Abstract
In view of the unreasonable design of the central control platform in large mining excavator, the design scheme of the central control platform based on the importance of components was put forward according to the driver’s demand. Firstly, according to the requirement of the driver’s working environment and visual field in large mining excavator, the designed scheme of the semi-surround central console platform was put forward. Secondly, the importance of the central console’s components was solved according to the improved Topsis method. Then the components were partitioned and arranged based on the weight value results. Finally, JACK was used to determine the coverage area of the central console. The result shows that the designed central console has more hand extension coverage than before. It is more convenient for drivers to operate.
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References
Guang L, Zhixin D (2018) Research on joint simulation application of large mining excavator. Hydraulics Pneumatics Seals 50(6):27–29
Xu Y (2018) Research of form design of the automobile console based on visual image. Chongqing University
Xu X, Xu M (2018) The aesthetic law is reflected in the design of the control desk in the automobile. Design 290(11):124–125
Wang F (2018) Research on humanistic design of automobile central panel. Changchun University of Technology
Xu W, Huang L, Fox A et al (2008) Mining console logs for large-scale system problem detection. SysML 8:4
Schofield K, Lynam NR (2005) Vehicular header console system: U.S. Patent 6,975,215[P]. 2005-12-13
Xu W, Huang L, Fox A et al (2009) Online system problem detection by mining patterns of console logs. In: Ninth IEEE international conference on data mining. IEEE, pp 588–597
Pfeiffer P, Honer G, Stick O (2001) Console for a vehicle: U.S. Patent Application 29/134,878[P]. 2001-9-18
Qiu Y, Zhu ZX, Enrong MAO et al (2011) Virtual ergonomic design and evaluation of agricultural equipment cab. J Agri Eng 27(3):117–121
Like MAO, Chen R (2006) Application of improved ideal solution method to evaluate the economic benefits of competitive enterprises. Indus Eng Manage 46(1):46–52
Guiwu W (2008) TOPSIS method for interval intuitionistic fuzzy number multiple attribute decision making. Stat Decis 1:149–150
Mao E, Zhang H, Song Z (2007) Vehicle ergonomics. Beijing Institute of Technology Press
Yuan L, Huan Y, Jing P, Haoli C (2016) Application analysis of tractor cab based on ergonomics. Mach Des Manuf 8:49–53
Acknowledgements
Project supported by national 863 science and technology fund: research and development of 75 m3 large open-pit mining excavator (2012AA062001).
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Zhang, H., Ren, J., Li, A., Zhao, J. (2020). Design of Central Console in Large Mining Excavator Based on Ergonomics. In: Long, S., Dhillon, B. (eds) Man–Machine–Environment System Engineering . MMESE 2019. Lecture Notes in Electrical Engineering, vol 576. Springer, Singapore. https://doi.org/10.1007/978-981-13-8779-1_67
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DOI: https://doi.org/10.1007/978-981-13-8779-1_67
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