Please make a new section in your document entitled Brake Pedal Research. This marks the beginning of your Introductory Project!
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This squiggle serves as a good representation of our design process. It starts as a vague set of requirements for a vehicle, guided by the rules. We take our understanding of the rules and functional requirements, do some research on how a set of similar constraints are addressed elsewhere, both in the competition and other industries, and then start to refine our ideas. We take these ideas and create concepts/sketches. Then we do a quick team review of our findings, check to see if we think we are heading in the right direction, adjust if necessary, and continue on our design path.
Functional Requirements
When designing the car, we always need to think about the objectives for our designs. As mentioned before, your first project is to design a brake pedal. Before you design the brake pedal, you need to think about exactly what a brake pedal does functionally, and why we have one.
Project Deliverable:Write down what you think the brake pedal is and why it is important. This may seem like a simple exercise, but try to think about the mechanics of a brake pedal, and what alternatives could exist but aren’t used. This will inform your thoughts on what the function of the pedal is. (Hint: Google how hydraulic braking systems work)
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To find rules that pertain to your system, the first step is to check the table of contents for anything that may relate to your system. For the Brake Pedal, we are going to look for the section labeled brakes.
Project Deliverable:Search for rules regarding the Brake Pedal Design and Location. Write down the force value that the pedal needs to withstand without failure from both FSAE and FORMULA HYBRID
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Other FSAE teams will come up with ideas that we may not have thought of, and while copying a design bolt for bolt is not in the spirit of the competition, gaining inspiration from other designs is a great way to inform our process.
Project Deliverable: Find at least 10 sources of inspiration for the design of the brake pedal, find 6 from other FSAE teams and 4 from various other sources. We usually would like to collect more than this, but for now this will suffice. Citing your sources is important, but we don't require that it be in a specific format. Just past a link, and maybe write a quick caption to help yourself quickly remember where its from.
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This part of the process often includes some preliminary hand calculations to inform the geometry of the parts. For the sake of the project, lets assume that we want to have a pedal ratio of 6, so we want the force at the drivers foot to be 6 times less than the force pushing on the brake cylinder. If you do your force/moment balance equations, this will yield a ratio of the distance from the pivot point of 6:1, meaning we want the pedal face to be 6 times further from the pivot than the cylinder attachment point.
Project Deliverable: Come up with 3-5 concept sketches, with notes explaining the rational behind the design concepts. Send them to your system head once you are done.
Reviews
When you are doing research for any given project, it is imperative to check with multiple people to ensure that no rule is being missed or misinterpreted. Not only this, but you may be missing concepting ideas that you may not have thought of.
To ensure that our understanding of the rules and function of the system is correct, we perform research reviews for each system before we actually start in depth design. Your document that you have been creating thus far throughout Module 2 is essentially what you would present through the research phase. The only added information that you would provide in an actual review is the pros/cons for each concept, as well as a project budget and timeline estimate. From there, a decision can be made for the direction of the project, but for the sake of time, we will be skipping this section for now.
Congratulations, you have now completed Module 2!