In the green park area, the quality of air is directly related to the experience and health of tourists. In order to effectively monitor and evaluate the quality of these natural environments, the anti-corrosion wood negative oxygen ion monitoring station came into being and became the intelligent guardian of the environmental quality of the park scenic area. This paper will deeply discuss how the anticorrosive wood negative oxygen ion monitoring station exerts its unique advantages to provide accurate monitoring for the environmental quality of park scenic spots.

The core function of WX-FZ4 anti-corrosion wood negative oxygen ion monitoring station is to monitor the concentration of negative oxygen ions in the air in real time. Negative oxygen ions exist widely in forests, waterfalls and other natural environments, and have many benefits to human health, such as improving cardiopulmonary function, promoting metabolism, and enhancing immunity. By integrating high-precision sensors, the monitoring station can measure and display the concentration of negative oxygen ions in the air in real time and accurately, providing immediate feedback on air quality for tourists and scenic spot managers.

In addition to the concentration of negative oxygen ions, the anti-corrosion wood negative oxygen ion monitoring station also has a modular design, which can expand the monitoring project according to user needs. For example, it can monitor air temperature, humidity, PM2.5, PM10, atmospheric pressure, oxygen content, noise, wind speed, wind direction and other meteorological elements. This comprehensive monitoring capability enables the monitoring station to provide more detailed environmental information to meet the monitoring needs in different scenarios. In the scenic areas of the park, such comprehensive monitoring helps to detect and solve environmental problems in a timely manner and improve the tourist experience.

The anti-corrosion wood negative oxygen ion monitoring station can not only display real-time monitoring data, but also automatically record and store historical data. These data, which include changes in the concentration of negative oxygen ions over different time periods and other monitoring parameters, are crucial for analyzing long-term trends in air quality, comparing air quality in different locations, and developing appropriate environmental measures. Through long-term data accumulation and analysis, scenic spot managers can formulate greening policies more scientifically, evaluate the effect of ecological restoration, and promote the development of scenic spots in a more livable and sustainable direction.