As a provincial agricultural demonstration zone, Hemei Ecology has realized intensive production for many years, which undoubtedly has a good demonstration significance for smart agriculture. However, like most domestic agricultural enterprises, Meiecology has long lacked the accumulation and utilization of agricultural production data, infrastructure construction of agricultural Internet of Things and intelligent planting management. Although it has an advanced greenhouse, it still uses the traditional manual monitoring mode.
For example, in the greenhouse of edible fungi, CO2 concentration and air temperature and humidity seriously affect the healthy growth of crops. Hemei Ecology has always followed the old working method, relying on the staff to go to the greenhouse one by one and measure it with a detector. Once the concentration exceeds the standard or the temperature is too high, the staff will manually open and close the fan, side window and skylight of the greenhouse. This method not only consumes a lot of labor costs, but also has low efficiency and high production risk. Once the abnormal situation is not found in time, it will often cause huge losses.
This traditional management method, which is highly dependent on people, has been restricting the transformation and development of ecological greenhouses in the United States. In order to strengthen the intelligentization and standardization of greenhouse planting, Mei Eco introduced the intelligent agricultural monitoring system of Huiyun information to build an intelligent greenhouse.
Intelligent greenhouse can save costs and increase efficiency for greenhouse planting and promote agricultural transformation.
Vegetable seedling raising and edible fungus cultivation need very careful management, and it is necessary to accurately monitor the climate environment, soil environment, crop growth, pests and diseases in the greenhouse. Huiyun Information intelligently monitors the greenhouse with an ecological area of 25,000 square meters in Hemei by building an "agricultural Internet of Things" monitoring network in the greenhouse, and monitors soil humidity, soil PH value, air temperature and humidity, air pressure, light intensity and CO2 concentration in real time.
At the same time, the remote automatic control of various facilities and equipment in the greenhouse is realized. When the environment in the greenhouse is out of balance, the system can immediately start the early warning device, notify the managers and take remedial measures in time, which greatly eliminates the loss caused by the managers' untimely discovery due to environmental imbalance in the past. For example, when the concentration of CO2 in the greenhouse exceeds an appropriate value, the system will automatically give a warning to the manager and automatically turn on the ventilation device to ensure that the crops in the greenhouse are always in the best growth state.