RU2576427C2 - Method for underground development of thin, sloping and inclined veins with combined filling - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention can be used at underground development of thin, sloping and inclined veins. Method consists in preparation and cutting treatment units, sections of blasting wells with formation rock barrier, parallel breakage face, in construction of stowing connection straps along development workings and in filling gaps between adjacent rock shafts hardening stowing. Construction of stowing connection straps and filling of hardening filling of gaps between adjacent rock shafts is performed during development of block-section, with delay from mining face by width of one section with recess cores in rocks below middle stability or, after complete development unit, series throughout height of core extraction unit inclined in rocks average mean stability.

EFFECT: higher safety of mining operations and wider field of use geotechnology with separate excavation of ore and rock.

1 cl, 3 dwg

Description

The invention relates to the mining industry and can be used in underground mining of low-grade shallow and inclined cores.

A known method for the development of flat and sloping veins with the laying of the worked out space in the process of treatment excavation [Galchenko Yu.P., Sabyanin G.V. Problems of geotechnology of vein deposits. - M .: Nauchtekhlitizdat, 2011 .-- 408 p. (Fig. 3.2.13 on page 138)]. The disadvantage of this method is the need for unproductive and dangerous work on the construction of the filling array with the constant presence of workers directly in the treatment space.

The closest to the technical nature and the achieved result is a method of underground mining of shallow and inclined ore bodies of low power [RF Patent No. 2441162. Publ. 01/27/2012. Bull. Number 3. Trubetskoy K.N., Galchenko Yu.P., Sabyanin G.V., Shuklin A.S. "The method of underground mining of shallow and inclined ore bodies of low power" (prototype)].

The disadvantage of this method is the high flexibility and insufficient bearing capacity of the supporting structures in the form of rock shafts formed in the process of treatment excavation and located parallel to the face, and the consequent possibility of unpredictable uncontrolled collapse of the roof at various stages of mining operations.

The aim of the invention is to increase the safety of mining and expand the scope of geotechnology with separate excavation of ore and rock due to the involvement in the development of shallow and sloping veins.

This goal is achieved by the fact that the treatment unit is prepared for mining by sinking preparatory and drilling workings. The ore and rock are broken in sections separately by parallel wells drilled perpendicular to the longitudinal axis of the drilled workings. First, one of the known methods of explosive delivery is beaten and discarded, for example, by sequentially blasting layers of variable width, the rock above the core within the total extraction capacity, and then the core is beaten off at its location. The broken ore is removed by one of the known methods, for example by scraping, and the discarded rock is left in the form of a rock shaft in the worked-out space of each section on its outer boundary, relative to the position of the working face. Along the preparatory workings in the gaps between adjacent rocky shafts, one of the known methods, for example using pneumatic shells, is used to fill in jumper, and the gaps between adjacent rocky shafts are filled with a hardening tab.

The construction of stowing bridges and filling the gaps between adjacent rock shafts is carried out in the process of block mining section by section with a lag behind the working face by a width of one section with host rocks below average stability or after complete mining of the block sequentially to the entire inclined block height with average and above average stability of host rocks .

The invention is illustrated by drawings. In FIG. 1 shows a mining block treatment scheme in host rocks below average stability. In FIG. 2 shows a section of a treatment unit during excavation in rocks of medium and above average stability. In FIG. 3 shows a scheme for working out the treatment unit at the stage of laying the gaps between the rock shafts.

The method of underground development of shallow and inclined cores comprises a treatment unit 1, preparatory 2 and drilling 3 workings, worked out sections 4, wells 5, containing rocks 6, core 7, broken ore 8, rock shaft 9, treatment face 10, filling lintels 11, intervals 12 between the rock shafts 9, the hardening tab 13.

The method is as follows. The treatment unit 1 is prepared for mining by sinking preparatory 2 and drilling 3 workings. The ore and rock are broken in sections 4 separately by parallel wells 5 drilled perpendicular to the longitudinal axis of the drilled 3 workings. First, one of the known methods of explosive delivery is beaten off and discarded, for example, by sequentially blasting layers of variable width, containing rock 6 located above the core 7. Then the core 7 is beaten off at its location. The beaten ore 8 is removed by one of the known methods (for example, by scraping), and the beaten rock is left in the block 1 as a rock shaft 9 on the outer boundary of the section 4 with respect to the position of the working face 10 (Fig. 1, 2). As the working face 10 moves along the preparatory workings 2, one of the known methods is installed in the spaces between adjacent rocky shafts 9, for example, using air shells, filling bridges 11. After installing the filling bridges 11, the gap 12 between adjacent rocky shafts 9 is filled with a hardening tab 13.

When developing shallow and inclined cores 7, which are located in the rocks 6 below average stability, the construction of stowing bridges 11 and filling of the hardening tab 13 of the gaps 12 between adjacent rock shafts 9 is performed sectionwise with a gap from the working face 10 to the width of one section 4 (Fig. 1, 3).

When developing shallow and inclined cores 7, lying in rocks 6 of medium and higher than average stability, the stowing bridges 11 are sequentially erected after the block 1 has been completely worked out to the entire inclined height of the block 1 and sequentially fill all the gaps 12 between the rock shafts 9 with a hardening tab 13 (Fig. 2, 3).

Claims (1)

The method of underground development of thin shallow and sloping veins with a combined laying, which consists in preparing and cutting treatment blocks, blasting sections into boreholes with the formation of a rock shaft parallel to the working face, in the construction of filling bridges along the preparatory workings and in filling the gaps between adjacent rock shafts with a hardening bookmark , characterized in that the construction of filling tabs and filling hardening tabs of the gaps between adjacent rock shafts produced in in the process of mining the block section by section with a lag of the working face by the width of one section when excavating conductors in rocks below average stability or after completely working off the block sequentially to the entire inclined height of the block when excavating conductors in rocks of medium and above average stability.

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