DAN ROMANO
EPAM Continuum
Knife Robot
Teardowns
Wearable Base Station
Lyndra Inc.
3D Printing
Electromechanical Fixture
MORSE CORP
FPV Payload
Vacuum Former
Dorel Juvenile
Wobblies
Test Fixture
Personal
Nerf Chronograph
Woodworking
Micro Golf
Cooking
Sous Vide
3D Printing
Electric Bike
Motorized Bike
Northeastern
Knife CAD Model
Capstrone (Spin Stabilization)
Arduino
Design
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Wobbly Infant Health Project
Objectives:
Reduce counter-top clutter and improve aesthetics
Provide children with a fun way to learn hygiene
Process:
Reverse engineer current “wobble” toys
Utilize existing products (brushes, combs) and create holders that don’t fall down
Utilize SolidWorks Motion Study to test the ability for the holders to “wobble”
Create fun animal based designs to increase holder appeal for children
3D print and finish product models for consumer testing
Redesign products based on consumer feedback
Had to resolve concerns of children not putting the pieces back together and increasing the clutter on the counter
Created drawings to allow for quoting from manufacturers in China
Results:
Products were quoted for production and estimated costs were transferred to the business group
The redesigned product was sent through consumer testing
Skills Developed:
Increased skillset within SolidWorks including the use of Motion Study and render tools
Learned about redesign at the end of the development process (based on consumer testing)
Saw the entire design prototype process from start to finish
Evolution of the Wobbly Design (above), Rendered Video of Motion Study (below)
EPAM Continuum
Knife Robot
Teardowns
Wearable Base Station
Lyndra Inc.
3D Printing
Electromechanical Fixture
MORSE CORP
FPV Payload
Vacuum Former
Dorel Juvenile
Wobblies
Test Fixture
Personal
Nerf Chronograph
Woodworking
Micro Golf
Cooking
Sous Vide
3D Printing
Electric Bike
Motorized Bike
Northeastern
Knife CAD Model
Capstrone (Spin Stabilization)
Arduino
Design
Connect
LinkedIn
Thingiverse
Email
Contact