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In-situ monitoring method of large space motion of coal mine mining stratum

A technology of rock movement and large space, applied in mining equipment, measuring devices, earthwork drilling, etc., can solve the problem of no monitoring means for rock formation, and achieve the effect of many monitoring methods, large engineering volume, and conducive to refined description.

Active Publication Date: 2017-05-24
DATONG COAL MINE GRP
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Problems solved by technology

However, at present, there is no monitoring method for the movement of rock formations in a large space at home and abroad.

Method used

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  • In-situ monitoring method of large space motion of coal mine mining stratum
  • In-situ monitoring method of large space motion of coal mine mining stratum
  • In-situ monitoring method of large space motion of coal mine mining stratum

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Embodiment Construction

[0021] Below in conjunction with accompanying drawing, the present invention will be further described:

[0022] Such as figure 1 Shown is the schematic diagram of the large-space in-situ monitoring method for coal mining rock formation movement of the present invention, which comprehensively adopts the "trinity" linkage observation of the upper and lower wells based on surface subsidence-overburden migration-underground mine pressure, borehole TV observation, and inter-hole CT observation. Integrated monitoring methods such as microseismic monitoring and other geophysical means, working face surrounding rock stress and strain monitoring, and the steps are as follows:

[0023] a. Before the mining of working face 1, drill TV observation holes 2 vertically downwards from the surface along the advancing direction of working face 1 every 50m, observe the structure and lithology of the overlying rock through drilling TV 3, and take some The core of hole 2 is observed by hole TV t...

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Abstract

The invention relates to a monitoring technic of stratum motions before and after the coal bed mining, particularly relates to a 1:1 in-situ monitoring method of the large space range overlying rocks before and after the coal bed mining, and is specifically an in-situ monitoring method of the large space motions of the coal mine mining stratum. The problem that monitoring means for rock strata movements do not yet exist at present for large space ranges either within the nation or outside the nation is solved. The in-situ monitoring method comprehensively adopts a means based on the 'one form three places' method of the subsidence-overburden rock migration-underground mine pressure, and the in-situ monitoring method further adopts the geophysical prospecting methods of well upper and lower linkage observation, the drill hole television observation, the hole gap CT observation and the micro-seismic monitoring and the like, and the in-situ monitoring method also adopts the integration monitoring methods of the working face surrounding rock stress-strain monitoring and the like. The in-situ monitoring method creatively integrates various observation means, and through the reasonable arrangements, designs, observations and analyses of various monitoring means in large space ranges, mutual complements, comparisons and verifications between the various observation means are achieved, meanwhile each separate monitoring technic is innovated and promoted, and the in-situ precise measurement of the large space motions of the coal mine mining stratum is achieved.

Description

technical field [0001] The invention relates to a rock movement monitoring technology before and after coal seam mining, in particular to a 1:1 in-situ monitoring method for a large space range of overlying rock before and after coal seam mining, specifically a large-space in-situ monitoring method for coal mining rock movement. Background technique [0002] The movement characteristics and rules of rock strata after coal mining have always been the core issue of coal mining. Rock strata movement is closely related to disasters such as stope pressure, gas outburst, water seepage, and gob fire. However, because the rock movement is closely related to its geological environment, rock properties, mining conditions and other factors, the complexity and diversity of the rock movement have been created, making the research on the rock movement itself in a "black box" state more complicated. . In recent years, scholars at home and abroad have done a lot of work on the study of roc...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E21F17/18E21B47/002E21B49/00G01C5/00G01N3/08G01B11/24G01V3/00
CPCE21B47/002E21B49/00E21F17/18G01B11/24G01C5/00G01N3/08G01V3/00
Inventor 于斌高瑞匡铁军段宏飞
Owner DATONG COAL MINE GRP
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