I. Introduction:

China's geological and geographical environment is complex, the climate conditions vary greatly in time and space, and there are many types of geological hazards, widely distributed and hazardous, and it is one of the most serious countries in the world in terms of geological hazards. It is vital to establish a set of scientific and perfect monitoring and early warning platform for geological hazards, to realize the scientific, informatization, standardization and visualization of geological hazard prevention and management, to provide a scientific basis for disaster prevention and mitigation decisions, and to reduce the loss of life and property It is vital to provide a scientific basis for disaster prevention and mitigation decisions and reduce the loss of life and property.

The composition of the geohazard monitoring and early warning system mainly includes GNSS, intelligent robots, rain gauges, crack gauges, seepage gauges, soil pressure gauges, HD infrared dome machines and other equipment, as well as communication modules, software and monitoring cloud platforms to achieve multi-sensor data transmission, and pre-disaster alarm functions can be achieved after setting the corresponding early warning values in the platform. This type of disaster project is mostly located in a relatively remote location, the monitoring station is widely distributed geographically and the distance between the construction site and the monitoring centre platform is far. Using the traditional utility power supply method, not only the line laying cost is high, the construction is difficult and the period is long, the solar power supply system effectively solves the geological disaster slope early warning system to get power, construction is difficult, the power supply is unstable and other problems, to reduce the input cost of geological disaster monitoring, provide system stability, reduce the destruction of resources, rational use of new energy to play a more positive significance, guarding the lives and property safety of the masses.

II. Working principle:

Product distribution diagram

System working principle diagram

III. Product technical advantage features:

IV. Scope of system monitoring

V. System for display