Umbrella 2
From DDL Wiki
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| Formed | | Formed | ||
| Steel | | Steel | ||
+ | | [[Image:Team10-Umbrella-Screw.JPG|100px]] | ||
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| '''3''' | | '''3''' | ||
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| Hand-Stitched | | Hand-Stitched | ||
| Polyester | | Polyester | ||
+ | | [[Image:Team10-Umbrella-CoverBag.JPG|100px]] | ||
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| '''4''' | | '''4''' | ||
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| Injection Molding | | Injection Molding | ||
| Plastic | | Plastic | ||
+ | | [[Image:Team10-Umbrella-Handle.JPG|100px]] | ||
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| '''5''' | | '''5''' | ||
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| Threaded | | Threaded | ||
| Polyester | | Polyester | ||
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| '''6''' | | '''6''' | ||
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| Hand-Stitched | | Hand-Stitched | ||
| Polyester | | Polyester | ||
+ | | [[Image:Team10-Umbrella-Canopy.JPG|100px]] | ||
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| '''7''' | | '''7''' | ||
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| Cut | | Cut | ||
| Plastic | | Plastic | ||
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| '''8''' | | '''8''' | ||
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| Open Polymerization | | Open Polymerization | ||
| Polyester | | Polyester | ||
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| '''9''' | | '''9''' | ||
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| Pressing/Stamped | | Pressing/Stamped | ||
| Aluminum | | Aluminum | ||
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| '''9a''' | | '''9a''' | ||
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| Casted Alloy | | Casted Alloy | ||
| Steel Alloy | | Steel Alloy | ||
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| '''9b''' | | '''9b''' | ||
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| Casted | | Casted | ||
| Steel | | Steel | ||
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| '''9c''' | | '''9c''' | ||
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| Machine Shaping | | Machine Shaping | ||
| Aluminum | | Aluminum | ||
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| '''9d''' | | '''9d''' | ||
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| Pressing/Stamped | | Pressing/Stamped | ||
| Aluminum | | Aluminum | ||
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| '''9e''' | | '''9e''' | ||
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| Machine Shaping | | Machine Shaping | ||
| Aluminum | | Aluminum | ||
+ | | [[Image:Team10-Umbrella-ConnSpoLink.JPG|100px]] | ||
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| '''10''' | | '''10''' | ||
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| Injection Molding | | Injection Molding | ||
| Plastic | | Plastic | ||
+ | | [[Image:Team10-Umbrella-ConcentricTube.JPG|100px]] | ||
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| '''11''' | | '''11''' | ||
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| Pressed | | Pressed | ||
| Aluminum | | Aluminum | ||
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| '''11a''' | | '''11a''' | ||
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| Pressed | | Pressed | ||
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| Injection Molding, Pressed/Stamped | | Injection Molding, Pressed/Stamped | ||
| Plastic, Aluminum | | Plastic, Aluminum | ||
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| '''11c''' | | '''11c''' | ||
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| Pressed | | Pressed | ||
| Aluminum | | Aluminum | ||
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| '''11d''' | | '''11d''' | ||
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| Pressed | | Pressed | ||
| Aluminum | | Aluminum | ||
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| '''12''' | | '''12''' | ||
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| Galvanized Steel | | Galvanized Steel | ||
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|} | |} | ||
Revision as of 19:13, 5 February 2011
Contents |
Executive Summary
Major Stakeholders and Product Needs
Consumers
- Consumers
- Appealing
- Durable
- Lightweight
- Effective
- Safe
- Easy to use
- Portable
- Inexpensive
- Comfortable to hold
- Easy to clean/dry
Retailers
- Ease of storage
- Cost/Profit
- Durability
- Customer Satisfaction
Product Function
The operation of this particular umbrella was very simple. The pictures below depict the general use of an umbrella.
The umbrella consists of a handle which is connected to a telescoping shaft. The telescoping shaft is a mechanism that extends in order to expand several mechanical arms, or spokes, outward when the umbrella is in use. The extension of these spokes serves to expand the canopy, made of polyester, producing a dome shape. This dome shape deflects rain and snow from reaching the user. The concentric tube is located at the top of the shaft. It holds the spokes firmly together and is used to extend the telescoping shaft. There is a locking mechanism also located at the top of the telescoping shaft so that the canopy does not close when the user is holding the umbrella. To collapse the umbrella, the concentric tube is pulled downwards to shorten the telescoping shaft and contract the spokes. The umbrella is then stored.
To use an umbrella the following steps are taken:
Usability Study
After using this particular umbrella, numerous issues have been encountered. The polyester material is very loosely connected to the spokes. This results in an ineffective umbrella where the area of coverage from preciptation is decreased. Furthermore, the spokes of the umbrella was observed to have many moving parts. The outcome is a sacrifice in strength. A common outcome is bending of the spokes due to excessive winds. We noted that a stronger mechanical design for the spokes was needed for the umbrella. Additionally, precipitation contacted the user during use when high winds was present. During our study, snow reached the user in a direction perpendicular to the position of the umbrella. This also diminished the effectiveness of the umbrella. Finally, storing and cleaning the product was a major issue. It was observed that after use, many users commonly shake off the excess water from the umbrella onto the floor of the location they enter.
Bill of Materials
DFE Analysis
When creating a product, engineers must address the potential impact on the environment during the development process. A Design for Environment, DFE, analysis was conducted by our group. We aimed to identify the environemental impacts by utilizing an Economic Input-Output Life Cycle Assessment (EIO-LCA) of an umbrella. Furthermore, we also strive to determine the impact on the cost of production if Congress were to pass a tax on the CO2. This was accomplished using Carnegie Mellon’s EIO-LCA website. We calculated the greenhouse gases and toxic releases associated with our product, assuming $1 million dollars of ecnomic activity was used in the sector: #33299C: Other fabricated metal manufacturing. We have decided that this sector best contains our product as it includes the main material used in life cycle of the product: aluminum. We have chosen not to consider the textile manufacturing sector as our product contains mostly aluminum by weight. During our analyis, we concluded that there were no known energy inputs dureing the use phase of the life cycle assessment. Therefore, we have chosen to disregard an examination on the potential impacts on the enviornment from umbrella usage. The results from using the EIO-LCA website are summarized in the following tables. The emission of greenhouse gases, in metric tons of CO2 equivalent (MTCO2E), from the top 5 contributors of the production phase of the product are shown below.