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To ease fabrication, given the materials and fabrication methods available, the initial CAD model was modified as shown in Fig. 1.


Fig. 1: CAD for BottleBot




Fabrication of Links

The links, guide arm and carriage were additively manufactured (with Fused Deposition Modelling - FDM). This greatly simplified the task of fabricating the complex geometry of the guide arms in addition to reducing machining time required. PLA  was the fabrication material of choice as it is less susceptible to warping compared to other materials available for fabricating with FDM (e.g. ABS - see failed build with ABS in Fig. 2). Also, it provided enough strength and smoothness for the sliding of the rollers on the guide arms. To ensure holes were dimensionally accurate and properly-aligned, they were undersized in the CAD models and then drilled to the right sizes on a milling machine after printing.

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The driver and driven gears transmitting motion from the motor were also fabricated with FDM. The gears were designed on geargenerator.com  and exported to STL format for printing. Dimensions were chosen to amplify the motor's torque output (MA=2.5). 


Fabrication of Bearing Shafts

The bearings shafts were a bit long and needed to be cut down to size to allow for a closer fit of the links. We cut the shafts using the jigsaw in the machine shop and then used the lathe with a file to smooth out the rough cut edges to allow for insertion into the bearings.


Baseplate and Stand

The baseplate was laser-cut out of a sheet of acrylic using a sketch of the baseplate surface from the CAD drawing.

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The final assembly is shown below:


Fig 4. Assembled BottleBot