Bike pump
From DDL Wiki
(→Bill of Materials) |
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| 6 || Rubber connection valve tip || 1 || 2 || Creates seal onto bike tube valve || Rubber || | | 6 || Rubber connection valve tip || 1 || 2 || Creates seal onto bike tube valve || Rubber || | ||
|- | |- | ||
| - | | 7 || Air hose holder (double) || 1 || 12 || Holds air hose (#33) to | + | | 7 || Air hose holder (double) || 1 || 12 || Holds air hose (#33) to main tube (#31) during storage || Plastic || |
|- | |- | ||
| 8 || Plastic base support || 1 || 10 || Reduces cantilever stresses on outer arm tube || Plastic || | | 8 || Plastic base support || 1 || 10 || Reduces cantilever stresses on outer arm tube || Plastic || | ||
| Line 70: | Line 70: | ||
| 10 || Readout number dial || 1 || 3 || Provides a quantified tire pressure readout || Aluminum || | | 10 || Readout number dial || 1 || 3 || Provides a quantified tire pressure readout || Aluminum || | ||
|- | |- | ||
| - | | 11 || Readout needle || 1 || < 1 || Displays the quantified tire pressure on (#10) || Aluminum | + | | 11 || Readout needle || 1 || < 1 || Displays the quantified tire pressure on (#10) || Aluminum || |
|- | |- | ||
| - | | 12 | + | | 12 || #13 Rubber seal || 2 || < 1 || Provides seal on bike tube inside the pump stabalizer (#13) || Plastic || |
|- | |- | ||
| - | | 13 | + | | 13 || Pump stabalizer || 1 || 13 || Allows metal rod (#19) to move within the main tube (#31) || Plastic || |
|- | |- | ||
| - | | 14 | + | | 14 || Piston head || 1 || 8 || Acts as a pump to draw in air within the main tube (#31) and then compress the air || Plastic || |
|- | |- | ||
| - | | 15 | + | | 15 || Tube connector || 2 || 4 || Connects hose (#33) to nozzle (#***) and to the metal base (#32) || Plastic || |
|- | |- | ||
| - | | 16 | + | | 16 || Air hose holder (single) || 1 || 2 || Holds air hose (#33) to main tube (#31) during storage || Plastic || |
|- | |- | ||
| - | | 17 | + | | 17 || Handle bar || 1 || 127 || Allows user to apply downward force to draw and compress air in the main tube (#31) || Plastic || |
|- | |- | ||
| - | | 18 | + | | 18 || End cap || 2 || 6 || Provides a covering to the ends of the handle bar || Plastic || |
|- | |- | ||
| - | | 19 | + | | 19 || Metal rod || 1 || 174 || Connects piston head (#14) to the handle bar (#17) || Steel || |
|- | |- | ||
| - | | 20 | + | | 20 || Stopper || 1 || < 1 || *** || Plastic || |
|- | |- | ||
| - | | 21 | + | | 21 || Spring || 1 || < 1 || *** || Steel || |
|- | |- | ||
| - | | 22 | + | | 22 || *** || 1 || < 1 || *** || Rubber || |
|- | |- | ||
| - | | 23 | + | | 23 || Pressure gauge mechanics || 1 || 50 || *** || Copper || |
|- | |- | ||
| - | | 24 | + | | 24 || Small screw || 2 || < 1 || *** || Steel || |
|- | |- | ||
| - | | 25 | + | | 25 || Air flow director || 1 || 49 || *** || Plastic || |
|- | |- | ||
| - | | 26 | + | | 26 || Tube connection to #32 || 1 || 3 || *** || Plastic || |
|- | |- | ||
| - | | 27 | + | | 27 || #28 O-ring || 1 || < 1 || Provides a seal to *** (#28) || Rubber || |
|- | |- | ||
| - | | 28 | + | | 28 || *** || 1 || < 1 || *** || Plastic || |
|- | |- | ||
| - | | 29 | + | | 29 || *** Seal between #25 & #30 || 1 || < 1 || Provides a seal between the air flow director (#25) and *** (#30) || Rubber || |
|- | |- | ||
| - | | 30 | + | | 30 || *** || 1 || 7 || Provides a connection between hose (#33) and air flow director (#25) || Plastic || |
|- | |- | ||
| - | | 31 | + | | 31 || Main tube || 1 || 238 || *** || Steel || |
|- | |- | ||
| - | | 32 | + | | 32 || Metal base || 1 || 540 || *** || Steel || |
|- | |- | ||
| - | | 33 | + | | 33 || Hose || 1 || 83 || *** || Rubber || |
|- | |- | ||
| 34 | | 34 | ||
Revision as of 11:17, 13 September 2012
Contents |
Executive Summary
This will be a brief executive summary that describes the key findings and recommendations.
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Ut elementum elit vel tortor scelerisque auctor. Donec urna dui, eleifend eget adipiscing vulputate, feugiat id nisl. Donec mattis, quam in tincidunt ullamcorper, orci tellus condimentum dui, aliquet faucibus risus nunc et nunc. Vestibulum metus justo, volutpat sed consequat eget, mollis sed neque. Maecenas dignissim hendrerit malesuada. Aliquam dictum gravida orci ut rutrum. Fusce eros lectus, accumsan sed rhoncus eu, tempor sed magna. In ac lacus urna, ut cursus nisl. Curabitur ac dui nisl, in imperdiet orci. Aliquam quam dui, tincidunt quis volutpat quis, convallis a ipsum. Suspendisse quis molestie lorem. Nunc vel magna commodo nunc viverra tempor id blandit neque. Donec nec elementum ligula. Cras accumsan, urna eget dictum varius, arcu nunc porttitor tortor, sit amet feugiat nisl elit vitae elit. Proin eget tellus lectus, tempus tincidunt augue. Sed sagittis iaculis orci, sit amet tempus dui tincidunt in.
Product Stakeholders
This is where we will identify major stakeholders (post-production) and list major product needs for each stakeholder.
Product Use Study
This is where we will document in detail how the product is used, step by step, and summarize findings from our user studies with photo documentation.
Product Mechanical Function
We will include some pretty diagrams and information about the mechanical function of our part.
Assembly
This is where we will have information/photo about the major assembly.
An exploded view of the floor bike pump will be inseted here... with all components labeled.
Sub-Assembly
We may need to include detailed sub-assembly photos and information here.
This is where we will insert exploded views of each internal sub-assembly with labeled components and a brief summary of each sub-assembly function.
Bill of Materials
We will also include a bill of materials for each major sub-assembly, right down to the very last screw. We will include pictures of the assembly with all components labeled.
| Part Number | Name | QTY | Weight (g) | Function | Material | Manufacturing Process | Image |
|---|---|---|---|---|---|---|---|
| 1 | Screw | 5 | 4 | Holds base support (#8) in place to metal base (#32) | Steel | ? | 
|
| 2 | Nut | 5 | 1 | Attaches screws (#1) to metal base (#32) | Steel | ||
| 3 | Rubber readout cover | 1 | 30 | Holds plastic readout cover (#4) in place above pressure gauge mechanics (#23) | Rubber | ||
| 4 | Plastic readout cover | 1 | 12 | Provides clear screen and protection to number dial readout (#10) | Plastic | ||
| 5 | Metal connection valve tip | 1 | 5 | Holds rubber connection valve tip (#6) in place | Aluminum | ||
| 6 | Rubber connection valve tip | 1 | 2 | Creates seal onto bike tube valve | Rubber | ||
| 7 | Air hose holder (double) | 1 | 12 | Holds air hose (#33) to main tube (#31) during storage | Plastic | ||
| 8 | Plastic base support | 1 | 10 | Reduces cantilever stresses on outer arm tube | Plastic | ||
| 9 | #7 O-Ring | 2 | < 1 | Provides necessary friction to hold the double air hose holder(#7) onto outer arm tube (#31) and allow for vertical movement along axis of tube | Rubber | ||
| 10 | Readout number dial | 1 | 3 | Provides a quantified tire pressure readout | Aluminum | ||
| 11 | Readout needle | 1 | < 1 | Displays the quantified tire pressure on (#10) | Aluminum | ||
| 12 | #13 Rubber seal | 2 | < 1 | Provides seal on bike tube inside the pump stabalizer (#13) | Plastic | ||
| 13 | Pump stabalizer | 1 | 13 | Allows metal rod (#19) to move within the main tube (#31) | Plastic | ||
| 14 | Piston head | 1 | 8 | Acts as a pump to draw in air within the main tube (#31) and then compress the air | Plastic | ||
| 15 | Tube connector | 2 | 4 | Connects hose (#33) to nozzle (#***) and to the metal base (#32) | Plastic | ||
| 16 | Air hose holder (single) | 1 | 2 | Holds air hose (#33) to main tube (#31) during storage | Plastic | ||
| 17 | Handle bar | 1 | 127 | Allows user to apply downward force to draw and compress air in the main tube (#31) | Plastic | ||
| 18 | End cap | 2 | 6 | Provides a covering to the ends of the handle bar | Plastic | ||
| 19 | Metal rod | 1 | 174 | Connects piston head (#14) to the handle bar (#17) | Steel | ||
| 20 | Stopper | 1 | < 1 | *** | Plastic | ||
| 21 | Spring | 1 | < 1 | *** | Steel | ||
| 22 | *** | 1 | < 1 | *** | Rubber | ||
| 23 | Pressure gauge mechanics | 1 | 50 | *** | Copper | ||
| 24 | Small screw | 2 | < 1 | *** | Steel | ||
| 25 | Air flow director | 1 | 49 | *** | Plastic | ||
| 26 | Tube connection to #32 | 1 | 3 | *** | Plastic | ||
| 27 | #28 O-ring | 1 | < 1 | Provides a seal to *** (#28) | Rubber | ||
| 28 | *** | 1 | < 1 | *** | Plastic | ||
| 29 | *** Seal between #25 & #30 | 1 | < 1 | Provides a seal between the air flow director (#25) and *** (#30) | Rubber | ||
| 30 | *** | 1 | 7 | Provides a connection between hose (#33) and air flow director (#25) | Plastic | ||
| 31 | Main tube | 1 | 238 | *** | Steel | ||
| 32 | Metal base | 1 | 540 | *** | Steel | ||
| 33 | Hose | 1 | 83 | *** | Rubber | ||
| 34 | |||||||
| 35 | |||||||
| 36 | |||||||
| 37 | |||||||
| 38 | |||||||
| 39 | |||||||
| 40 |
Design for Manufacture and Assembly (DFMA)
Explanation of what is to come below...
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Manufacturing
Wow! Manufacturing sure is neat.
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Ut elementum elit vel tortor scelerisque auctor. Donec urna dui, eleifend eget adipiscing vulputate, feugiat id nisl. Donec mattis, quam in tincidunt ullamcorper, orci tellus condimentum dui, aliquet faucibus risus nunc et nunc. Vestibulum metus justo, volutpat sed consequat eget, mollis sed neque. Maecenas dignissim hendrerit malesuada. Aliquam dictum gravida orci ut rutrum. Fusce eros lectus, accumsan sed rhoncus eu, tempor sed magna. In ac lacus urna, ut cursus nisl. Curabitur ac dui nisl, in imperdiet orci. Aliquam quam dui, tincidunt quis volutpat quis, convallis a ipsum. Suspendisse quis molestie lorem. Nunc vel magna commodo nunc viverra tempor id blandit neque. Donec nec elementum ligula. Cras accumsan, urna eget dictum varius, arcu nunc porttitor tortor, sit amet feugiat nisl elit vitae elit. Proin eget tellus lectus, tempus tincidunt augue. Sed sagittis iaculis orci, sit amet tempus dui tincidunt in.
Cras tempus lacinia dignissim. Morbi eget nisl velit. Pellentesque habitant morbi tristique senectus et netus et malesuada fames ac turpis egestas. Sed non enim vitae turpis dapibus faucibus. Integer at orci nisi, non feugiat augue. Sed sit amet eleifend velit. Phasellus rutrum volutpat velit, sed lacinia ligula euismod sed.
Maecenas non arcu ut arcu faucibus interdum. Maecenas mattis urna vitae justo elementum suscipit. Vestibulum ullamcorper pellentesque metus nec adipiscing. Aliquam erat volutpat. Aenean malesuada mi et quam lobortis ornare. Nam at sem orci. Etiam placerat dictum tortor, quis consectetur ligula tristique in.
Assembly
Cool assembly information will go here..
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Ut elementum elit vel tortor scelerisque auctor. Donec urna dui, eleifend eget adipiscing vulputate, feugiat id nisl. Donec mattis, quam in tincidunt ullamcorper, orci tellus condimentum dui, aliquet faucibus risus nunc et nunc. Vestibulum metus justo, volutpat sed consequat eget, mollis sed neque. Maecenas dignissim hendrerit malesuada. Aliquam dictum gravida orci ut rutrum. Fusce eros lectus, accumsan sed rhoncus eu, tempor sed magna. In ac lacus urna, ut cursus nisl. Curabitur ac dui nisl, in imperdiet orci. Aliquam quam dui, tincidunt quis volutpat quis, convallis a ipsum. Suspendisse quis molestie lorem. Nunc vel magna commodo nunc viverra tempor id blandit neque. Donec nec elementum ligula. Cras accumsan, urna eget dictum varius, arcu nunc porttitor tortor, sit amet feugiat nisl elit vitae elit. Proin eget tellus lectus, tempus tincidunt augue. Sed sagittis iaculis orci, sit amet tempus dui tincidunt in.
Cras tempus lacinia dignissim. Morbi eget nisl velit. Pellentesque habitant morbi tristique senectus et netus et malesuada fames ac turpis egestas. Sed non enim vitae turpis dapibus faucibus. Integer at orci nisi, non feugiat augue. Sed sit amet eleifend velit. Phasellus rutrum volutpat velit, sed lacinia ligula euismod sed.
Maecenas non arcu ut arcu faucibus interdum. Maecenas mattis urna vitae justo elementum suscipit. Vestibulum ullamcorper pellentesque metus nec adipiscing. Aliquam erat volutpat. Aenean malesuada mi et quam lobortis ornare. Nam at sem orci. Etiam placerat dictum tortor, quis consectetur ligula tristique in.
Failure Modes & Effects Analysis (FMEA)
Sweet information from JR and Lauren shall populate this space...
FMEA will populate the space below...
Design for Environment (DFE)
Amber shall populate this space with some cool graphs and knowledge.
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Ut elementum elit vel tortor scelerisque auctor. Donec urna dui, eleifend eget adipiscing vulputate, feugiat id nisl. Donec mattis, quam in tincidunt ullamcorper, orci tellus condimentum dui, aliquet faucibus risus nunc et nunc. Vestibulum metus justo, volutpat sed consequat eget, mollis sed neque. Maecenas dignissim hendrerit malesuada. Aliquam dictum gravida orci ut rutrum. Fusce eros lectus, accumsan sed rhoncus eu, tempor sed magna. In ac lacus urna, ut cursus nisl. Curabitur ac dui nisl, in imperdiet orci. Aliquam quam dui, tincidunt quis volutpat quis, convallis a ipsum. Suspendisse quis molestie lorem. Nunc vel magna commodo nunc viverra tempor id blandit neque. Donec nec elementum ligula. Cras accumsan, urna eget dictum varius, arcu nunc porttitor tortor, sit amet feugiat nisl elit vitae elit. Proin eget tellus lectus, tempus tincidunt augue. Sed sagittis iaculis orci, sit amet tempus dui tincidunt in.
Group Dynamic
Team Leader: Dinesh Ayyappan
DFMA Lead: Patrick Hogan
FMEA Lead: Jonathan Wong
DFE Lead: Amber Ohiokpehai
Wiki Page Programmer/Report Compilation: Lauren Milisits
References
This is where we should list any references that we used throughout the process of our report.
