hang tight

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Rishi Savaliya, Mitch Reid, Kelsey Barrera. Hang Tight. Define the Problem Time Management Survey Brainstorming Research Donation Letters Existing Solutions Group Solutions Selecting an Approach First Prototype Second Prototype. Agenda. Third Prototype Test Procedures - PowerPoint PPT Presentation

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HANG TIGHTRishi Savaliya, Mitch Reid, Kelsey Barrera

AGENDA Define the Problem Time Management Survey Brainstorming Research Donation Letters Existing Solutions Group Solutions Selecting an Approach First Prototype Second Prototype

Third Prototype Test Procedures Test Results and

Evaluation Refinements

DEFINE THE PROBLEMProblem Statlement

According to the US Department of Transportation’s National Highway Traffic Safety Administration (NHTSA), approximately 57 million people in the United States rode a bicycle in the year 2002. The first bicycle that used a chain was invented in 1885. This resulted in the problem of bicycle chains falling off the gears. In a class of 27 students, 20 agree that bicycle chains falling is a problem that occurs very often and should be solved.

DEFINE THE PROBLEM

Statement of Purpose

Create a product that will prevent the chain from falling off the gear of a

bicycle.

GANTT CHART

SURVEY Survey population: 145

Goals of conducting our survey Target Market Information Multiple causes of falling bicycle chains Problem Justification Product Pricing

SURVEY DATA – TARGET MARKET INFORMATION

Age groups: 14 and under 15 to 25

Ride bikes on average of 1 to 5 times weekly

SURVEY DATA – CAUSES FOR FAULTY CHAINS

15%

38%

4%

19%

24%

1%

Why Do You Ride Your Bicycle

No Answer Leisure/Hobby

Competition Transportation

Exercise Other

SURVEY DATA – PROBLEM JUSTIFICATION

88%

12%

Have You or Someone You Know Experienced Chain Prob-

lems?

Yes No

69%

20%

3%3%

6%

How Often Has This Problem Occurred?

1 to 2 Times a Year

1 to 2 Times a Month

1 to 2 Times a Week

More Often Than That

No Answer

13%

18%

55%

3%4% 7%

What Was Done To Fix Prob-lem?

Nothing

Take To Bicycle Shop

Fixed By Self

Disposed Of Bicycle

Other

No Answer

SURVEY DATA – PRODUCT PRICING

37%

26%

28%

10%

How Much Would You Pay For A Solution?

$0.01 - $3.99

$4.00 - $7.99

$8.00 - $11.00

More Than $11.00

BRAINSTORMING Determine what specifically causes

chains to fall off Create possible designs

No restraints All ideas welcome

Build off of team member’s ideas for best preliminary design

RESEARCH Why do bike chains fall off?

Decreased tension makes chain loose Misalignment of chain and sprocket

Does not mean that bike can not be used

DONATION LETTER Explained reason for writing Asked bike manufacturers to donate

bikes Schwinn Mongoose/Pacific Cycle Trek Bicycle Raleigh America Inc. Cannondale Bicycle Corp.

Benefits to companies for contributions

EXISTING SOLUTIONS Drive-shaft driven bicycle

Eliminates chainPatent 5078416

EXISTING SOLUTIONS Chain catcher for bicycles

Does not prevent chain from falling

Patent 5184984

EXISTING SOLUTIONS Motorized bike with gear and chain

coverPatent 6591929

GROUP SOLUTIONS Design 1

GROUP SOLUTIONS Design 2

GROUP SOLUTIONS Design 3

GROUP SOLUTIONS Design 4

CRITERIA AND CONSTRAINTS Easy to use Aesthetics Functionality Material Cost Feasibility Adaptability

SELECT AN APPROACH Constraint Weight Design 1 Design 2 Design 3 Design 4

Ease of Use 5 1 5 2 5

Aesthetics 2 1 5 3 4

Functionality 5 2 4 4 4

Material 3 1 1 2 3

Cost 4 1 1 2 3

Feasibility 3 1 1 4 3

Adaptability 4 1 1 1 5

Total - 31 69 66 103

DEVELOP A DESIGN PROPOSAL Created a build process

Completed material and cost analysis

Created technical drawings for concept

FIRST PROTOTYPE Foam

FIRST PROTOTYPE – PROBLEMS Too large for bike Wheels on prototype don’t align Not a good material Very hard to construct Arms too far from base

NEW DESIGN Design 5

DESIGN MATRIXConstraint Weight Design 1 Design 2 Design 3 Design 4 Design 5

Ease of Use 5 1 5 2 5 5

Aesthetics 2 1 5 3 4 5

Functionality 5 2 4 4 4 5

Material 3 1 1 2 3 4

Cost 4 1 1 2 3 4

Feasibility 3 1 1 4 3 5

Adaptability 4 1 1 1 5 5

Total - 31 69 66 103 123

MATERIAL SELECTION MATRIXSpecification Wood Plastic Steel Cardboard Foam Aluminum

Durability 3 4 5 2 1 5

Cost 5 3 1 5 5 1

Machinability 5 5 2 5 5 2

Availability 5 5 3 5 4 3

Aesthetics 4 5 5 1 1 5

Total 22 22 16 18 16 16

SECOND PROTOTYPE Wood

BILL OF MATERIALS – SECOND PROTOTYPE

Item Quantity Specifications PriceWood 1 2" X 4" X 2' $ 1.98

Screws with Bolts 2 packs of 3 1/4" 20 $ 1.49 per pack

Rubber Bands A ball of themMultiple sizes and strengths Already Owned

Total - - $ 4.90

TEST PROCEDURES Chain Alignment

Chain must stay aligned with prototype wheels

Drop Test See effect of various riding terrains on

prototype Durability Test

Chain stays aligned for a given period of time

Rider Interference Prototype cannot prevent rider from

pedaling properly

TEST RESULT AND EVALUATION Wooden prototype passed all tests

SECOND PROTOTYPE – PROBLEMS Lots of broken parts

Very close to wheel

Very close to pedal

REFINEMENTS Redo dimensions

Arm Wheel Base

Create new piece Attachment Piece

New Material ABS Plastic

THIRD PROTOTYPE ABS Plastic

THIRD PROTOTYPE Prototype with bike

BILL OF MATERIALS – THIRD PROTOTYPE

Item Quantity Specifications PriceScrews and

Bolts 2 packs of 3 1/4" 20 $1.49 per pack

Rubber Bands A ball of themMultiple sizes and strengths Pre-owned

Plastic ABS Plastic

Total - -

TEST RESULT AND EVALUATION Duration test completed

Passed Chain alignment test completed

Passed Other tests still to be determined

THIRD PROTOTYPE – PROBLEM Plastic is layered

Easier to break

REFINEMENTS New material

Steel Aluminum

New elastic Design is still the same

FINAL PRODUCT

SUMMARY

QUESTIONS?

THANK YOU

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