SU1666772A1 - Hydraulic fiiling of chambers - Google Patents

Abstract

The invention relates to the mining industry and m. used in underground mining of mineral deposits by hydraulic laying of the goaf. The goal is to increase the efficiency of backfilling work in the development of formations with inter-chamber pillars. Under the chambers (K) 1, to be laid, field stowing bridges 2 are perpendicular to their longitudinal axis. In the roof K1, slits 4 are cut with output of their ends into inter-chamber pillars. From the filling drifts, 2 boreholes 5 injection and drainage 6 wells (C). Injection C 5 drills into interchamber pillars before intersection with the ends of slots 4, and drainage C 6 up to intersection with soil K 1. Before laying, K 1 is isolated from reservoir drifts 8 by means of jumpers 9, and in the mouth of C 5, the outlet is sealed slurry pipeline. Then C 5 serves in K1 backfilling pulp. The excess water from K 1 is drained along C 6 to the backfill drift 2 and through its trench 3 it flows down into the sump. 2 Il.

Description

The invention relates to the mining industry and can be used in the underground mining of mineral deposits with hydraulic laying of the developed space.

The purpose of the invention is to increase the efficiency of backfilling operations when developing retinues with inter-chamber pillars.

FIG. 1 shows pledged chambers of the retinue of the layers with backfilling drifts located under them, a longitudinal section; in fig. 2 shows section A-A in FIG. one,

The method is carried out as follows.

Under the chambers 1 to be laid, field stowing bridges 2 are perpendicular to their longitudinal axis. The number of drifts and their location under the cleaning chambers 1 are selected based on the required filling capacity of chambers of a certain length of stowing material. In order to efficiently drain water from drifts when a droplet from several diverting wells in the soil of the drift, a drainage system is laid. 3 In the longitudinal section, the backfill drift has a slight slope that is necessary to drain excess water into the sump.

In the roof of the cleaning chambers, slits 4 are cut with their ends into inter-chamber pillars, and injection wells 5 are drilled into inter-chamber pillars in such a way that their faces are located in the region of the highest roof marks of the laid chambers with the intersection of the ends of the gaps, as well as the drill tons of well 6 in the direction of the lowest possible levels of soil pledged chambers 1. The diameter of the wells 5 is chosen commensurate with the diameter

removal of the pipeline 7 in order to provide the necessary performance bookmarks. The diameter of the wells 6 is chosen less than the diameter of the wells 5 for

so that the water was drained through them, but the solid part of the hydraulic folding was not carried out with it. With the same purpose, the wells 6 on the soil side of the chambers 1 can be covered with nets or filter bridges. Less

the diameter of the wells 5 allows to reduce the amount of drilling.

Before laying, chambers 1 are isolated from reservoir drifts 8 by installing jumpers 9, and in the wellhead 5 they are hermetically sealed off the slurry pipeline 7. After this, the wells 5 feed the filling slurry into chambers 1. The excess water from chambers 1 drains through wells 6 into the stowing drift 2 and through its trench 3 flows into a water collector.

Claims (1)

The invention of the method of hydraulic bookmarking cameras, including cutting gaps in the roof chambers, driving of filling drifts in the host rocks below the treatment chambers perpendicular to their longitudinal axes, drilling from the loading drifts of the pressure and drainage wells, injection wells of pulp and drainage of excess water through WATER well, characterized in that, in order to increase the efficiency of filling operations during development of the formation formations with inter-chamber pillars, when cutting gaps in the roof of the chamber, their ends are brought into the inter-chamber target section, insulating bridges, injection wells are installed drill into inter-chamber pillars before intersection with the ends of the cracks, and drainage wells - before intersecting the chambers with the soil. z + FIG. 2