N. Tasmurzayev, B. Amangeldy, Z. Baigarayeva, M. Mansurova, B. Resnik, G. Amirkhanova
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引用次数: 0
摘要
本文讨论了室内供热与制冷的指导原则问题。描述了用于检查此类传感器独特属性的机器人框架,该框架是用于设置测试座和剖析动态温度控制和冷却传感器边界的产品和设备综合体。该框架用于控制Google Coral USB加速器,设计ADC(模数转换器),根据温度和湿度传感器的最新值确定温度传感器、开关、泄漏传感器和冷却的充分重复和阶段重复质量,并在SCADA (Supervisory Control and Data Acquisition) Genesis64程序中固定属性和监控。介绍了试验台的布置、框架活度的汇总计算和程序活度的筛分类型。基于SCADA Genesis 64程序,采用OPC UA (Unified Architecture)和ModBUS TCP数据接收协议,实现了室内温度控制和冷却的机器人框架产品。
Improvement of HVAC System Using the Intelligent Control System
The article is given to the issue of guideline of hotness supply and cooling in the room. A robotized framework for checking the unique attributes of such sensors is depicted, which is a product and equipment complex for setting up a test seat and dissecting the boundaries of sensors for dynamic temperature control and cooling. The framework fills the roles of controlling the Google Coral USB Accelerator, designing the ADC (Analog-digital converter) and deciding the sufficiency recurrence and stage recurrence qualities of temperature sensors, switches, leak sensors and cooling taking into account the latest values from temperature and humidity sensors, fixing attributes and monitoring in SCADA (Supervisory Control And Data Acquisition) Genesis64 program. The plan of the test seat, the summed-up calculation of the framework activity and the screen type of the program activity are introduced. The product of the robotized framework for temperature control and cooling in the room is created based on SCADA Genesis 64 programs and technologies with OPC UA (Unified Architecture) and ModBUS TCP data receive protocol.
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