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Integrate tipping bars to current motor mounts
Find dimensions for tipping bars and consider the propellers
Figure out the plate that will provide support to the 4 legs on the bottom
The length for the legs is not a constraint
Look at excel file for cycle capacity for each leg length
Author: Camilo Artigas Alos Date:
Revision #1
My focus with this revision was to keep it parametric and easy to modify. This is because a lot of the parameters needed have not been determined so far (angle of landing gear, length of cf tubes, etc…)
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Within this assembly, the angle of the landing gear and the length of the carbon tube can easily be modified within the text file in PDM. I’ve tried it many times and it’s worked so I apologize in advance if you’re greeted with a lot of errors if you try to do so.
For this model I chose an angle of 20 deg and I did not change the length of the cf tubes. I also made a copy of Pegasus' assembly to see how this design would look on the drone.
This leads me right into the support plate. I decided to not design the actual plate, but rather how I thought it should be mounted. This is because the size of the payload is currently being determined by Conall Kingshott. Within this design I implemented heat inserts into the bottom part of the landing gear, which I think would be a viable option if the plate also went around the cf tubes.
Disclaimer: The support plate has a lot of sketchy in-context relations within the assembly and is not parametric as the rest of the design, so suppress its assembly if you’re going to play with the parameters.
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I also have decided to integrate the tipping bars when I have feedback with this revision, this way I will be able to do so efficiently.
Next steps are of course to get feedback, but also settle on the parameters, evaluate the way to attach the support plate to the drone and start printing.