Mechanical Engineering / Makina Mühendisliği
Permanent URI for this collectionhttps://hdl.handle.net/11147/4129
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Conference Object 3-rrs Paralel Manipülatörün Dinamik Analizi(Makina Teorisi Derneği, 2017) Tetik, Halil; Kiper, GökhanBu çalışmada, İzmir Yüksek Teknoloji Enstitüsü Rasim Alizade Mekatronik Laboratuvarında bulunan, 3-RRS kinematik zincir yapısına sahip 3 serbestlik dereceli bir paralel manipülatörün dinamik analizi sunulmuştur. Öncelikle ters ve düz konum, hız ve ivme denklemleri verilmiş, ardından bu denklemler kullanılarak oluşturulan ters dinamik model denklemleri sunulmuştur. Ters dinamik analiz virtüel iş prensibi ve Lagrange yöntemleri kullanılarak yapılmıştır ve sonuçlar birbirleri ile karşılaştırılarak doğrulama yapılmıştır. Analitik formülasyonların sonuçları ayrıca SimMechanics® benzetimi oluşturularak doğrulanmış ve benzetim çıktıları sunulmuştur.Conference Object Citation - WoS: 6Citation - Scopus: 3A Geometrical Approach for the Singularity Analysis of a 3-Rrs Parallel Manipulator(Springer Verlag, 2018) Tetik, Halil; Kiper, GökhanIdentifying singularity manifolds of parallel manipulators analytically is a hard task due to their complex kinematics and passive joints. This study proposes to use the geometrical conditions of singularities in order to identify the singularity manifolds for a 3-RRS parallel manipulator. The singularity surfaces for both inverse and forward kinematics singularities are obtained and plotted.Conference Object Citation - WoS: 2Citation - Scopus: 5Computing the SafeWorking Zone of a 3-RRS Parallel Manipulator(Springer Verlag, 2017) Patel, Dhruvesh; Kalla, Rohit; Tetik, Halil; Kiper, Gokhan; Bandyopadhyay, SandipanDetermination of the safe working zone (SWZ) of a parallel manipulator is a one-time computational task with several permanent benefits. As this sub-space of the workspace of the manipulator is free of both the loss- and gain-type singularities, link interference, as well as physical joint limits, the manipulator can move freely in this space. Moreover, if the natural choice of a convex-shaped SWZ is adhered to, then point-to-point path planning inside the SWZ always has a trivial solution, namely, a segment joining the two points, which is guaranteed to be inside the workspace. In this paper, the SWZ of the 3-RRS existing in the Izmir Institute of Technology has been computed. Starting with the geometry of the manipulator, the loop-closure constraint equations have been derived. The singularity conditions are obtained based on the singularity of certain Jacobian matrices associated with the constraint functions. The interference between the links are detected by first encapsulating the links in rectangular parallelepipeds, which are then discretized into triangles, and subjected to collision tests between the relevant pairs of triangles. Using these theoretical developments, the SWZ is computed. The numerical results are depicted graphically.