Keg tap
From DDL Wiki
(Difference between revisions)
(→Failure Modes and Effects Analysis (FMEA)) |
(→Keg Tap Components) |
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Line 36: | Line 36: | ||
| 1 | | 1 | ||
| Grip for pumping | | Grip for pumping | ||
- | | | + | | Plastic |
| -- | | -- | ||
| [[Image:Kegtap_BlackBall.jpg|center]] | | [[Image:Kegtap_BlackBall.jpg|center]] | ||
Line 45: | Line 45: | ||
| 4.3 | | 4.3 | ||
| Forces air into casing | | Forces air into casing | ||
- | | | + | | Stainless Steel |
| -- | | -- | ||
| -- | | -- | ||
Line 63: | Line 63: | ||
| 0.05 | | 0.05 | ||
| Seal | | Seal | ||
- | | | + | | Rubber |
| -- | | -- | ||
| [[Image:Kegtap_ORing3.jpg|center]] | | [[Image:Kegtap_ORing3.jpg|center]] | ||
Line 73: | Line 73: | ||
| 6.3 | | 6.3 | ||
| Pressure for pumping | | Pressure for pumping | ||
- | | | + | | Stainless Steel |
| -- | | -- | ||
| [[Image:Kegtap_CylindricalPlungerCasing.jpg]] | | [[Image:Kegtap_CylindricalPlungerCasing.jpg]] | ||
Line 82: | Line 82: | ||
| 1.7 | | 1.7 | ||
| Encloses plunger in casing | | Encloses plunger in casing | ||
- | | | + | | Stainless Steel |
| -- | | -- | ||
| [[Image:Kegtap_CylindricalTop.jpg|center]] | | [[Image:Kegtap_CylindricalTop.jpg|center]] | ||
Line 109: | Line 109: | ||
| 0.05 | | 0.05 | ||
| Seal | | Seal | ||
- | | | + | | Rubber |
| -- | | -- | ||
| [[Image:Kegtap_ORing3.jpg|center]] | | [[Image:Kegtap_ORing3.jpg|center]] |
Revision as of 12:08, 20 September 2009
Contents |
Executive Summary
- Describes key findings and recommendations
Major Stakeholders and Product Needs
- Identify major post-production stakeholders and list major product needs for each
Usage
- Document in detail how the product is used, step by step, and summarize findings from your user studies.
Bill of Materials
- Also identify standard purchase parts.
Keg Tap Components
Assembly Diagrams
- Include pictures of the assembly with all components labeled
Mechanical Function
- Document how the system functions mechanically
Design for Manufacturing and Assembly (DFMA)
- Highlight findings and opportunities for improvement, indentifying where our competitor has followed guidelines and made good choices.
- In particular, are there opportunities to improve manufacturability and make a competing product cheaper? Identify where material and process choices are appropriate or inappropriate for expected production volume.
Failure Modes and Effects Analysis (FMEA)
- Highlight findings and opportunities for improvement, indentifying where our competitor has followed guidelines and made good choices.
- In particular, are there important failure modes that should be considered in a redesign or a new design? Focus on use phase, rather than manufacturing.
Part # | Item | Function | Failure Mode | Effects of Failure | S | Cause of Failure | O | Design Controls | D | RPN | Recommended Actions |
---|---|---|---|---|---|---|---|---|---|---|---|
1 | Black Ball | Grip for Pumping | *Could be Unscrewed and Lost | Uncomfortable Pumping | Unaware Users | cell 8 | cell 9 | cell 10 | cell 11 | ||
2 | Plunger | Forces Air into Keg | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
3 | Plunger Ring | Air Tight | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
3.1 | O-Ring | Seal | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
4 | Cylindrical Plunger Casing | Supply Keg with Pressure | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
5 | Cylindrical Top | Encloses Plunger in Casing | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
6 | Spring | Prevents Plunger from Getting Stuck | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
7 | Center Cylinder | Separates Air Input from Beer Output | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
7.1 | O-Ring | Seal | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
8 | Lever | Attaches Tap and Keg | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
8.1 | Plastic Casing | cell 2 | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
8.2 | White Cap | cell 2 | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
8.3 | Spring | cell 2 | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
8.4 | Center Rod | cell 2 | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
8.5 | Nut | cell 2 | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
8.6 | Washer | cell 2 | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
9 | Lever Pin | cell 2 | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
10 | Base | Attaches to Keg | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
10.1 | O-Ring | Seal | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
11 | Hose | Transfers Beer from Tap to Cup/Mouth | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
12 | Nozzle | Releases Beer from Hose | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
12.1 | Handle | cell 2 | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
12.2 | White Plastic Center | cell 2 | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
12.3 | Spring | cell 2 | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
12.4 | Cap Seal | cell 2 | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11 | ||
12.5 | Hard Plastic Cap | cell 2 | cell 3 | cell 4 | cell 6 | cell 8 | cell 9 | cell 10 | cell 11
|
Design for Environment (DFE)
- Highlight findings and opportunities for improvement, indentifying where our competitor has followed guidelines and made good choices.
- In particular, if Congress were to pass a tax on CO2, would this have a significant impact on the cost of production or use of the product?
Mechanical Analysis
- Include mechanical analysis to support quantitative understanding of the product's most critical mechanical aspects. Indluce a free body diagram, and be sure to define all symbols and explain all equations used.
Team Member Roles
- Identify team member roles during this phase and summarize your process. Submit individual peer evaluations to Prof.