Affiliation:
1. Department of Mechanical Engineering, Jiangsu University of Science and Technology, Zhenjiang 215600, China
Abstract
To realize reliable adsorption and flexible walking on ships by a multitrack integrated mobile wall-climbing robot, a magnetic adsorption wall-climbing robot is proposed. First, key technologies such as adsorption based on Halbach square arrays are studied. Second, the mathematical
model and numerical analysis of the Halbach array are established by the Fourier series method, and adsorption units with different magnetic circuits are compared and analyzed to provide a theoretical basis for the ideal design of adsorption. Finally, the influence of each parameter of the
Halbach square array of magnetic adsorption is analyzed by numerical simulation and finite analysis, and the size parameters of the Halbach square array are optimized based on a multi-Island genetic algorithm. The magnetic adsorption volume is nearly double compared to that before optimization.
The results prove that the magnetic adsorption of the Halbach square array has significant advantages.
Publisher
American Scientific Publishers
Subject
Electrical and Electronic Engineering,Electronic, Optical and Magnetic Materials
Reference24 articles.
1. Basic studies on wet adhesion system for wall climbing robots.;Miyake,2007.
2. The surface layer of elements cutting high-pressure abrasive water jet.;Kudelski;Mechanik,2015.
3. An architectural framework for modeling teleoperated service robots.;Alvarez;Robotica,2006.
4. Residue detection for real—time removal of paint from metallic surfaces.;Barcohen;Advanced Nondestructive Evaluation for Structural and Biological Health Monitoring,2001.
5. Hismar—underwater hull inspection and cleaning system as a tool for ship propulsion system performance increase.;Narewski;Faculty of Ocean Engineering and Ship Technology,2009.
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