Abstract
The grinding table is important for dust control, but its ergonomics design is often overlooked, so this paper designs the upper flange width of grinding worktable combined with dust control effect and ergonomics design. The dust concentration distribution was simulated by using Fluent for different upper flange widths of the grinding worktable, and the L4/L5 force was analyzed by using Jack software for different distances from the outer edge of the worktable to the center of the sharpener. The maximum upper flange width was analyzed by geometry based on human size and CAD drawing analysis. The result is that the wider the upper flange, and the better the dust control effect; the L4/L5 force meets the NIOSH standard requirements regardless of the operating distance; the maximum width of the upper flange is 232.2 mm; if it is greater than 232 mm, it will affect worker operations.
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References
Wang B, Li C (2015) Causes and solutions of Kunshan dust explosion. Fire Sci Technol 34(1):130–131
Mu J, Chen S, Huang W et al (2018) Analysis of welding dust monitoring results in shipyards. Ind Saf Environ Protect 44(12):21–24
Gao K, Jiang Z, Chen J et al (2018) Numerical simulation and measurement of dust distribution in grinding area of stamping shop. J Saf Sci Technol 14(4):181–186
Lin H, Jiang Z, Yang B et al (2018) Influence of air volume on dust control effect for combined ventilation grinding table. J Saf Sci Technol 14(11):160–165
Chen J et al (2019) The application of jack software in the size study of the exhaust hood on a welding torch. In: Long S, Dhillon B (eds) Man–machine–environment system engineering (MMESE 2018). Lecture notes in electrical engineering, vol 527. Springer, Singapore
Lin Z, He C, Zhang M (2019) Toilet system design in public high-end places. In: Long S, Dhillon B (eds) Man–machine–environment system engineering (MMESE 2018). Lecture notes in electrical engineering, vol 527. Springer, Singapore
Chen J, Yang B, Liang S, Chen Z, Sun Y, Zhang T (2018) Study on the performances of supply air for uniform air supply square hood by numerical simulation. In: Long S, Dhillon B (eds) Man–machine–environment system engineering (MMESE 2017). Lecture notes in electrical engineering, vol 456. Springer, Singapore
Chen J (2018) Research on the center-line velocity change rule of desktop slot exhaust hood. Ind Health 56(4):278–284
Liang S, Chen J, Yang B, Lin M, Liu L, Zhang T (2018) Research on ventilation antivirus technology in a washing board room based on numerical simulation. In: Long S, Dhillon B (eds) Man–machine–environment system engineering (MMESE 2017). Lecture notes in electrical engineering, vol 456. Springer, Singapore
Wu X, Liu L, Luo X et al (2018) Study on flow field characteristics of the 90° rectangular elbow in the exhaust hood of a uniform push-pull ventilation device. J Environ Res Public Health 15(12):2884–2896
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Chen, J., Sun, Y., Zhang, X., Chen, Z., Yang, B., Liu, W. (2020). Study on the Upper Flange Width on Grinding Worktable and Its Ergonomics Evaluation. 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_94
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DOI: https://doi.org/10.1007/978-981-13-8779-1_94
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Online ISBN: 978-981-13-8779-1
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