SU1461925A1 - Method of determining strained state of rock mass portions - Google Patents

Abstract

The invention relates to mining. The purpose of the invention is to increase the accuracy of the method by increasing the external influence. For this purpose, acoustic emission sensors (AE) are placed at the bottom of the mine in the place of the supposed movement of the bottom hole support. Receipt of AE signals, imposed by an external force effect on the array, are performed. The source of force is the reference pressure, which varies with the movement of lining or retraction. The intensity of the AE is determined. According to the data obtained, the stress state of the parts of the array is determined. The method allows to increase the level of useful signals and to obtain information from a larger volume of rocks. about train

Description

one

The invention relates to mining and is intended to study the stress state of a rock mass in the prediction and control of dynamic manifestations of rock pressure.

The purpose of the invention is to increase the accuracy of the method by increasing the impact.

The physical basis of the method is a change in the acoustic emission of rocks during an external force effect on the area under study.

The method is carried out as follows.

At the bottom of the mine, at the site of the alleged bottomhole attack. lining place sensors acoustic emission.

The sensitivity of the acoustic emission sensors must be matched to the region of the edge of the array, which will be affected by the redistribution of the reference pressure. Used motive to support or collapse, roof to support support pressure

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the edge portion of the array is changed, causing a redistribution of stresses in it. This redistribution of the stresses of the reference pressure is used as a source of force action that initiates acoustic emission of rocks. The intensity of acoustic emission is determined at the time of the lining or collapse of the roof, and according to the data obtained, the stress state of the studied sections of the rock mass is determined.

N: p and me. The use of the method is 6a for a relative assessment of the stress state of various parts of the lava of the mine, where the refining works in the lava of the steep coal formation are accompanied by dynamic manifestations of rock pressure.

In order to reduce the danger of rock bursts, refining operations were carried out with advance drilling of large-diameter relief wells. Wells were drilled from the breast of the lava face 1 m from each other. Drilling wells significantly reduces the productivity of mining operations. In this connection, the task arose of isolating stressed areas in lava in order to drill relief wells only where it is needed. To solve this problem, the intensity of acoustic emission in the podbngani process was measured in various parts of the lava. The acoustic emission sensors were installed at a distance of x 10 m from the conveyor drift (in the lower part of the lava) and the ventilation drift (in the upper part of the lava) and at the same distance from the roof

and soil. The measurement time was 10 min. In the upper part of the lava, during this time, 883,622 pulses were recorded, and in the lower part, 318,506 pulses. pulses. Thus, the intensity of acoustic emission, respectively, amounted to 1972.7 pulses / s in the upper part of lava and 530.8 pulses / s in the lower part. .

Later drilling relief wells produced only in the upper part of the lava.

Improving the accuracy of the proposed method is achieved by increasing the external impact on the array, which leads to an increase in the level of useful signals, as well as by obtaining information from a larger volume of rocks.

Claims (1)

Invention Formula The method of determining the stress state of parts of the rock massif, including external force effect on the studied area and determining the intensity of acoustic emission caused by this effect, which determines the stress state of the array, characterized in that, in order to increase the accuracy of the method by increasing the external influence, the redistribution of the reference pressure, caused by the movement of roof supports or the collapse of the roof, is used as a source of force, and the determination of the intensity and acoustic emission is carried out at the time of the roof support or collapse.