Journal of Biosystems Engineering

Korean Society for Agricultural Machinery (한국농업기계학회)
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Impact of Sound Insulation in a Combine Cabin

  • Kim, Chiho (Dept. of Bio-Industrial Machinery Engineering, Gyeongsang National University (Insti. of Agri. & Life Sci.)) ;
  • Jung, Ho Jun (Dept. of Bio-Industrial Machinery Engineering, Gyeongsang National University (Insti. of Agri. & Life Sci.)) ;
  • Jo, Jin Seok (Dept. of Bio-Industrial Machinery Engineering, Gyeongsang National University (Insti. of Agri. & Life Sci.)) ;
  • Kim, Myong il (Daedong Industrial Co., Ltd.) ;
  • Lee, Bongho (Daedong Industrial Co., Ltd.) ;
  • Park, Tae Jong (Daedong Industrial Co., Ltd.) ;
  • Seo, Kwangwook (Korean Intellectual Property Office) ;
  • Kim, Hyeon Tae (Dept. of Bio-Industrial Machinery Engineering, Gyeongsang National University (Insti. of Agri. & Life Sci.))
  • Received : 2015.04.11
  • Accepted : 2015.07.29
  • Published : 2015.09.01
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Abstract

Purpose: Recently, environmental pollution and safety problems in agricultural production have become important issues. Initially, bio-production machines focused on high production efficiency rather than workers' safety and comfort, but this trend slowly has changed as time went on. Methods: This study was carried out to identify sound efficiently and reliably for noise reduction by using a combine cabin model. Ethylene propylene diene monomer (M-class) rubber (EPDM) was applied to improve noise reduction performance from parts connected directly to the front, rear, left side, and bottom side of the cabin. Results: As a result, an average noise reduction of 1.85 dB was achieved in the normal hearing range between 500 Hz to 2 kHz. Conclusions: Reducing the cabin noise levels can reduce a worker's fatigue, improve working environment, and contribute to future low-noise and high-quality cabin environment.

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References

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