Difference between revisions of "Electric Nickel Board"
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| + | Ari Cotler, Serra Erdamar | ||
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Project Description: | Project Description: | ||
We intend to build an electric two-wheel scooter with a 3d printed chassis. The scooter will ride on 4.9” diameter skateboard wheels and the drive shaft will be run by a 12V high torque motor. The scooter will have a contact braking system in which friction slows down the drive wheel. The motor and 12V battery will be hooked to a variable speed controller so as to be able to accelerate the scooter to a desired speed. Depending on the cost, we would like to add an infrared proximity sensor as a means for collision avoidance. The sensor would allow us to compute the distance of objects in front of the scooter and if the rider is approaching an object or person, a speaker on the bottom of the scooter can sound a tone to warn the driver. | We intend to build an electric two-wheel scooter with a 3d printed chassis. The scooter will ride on 4.9” diameter skateboard wheels and the drive shaft will be run by a 12V high torque motor. The scooter will have a contact braking system in which friction slows down the drive wheel. The motor and 12V battery will be hooked to a variable speed controller so as to be able to accelerate the scooter to a desired speed. Depending on the cost, we would like to add an infrared proximity sensor as a means for collision avoidance. The sensor would allow us to compute the distance of objects in front of the scooter and if the rider is approaching an object or person, a speaker on the bottom of the scooter can sound a tone to warn the driver. | ||
Revision as of 20:24, 9 September 2016
Ari Cotler, Serra Erdamar
Project Description: We intend to build an electric two-wheel scooter with a 3d printed chassis. The scooter will ride on 4.9” diameter skateboard wheels and the drive shaft will be run by a 12V high torque motor. The scooter will have a contact braking system in which friction slows down the drive wheel. The motor and 12V battery will be hooked to a variable speed controller so as to be able to accelerate the scooter to a desired speed. Depending on the cost, we would like to add an infrared proximity sensor as a means for collision avoidance. The sensor would allow us to compute the distance of objects in front of the scooter and if the rider is approaching an object or person, a speaker on the bottom of the scooter can sound a tone to warn the driver.
