Journal of Auto-vehicle Safety Association (자동차안전학회지)

Korean Auto-vehicle Safety Association (한국자동차안전학회)
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A Study on Modular Design of Brake System and Application Method for Small-Medium EV Architecture

제동시스템 모듈러 설계 및 중소형 EV 아키텍처 적용 방안에 관한 연구

  • J. H. Shim ;
  • U. H. Shin ;
  • S. R. Hwang ;
  • J. H. Lee ;
  • W. S.Yim ;
  • Y. J. Woo
  • 심재훈 (현대자동차) ;
  • 신웅희 (현대자동차) ;
  • 황세라 (현대자동차) ;
  • 이중희 (현대자동차) ;
  • 임원석 (현대자동차) ;
  • 우영주 (현대자동차)
  • Received : 2023.03.20
  • Accepted : 2023.09.18
  • Published : 2023.09.30
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Abstract

Electric vehicles are widely produced from many car manufacturers around the world instead of internal combustion engine vehicle in order to respond a variety of environmental regulations. Also, they are applying for modular design method to develop plenty of the vehicles. And, both of these two issues will be an important trend to lead the future global automobile industries for a long time. In this paper, new brake architecture concept is proposed in order to respond to such a situation. First, physical interfaces between brake system like caliper, disc and other counter-parts are established for modular assembly. Second, we analyze effective factors of brake system for electric vehicles which need to reflect vehicle specifications such as total vehicle weight. Here, we consider ideal brake force by critical deceleration. Third, we simulate accumulated regenerative brake energy for two main driving modes to confirm to effectiveness for a variety of Electric Vehicle. Finally, we hope that it contributes to implement brake architecture for the development of Electric Vehicle platform through such a study.

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References

  1. K. Ulrich, 1995, "The role of product architecture in the manufacturing firm", Research policy 24, pp. 419~440. https://doi.org/10.1016/0048-7333(94)00775-3
  2. J. B. Dahmus, J. P. Gonzales-Zugasti and K. N. Otto, 2001, "Modular product architecture", Design studies, Vol. 22, No. 5, pp. 409~424. https://doi.org/10.1016/S0142-694X(01)00004-7
  3. M. V. Martin and K. Ishii, 2002, "Design for variety: developing standardized and modularized product platform architectures", Research in Engineering Design 13, pp. 213~235. https://doi.org/10.1007/s00163-002-0020-2
  4. F. Salvador, C. Forza and M. Rungtusanatham, 2002, "Modularity, product variety, production volume and component sourcing: theorizing beyond generic prescriptions", Journal of operations management 20, pp. 549~575. https://doi.org/10.1016/S0272-6963(02)00027-X
  5. E. S. Suh, M. R. Rurst, K. J. Mihalyov and O. D. Weck, 2009, "Technology infusion for complex systems: A framework and case study", Systems engineering, pp. 1~18.
  6. 히노 사토시, 2010, "모듈러 디자인-21세기 부품공용화 전략 및 실제혁신기법", 지믹컨설팅, 서울시, pp. 119~157.
  7. Matthias Kreimeyer, 2014, "Implementing architecture in industry", International design conference, pp. 1967~1978.
  8. 송인식, 2018, "Quick 방법론", 한국학술정보(주), pp. 232~317.
  9. J. H. Shim, U. H. Shin and J. H. Lee, 2020, "A study on development of brake system of light ecofriendly car considering heat load and regenerative braking characteristic", Journal of auto-vehicle safety association, Vol. 12, No. 2, pp. 7~13.
  10. S . B. Lee, D. H. K, B. J. Moon, 2022, "A study on the improved EDR storage data to identify the cause of unintended acceleration of eco-friendly vehicles", Journal of auto-vehicle safety association, Vol. 14, No. 3, pp. 17~22.