TEAM 6Powered Toothbrush
Project
Lauren BurkhardMaggie Hartigan
Priya BhagatRichard Lechette
Outline1. Assessed a powered toothbrush
Took Pictures Made notes of design
2. Customer Needs Assessment• Asked our peers what they look for in a
brush• Reviewed our results3. Dissection of Powered Brush• Took into account the mechanics of
the brush for our own design
4. Concept Generation• Combined the information we gathered to
brainstorm and create design ideas for our brush5. Research
• Patent Research• Dissection• Benchmarking• Literature Review
Project ManagementMaggie Hartigan
• Benchmarking• Team Page• Concept Generation• Morphological Chart
Lauren Burkhard• Project Dissection• Concept
Generation• Conclusion• Revised Problem
Statement
Richard Lechette• Patent Research• Concept Generation• Concept Selection• Created final design
on Solid Works
Priya Bhagat• Literature Review• Team Page• Abstract• Concept
Generation• Customer Needs
Hierarchal Customer Needs Chart1.Able to Travel 1.1 Light Weight 1.2 Battery Powered C.1 Compact2. Low Cost 2.1 Disposable Head 2.2 Battery Powered3. Appealing Appearance 3.1 Grip4. Durable 4.1 Water Proof
Revised Problem StatementIn the beginning of this project, we were faced with the problem of a bulky, inefficient brush. We had to redesign this brush to make it ideal for travel. We will create a compact but yet efficient brush to meet this customer need. Our job now is to create the lightest, smallest, cheapest, and most portable brush.
External Search ActivitiesA lot of research went into the design of our new product. During the designing process, we had to take into account customer needs, customer reviews, and patents for each individual aspect and part of our new product.
• Literature Review: In the Literature Review, Priya researched consumer reports and reviews about Oral-B Advanced Power 400.
• Patent Search: In his patent research, Richard found
different patents that presented ideas for battery placement, overall body design, brush mechanics, and brush head protection for our toothbrush.
• Benchmarking: Maggie made comparisons with other toothbrush designs so we could make a more sound and efficient toothbrush design.
• Project Dissection: Lauren recorded the information from our toothbrush dissection so we could analyze it for our own design
Generated ConceptsBrush Head
Concept 1: (Sketch) This brush head has a larger design a long with moving and still bristles.
Concept 2: (Sketch) This brush head has circular spinning along with still bristles.
Concept 3: (Sketch) This brush head has a center that rotates while the top and bottom bristles stay still.
Concept 4: (Sketch) This brush head has bristles that vibrate with rubber edges to provide a way to clean your tongue on the back of the brush head.
Generated ConceptsBody/Grip
Concept 1: (Sketch) This body/grip has grooves for your fingers to provide a better grip.
Concept 2: (Sketch) This body/grip folds in half making the toothbrush as a whole more travel friendly.
Concept 3: (Sketch) This body/grip is gel to provide a comfortable grip while brushing your teeth.
Concept 4: (Sketch) This body/grip is shorter in size so it is easier to travel with. While using the toothbrush though this design allows you to detach the cap and attach it onto the bottom of the body so you have a longer body to hold onto while brushing your teeth.
Generated ConceptsPower Generation
Concept 1: (Sketch) This toothbrush contains two stacked AA batteries.
Concept 2: (Sketch) This toothbrush contains one AA battery so it does not take up as much space.
Concept 3: (Sketch) This tooth brush has a rechargeable battery so it would come along with a charger that you plug in.
Concept 4: (Sketch) This tooth brush contains two AAA batteries.
Generated ConceptsEnergy Mechanism
Concept 1: (Sketch) This tooth brush is moved by a gear inside the brush head.
Concept 2: (Sketch) This toothbrush is moved by a pin in a spring.
Concept 3: (Sketch) This toothbrush is moved by a rotating jagged pin.
Concept 4: (Sketch) This toothbrush is moved by just a rotating pin.
Morphological Chart
Functions/ Means Brush head Body/Grip Power Generation Energy Mechanism
Concept 1 Bigger, moving and still bristles Grooves for fingers Two stacked AA Batteries Gear inside brush head
Concept 2 Spining circular and still bristiles Folding body One AA battery Pin in spring
Concept 3 Center rotates, top and bottom is still Gel grip Rechargeable with chord Rotating jagged pin
Concept 4 Vibrating bristles with tongue cleaner Cap extends body Two AAA batteries Rotating pin
Criteria for Concept Selection
Criteria & Weights:Weight 0.40Size 0.20Brushing Effectiveness 0.30Battery Life 0.10
Maggie’s Pugh ChartPugh Chart
Brush HeadIteration 1 Brushing Effectiveness (0.30) Size (0.20) Σ Row RankConcept 1 1 -1 0.1 1Concept 2 -1 0 -0.3 3Concept 3 0 0 0 2Concept 4 1 -1 0.1 1
Body/GripIteration 2 Weight (0.40) Size (0.20) Ʃ Row RankConcept 1 0 0 0 2Concept 2 1 1 0.5 1Concept 3 0 0 0 2Concept 4 1 1 0.5 1
Power GenerationIteration 3 Weight (0.40) Size (0.20) Life (0.10) Ʃ Row RankConcept 1 0 0 0 0 3Concept 2 1 0 -1 0.3 1Concept 3 0 -1 1 -0.1 4Concept 4 1 -1 -1 0.1 2
Energy MechanismIteration 4 Brushing Effectiveness (0.30) Size (0.20) Ʃ Row RankConcept 1 0 0 0 3Concept 2 -1 1 -0.1 4Concept 3 0 1 0.2 2Concept 4 1 1 0.5 1
Rich’s Pugh ChartPugh Chart
Brush HeadIteration 1 Brushing Effectiveness (0.30) Size (0.20) Σ Row RankConcept 1 0 0 0 2Concept 2 1 1 0.3 1Concept 3 1 -1 0.3 1Concept 4 -1 1 -0.3 3
Body/GripIteration 2 Weight (.4) Size (0.20) Σ Row RankConcept 1 1 -1 0.2 2Concept 2 1 1 0.6 1Concept 3 -1 1 -0.2 4Concept 4 0 0 0 3
Power GenerationIteration 3 Weight (.4) Size (0.20) Life (.10) Σ Row RankConcept 1 -1 1 1 -0.1 3Concept 2 1 1 -1 0.5 1Concept 3 -1 -1 1 -0.5 4Concept 4 0 0 0 0 2
Energy MechanismIteration 4 Brushing Effectiveness (0.30) Size (0.20) Σ Row RankConcept 1 0 0 0 3Concept 2 -1 1 -0.1 4Concept 3 1 -1 0.1 2Concept 4 1 1 0.5 1
Lauren’s Pugh ChartPugh Chart
Brush HeadIteration 1 Brushing Effectiveness (0.30) Size (0.20) Σ Row RankConcept 1 1 -1 0.1 1Concept 2 0 0 0 2Concept 3 -1 -1 -0.5 4Concept 4 -1 0 -0.3 3
Body/GripIteration 2 Weight (.40) Size (.20) Σ Row RankConcept 1 1 1 0.6 1Concept 2 0 0 0 3Concept 3 -1 -1 -0.6 4Concept 4 0 1 0.2 2
Power GenerationIteration 3 Weight (.40) Size (.20) Life (.10) Σ Row RankConcept 1 -1 -1 0 -0.6 4Concept 2 0 0 -1 -0.1 2Concept 3 1 1 1 0.7 1Concept 4 0 -1 -1 -0.3 3
Energy MechanismIteration 4 Brushing Effectiveness (0.30) Size (.20) Σ Row RankConcept 1 1 -1 0.1 3Concept 2 -1 -1 -0.5 4Concept 3 1 0 0.3 1Concept 4 0 1 0.2 2
Priya’s Pugh ChartPugh Chart
Brush HeadTeration 1 Brushing Effectiveness (0.30) Size (0.20) Σ Row RankConcept 1 1 -1 0.1 2Concept 2 0 0 0 3Concept 3 1 0 0.3 1concept 4 -1 0 -0.3 4
Body/GripTeration 2 Weight (0.40) Size (0.20) Σ Row Rank Concept 1 -1 -1 -0.6 4Concept 2 0 0 0 3Concept 3 0 1 0.2 2Concept 4 1 1 0.6 1
Power GenerationTeration 3 Weight (0.40) Life (.10) Σ Row RankConcept 1 -1 1 0.3 2Concept 2 0 -1 -0.1 4Concept 3 1 1 0.5 1Concept 4 0 0 0 3
Energy MechanismTeration 4 Brushing Effectiveness (0.30) Weight (.40) Σ Row RankConcept 1 0 0 0 3C oncept 2 -1 0 -0.3 4Concept 3 1 0 0.3 2Concept 4 1 1 0.7 1
Brush Design