3D Printed Axial Compressor is On a Mission to Inflate Balloons

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[Letā€™s Print] has been fascinated with creating a 3D printed axial compressor that can do meaningful work, and his latest iteration mixes FDM and SLA printed parts to successfully inflate (and pop) a latex glove, so thatā€™s progress!

Originally, the unit couldnā€™t manage even that until he modified the number and type of fan blades on the compressor stages. There were other design challenges as well. For example, one regular issue was a coupling between the motor and the rest of the unit breaking repeatedly. At the speeds the compressor runs at, weak points tend to surface fairly quickly. Thatā€™s not stopping [Letā€™s Print], however. He plans to explore other compressor designs in his quest for an effective unit.

Attaching motor shafts to 3D printed devices can be tricky, and in the past weā€™ve seen a clever solution that is worth keeping in mind: half of a spider coupling (or jaw coupling) can be an economical and effective way to attach 3D printed things to a shaft.

While blowing up a regular party balloon is still asking too much of [Letā€™s Print]ā€™s compressor as it stands, it certainly inflates (and pops) a latex glove like nobodyā€™s business.



from Blog ā€“ Hackaday https://ift.tt/SC7ivPJ

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