TY - JOUR
T1 - Thermoelectric Cooling Application to Motors for High-Power Operation
AU - Morikawa, Kazuma
AU - Katsura, Seiichiro
N1 - Funding Information:
In conclusion, thermoelectric cooling is effective to withstand temporary high loads in robot joints that require high-load motions. Acknowledgment This work was partially supported by JSPS KAKENHI Grant Number 21H04566.
Publisher Copyright:
© 2023 The Institute of Electrical Engineers of Japan.
PY - 2023
Y1 - 2023
N2 - Joint motors of legged robots and manipulators need to withstand temporary high loads during walking, posture maintenance, and contact with external objects. To only increase the torque, the gear ratio can be increased; however, this decelerates the movement. To increase the power of the motor, improving the torque–current characteristics or applying a high current is necessary. When a high current is applied, a large amount of heat is generated by the motor, which can cause motor failure. In this study, we used thermoelectric cooling as a new cooling method for robot joint motors and verified its effectiveness. We developed a thermoelectric cooling module that can significantly cool a motor before it experiences a high current. Experiments were conducted in which a motor was subjected to a high-load motion, and the results with and without the thermoelectric cooling module were compared. It was shown that the developed thermoelectric cooling system improved the performance of the motor.
AB - Joint motors of legged robots and manipulators need to withstand temporary high loads during walking, posture maintenance, and contact with external objects. To only increase the torque, the gear ratio can be increased; however, this decelerates the movement. To increase the power of the motor, improving the torque–current characteristics or applying a high current is necessary. When a high current is applied, a large amount of heat is generated by the motor, which can cause motor failure. In this study, we used thermoelectric cooling as a new cooling method for robot joint motors and verified its effectiveness. We developed a thermoelectric cooling module that can significantly cool a motor before it experiences a high current. Experiments were conducted in which a motor was subjected to a high-load motion, and the results with and without the thermoelectric cooling module were compared. It was shown that the developed thermoelectric cooling system improved the performance of the motor.
KW - cooling
KW - motor
KW - Peltier device
KW - robot joint
KW - thermoelectric effect
KW - torque
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U2 - 10.1541/ieejjia.22004623
DO - 10.1541/ieejjia.22004623
M3 - Article
AN - SCOPUS:85150628054
SN - 2187-1094
VL - 12
SP - 145
EP - 152
JO - IEEJ Journal of Industry Applications
JF - IEEJ Journal of Industry Applications
IS - 2
ER -