SU1312169A1 - Method of underground working of mineral bed deposits - Google Patents

Abstract

The invention relates to the mining industry and makes it possible to increase the efficiency of development by reducing the costs of conducting and maintaining workings in poorly durable rocks of the immediate roof. Based on the statistical analysis of field data, critical values of the magnitude and rate of rock deformation are established above and below the reservoir under development. According to their values, the boundaries of the zone of destructive influence of the clearing recess are revealed. On these boundaries in the host rocks above and below the reservoir under development, preparatory workings are made: transport 1, 2 and ventilation drifts. From the field transport gateway 2, slopes 4 pass to the reservoir, between which excavation drifts 5 pass with a minimum section sufficient for supplying air and driving vehicles. In connection with the size of the shearers, the 6 excavation P1 tracks, as the cleaning work front moves, are extended in sections E not exceeding the distance from the front chamber 7 to the maximum of the reference pressure. 1 il. - S (L 00 N4 ND 05 (D 72

Description

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The invention relates to the mining industry and is intended for underground mining of the Plast mineral deposits with low-resistant direct roof rocks.

The purpose of the invention is to increase the efficiency of development by reducing the costs of conducting and maintaining workings in low-resistant rocks of the immediate roof.

The drawing shows the layout of mountain views, axonometrics.

The method is carried out as follows.

On the basis of statistical analysis of field data, critical values are established for the magnitude and rate of deformation of the rocks of the night-roofs of the workings at which their safe operation is ensured. According to established criteria for the sustainability of mine workings, the boundaries of the zone of destructive influence of the clearing recess, i.e. the minimum normal distance from the reservoir to the production contour, for which, taking into account its size and the required safe operation time, the calculated value and deformation rate do not exceed critical values.

In the host rocks, preparatory workings are made: transport. (conveyor 1 and conveyor 2) and vent drifts that are located above and below the formation at the boundaries of the zone of destructive influence of the clearing recess. From the field transport gait 2, slopes 4 are passed onto the formation, between which the gates 5 pass, with a minimum cross-section, sufficient for supplying air and moving self-propelled vehicles. In connection with the significant dimensions of the shearer 6, the excavation drifts 5 are extended in sections of length 2, not exceeding the distance from the forward chamber 7 to the maximum of the reference pressure, as the cleaning operation front moves.

Between the excavation drifts 5, the entire pillar of the mineral is formed by a width of more than twice the turning radius of the shearer. In the mid-track pillar at the end of each stretch of the extension you- VNIIPI Order 1942/27

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capacitive drifts 5 cut through semi-ring connections 8, with which shearers 6 unroll and expand excavations 5. After expanding excavators 5 by length P of the section and the formation of a new semi-circular connection 8, shearers 6 are chased off to the presentation box 8 where they are deployed back and continue cleaning the notch in their half panels,

Slopes 4 pass from field transport drift 2 to their release to the formation of minerals between excavation drifts 5 and horizontal production 9 are connected to semicircle slugs 8. Transportation of mining materials repaired by combine harvesters 6 is carried out, for example, by self-propelled cars 10 to of the ore chutes drilled from the field conveyor drift 1 to the reservoir excavation drifts 5. To ventilate the 25th section, the semi-ring connections 8 are connected to the ventilation drifts Z. and the ventilation gesenes 11. In order to reduce air check through the airspace and avoiding shorting of the air jet, slopes 4 and ventilation gesenki M overlap - re-lock 12.

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Claims (1)

Invention Formula A method of underground mining of stratal mineral deposits, including the carrying out of preparatory workings above and below the reservoir under development, the expansion of excavation drifts by sections and a clearing excavation in advanced chambers, which is characterized by the fact that, in order to increase the efficiency of development by reducing the costs of excavations in weakly resistant rocks of the roof directly reveal the magnitude and rate of deformation of the rocks above and below the developed seam of the boundary of the zone of destructive influence audio cleaning recesses preparatory generation extend along these boundaries, and the extension distributed excavation drifts produced on areas not prevsh1akschih distance from the front chamber to the reference pressure maximum boundary. Circulation 455 Subscription Random polygons pr-tie, Uzhgorod, st. Project, 4 Slopes 4 pass from field transport drift 2 to their release to the formation of minerals between excavation drifts 5 and horizontal production 9 are connected to semicircle slugs 8. Transportation of mining materials repaired by combine harvesters 6 is carried out, for example, by self-propelled cars 10 to of the ore chutes drilled from the field conveyor drift 1 to the reservoir drifts 5. To ventilate the site, the semi-ring connections 8 are connected to the ventilation drifts Z. and ventilation gecenes 11. To reduce leakage The air flow through the mined space and the avoidance of shorting the air jet are slopes 4 and vent gesenki M overlap - 12. Invention Formula A method of underground mining of stratal mineral deposits, including the carrying out of preparatory workings above and below the reservoir under development, the expansion of excavation drifts by sections and a clearing excavation in advanced chambers, which is characterized by the fact that, in order to increase the development efficiency by reducing the costs of excavations in weakly resistant rocks of the roof directly reveal the magnitude and rate of deformation of the rocks above and below the developed seam of the boundary of the zone of destructive influence audio cleaning recesses preparatory generation extend along these boundaries, and the extension distributed excavation drifts produced on areas not prevsh1akschih distance from the front chamber to the reference pressure maximum boundary. rage 455Subscribe