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Geological disaster monitoring, predicting and early warning equipment based on artificial intelligence and use method thereof

A technology for geological disasters, monitoring and prediction, applied in mechanical equipment, alarms, human health protection, etc. work, easy to monitor the regulation work, easy to monitor the effect of the work

Inactive Publication Date: 2022-07-08
SICHUAN UNIVERSITY OF SCIENCE AND ENGINEERING
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] Traditional geological disaster monitoring, forecasting and early warning equipment is not convenient for precise monitoring and regulation, and is not conducive to real-time monitoring and processing. Artificial intelligence geological disaster monitoring, forecasting and early warning equipment and its use method to solve the problems raised in the above

Method used

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  • Geological disaster monitoring, predicting and early warning equipment based on artificial intelligence and use method thereof
  • Geological disaster monitoring, predicting and early warning equipment based on artificial intelligence and use method thereof
  • Geological disaster monitoring, predicting and early warning equipment based on artificial intelligence and use method thereof

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Embodiment 1

[0042] see figure 1 , figure 2 , an embodiment provided by the present invention: based on artificial intelligence geological disaster monitoring, prediction and early warning equipment, including a centralized pressure monitoring structure 1, a first laying monitoring structure 2 and a second laying monitoring structure 3, one end of the centralized pressure monitoring structure 1 The first laying monitoring structure 2 is connected to the position, and the second laying monitoring structure 3 is connected to the other end of the centralized pressure monitoring structure 1, and the purpose of regulation and monitoring is facilitated by the setting of the structure;

[0043] see image 3 , the centralized pressure monitoring structure 1 includes a connection frame 4, a support plate frame 5, a limit guide plate 6, a stable connection frame 7, an arc guide frame 8 and a communication groove tube 9. The lower end of the connection frame 4 is connected to the support plate fram...

Embodiment 2

[0049] On the basis of Example 1, as Figure 7 As shown, the top position of the centralized pressure monitoring structure 1 is limitedly connected with a support frame 24, the center of the support frame 24 is elastically connected with an elastic link 26, and the top of the support frame 24 is limitedly connected with a protective roof frame 25. .

[0050] During the implementation of this embodiment, the user installs the support frame 24 , the protective roof frame 25 and the elastic link 26 . The support frame 24 is connected to the upper position of the side end of the pressure rod 12 , and can be adjusted along with the pressure rod 12 . Movement, the setting of the elastic link 26 can realize the buffer adjustment work, the top is fixed with the protective roof frame 25 to realize the support of the top, and the connection position is hinged, which is convenient to improve the degree of integration and realize the centralized pressure monitoring structure 1. Work smoo...

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Abstract

The invention relates to the technical field of geological disaster monitoring equipment, in particular to geological disaster monitoring, predicting and early warning equipment based on artificial intelligence and a using method thereof.The geological disaster monitoring, predicting and early warning equipment comprises a centralized pressurization monitoring structure, a first laying monitoring structure and a second laying monitoring structure; the other end of the centralized pressurization monitoring structure communicates with a second laying monitoring structure, the centralized pressurization monitoring structure comprises a connecting frame, a supporting plate frame, a limiting guide plate, a stable connecting frame, an arc-shaped guide frame and a communicating groove pipe, the lower end of the connecting frame is fixedly connected with the supporting plate frame, and the lower end of the supporting plate frame is fixedly connected with the limiting guide plate; the rear end of the limiting guide plate is fixedly connected with a communicating groove pipe, and the center position of the supporting plate frame is fixedly connected with the stable connecting frame and the arc-shaped guide frame. Through the arrangement of the centralized pressurization monitoring structure, the first laying monitoring structure and the second laying monitoring structure, geological disaster monitoring and early warning work is achieved.

Description

technical field [0001] The invention relates to the technical field of geological disaster monitoring equipment, in particular to a geological disaster monitoring, prediction and early warning device based on artificial intelligence and a method for using the same. Background technique [0002] The geological disaster monitoring, prediction and early warning equipment can realize the geological disaster monitoring, prediction and early warning work through the setting of the structure, realize the real-time monitoring function, facilitate the long-distance monitoring and observation work, and better carry out the centralized processing work. [0003] According to Chinese Patent No. CN202120189017.1, the utility model belongs to the field of auxiliary equipment for geological disaster monitoring instruments, in particular to a fixing device for a geological disaster monitoring instrument, comprising a base plate and a geological disaster monitoring instrument body, and four co...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G08B21/10F16M11/04
CPCG08B21/10F16M11/04Y02A50/00
Inventor 李俊刘文方亓星赵苑迪张恩情王毅恒雷瑞德胡超王培懿何代宇
Owner SICHUAN UNIVERSITY OF SCIENCE AND ENGINEERING
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