[1]王红府 赵明富.桃园水肥药一体化控制系统的设计[J].现代农业研究,2019,(12):52-53.
 Wang Hongfu Zhao Mingfu.Design of Integrated Control system for TaoyuanWater, Fertilizer and Medicine[J].Modern Agricultural Research,2019,(12):52-53.
点击复制

桃园水肥药一体化控制系统的设计
分享到:

《现代农业研究》[ISSN:1006-6977/CN:61-1281/TN]

卷:
期数:
2019年12期
页码:
52-53
栏目:
种植与养殖
出版日期:
2019-12-02

文章信息/Info

Title:
Design of Integrated Control system for TaoyuanWater, Fertilizer and Medicine
作者:
王红府12 赵明富1
1 河南科技学院453003;2 长垣职业中等专业学校453400
Author(s):
Wang Hongfu 12 Zhao Mingfu 1
1 Henan Institute of Science and Technology 453003; 2 Changyuan Vocational Secondary Professional School 453400
关键词:
水肥药一体化PLC
Keywords:
water and fertilizer integration PLC
摘要:
我国传统农作物种植的粗放模式容易造成水资源浪费,加重环境污染,水肥药一体化 技术可以实现向现代农业的转型升级。本文介绍了水肥药一体化技术在实际生产中的应用,阐 述了基于PLC 的控制系统设计及实际应用效果。本系统具有节约资源、降低环境污染和生产成 本、提高生产效率、可靠性高等特点,并具有一定的实际应用价值。
Abstract:
The extensive mode of traditional crop cultivation in China is easy to cause the waste of water resources, the environment pollution is aggravated, and the integration technology of water and fertilizer can be upgraded to the transformation of modern agriculture. In this paper, the application of water and fertilizer integration technology in practical production is introduced, and the design and application effect of the control system based on PLC are described. The system has the characteris? tics of saving resources, reducing environmental pollution and production cost, improving production efficiency, high reliability and the like, and has certain practical application value.

参考文献/References:

[1] 王彦,王国强,刘娜,等. 温室专用水肥药一体化滴灌技 术[J]湖北农业科学,2018.(5):41-41+102. [2] 叶永伟,洪莉,潘静. 设施樱桃水肥药一体化技术试验示 范[J] 中国农业信息,2016.(10):129-131. [3] 赵继艳.冀北山区水肥药一体化技术及黄瓜试验示范与应 用[J].农业科技通讯,2018.(9):132-133. [4] 王云爱,于海欧,徐菊敏.现代农业“水肥药一体化”技术. 中国农业信息,2013.( 1):89. [5] 吕品.PLC 和触摸屏组合控制系统的研究[J].自动化仪表, 2010,31(8):45-47,51. [6] 叶建平,郑萍,李建平,等.基于多模式无线控制的PLC 设 计与研究[J].化工自动仪表,2011,38(8):978-981.

备注/Memo

备注/Memo:
作者简介:王红府(1982-),男,河南辉县市人,工学学士,在读硕士,研究方向:电气控制,河南省新乡市,第一 单位:河南科技学院;第二单位:长垣职业中等专业学校。赵明富(1964-),男,河南新乡人,教授, 主要从事信号处理与控制技术研究。
更新日期/Last Update: 1900-01-01