• 제목/요약/키워드: 반능동형 캐빈 공기 현가시스템

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대형 트럭 반능동형 캐빈 공기 현가시스템의 승차감 성능 평가 연구 (Ride Performance Evaluation of a Heavy Truck Semi-active Cabin Air Suspension System)

  • 이지선;최규재;이광헌
    • 한국자동차공학회논문집
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    • 제16권5호
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    • pp.77-83
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    • 2008
  • Semi-active cabin air suspension system improves driver's comfort by controlling the damping characteristics in accordance with driving situation. For the driver's comfort evaluation, test procedure has the two methodologies which are filed test and lab test. A field test method has a drawback. It requires a lot of time and money on repetitive test, due to the sensitivity of field test. On the other hand, the test with six axes simulation table at laboratory can obtain the repeatability of test, better than the field test method. In this paper, the procedures of ride performance test and control logic tuning with the table are presented. Drive files of the table can be represented with the almost same input condition as field test data. According to the result from the comparative test using six axes simulation table between passive and semi-active system by making ECU logic tuning, the RMS acceleration of semi-active cabin air suspension system was reduced by 29.6% compared with passive system.

대형 트럭 반능동형 캐빈 공기 현가시스템의 유공압 모델링 및 동특성 해석 (Hydropneumatic Modeling and Dynamic Characteristic Analysis of a Heavy Truck Semi-active Cabin Air Suspension System)

  • 이광헌;정헌술
    • 한국자동차공학회논문집
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    • 제19권2호
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    • pp.57-65
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    • 2011
  • In this paper, a hydropneumatic modeling and dynamic analysis of a heavy truck semi-active cabin air suspension system is presented. Semi-active cabin air suspension system improves driver's ride comfort by controlling the damping characteristics in accordance with driving situation. So it can reduce vibration between truck frame and cabin. Semi-active cabin air suspension system is consist of air spring, leveling valve and CDC shock absorber, and full cabin system are mathematically modelled using AMESim software. Simulation results of components and full cabin system are compared with experimental data of components and test results of a cabin using 6 axis simulation table. It is found that the simulation results are in good agreements with test results, and the hydropneumatic model can be used well to predict dynamic characterics of heavy truck semi-active cabin air suspension system.