摘 要
本文介绍了智能温控系统的基本概念、工作原理和特点。该系统利用高精度传感器、智能控制器和执行机构实现精确温度调节,具备节能高效和个性化定制的优势。在食用菌栽培中,它确保了最佳生长条件,提高了资源利用效率和栽培稳定性,并增强了管理与决策能力。尽管面临技术精准控制难度、系统集成挑战、极端天气影响、操作人员培训不足和高投资成本等问题,本文提出了加强技术引进、提升传感器技术、构建协同工作平台、建立应急响应机制、加强培训和争取政策支持等策略,以促进智能温控系统在食用菌栽培中的应用,推动产业智能化和高效化发展。
关键词:智能温控;食用菌栽培;应用研究
APPLICATION STUDY OF INTELLIGENT TEMPERATURE CONTROL SYSTEM IN THE CULTIVATION OF EDIBLE FUNGI
ABSTRACT
This paper introduces the basic concepts, working principles and characteristics of the intelligent temperature control system. The system uses high-precision sensors, intelligent controller and actuator to realize accurate temperature regulation, which has the advantages of energy saving, high efficiency and personalized customization. In the edible fungus cultivation, it ensures the optimal growth conditions, improves the resource utilization efficiency and cultivation stability, and enhances the management and decision-making ability. Despite the challenge of technical precision control, system integration, extreme weather, operator training and high investment cost, this paper puts forward to strengthen technology introduction, improve sensor technology, build collaborative work platform, establish emergency response mechanism, strengthen training and policy support strategy, to promote the application of intelligent temperature control system in edible fungus cultivation, promote the development of the intelligent industry and high efficiency.
KEY WORDS:Intelligent temperature control; Cultivation of edible fungi; Application research
目 录
摘 要 I
ABSTRACT II
第1章 绪论 1
1.1 研究背景及意义 1
1.2 国内外研究现状 1
第2章 相关理论概述 3
2.1 智能温控系统的定义 3
2.2 智能温控系统的工作原理 3
第3章 智能温控系统在食用菌栽培中面临的挑战 4
3.1 技术挑战 4
3.2 极端天气影响 4
3.3 操作人员专业培训不足 5
3.4 初期投资成本高 5
第4章 智能温控系统在食用菌栽培中的应对策略 6
4.1 加强技术引进 6
4.2 建立应急响应机制 6
4.3 加强专业培训 7
4.4 政策支持与补贴 7
第5章 结论 8
参考文献 9
致 谢 10