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Three-dimensional laser scanning karst water inrush disaster magnitude evaluation test method and device

A three-dimensional laser and test method technology, applied in the field of tunnel engineering, can solve the problems of large evaluation deviation, slowing down the tunnel project start time, and long time consumption of disaster evaluation, saving time, improving evaluation accuracy, and realizing real-time online speed. The effect of information exchange

Inactive Publication Date: 2020-11-17
高军
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  • Summary
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  • Description
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  • Application Information

AI Technical Summary

Problems solved by technology

[0003] However, some existing karst water inrush disaster magnitude assessment methods are not accurate enough for disaster assessment, there are large evaluation deviations, and the implementation is not convenient; and the existing karst water inrush disaster magnitude assessment methods are not suitable for disaster assessment. The time-consuming and complex operation of the evaluation process from start to finish slowed down the start time of the tunnel project

Method used

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  • Three-dimensional laser scanning karst water inrush disaster magnitude evaluation test method and device
  • Three-dimensional laser scanning karst water inrush disaster magnitude evaluation test method and device

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Embodiment 1

[0056] see figure 1 , a three-dimensional laser scanning karst water inrush disaster magnitude evaluation test method, comprising the following steps:

[0057] S1: Preparatory work, analyze historical data and conduct on-site geological survey, and obtain geographic information of the target area to be evaluated;

[0058] S2: Set up equipment, use the 3D laser scanner 14 and ground-penetrating radar to conduct detailed stratum scanning of the target area to be evaluated, so as to identify risk indicators and obtain accurate detection data;

[0059] S3: Carry out simulation tests in the laboratory based on the data obtained above to explore the damage caused by karst water inrush pressure on the tunnel rock wall under different conditions, and record the test data;

[0060] S4: Repeat the simulation test in the above steps in the target area to be evaluated, explore the damage caused by the karst water inrush pressure on the tunnel rock wall under different conditions, and rec...

Embodiment 2

[0067] see Figure 2-4 , a three-dimensional laser scanning karst water inrush disaster magnitude evaluation test method, step S2 also includes the following steps:

[0068] S201: Establish an observation system in the program system carried by the evaluation device for geological survey of the target area to be evaluated;

[0069] S202: Debug the equipment and set system parameters, so that the amplitude of the detection laser waves emitted by the three-dimensional laser scanner 14 is kept balanced;

[0070] S203: Pick up the direct wave reflected and rebounded by the detection laser wave, and receive geological survey data.

[0071] S204: Extracting the wave velocity of the longitudinal wave and the shear wave of the rebound direct wave;

[0072] S205: Perform filtering processing on the longitudinal wave and the shear wave through a filter, and smooth the noise data to remove interference.

[0073] S206: Using two-dimensional longitudinal wave and shear wave velocity dat...

Embodiment 3

[0077] see Figure 5-6 , the present invention also provides a three-dimensional laser scanning karst water inrush disaster magnitude evaluation device, including a judging device 1, and the judging device 1 includes a CPU processor 11, a display 12, a peripheral interface 13, a three-dimensional laser scanner 14 and a wireless transceiver module 15. The CPU processor 11 has a built-in integrated memory, and the CPU processor 11 is electrically connected to the display 12 in one direction. The outside of the CPU processor 11 is provided with a peripheral interface 13, and the CPU processor 11 passes through the peripheral interface 13 In coordination with the electrical connection between the data connection line and the three-dimensional laser scanner 14, the wireless transceiver module 15 is arranged on the outer wall of the CPU processor 11, and is electrically connected with the CPU processor 11, and the CPU processor 11 communicates with the CPU processor 11 through the wi...

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Abstract

The invention discloses a three-dimensional laser scanning karst water inrush disaster magnitude evaluation test method and device. The geographic information of a target to-be-evaluated region is obtained through the reference of historical data and the survey of a three-dimensional laser scanner and a ground penetrating radar, and simulation test is carried out separately in a laboratory and a field according to the detection data; a risk assessment index body is established by comparing the same points of the two test data, a risk assessment model is established by combining index weights,assessment accuracy is improved, and rapid karst water inrush disaster magnitude assessment is carried out on subsequent tunnel construction by utilizing the risk assessment model; after karst cave data of a target to-be-evaluated area is measured, rapid analysis and calculation can be performed through the risk evaluation model, an evaluation report is generated, convenience and practicability are achieved, a CPU processor is in bidirectional remote connection with an expert APP terminal through a wireless receiving and transmitting module, and the detection party performs karst water inrushdisaster magnitude evaluation on the target to-be-evaluated area while karst water inrush disaster magnitude evaluation is conducted on the target to-be-evaluated area. And experts synchronously modify the evaluation report, so that the accuracy of the evaluation report is improved.

Description

technical field [0001] The invention relates to the technical field of tunnel engineering, in particular to a three-dimensional laser scanning karst water inrush disaster magnitude evaluation test method and device. Background technique [0002] The study of karst water inrush geological hazards in tunnel engineering has always been a hot issue and frontier issue of the most concern in the underground engineering circles at home and abroad, and is a key issue in the safety construction and disaster prevention and mitigation of major projects in the fields of railways, highways, water conservancy and hydropower in my country. At present and for a long period of time in the future, my country will be in the construction climax period of underground engineering and geotechnical engineering, which is a period of opportunity for research on prediction and early warning, risk assessment and prevention technology of karst water inrush disasters. [0003] However, some existing kars...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06Q10/06G06Q50/08G01V11/00
CPCG01V11/00G06Q10/0635G06Q50/08
Inventor 高军岳勇林晓王东旭蔡荣喜谭发刚熊晓晖王岭黄正凯杨立云贾超吴德兴项小珍李行利张旭东游国平杨超张晓晓徐腾辉
Owner 高军
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