, highlighting the significance of parameter selection in determining feasible solutions. Specifically, our approach demonstrates the visualization of fixed points, such as A, B, and C, alongside their spatial differences with respect to reference points and transformation matrices. We detail methods for plotting transformation components, including rotation matrix elements (e, m, and n) and derived products from these matrices, as well as the representation of angular parameters (θi, ψi, and (Formula presented.) i) in a three-dimensional context. The proposed techniques not only facilitate the debugging and analysis of complex kinematic behaviors but also provide a flexible tool for researchers in robotics, computer graphics, and mechanical design. By offering a clear and interactive visualization strategy, this framework enhances the understanding of spatial relationships and transformation dynamics inherent in multi-body systems.
approximation , spatial mechanism , synthesis , transformation , visualization
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Department of Electronic Engineering, Almaty University of Power Engineering and Telecommunications Named after Gumarbek Daukeyev, Almaty, 050013, Kazakhstan
Department of Aerospace Engineering, Almaty University of Power Engineering and Telecommunications Named after Gumarbek Daukeyev, Almaty, 050013, Kazakhstan
Department of Electronic Engineering
Department of Aerospace Engineering
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