Chain drive opportunity
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We designed a study to identify normal issues with the tensioning and function of maintenance on the drivetrain of the Carngeie Mellon Racing Formula sae car. This vehicle is representative of the set up used both in the FSAE series but also in other low cost racing series. Two mechanically inclined individuals who did not have prior knowledge of the car’s design were asked to loosen the chain completely and retighten the driveline. This was done with the car elevated. | We designed a study to identify normal issues with the tensioning and function of maintenance on the drivetrain of the Carngeie Mellon Racing Formula sae car. This vehicle is representative of the set up used both in the FSAE series but also in other low cost racing series. Two mechanically inclined individuals who did not have prior knowledge of the car’s design were asked to loosen the chain completely and retighten the driveline. This was done with the car elevated. | ||
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+ | [[image:Diff1.jpg|300px|thumb|center|Loosening and Tensioning the Drivetrain]] | ||
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The first thing observed in this study was that access to adjustment turnbuckles was very limited. This was compounded by the fact that tools were not common between the separate locking nuts and the turnbuckles. The lack of access also made finding the position desired for the plates was hard. | The first thing observed in this study was that access to adjustment turnbuckles was very limited. This was compounded by the fact that tools were not common between the separate locking nuts and the turnbuckles. The lack of access also made finding the position desired for the plates was hard. | ||
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+ | [[image:Diff2.jpg|300px|thumb|center|Difficult access]] | ||
Towards the end of the study lots of confusion was noticed surrounding determining how tight the chain needed to be and whether the differential housing was indeed aligned properly. This meant a lot of time wasted trying to figure out how to determine these specifications and also how to see if they were close to these. “When are we done here?” was the common phrase used. This shows a key flaw in the system, there is no way to indicate alignment and tension. | Towards the end of the study lots of confusion was noticed surrounding determining how tight the chain needed to be and whether the differential housing was indeed aligned properly. This meant a lot of time wasted trying to figure out how to determine these specifications and also how to see if they were close to these. “When are we done here?” was the common phrase used. This shows a key flaw in the system, there is no way to indicate alignment and tension. | ||
- | They ended up just pulling on the chain to determine tension (a That looks about right method) and then standing back a bit and closing one eye to gauge alignment. | + | [[image:Diff3.jpg|300px|thumb|center|Is it tight?]] |
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+ | They ended up just pulling on the chain to determine tension (a That looks about right method) and then standing back a bit and closing one eye to gauge alignment. It seemed as though they got a grasp on the whole process fairly well but were confounded by the end goal. There is no specification for chain tension on a project like this (custom race car) and while trying to also align the differential this made determining when they were finished hard. | ||
===User Interviews=== | ===User Interviews=== |
Revision as of 00:09, 4 October 2012
Contents |
Executive Summary
Market Research
In order to ascertain the market in which this product would exist we looked into the needs of small scale racing teams, such as Formula SAE teams and more widespread amateur racing series. This includes entry level series such as the Radical SR1 cup and other racing cars built to use motorcycle engines. In order to determine stakeholder needs we performed a user study and interview, Interviews with professionals and survey results.
Stakeholder Needs
Competitor Products
User Study
We designed a study to identify normal issues with the tensioning and function of maintenance on the drivetrain of the Carngeie Mellon Racing Formula sae car. This vehicle is representative of the set up used both in the FSAE series but also in other low cost racing series. Two mechanically inclined individuals who did not have prior knowledge of the car’s design were asked to loosen the chain completely and retighten the driveline. This was done with the car elevated.
The first thing observed in this study was that access to adjustment turnbuckles was very limited. This was compounded by the fact that tools were not common between the separate locking nuts and the turnbuckles. The lack of access also made finding the position desired for the plates was hard.
Towards the end of the study lots of confusion was noticed surrounding determining how tight the chain needed to be and whether the differential housing was indeed aligned properly. This meant a lot of time wasted trying to figure out how to determine these specifications and also how to see if they were close to these. “When are we done here?” was the common phrase used. This shows a key flaw in the system, there is no way to indicate alignment and tension.
They ended up just pulling on the chain to determine tension (a That looks about right method) and then standing back a bit and closing one eye to gauge alignment. It seemed as though they got a grasp on the whole process fairly well but were confounded by the end goal. There is no specification for chain tension on a project like this (custom race car) and while trying to also align the differential this made determining when they were finished hard.