Travel Electric Toothbrush Project Jarad Jupena Justin Lewis Garrett Groce Sam Gadebusch
Project Design Outline 1. Recording and measuring of various aspects of toothbrush - decibels, mass, voltage, amperes, battery life, main parts of toothbrush, customer needs 2. Dissection of toothbrush - Bill of Materials and massing of parts 3. Completion of Project 1 - creation of design ideas, morphological chart, external and patent search 4. Concept Generation and Design Selection - selected final design, created design on SolidWorks 5. Compiled it all into the final Project 1 lab report
Project Management Jarad Jupena- Bill of Materials, revised Lab report 1, benchmarking, concept generation Justin Lewis- SolidWorks, concept generation, revised lab report 1 Sam Gadebusch- Literature review, patent search, problem statements, concept generation Garrett Groce- Customer needs, created design images for morphological chart, concept generation
Customer Needs 1. Portable (0.30, 0.30) 1.1 Compact (0.10, 0.34) 1.2 Light (0.05, 0.17) 1.3 Compact Power Source (0.05, 0.16) 1.4 Collapsible (0.10, 0.33) 2. Efficient (0.10, 0.10) 2.1 Good Battery Utilization (0.05, 0.50) 2.2 Long Life (0.05, 0.50) 3. User Friendly (0.20, 0.20) 3.1 Easy Maintenance (0.05, 0.25) 3.2 Little to no noise (0.05, 0.25) 3.3 Minimal work required to use (0.05, 0.25) 3.4 Usable by all age groups (0.05, 0.25) 4. Functional (0.20, 0.20) 4.1 Reach all points of mouth (0.10, 0.50) 4.2 Effectively cleans (0.10, 0.50) 5. Durable (0.20, 0.20) 5.1 Reliable (0.10, 0.50) 5.2 Not easily destructible (0.10, 0.50) C. 1 Retail Under $50 Revised Problem Statement Now that we have prioritized our customer needs, we can begin to tackle various problems. The toothbrush must be lightweight, durable, inexpensive, safe, and effective, just to name a few. The tricky part is that we must satisfy all of our customer needs, however at the same time, we must not sacrifice any of integrity of our design.
External Search Summary We used the web for our patent search, which helped with our design process. Specifically, we used patents: US 2010/ A1 US 7,168,121 B2 US D454,695 S US 2006/ A1 US 2003/ A1 These patents helped us know what types of ideas are already on the market, but it allowed us to improve and combine ideas from other designs. For our benchmarking we compared the following different products of the same type: Oral B Smartseries 4000 Oral B AP 400 Phillips Sonicare Essence Oral B Pulsonic Ultreo Ultrasound
Power Generation and Power Accessories Corded design, no batteries – brush will require a power cord and outlet Single battery design – brush will run on one battery to increase portability Double battery design – brush will run on two batteries for longer battery use Charging base with rechargeable battery – brush will be charged and not need replacement batteries
Human Factors/ Body Design Folding Brush design – brush will collapse into itself decreasing stored size Ergonomic grip – brush will conform to hand for the purpose of comfort Slim design – brush will have slim design in order to be more portable Wrap around handle – brush will have hand enclosing design for better grip
Energy Mechanism for Brush Head Small Gear Ratio – Brushhead will have a small gear ratio to maximize rotations of brush. Multilevel Power Setting – brush will be able to change intensity to conserve energy Fully Rotating head – contains a shaft that rotates a wheel offering full 360 degree rotation of head
Brush Head Design Curved head design – brushhead will be curved to reach more parts of mouth Telescoping head design – head will collapse into itself for increased portability Multihead design – brush will contain 2 differently moving heads for better cleaning Inversely rotating multihead – brush will have 2 heads rotating in opposite directions
Morphological Concept Chart Power Generation and Power Accessories Human Factors Body Design Energy Mechanism for Brush Head Brush Head Design
Concept Selection We created the Pugh chart, and created a weighted system of five customer needs (portability, efficiency, user- friendliness, functionality, durability). The points were added up, and it was clear which design we selected. The “folding brush design” is the most well rounded design that we believe would be the most successful and worthy design for the travel electric toothbrush market today. Now are able to use this information to construct a final design of our product.
Concept Selection Continued Description CriteriaWeight Portability Efficiency User- friendliness Functionality Durability Net score Rank134562
Final Design Our final design is a combination of the most important characteristics we selected from our pugh chart. We chose a single battery design for portability purposes. The brush has a folding handle for portability. The multihead design was the most functional option for our toothbrush. Sketch of Final Design
Final Design This is the final design of our toothbrush created in SolidWorks.
How does it work? Our toothbrush is designed for travel use. For this reason the motor inside it is powered by a single AA battery. The toothbrush head moves because of an oscillating shaft that is extended from a stepper motor and set to go back and forth rapidly. The shaft is put into a set of gears within the head of the toothbrush causing the gears to turn the brushheads while the toothbrush power is engaged. The toothbrush not only has an effective method of brushing teeth but can also be easily stored by folding the head down into the grip, cutting the length of the toothbrush almost in half.
Closing statement In conclusion, our toothbrush has been fully redesigned and we feel that it is much more effective as a travel toothbrush. The original toothbrush faced the problems of weight, portability and brushing effectiveness. Our new redesigned brush is much lighter, collapsible and even has a better brushhead on it. We feel that the design we presented fully meets our requirements set forth in our original customer needs statement.