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Design, optimization, and prototyping of a three translational degree of freedom parallel robot

Jonathan J. Hodgins

Year
2012
Citations
2
Access
Open access

Abstract

This thesis presents an evolutionarily design change for the Delta parallel\nrobot. The proposed design change increases the useful workspace of the robot\nand aids in permanently avoiding singularities in the workspace. This is accomplished by means of a new intermediate link parallel to the 4 bar linkage.\nThe addition of the new link simultaneously increases the total workspace\nvolume and decreases the dexterity without significantly affecting the stiffness.\nThe design is analyzed and the inverse kinematics, Jacobian, sti ness and\ndexterity relations are formulated. The relations are then converted into a form\nthat is usable by MATLAB to calculate di erent workspaces that illustrate the\nadvantages of the new design. Subsequently, an optimization problem is formulated that aims to take advantage of the new attributes to create a balanced\nrobot that further illustrates the benefits of the new design. The results are\nclearly illustrated by comparing plotted sections of workspace from both the\noptimized and unoptimized workspace.\nLastly, the design is developed into a 3D model which is then fabricated into\na working prototype to test and verify functionality.

Keywords

Degree (music)Computer scienceParallel manipulatorRobotEngineeringArtificial intelligencePhysics

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