Projected Timeline
Week
|
||||||||||
Task
|
1
|
2
|
3
|
4
|
5
|
6
|
7
|
8
|
9
|
10
|
Literature study
|
x
|
x
|
x
|
x
|
||||||
Mechanical design
|
x
|
x
|
x
|
x
|
x
|
|||||
Machine Shop/Assembly
|
x
|
x
|
x
|
x
|
x
|
|||||
Testing
|
x
|
x
|
x
|
x
|
x
|
|||||
Final report preparation
|
x
|
x
|
x
|
Week 1:
- Determine what our design project will be
- Patent search plausible designs
- Research topics related to design
Week 2:
- Research topics related to design
- Sketch possible designs
- Start to model designs in Autodesk Inventor
Week 3:
- Conduct more in depth research about more specific design topics
- Work on CAD models of the mask
- Develop a budget and list of needed parts
Week 4:
- Continue researching about related topics
- Finish up rough CAD models
- Order parts needed
- Present design proposal in class
Week 5:
- Refine CAD work, add any extra components
- Order more parts and start assembly
- Start running tests
- Model parts that may need to be 3D printed
Week 6:
- Have final rendered CAD file
- Assemble and modify emergency mask
- Perform more suitable tests
Week 7:
- Continue assembling and modifying as parts arrive
- Continue testing
- submit any models that may need 3D printing
Week 8:
- Finish all assembly and modification of the emergency mask
- Have most test finished and most data collected
- Start final report presentation
Week 9:
- Finalize all tests and all data
- Continue working on presentation
Week 10:
- Finish presentation
- Present the final product in class
Budget
Category
|
Projected Cost
|
Gas Mask
|
$57
|
Single Gas Mask Filter
|
$12
|
1ft Macroline
|
$6
|
48/4500 Carbon Fiber Air Tank
|
$109
|
TOTAL
|
$184
|
**In addition to the following, 3D prints of an adapter to allow the thread of the air tank to fit into the 40mm threads of the mask will be made as well as a 3D printed or possibly machined demand valve.
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