Author
Listed:
- Ahmad Bala Alhassan
- Xiaodong Zhang
- Haiming Shen
- Guo Jian
- Haibo Xu
- Khaled Hamza
Abstract
To efficiently transmit electric power to consumers, the power lines need to be inspected routinely for early fault detection. Thus, power line inspection robots are designed to replace the tedious and dangerous manual inspection using linemen or helicopters. However, most of the existing inspection robots are heavy, which make them slow and prone to external wind disturbance. This paper developed a lightweight dual-arm robot and investigates its robustness to wind disturbance on a lab-scale power line structure. The dynamic equations of the robot are derived using the Lagrangian equation for appropriate motor selection. Also, the components of the robot are designed to ensure low drag coefficient to wind flow, and the mechanism of the wind force on the robot-line coupled system is presented. To study the real-time impact of the wind, a wind speed of 4.5 m/s representing one of the windiest cities in China is considered as a case study. The experimental results for different wind directions, namely, 0°, 45°, and 90°, show that the maximum vibration is 8% higher than the normal vibration of the system in a controlled environment without wind. The results demonstrate that there is little influence of the wind on the system; hence, the robot has been successfully designed and can be applied for power line inspection.
Suggested Citation
Ahmad Bala Alhassan & Xiaodong Zhang & Haiming Shen & Guo Jian & Haibo Xu & Khaled Hamza, 2019.
"Investigation of Aerodynamic Stability of a Lightweight Dual-Arm Power Transmission Line Inspection Robot under the Influence of Wind,"
Mathematical Problems in Engineering, Hindawi, vol. 2019, pages 1-16, November.
Handle:
RePEc:hin:jnlmpe:2139462
DOI: 10.1155/2019/2139462
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