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== Common Problems and Solutions== | |||
Most of our issues were with friction, so that is the reason we could not add more than on planetary gear sets. | |||
== Cost savings== | == Cost savings== | ||
With it still being in the development phase, and for 50 USD you will get one. Printing this cost upwards of 10 dollars and some parts found in the IEEE lab. | |||
Revision as of 14:47, 8 December 2016
OSAT 3D Printed Gravity Light
Project developed by Josh Mucinski and John Risch
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Abstract
- Paragraph description of the OSAT - why is it Appropriate? What need does it fulfil? Are there case studies you have found of a technology being used successfully?
History of the Project
So the project was taken from Gravity Light, and the goal was to turn this product in to a 3D printable product. The project seems so simple but was very hard to get working. We first started off gather some initial data, and it seem like we were going to need a gear reduction of 1:500 which is a crazy amount.
So we started off with a small Planetary hand crank light, following the directions and scaling the part by 150% and upping the infill. We had some small success, but ultimately it failed due to high stress in the gears.
So we then moved to another larger sized planetary gears. At this stage this is our working model, but still has a long way to go. So this prototype is a proof of concept, gravity light.
Bill of Materials
From 3d Printed Gears
1x Front 1x Ring 1x Carrier 3x Planets 3x Washers 1x Custom Shaft 1x Bottom Servo Holder 1x Top Servo Holder
Common Problems and Solutions
Most of our issues were with friction, so that is the reason we could not add more than on planetary gear sets.
Cost savings
With it still being in the development phase, and for 50 USD you will get one. Printing this cost upwards of 10 dollars and some parts found in the IEEE lab..
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