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Constraints | Written By | Append Date |
|---|---|---|
Should be made from light material (e.g., PLA (plastic), wooden dowels) | Oct 6, 2024 | |
Easy to assemble together | Oct 6, 2024 | |
Avoid fillet for 3D printing because of time consumption | Oct 6, 2024 | |
For 3D printing, the printer bed print size is 256 mm x 256 mm x 256 mm | Oct 6, 2024 |
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The frame will be adjusted to the dimensions of the new airframe once it has been redesigned.
Once the frame gets redesigned it will split into multiple parts to be 3D printed.
The panels will be modeled once the final airframe is settled upon.
Author:Victor Sun Date:
Due to fuselage redesign to account for new motor mount and empennage, the frame needed to be redesigned to accommodate. Each frame section is 4mm by 4mm thick and are separate to allow for separate 3D printing of each section.
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Frame pieces interlock with eachother using peg and hole design.
Peg is 2mm by 2mm.
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Hole is 2mm by 2mm (some tolerance may be added)
Complete:
Frame surrounding motor mount.
When printing, will mirror side pieces to get right side frame.
Frames on top and bottom of fuselage running from motor mount to taper point of empennage.
Needs to be done:
Frame tapering off to tail (restraints due to confusing empennage and fuselage intersecting, see below).
Highlighted area is where the fuselage is too tight with the empennage, fuselage panels will be 4mm thick and cannot accommodate these gaps.
Vertical beams along side of fuselage to provide structural stability (restrains due to more intersecting of fuselage and main assembly, see below).
Highlighted area is where the base plates are intersecting with the fuselage, making placement of vertical pillars difficult. Vertical sections can be placed before and after these plates but I am currently unsure if these intersections are intentional or not.