Mechanical Design

Project Contributions Design and fabrication of a dynamometer Torque sensor integration with MATLAB Dynamic modeling of BLDC motors through empirical tests for improved simulation accuracy Coordination of contract manufacturing Generation of engineering drawings Skills Used Mechanical Design: CAD, By-hand mechanics of materials analysis OnShape Sensor Integration MATLAB Manufacturing CNC milling Project Description In this project, I designed and assembled a custom dynamometer to empirically obtain the motor torque constants of the BLDC motors used in the StaccaToe robot. I fabricated custom motor mounting plates using the Tormach PCNC1100 CNC mill and assisted in setting up the FUTEK TRS-300 torque sensor in MATLAB for obtaining torque data. The input current to the BLDC motor is measured using the motor’s onboard drivers. The design of the shaft couplings were optimized using a by-hand torsion calculation with a safety factor of 1.2, and were manufactured through MISUMI’s contract manufacturing service. The shaft couplings are connected via two oldham couplings.

Oct 14, 2024