Development of a measurement system for noise and vibration of combine harvester
Keywords:
measurement, combine harvester, sensors, noise, vibrationAbstract
Combine harvesters are important in that grain and legumes directly affect the production economy. On the other hand, it forms an important branch of the agricultural machinery sector. There are many unknown constraints on machines when harvesting with a combine harvester, including the noise and vibration that occur in the combine harvester thresher. This study aims to analyze noise and vibration in conventional combine harvesters using sensors. Two accelerometers were installed on each side of the concave and two microphones were used to register the noise of the threshing process. The result showed that effects of machine speeds (3.5 km/h, 4.5 km/h and 5.5 km/h) and rotor speeds (950 r/min, 850 r/min and 950 r/min) were significantly important for the mean range values of the left and right accelerometer in the X, Y and Z direction. The machine’s speed and rotor speed were not significantly important for the mean range values of the left and right microphones. Keywords: measurement, combine harvester, sensors, noise, vibration DOI: 10.25165/j.ijabe.20201306.5554 Citation: Yılmaz D, Gökduman M E. Development of a measurement system for noise and vibration of combine harvester. Int J Agric & Biol Eng, 2020; 13(6): 104–108.References
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[2] Kutzbach H D, Wacker P, Reitz P. Developments in European combine harvesters. In Proc. AgEng, 1996, Paper No 96A–069. European Society of Agricultural Engineers.
[3] Kutzbach H D. Trends in power and machinery. J. Agric. Eng. Res, 2000; 76: 237–247.
[4] Maertens K. Data-driven techniques for the on-the- go evaluation of separation process in combine harvesters. PhD thesis, Katholieke University Leuven, 2004.
[5] Ebrahimi R, Esfahanian M, Ziaei-Rad S. Vibration modeling and modification of cutting platform in a harvest combine by means of operational modal analysis (OMA). Measurement, 2013; 46(10): 3959–3967.
[6] Hostens I, Ramon H. Descriptive analysis of combine cabin vibrations and their effect on the human body. Journal of Sound and Vibration, 2003; 266(3): 453–464.
[7] Jerath K, Brennan S, Lagoa C. Bridging the gap between sensor noise modeling and sensor characterization. Measurement, 2018; 116: 350–366.
[8] Maertens K., Ramon H, De Baerdemaeker J. An on-the-go monitoring algorithm for separation processes in combine harvesters. Comput. Electron., Agric., 2004; 43(3): 197–207.
[9] Qiu Q, Lau D. Measurement of structural vibration by using optic-electronic sensor. Measurement, 2018; 117: 435–443.
[10] Pan J, Zhang C, Zhang X. Real-time accurate odometer velocity estimation aided by accelerometers. Measurement, 2016; 91: 468–473.
[11] Feng L, Chen W, Wu T, Wang H, Dai D, Wang D, et al. An improved sensor system for wheel force detection with motion-force decoupling technique. Measurement, 2018; 119: 205–217.
[12] Xu L Z, Chai X Y, Gao Z P, Li Y M, Wang Y D. Experimental study on driver seat vibration characteristics of crawler-type combine harvester. Int J Agric & Biol Eng, 2019; 12(2): 90–99
[13] Zhang L, Zhang H D, Chen Y D, Dai S H, Li X M, Imou K, et al. Real-time monitoring of optimum timing for harvesting fresh tea leaves based on machine vision. Int J Agric & Biol Eng, 2019; 12(1): 6–9.
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Published
2020-12-03
How to Cite
Yilmaz, D., & Gökduman, M. E. (2020). Development of a measurement system for noise and vibration of combine harvester. International Journal of Agricultural and Biological Engineering, 13(6), 104–108. Retrieved from https://ijabe.migration.pkpps03.publicknowledgeproject.org/index.php/ijabe/article/view/5554
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Power and Machinery Systems
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