The work is devoted to the creation of an intelligent device for individual watering of house plants, functioning in a distributed microclimate control system. The structure of the mechatronic system is presented and the levels of its deployment are designated. An additional motivation for building a distributed system was the study of synchronization of the operation of mechatronic modules through network communications. The microclimate system is represented by a set of real and virtual modules, each of which inherits the properties of a network intelligent device. The interaction of information and executive modules in a distributed system is carried out via a wireless network interface. Virtual modules of the system can be located both on computers in the local network and in cloud services on the Internet. CAD technologies were used in the design of the individual plant irrigation collector module, and the production of its structural elements was carried out on the basis of PLA plastic prototyping. Distribution of nutrient liquid to plants is carried out by electromagnetic valves and a digital flow meter controlled by an ESP8266 microchip. The configuration of the operating modes of the collector module is based on a Web service, the server of which is deployed on the built-in microcontroller.

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Collector Module of Mechatronic Microclimate Control System

  • Alexey Dolmatov,
  • Maria Dolmatova,
  • Evgeniy Godovnikov,
  • Egor Safonov

摘要

The work is devoted to the creation of an intelligent device for individual watering of house plants, functioning in a distributed microclimate control system. The structure of the mechatronic system is presented and the levels of its deployment are designated. An additional motivation for building a distributed system was the study of synchronization of the operation of mechatronic modules through network communications. The microclimate system is represented by a set of real and virtual modules, each of which inherits the properties of a network intelligent device. The interaction of information and executive modules in a distributed system is carried out via a wireless network interface. Virtual modules of the system can be located both on computers in the local network and in cloud services on the Internet. CAD technologies were used in the design of the individual plant irrigation collector module, and the production of its structural elements was carried out on the basis of PLA plastic prototyping. Distribution of nutrient liquid to plants is carried out by electromagnetic valves and a digital flow meter controlled by an ESP8266 microchip. The configuration of the operating modes of the collector module is based on a Web service, the server of which is deployed on the built-in microcontroller.