| A | B | C | D | |
|---|---|---|---|---|
1 | note: sample template is executed on the CNC Torch Table | |||
2 | Phase 0 - Background | Protocol | Link to Work Product | Collaborators |
3 | Machine Infographic | http://opensourceecology.dozuki.com/c/Infographic | ||
4 | OSE Specifiations | http://opensourceecology.org/wiki/OSE_Specifications_for_Product_Design | ||
5 | Documentation Standards | |||
6 | Analysis of Industry Standards | |||
7 | Product Ecology | http://opensourceecology.org/wiki/Product_Ecologies | http://opensourceecology.org/wiki/File:9b-Customfabecology.png | |
8 | Modules (Module Breakdown) | http://opensourceecology.dozuki.com/c/CNC_Circuit_Mill_Modules | ||
9 | Torch Height Controller | http://opensourceecology.org/wiki/Module_-_Torch_Height_Controller | ||
10 | Gas Delivery | http://opensourceecology.org/wiki/Chris_Bassett_Log | ||
11 | Stepper Pinion + Rack | |||
12 | Interfaces | |||
13 | General Development Method | |||
14 | Development Approach and Path | http://opensourceecology.org/wiki/Development_Approach | http://opensourceecology.org/wiki/CoolRAMPS | |
15 | Phase 1 - Concept | |||
16 | Dashboard | |||
17 | Specifications | |||
18 | Physics of How it Works | |||
19 | Design Rationale | http://opensourceecology.org/wiki/Design_Rationale | ||
20 | Initial Component Choices | |||
21 | Module Concept | |||
22 | Interface Concept | |||
23 | Module Infographic | http://opensourceecology.dozuki.com/c/Infographic | ||
24 | Concept Video | http://opensourceecology.org/wiki/Concept_Video | ||
25 | Concept Animation | |||
26 | Phase 2 - Basic Design | |||
27 | basic calculations | http://opensourceecology.org/wiki/Basic_Calculations | ||
28 | Basic Structure | Needs Sketchup from Solidworks here | ||
29 | Motion Analysis | Upload sketch up drawing | ||
30 | Geometry | |||
31 | Fasterners/Bolt Pattern | |||
32 | Functional Diagram | |||
33 | Logic Diagram | |||
34 | Phase 3 - QA Basic Design | |||
35 | design for disassembly review | |||
36 | modularity review | |||
37 | design for fabrication review | |||
38 | product ecology review | |||
39 | minimize parts and optimize size/fit | |||
40 | minimize cost by part substitution | http://opensourceecology.org/wiki/Minimize_Cost | ||
41 | Phase 4 - Complex Build Design | |||
42 | Hydraulics | |||
43 | Controls | |||
44 | Electronics | |||
45 | Software | |||
46 | Firmware | |||
47 | Fasterners/Bolt Pattern | |||
48 | Complex Build Design | |||
49 | Phase 5 - QA Complex Build Design | |||
50 | review parts fit including after motion | |||
51 | review sizing calculations | |||
52 | Phase 6 - Rapid Prototyping - Iterative with Phase 4 | |||
53 | 3D Printing File Generation | |||
54 | 3D Printing of Scale Model | |||
55 | 3D Model Assembly | |||
56 | Generate Instructional Video from 3D Model | |||
57 | 3D Model QA | |||
58 | 2D File Generation for Laser Cutting | |||
59 | Laser cut of Models and Scale Model Build | |||
60 | Phase 7 - Build Preparations | |||
61 | Exploded Part Diagram | |||
62 | Bill of Materials | http://opensourceecology.org/wiki/How_to_Make_a_BOM | ||
63 | Phoenix Assembly Method | http://opensourceecology.org/wiki/Phoenix_Assembly_Method | ||
64 | IKEA-Style Fabrication Diagrams | |||
65 | Step by Step Workflow and Role Division | |||
66 | Workshop Diagram | |||
67 | Tools & Consumables Preparation | |||
68 | Phase 8 - Build | |||
69 | Personnel Task Allocation and Workflow | |||
70 | Test/Collect Data | |||
71 | Prototype Assessment | |||
72 | Redeisgn if Needed | |||
73 | Correct Fabrication Instructions | |||
74 | Document Proven (tested) Specifications | |||
75 | Accept Design | |||
76 | Phase 9 - Testing and Data Collection | |||
77 | Testing Protocol | http://opensourceecology.org/wiki/Testing_Protocol | ||
78 | Prototype Assessment | http://opensourceecology.org/wiki/Prototype_Assessment | ||
79 | Resulting Specifications | |||
80 |