388 research outputs found

    Effective backward kinematics for a 6r painting robot

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    The paper discusses a geometrical solution to perform the path analysis for an industrial 6R serial robot; the proposed solution represents, for the particular manipulator, an alternative to the general efficient numerical methods. The solution is conceived on the basis of a mechanism geometric decomposition, to calculate an input-output trigonometric equation in the last wrist angular joint co-ordinate. The roots are numerically singled out. By the found roots, representing the last wrist co-ordinates, all the joint sets (up to sixteen), solving the displacement analysis, are analytically worked out. The algorithm has been conceived and written to control an industrial painting robot; it has been tested and applied in production, with a worst-case running time amounting to eight milliseconds

    The Robotic Swarm Concept in Fixtures for Transport Industry

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    The paper faces the problem of improving the flexibility of the manufacturing plant by rising the level of reconfigurability and the intelligence of pen-robotics. In particular the results obtained within the SwarmItFIX research project are presented. They refer to the concept and realization of robotic swarm fixturing for the support of airplane and automotive body panels during their manufacturing

    A robotic system for underwater eco-sustainable wire-cutting

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    The paper deals with the design and development of a diamond wire cutting system used as end-effector of an underwater robot for removal of offshore constructions. This system fulfills the sea-bottom reclamation duties required by the environmental protection acts related to dismissing of off-shore oil plants. The research results have been achieved through extensive interaction between academia and industry, which have solved jointly scientific, technological, economic and social issues along the challenging track to eco-consistency. The, study brings forth: - the analysis of cutting using a diamond wire saw to accomplish the conceptual design of the system; - the wire micro analysis to select a suitable wire configuration. The topics are summarized highlighting the design steps, including preliminary life-cycle assessments accomplished by joining virtual reality tests and trials on an experimental bench. The robotic system has been realized and it is working satisfactory in the North Sea

    Equilibrium analysis of multi-limbs walking and climbing robots

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    The paper discusses the complex problem of assessing online the static equilibrium of statically-indeterminate climbing and walking robots (CLAWARs) with quasi-static locomotion. The method proposed is general and works for whatever number of legs and ropes operated by actuated winches connecting the robot to the environment. The configuration of the robot is assigned. First, the compliance of the robot body, of the legs and the compliances of the ground and the ropes are modeled as localized elasticities. The static equilibrium problem of the resulting model is statically-determinate under the hypothesis that the foot and rope points (where the ropes are fixed to the robot body) are joined to the ground by bilateral constraints. Since these constraints are unilateral (the feet are contact points and can detach from the ground, and the ropes can become slack), it is necessary to apply an iterative solving procedure in order to solve the static equilibrium problem. The method presented in the paper is a fast and effective alternative to nonlinear analysis of a finite element model of the robot at any assigned configuration. As an example, we consider the case of the heavy-duty CLAWAR Roboclimber
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