Shallow-layer seismic prospecting system based on wireless data transmission and exploration method

A technology for wireless data transmission and seismic exploration, applied in the field of shallow seismic exploration systems, can solve problems such as poor connection of connection points, increased difficulty in cable laying, and low efficiency of test site layout, and achieves strong field adaptability and strong anti-interference ability. , The effect of accurate shallow seismic exploration results

Pending Publication Date: 2018-02-23
WUHAN ENG SCI & TECH RESINST
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Problems solved by technology

The main inconvenience of the system is the cable
In order to ensure the reliability of the cable, the cable uses a high-strength cable, and the bulky cable will lead to low efficiency of the test site layout; there are multiple connection points for the cable connection in the test site layout, and complex environmental factors in the field may It will lead to poor contact at the connection point, and most shallow seismic prospecting instruments lack the sensor connection detection function, and can only judge whether the sensor connection is normal through the detection data; the layout of the detection point may sometimes need to cross some obstacles, which may affect the cable laying. Increase the difficulty

Method used

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  • Shallow-layer seismic prospecting system based on wireless data transmission and exploration method

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Embodiment Construction

[0017] Below in conjunction with accompanying drawing and specific embodiment the present invention is described in further detail:

[0018] A shallow seismic exploration system based on wireless data transmission, such as figure 1 As shown, it includes a shallow seismic exploration general station 1, a shallow seismic exploration trigger sub-station 2, and a plurality of shallow seismic exploration detection sub-stations 3, and the shallow seismic exploration general station 1 includes a data processing host 1.1 and a wireless access point 1.3. The shallow seismic exploration triggering substation 2 includes a first wireless boundary device 2.3 and a first vibration sensor 2.2 for sensing the vibration signal of the seismic source 2.1, and each shallow seismic exploration detection substation 3 includes a second vibration sensor 3.1, filter 3.2, signal gain controller 3.3, analog-to-digital converter 3.4, processor 3.5 and second wireless edge device 3.6;

[0019] The commun...

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Abstract

The invention relates to a shallow-layer seismic prospecting system based on wireless data transmission, comprising a shallow-layer seismic prospecting master station, a shallow-layer seismic prospecting triggering substation, and a plurality of shallow-layer seismic prospecting detection substations. The shallow-layer seismic prospecting master station comprises a data processing host and a wireless access point. The shallow-layer seismic prospecting triggering substation comprises a first wireless boundary device and a first shock sensor for sensing earthquake focus shock signal. Each shallow-layer seismic prospecting detection substation comprises a second shock sensor, a filter, a signal gain controller, an analog-to-digital converter, a processor and a second wireless boundary device.The invention is advantageous in that the anti-interference capability is stronger, and the shallow-layer seismic prospecting result can be more accurate.

Description

technical field [0001] The invention relates to the technical field of shallow seismic exploration, in particular to a shallow seismic exploration system and an exploration method based on wireless data transmission. Background technique [0002] At present, most shallow seismic prospecting instruments use cables to connect the sensors at each observation point, and transmit the seismic signals of each observation point to the central host, which performs data collection and related processing. The main inconvenience of this system is the problem of cables. In order to ensure the reliability of the cable, the cable uses a high-strength cable, and the bulky cable will lead to low efficiency of the test site layout; there are multiple connection points for the cable connection in the test site layout, and complex environmental factors in the field may It will lead to poor contact at the connection point, and most shallow seismic prospecting instruments lack the sensor connect...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01V1/22G01V1/24
CPCG01V1/223G01V1/247
Inventor 刘玉李太全金彦叶辉周超郭俊峰
Owner WUHAN ENG SCI & TECH RESINST
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