RESEARCH ON PLC SYSTEM DESIGN OF A NEW TYPE OF ROTARY TILLER CONTROL PARAMETERS (Programmable Logic Controller)
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Published:2021-08-31
Issue:
Volume:
Page:437-446
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ISSN:2068-2239
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Container-title:INMATEH Agricultural Engineering
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language:en
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Short-container-title:INMATEH
Affiliation:
1. Department of Electronic Information, Xinxiang Vocational and Technical College, Xinxiang, Henan, 453006 / China 2. College of Intelligent Manufacturing, Xinxiang Vocational and Technical College, Xinxiang, Henan, 453006 / China
Abstract
The purpose of this paper is to design a rotary tiller control system based on programmable controller technology, and verify the application of this control system. In this paper, the traction and depth control of rotary tiller are transformed into the control of piston rod displacement of hydraulic cylinder, and the intelligent fuzzy control of axial extension displacement of rotary tiller and output torque of piston rod is realized. According to the characteristics of the mathematical model, the objective function is determined and the motion parameters are optimized by the steepest descent method, which provides a reliable calculation model for the optimization design of the overall parameters of the rotary tiller. The rotary tiller control system based on PLC (Programmable Logic Controller) can realize the effective control of rotary tillage depth and speed, and the error of rotary tillage depth can be guaranteed within 4.5%. When the soil resistance of the rotary tiller suddenly increases, the fuzzy control of the comprehensive tillage depth value of the stressed position can effectively improve the rotational speed stability of the hydraulic motor for tillage depth control. PLC technology puts the digital control of rotary tiller on a higher technical platform, thus reducing the labour required for agricultural planting, providing a good growth environment for crops and realizing the intelligence of rotary tiller.
Publisher
INMA Bucharest-Romania
Subject
Industrial and Manufacturing Engineering,Mechanical Engineering,Food Science
Reference15 articles.
1. Ahmed I., Obermeier S., Sudhakaran S., (2017), Programmable logic controller forensics. IEEE Security & Privacy, Vol. 15, Issue 6, pp. 18-24. United States; 2. Aliev E. B., Bandura V. M., Pryshliak V. M., (2018), Modeling of mechanical and technological processes of the agricultural industry. INMATEH-Agricultural Engineering, Vol. 54, Issue 1, pp. 95-104. Romania; 3. Chen Y. L., Sun C. Y., Lu Z. S., (2018), Design of control system for spray chilling operation of pig carcass based on PLC. Journal of agricultural engineering, Vol. 034, Issue 003, pp. 273-278. USA; 4. Du X., Yang X., Pang J., (2020), Design and test of automatic detection platform for soil fragmentation rate in rotary tillage. International Journal of Agricultural and Biological Engineering, Vol. 13, Issue 5, pp. 40-49. China; 5. Huang Y., Chen Z., Tao Y. U., (2018), Agricultural remote sensing big data: Management and applications. Journal of Integrative Agriculture, Vol. 17, Issue 9, pp. 1915-1931. Netherlands;
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