RU2010953C1 - Method of determination of cracks spreading height in basic zone of working - Google Patents

Abstract

FIELD: mining. SUBSTANCE: inert gas is brought into barren rock mass by forced destruction of a gas cylinder. The gas cylinders are placed in the soil of the working. After gas cylinders forced destruction the gas from the cylinders, using barren rock mass appeared cracks, goes up to daylight surface. Its appearance is fixed by test boreholes, made from the ground surface or from a working, located over the tested one. EFFECT: method facilitates accuracy of determination of upper border of cracks spreading zone. 4 cl, 1 dwg

Description

 The invention relates to mining, in particular, to methods for determining the propagation height of an area of technogenic (gas-conducting) cracks formed under the influence of mining work on the collapse of a roof during management.

 Knowing the height of the propagation zone of technogenic cracks over the mine workings is of great importance for the design of degassing works and the development of minerals under water objects (aquifers, rivers, streams, watered beams, etc.).

 There is a method of determining the height of the zone of water-supply cracks by pouring water into wells drilled according to a certain pattern before and after undermining a rock mass. The height of the zone of water-supply cracks is judged by a decrease in the water level in the wells before and after the undermining of the rock mass [1].

 This method is complex and does not provide sufficient accuracy.

 Closest to the invention is a method for determining fracturing of rocks, which consists in the fact that injection and control wells are drilled in the production, the working agent is injected into the injection wells and its output from the control wells is recorded [2].

 This method, however, does not allow the necessary accuracy to determine the upper boundary of the zone of technogenic (gas-conducting) cracks. In addition, it is characterized by great complexity.

 The purpose of the invention is to increase the accuracy of determining the propagation height of the zone of technogenic cracks and reduce the complexity of their determination.

 This goal is achieved using the method for determining the propagation height of the zone of technogenic cracks in a moving rock massif above the treatment mine, which consists in drilling control wells, supplying and massing the working agent and fixing its output in control wells, according to which inert gas is used as the working agent, the supply of which to the massif is carried out by forced destruction of the inert gas canisters placed in the soil of the treatment plant, and the control wells are drilled at times personal depth from the surface in the direction of movement of the face.

 Helium is preferably used as the inert gas.

 It is advisable that the distance between the control wells corresponds to the distance between the cans of gas placed in the soil of the mine and the double step of the collapse of the main roof.

 Forced destruction of gas cans can be accomplished by blasting them.

 The drawing shows a diagram of an implementation of the proposed method.

To determine the propagation height of the zone of technogenic cracks formed in the moving rock massif above the mine working while managing the collapse roof, a number of vertical wells I, II, III of various depths are drilled from the surface of the earth or from an upstream mine along the direction of the working face movement (the drawing shows three wells, in reality there may be more). The deepest well I is drilled to a depth exceeding the propagation height of the zone of water-supply cracks, which is known, for example, by an amount equal to the extracted thickness m of the coal seam. The shortest well III is drilled to a depth not reaching the proposed upper boundary of the zone of water-supply cracks, for example, by 2m. The depth of the intermediate wells corresponds to the average between the maximum and minimum depths. The depth of wells I and III is determined by the condition according to which the maximum well must cross the upper boundary N _{t of} water-supply cracks, and the minimum well should not reach this boundary. The distance between the wells is taken to be approximately equal to the double step of the collapse of the main roof so that they fall into the stage of the active process of displacement and deformation of the rocks of the undermining stratum.

 With the approach of the face line 1 to well III in the bottomhole space 2, a groove 4 is made in the soil of the coal seam 3, into which a barrel 5 of easily destroyed material with inert gas is laid.

 For economic reasons, it is preferable to use helium as such a gas. Grooves are necessary so that when moving the mechanical lining, accidentally do not damage the cans of gas. After moving the face to the two steps of landing 2L of the main roof, the helium can is forcibly destroyed, for example, by undermining it. To do this, the spray can is equipped with an explosive pack 6. The same is done when the slope line approaches well II and well I, etc. The distance between the cans is approximately equal to the distance between the wells, and approximately double the collapse of the main roof.

 Helium from the destroyed canister rushes to the day surface along cracks formed in the undermined massif of rocks. Its movement in observation wells is recorded, for example, using the INGEM-1 device or another similar device. In each of the wells, observations of helium occurrence continue until the next double step of collapse of the main roof.

The height H _{g of the} propagation zone of technogenic cracks in a moving rock mass is judged by the distance from the production to the bottom of the well, in which the release of helium is recorded. If the occurrence of gas is recorded in the shortest well, therefore, the H _g zone extends to a height equal to the distance from the production to the bottom of this well. (56) Copyright certificate of the USSR N 1509529, cl. E 21 C 39/00, 1989.

 USSR author's certificate N 1460254, cl. E 21 C 39/00, 1989.

Claims (4)

 1. METHODS FOR DETERMINING THE HEIGHT OF DISTRIBUTION OVER THE PRODUCTION ZONE OF TECHNOGENIC CRACKS in a moving rock mass, including drilling control wells, supplying a working agent to the array and fixing its output in control wells, characterized in that, in order to increase the accuracy of determining the upper boundary of the crack propagation zone and reduce the complexity of the work, inert gas is used as a working agent, the supply of which to the array is carried out by the forced destruction of inert gas cans, excavations in the soil, and control wells are drilled to various depths from the day surface or from the upstream excavation along the direction of the face.  2. The method according to p. 1, characterized in that helium is used as an inert gas.  3. The method according to p. 1, characterized in that the control wells and cartridges with inert gas are placed in the soil of the mine at a distance approximately equal to the double pitch of the collapse of the main roof.  4. The method according to p. 1, characterized in that the forced destruction of the cans of gas is carried out by blasting them.

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