基于组态软件和FP23智能仪表的温度监控系统设计

Design of a Temperature Control System Based on Configuration Software and FP23 Intelligent Instrument

设计实现了一种分布式温度监控系统,采用基于智能仪表和组态软件为核心的应用平台,运用模块化组态技术,以图形化的方式动态显示微球充氘氚装置中电炉的工作状态,电炉的远程温度控制、数据采集及处理等监测过程等,都可以由此来方便的实现。上述温度监控系统稳定可靠,改善了人机交互环境,并在实验中得到有效可靠地应用。该温控系统对于其他工业现场的自动监控具有通用性。监控系统界面可对分布在现场的多块FP23智能温控表进行读写操作,可将远程智能温控表集成于控制网络之中,一方面适用于传统热处理间的技术改造,另一方面适用于新建项目的电炉设备配套,极大地方便了现场温控表的操作和控制。适应于现在的温度监控系统,对我们现在的工作具有很多的帮助,文章借以此,提出建议,希望对现实工作具有更多的指导意义。

This paper presents a new distributed temperature control system which was designed and manufactured for controlling electric fornace and monitoring interrelated temperature parameters in course of the high pressure deuterium or tritium gas soaks into tiny balls. By configuration design technique, various of functional windows were designed to achieve the good maintainability and reliability of the system above-mentioned. A set of intelligent instruments and a suit of monitoring configuration software were used as the kernel of the remote monitoring system. A graphical human machine interface was applied to display the realtime status and error treatments of the system, which made the operation of this system easier and safer for the operators. The experiments have demonstrated its reliability and effective. The temperature control system for automatic monitoring of other industrial site versatility. Monitoring system interface an be distributed across multiple site FP23 intelligent temperature controller to read and write operations can be remotely intelligent temperature controller integrated in the control network, on the one hand between the heat treatment applied to traditional technological innovation, the other applicable electric equipment in supporting new projects, which greatly facilitates the scene temperature table operation and control. Adapted to：the current temperature monitoring system, we are now working with a lot of help, through this article, suggestions, we want to work with more realistic guiding significance.