Geological disaster monitoring, early warning and emergency command system

Abstract

The invention discloses a geological disaster monitoring, early warning and emergency command system. The system consists of a front-end system, a middle-end system and a tail-end system, wherein a box connecting socket of a front-end crack detection and sensing box is electrically connected with a front-end trigger switch through a signal wire; the crack detection and sensing box is communicated with a middle-end intelligent control host by transmitting a wireless signal; and a telephone interface of a warning receiving center is accessed to a public telephone network through a telephone wire to receive information transmitted by the middle-end intelligent control host and communicates with the middle-end intelligent control host. By using a wireless detection and remote sensing technology, the condition of a mountain on which a geological disaster possibly occurs is monitored on the spot in real time; front-end (spot) early warning equipment at a geological disaster point is automatically triggered by sensing equipment and geological disaster signals are transmitted to a geological disaster preventing command center synchronously by signal processing and relaying equipment, so that cadres and masses in a disaster region can keep way from the geological disaster and be evacuated from the geological disaster point and the aims of preventing and reducing the disaster are fulfilled.

Description

technical field [0001] The invention relates to a monitoring, early warning and emergency command system for geological disasters, in particular to an automatic system for monitoring and alarming geological disasters and realizing remote command and rapid emergency rescue. Background technique [0002] At present, my country attaches great importance to the prevention and control of geological disasters, and has implemented the "Regulations on the Prevention and Control of Geological Hazards". The ability to prevent and control geological disasters has played a very important role, but from the current monitoring methods for geological disaster points, there are only some intuitive and simple mechanical methods such as pile-burying method, nail-burying method, painting method, patch method, etc. However, using scientific system technology to analyze and prevent geological disasters by receiving different sounds, lights, and electricity from geological disaster points, so as to...

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Problems solved by technology

[0002] At present, my country attaches great importance to the prevention and control of geological disasters, and has implemented the "Regulations on the Prevention and Control of Geological Hazards". The ability to prevent and control geological disasters has played a very important role, but from the current monitoring methods for geological disaster points, there are only some intuitive and simple mechanical methods such as pile-burying method, nail-burying method, painting method, patch method, etc. However, using scientific system technology to analyze and prevent geological disasters by receiving different sounds, lights, and electricity from geological disaster points, so as to improve the accuracy of geological disaster monitoring and early warning and the ability to respond quickly to disasters is not ideal, and the establishment of a unified The city, county, township and other multi-level geological disaster monitoring, early warning and emergency command systems with command, unified management and unified dispatch have not yet been realized

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