Problem Statement
This section willfocus will focus on the design and construction of the manipulator, which should lower, open, and grab an object, then rotate and place the object on a drop-off surface 90 degrees relative to the pick-up surface. Ideally, the end effector should be perfectly synchronized with the rotating linkage system, opening as the linkage system expands and closing as the linkage system contracts. For reference purposes, a diagram of the linkage system, end effector system, and its various components are provided below.
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An ideal mechanism path would achieve perfect linear motion of the output point as the linkage system reaches 90 degrees and 0 degrees relative to the ground, allowing for the isolation of the grabber mechanism movement relative to the rotational component of the overall system. This ideal linkage system input path is demonstrated in the curved slot and full linkage system below.
Ideal Linkage System Input Link Path Animations
The force profile/mechanical advantage of the end effector should ideally peak at the maximum close position to maintain adequate contact with the object being picked up. The plot below demonstrates a possible ideal plot of mechanical advantage, with a peak mechanical advantage at small linear displacements (indicating a closed configuration for iteration one). For future iterations, a better alternative would be to design a system that achieves a mechanical advantage that approaches infinity as the linear displacement decreases.
Ideal Mechanical Advantage Plot for Iteration One Type End Effectors
Mobility Analysis
Positonal Mobility Calculations for Linkage-End Effector System
Positional Analysis
We chose to focus on the kinematic/position analysis for the overall linkage system because its motion determines the opening/closing/position of the end effector and the rotation/displacement of the package volume.
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First Iteration Mechanical Advantage Plot Second Iteration Mechanical Advantage
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Having received some feedback from both the TAs and our own analyses we conducted, we recognize that we have a long way to go in terms of design iteration. Since we now have a better understanding of how to approach the end effector especially, those force graphs need to be optimized using the methods mentioned in the mechanical advantage analysis section (i.e. stacking levers, shifting the slot path position). The linkage system also needs a redeisgn redesign of the slotted paths, incorporated incorporating a variables variable radii curve instead of sharp transitions from curved paths to linear paths. Design is projected to be done by the end of this weekend (before 11/13), at which point we can begin iterating on the final product using the 2-3 weeks we have left before the final demo day.
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