International journal of advanced smart convergence

The Institute of Internet, Broadcasting and Communication (한국인터넷방송통신학회)
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Safety Evaluate of Brackets for Bare Chassis of a 30-seated Bus

  • Choi, Wan-Mug (Department of Automotive, Yeoju Institute of Technology)
  • Received : 2022.09.07
  • Accepted : 2022.09.12
  • Published : 2022.09.30
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Abstract

In the manufacturing process of the bus treated as the commercial vehicle, after making the bare chassis which is the basic frame of the vehicle body, the part in which passengers ride is connected. In addition, the necessary parts such as the engine and transmission required for the operation of the bus are connected to the bare chassis. The element connecting the parts such as the boarding part of the passengers, the engine, the suspension and the transmission is the bracket. The device required for driving and operating the vehicle is mounted on the bare chassis using the bracket, which should ensure stability during bus operation. In this study, we were performed stress analysis to evaluate the stability of three types of brackets connecting the bare chassis of a new type of 30-seater bus in the development process and components required for driving and operation. The stress analysis should be preceded by the analysis of boundary conditions considering the loads applied to the brackets according to the material of the bracket to be analyzed and the driving type of the bus. The finite element model for structural analysis of brackets according to the driving type of the bus was used by Altair's Hypermesh 2017, and the solver used for structural analysis was Altair's Optistruct. The stress analysis was performed to present the safe and vulnerable parts of the three brackets.

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References

  1. Yang Seung Bok, "Boundary Condition for Bare Chassis Brackets of the Commercial Vehicle," International Journal of Advanced Smart Convergence Vol.11 No.1 94-100, http://doi.org/10.7236/IJASC.2022.11.1.94, 2022
  2. D. H. Lee and J. U. Cho, "Convergence Study on Damage of the Bonded Part at TDCB Structure with the Laminate Angle Manufactured with CFRP," Journal of the Korea Convergence Society, 9(12), 175-180. DOI : 10.15207/JKCS.2018.9.12.175, 2018
  3. Y. K. Park and G. Lee, "A Study on the Structural Analysis of the Spindle of Swiss Turn Type Lathe for Ultra Precision Convergence Machining," Journal of the Korea Convergence Society, 9(5), 145-150. DOI : 10.15207/JKCS.2018.9.5.145, 2018
  4. Jin-soo Park, Hyun-jin Park, and Byung-ki Oh, "Optimization of Bearing Bracket for Automotive Drive Shaft," Fall Conference Proceedings of The Korean Society Of Automotive Engineers, pp. 408-409, 2018. 11
  5. Jong-chan Kim and Hyun-gu Ji, "Bracket Topology Optimization for Robust Design in Concept Design," Fall Conference Proceedings of The Korean Society Of Automotive Engineers, pp. 810-810, 2018. 11
  6. Y. T. Oh, "Study on the Structural Analysis of SCARA Industrial Robot," Journal of the Korean Society of Mechanical Technology, 19(6), 866-871. DOI : 10.17958/ksmt.19.6.201712.866, 2017
  7. J. H. Lee and J. U. Cho, "A Study on Convergence Technique due to the Shape of Cruiser Board through Structural Analysis," Journal of the Korea Convergence Society, 6(4), 99-105. DOI : 10.15207/jkcs.2015.6.4.099, 2015
  8. Hong-suk Chang and Jung-sup Lee, "Design of chassis mounting brackets using optimization method," Spring conferences Proceedings of The Korean Society Of Automotive Engineers, pp. 1185-1190, 2012. 5
  9. B. Hwang, H. Lee, J. Jang and I. Joo, "A Study of Stress Distribution of a pulley for automobile at static load condition," Fall Conference Proceedings of Korean Society of Automotive Engineers, Vol.2, pp.1180~1184, 2003.
  10. K. Lee, J. Hong, J. Son and S. Lee, "Development of V Belt Pulley Design/Analysis System," The Korean Society of Automotive Engineers, Vol.10, No.6, pp.209~218, 2002.