Difference between revisions of "Gravicase"
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Related links / approximations from looking around the World Wide Web | Related links / approximations from looking around the World Wide Web | ||
Costs: | Costs: | ||
− | *Arduino ~$10- | + | *Arduino (Uno provided, may need a different smaller model but currently are doing our test and design with the uno.) |
− | * | + | *Electronic Solenoid Valve ~ $10-$15 - https://www.amazon.com/4inch-Normally-Closed-Electric-Solenoid/dp/B00ON8XFSO/ref=sr_1_3?ie=UTF8&qid=1506905040&sr=8-3&keywords=solenoid+air+valve |
− | *Arduino Accelerometer | + | *Airbag Material ~ |
− | + | *CO2 Cartridges ~$40 for 100 cartridges: https://www.amazon.com/100-Leland-LE10-soda-chargers/dp/B00U6DDE4U/ref=sr_1_1_sspa?ie=UTF8&qid=1506905958&sr=8-1-spons&keywords=c02+cartridges+8g&psc=1&smid=AWO5MMT7WRHRV | |
+ | *Arduino Accelerometer (GY-521) ~ Provided | ||
http://pneuduino.org/toolkit/ | http://pneuduino.org/toolkit/ | ||
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==Gantt Chart== | ==Gantt Chart== | ||
<gallery> | <gallery> | ||
− | + | GravicaseGanttChartOct1.png | |
</gallery> | </gallery> | ||
Base Order of Events | Base Order of Events |
Revision as of 02:03, 2 October 2017
Project Overview
Have you ever dropped and damaged various expensive and delicate personal electronics, watching in slow motion as it rotated through the air before shattering upon the ground? Don't you wish that there was an inexpensive and efficient way to protect your property from breaking. We want to innovate the field of personal electronics protection with a cheap and reliable alternative to expensive phone/tablet/laptop cases with Gravicase. A case outfitted with a small, portable airbag system which deploys to protect your devices when it senses it is being dropped. With a CO2 powered airbag, and an Arduino powered accelerometer sensing the drop, our project will inflate into action while falling, protecting your personal electronics from absorbing the shock of a drop and protecting you from expensive repair fees or replacements.
Team Members
- Matt Rocco
- Michael Morgan
- Andrew O'Sullivan(TA)
Objective
- To create a case / device that upon being dropped will deploy an airbag / parachute to help protect your valuable electronics from drop (and maybe also water) damage.
Obstacles
- Safety
- Premature detonation of our airbag system (Literally blowing your pants off).
- Cost
- Airbags are expensive and typically designed to only be used once.
- Powering / Triggering
- We plan to run an Arduino off of it, which means we need some sort of external power supply. We also need power to help the device to trigger.
- Size
- Creating a case or device small enough to maintain the shape and convenience of your device without compromising safety.
- Case
- Designing, fitting, and printing or building a case to fit specific electronics so we can maximize protection.
- Building an airbag which will deploy in such a way as to maximize protection but still deploy in time with no snags.
Costs
Related links / approximations from looking around the World Wide Web Costs:
- Arduino (Uno provided, may need a different smaller model but currently are doing our test and design with the uno.)
- Electronic Solenoid Valve ~ $10-$15 - https://www.amazon.com/4inch-Normally-Closed-Electric-Solenoid/dp/B00ON8XFSO/ref=sr_1_3?ie=UTF8&qid=1506905040&sr=8-3&keywords=solenoid+air+valve
- Airbag Material ~
- CO2 Cartridges ~$40 for 100 cartridges: https://www.amazon.com/100-Leland-LE10-soda-chargers/dp/B00U6DDE4U/ref=sr_1_1_sspa?ie=UTF8&qid=1506905958&sr=8-1-spons&keywords=c02+cartridges+8g&psc=1&smid=AWO5MMT7WRHRV
- Arduino Accelerometer (GY-521) ~ Provided
https://www.thingiverse.com/groups/engineering/topic:14448
Gantt Chart
Base Order of Events
- Airbag (also airbag design) working with CO2 canister
- Using Arduino to get the airbag to work
- Building system around working airbag and arduino
- Using Arduino to get the airbag to work