Design and experimental study on automatic levelling system of high ground gap plant protection system chassis

Q4 Decision Sciences

International Journal of Applied Systemic Studies Pub Date : 2020-07-24 DOI:10.1504/ijass.2020.108656

Yixin Shi, Xin Shu, Ping Jiang, Wenwu Hu, Lin Wei, Dong Chengquan

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引用次数: 0

Abstract

In order to realise ground clearance and levelling control of plant protection machine in high ground clearance. In this paper, a chassis automatic levelling control system is designed. Position error control method and angle error control method are used to control the chassis automatic levelling control system, which is divided into ground clearance height adjustment and chassis levelling control strategy, respectively. The system is controlled by combining fuzzy control algorithm and preset point levelling method. The experiment was carried out on the chassis of our self-developed multi-functional plant protection machine with high ground clearance. The results show that the automatic levelling system can complete the chassis levelling well. Its average horizontal error is < 0.20°, root mean square error < 0.25°, maximum error is 1.13°, average levelling time < 26 s, and levelling precision < 0.2°. The system can meet the operation requirements of plant protection machine.

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高地隙植保系统底盘自动调平系统的设计与试验研究

为了实现植保机在高离地间隙下的离地间隙和调平控制。本文设计了一种底盘自动调平控制系统。底盘自动调平控制系统采用位置误差控制方法和角度误差控制方法进行控制，分为离地间隙高度调节和底盘调平控制策略。该系统采用模糊控制算法和预置点调平法相结合的控制方法。实验是在我公司自主研发的高离地间隙多功能植保机的底盘上进行的。结果表明，该自动调平系统能很好地完成底盘调平。平均水平误差＜0.20°，均方根误差＜0.25°，最大误差1.13°，平均调平时间＜26s，调平精度＜0.2°，可满足植保机的运行要求。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Applied Systemic Studies Decision Sciences-Information Systems and Management

CiteScore

1.10

自引率

0.00%

发文量