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Stress sensor for geological disaster monitoring

A stress sensor and geological disaster technology, applied in the field of stress sensors, can solve the problems of monitoring system destruction, poor practicability, probe extrusion, etc., and achieve the effects of increasing installation methods, improving practicability, and avoiding loss.

Inactive Publication Date: 2022-06-17
河北地质大学
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The detection system used in geological disaster monitoring includes signal receiving and conducting structure, energy swivel structure and probe structure. In the monitoring system, once a geological disaster occurs and it is too late to transfer the monitoring system, the monitoring system will be directly destroyed, and the occurrence of geological disasters cannot be preserved. In some cases, when installing the signal control box, the installation method is relatively simple, not flexible enough, and the environment of the installation site is relatively complicated, and it cannot be installed adaptively according to the environment of the installation site, which is poor in practicability. In the holes, the protective performance is poor, and the external geological environment changes will squeeze the probe and cause damage.

Method used

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  • Stress sensor for geological disaster monitoring
  • Stress sensor for geological disaster monitoring
  • Stress sensor for geological disaster monitoring

Examples

Experimental program
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Effect test

Embodiment 1

[0026] see Figure 1-4 , the present invention provides a kind of technical scheme:

[0027] A stress sensor for geological disaster monitoring includes a base 1 and a probe protection structure 8, a first fixing bolt 2 is arranged around the base 1, the first fixing bolt 2 penetrates the base 1, and the first fixing bolt 2 is connected to the base. 1. Rotationally connected, the top of the base 1 is fixedly connected with a main pole 3, the top of the main pole 3 is fixedly connected with a solar panel 4, and the bottom end of the base 1 is provided with a hidden information storage structure 5. The hidden information storage structure 5 includes hidden The bottom end of the hidden cover 501 is fixedly connected with a magnetic base 502, and the inside of the hidden cover 501 is inserted with an information storage chip 503, which is beneficial for the base 502 to perform the information storage chip 503 in the hidden cover 501. Adsorption and positioning to avoid the loss o...

Embodiment 2

[0036] see Figure 5 , the present invention provides a kind of technical scheme:

[0037] The top of the fixing plate 603 is fixedly connected with the support ring frame 9, and the inner side of the support ring frame 9 on the left side is provided with a nail 10, and the nail 10 penetrates the support ring frame 9 and is inserted into the wall, and the fixing plate 603 is installed on the wall, Use the nails 10 to insert the brackets 9 and the wall for installation.

[0038] Workflow: In Example 2, the same parts as in Example 1 will not be repeated, the difference is that when the signal control box 7 needs to be installed on the wall, the fixing plate 603 is attached to the wall, and the nails 10 are taken out and inserted into the snap ring. In the frame 9, use a hammer to drive the nails 10 into the wall to complete the installation of the fixing plate 603, then install the limit frame 601 to the card frame 604 in sequence, and finally install the signal control box 7 ...

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Abstract

The invention relates to the technical field of geological disaster monitoring, in particular to a stress sensor for geological disaster monitoring, which comprises a base and a probe protection structure, and is characterized in that the periphery of the base is provided with first fixing bolts, the first fixing bolts penetrate through the base, and the first fixing bolts are rotatably connected with the base; the top end of the base is fixedly connected with a main rod, the top end of the main rod is fixedly connected with a solar cell panel, the hidden information storage structure, the hidden outer cover, the magnetic base and the information storage chip are arranged, and the information storage chip is placed in the hidden outer cover; the information storage chip in the hidden outer cover is adsorbed by the magnetic base for positioning, before the monitoring system is installed, a space is formed on the installation ground, the hidden information storage structure is placed in the space for hidden protection, and when geological disasters occur, the hidden information storage structure can be protected to avoid information loss.

Description

technical field [0001] The invention relates to the technical field of geological disaster monitoring, in particular to a stress sensor used for geological disaster monitoring. Background technique [0002] The disaster forecast and early warning system realizes the management and decision-making in the process of geological disaster monitoring, early warning and forecasting. It is the basic platform for the visualization of geological disaster monitoring and early warning, including disaster point query, comprehensive data analysis, auxiliary decision-making, automatic notification and alarm, disaster reporting and information release, and easy occurrence. And early warning analysis, the system supports unattended, automatic early warning forecast, automatic leak repair, can timely predict landslide, collapse, deformation and damage, and predict the occurrence, development, and outbreak of debris flow, and automatically monitor the hidden danger points of geological disaster...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01L5/00G08B21/10
CPCG01L5/00G08B21/10Y02E10/50
Inventor 郑一博曹静杰张磊王广祥朱占龙
Owner 河北地质大学