Technical Study on the Key Parts of Combine Harvester Operating Virtual Test Based on ADAMS

Zi Dong Yang; Li Fang Peng

doi:10.4028/www.scientific.net/AMR.338.179

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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 338Technical Study on the Key Parts of Combine...

Technical Study on the Key Parts of Combine Harvester Operating Virtual Test Based on ADAMS

Abstract:

According to the purpose and requirements of a virtual test, the complex mechanism of the combine harvester was abstracted and simplified to some extent during modeling, but in order to guarantee the closeness between simulation result and the reality, attention was paid to keeping the total mass of all components close to the actual mass of the combine harvester and reducing workload during modeling. The vibration test of the cutting platform includes horizontal vibration and vertical vibration. The test conditions are that: the combine harvester is still and has no load and only the engine runs, or the engine and the cutting knife run simultaneously. Three horizontal vibration testing points and three vertical vibration testing points were arranged on the side of the cutter rack of the cutting platform, the side of the shield of the cutting platform and the side of the gap bridge.

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Periodical:

Advanced Materials Research (Volume 338)

Pages:

179-184

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.338.179

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Online since:

September 2011

Authors:

Zi Dong Yang, Li Fang Peng

Keywords:

Combine Harvester, Cutting Platform, Simulation, Virtual Test

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References

[1] Jingxia Jia,　 Dongxing 　 Zhang, Xinming Hao　, Hanwu Liu: Transactions of the Chinese Society of Agricultural Machinery Vol. 36, 11(2005) ,p.64(In Chinese)

Google Scholar

[2] Jie Li, Chuliang Yan, Fangfei　 Yang: Transactions of the Chinese Society of Agricultural Machinery Vol. 37,10(2006) ,p.74 (In Chinese)

Google Scholar

[3] Ping Xia, Song Yin, Liqing Chen, Dequan Zhu, Bing Li: Transactions of the Chinese Society of Agricultural Machinery Vol. 38, 3(2007) ,p.65 (In Chinese)

Google Scholar

[4] Lizhang Xu , Yaoming Li , Chaoxing Ma, Zengfu He , Feng Lü: Transactions of the Chinese Society of Agricultural Machinery Vol. 39, 8(2008) ,p.54 (In Chinese)

Google Scholar

[5] Ni Chen, Yongjian Gong, Dejun Chen, Hongjuan Yu, Yongsen Xiong: Transactions of the Chinese Society of Agricultural Machinery Vol. 39, 9(2008) ,p.60( In Chinese)

Google Scholar

[6] T. Suzuki: Proc. IASS Symp. vol. 2 (1995), p.915.

Google Scholar

[7] B. Tabarrok , Z. Qin: Microcomputers in civil engineering vol. 8, Elsevier Science Publishers Ltd, Amsterdam (1993), p.377.

Google Scholar

[8] H. Tsubota , A. Yoshida: IASS Symposium, India vol. II (1988), p.647.

Google Scholar

[9] H. Tsubota , A. Yoshida: Proc. IASS Symposium, Madrid vol. 3 (1989), p.11.

Google Scholar

[10] Yagi T.:figuration of membrane structures (in Japanese). PhD Dissertation. Nagoya (Japan): Nagoya National University, 1998.

Google Scholar

[11] Mahmoud Omid, Majid Lashgari, Hossein Mobli, Reza Alimardani, Saeid Mohtasebi, Reza Hesamifard: Expert Systems with Applications, Vol.37(2010),p.7080

DOI: 10.1016/j.eswa.2010.03.010

Google Scholar

[12] K Maertens, J De Baerdemaeker : Mathematics and Computers in Simulation, Vol.65(2004), p.49

Google Scholar