SU1113552A1 - Method of mining chambers in hole hydraulic winning of solid useful minerals - Google Patents

Abstract

1. METHOD OF CAMERA RECOGNITION IN THE BORING WELL PYCHRODODYBYCHE SOLID UTILITY, including penetration from the adjacent wells of intersecting radiation workings, conditional breakdown of chambers into sectors, formation of transport workings in the underlying rocks with the slope of the striker eye pattern, with the slope of the surface of the pattern, the surface of the pattern and the surface of the striking pattern of the surface of the striking pattern. chambers with centrally symmetric bores, characterized in that, in order to reduce dilution, transport workings are arranged along the contour of the chamber and formed in the form trenches expanding from adjacent wells to the point of their intersection, while in the process of mining the sector the slope of the chamber bottom; Perforated perpendicularly (/) longitudinal axis of the trench.

Description

2. The method according to p. 1, characterized in that the transport arrangement is located in the center of the chamber, and the testing is conducted by beam trips in sectors located mirror-symmetrically with respect to the adjacent wells to us.

3. The method according to p., Which differs from the fact that the transport excavations form along the contour of the chamber from one of its sides, and the development is carried out by ray penetrations in sectors located mirror-symmetrically with respect to the adjacent wells.

The invention relates to mining, in particular, to methods for downhole hydraulic extraction of minerals, and can be used in the development of sandy-clay deposits, for example, phosphorite-containing sand, oil sandstones, etc.

There is a method of downhole hydraulic mining of sedimentary deposits, which includes drilling and equipment wells, the descent of hydrodynamic units in the well, the erosion of mineral from one well to another adjacent and the rise of mineral in the form of pulp on the surface ij.

The washing out of a mineral from one well to another, adjacent to the mining chamber, is carried out by complete bottomhole at the full angle of the erosion sector with the top in the mining well. This leads either to increased losses if the drift for gravity hydrotransport is formed in the ore formation, or to more dilution during the formation of a slope in the underlying rocks, as well as to significant manifestations of rock pressure, especially in the central part of the chamber. Therefore, under complex geological conditions, with poorly stable and unstable rocks of the ore formation roof, which is typical of sedimentary deposits developed by the method of GDS, significant losses and dilution of the mineral are observed, and in some cases blockages may occur. All this reduces the overall efficiency of production. .

There is a method of excavation chambers in the downhole gas production of solid minerals, including sinking

from adjacent chambers of mutually intersecting radiation workings, conditional breakdown of chambers into sectors, formation of transport workings in the underlying rocks with a bottom inclination in the direction of sump wells, working out sectors by radiation entry from the radiation workings towards the chamber in the direction of centrally symmetric approaches 2,

The disadvantage of this method is the increased dilution of the mineral by the underlying rocks.

The aim of the invention is to reduce the dilution of the mineral.

This goal is achieved by the fact that according to the method of excavation of chambers at hydrodynamic wells extraction of solid minerals, including penetration from adjacent wells of intersecting radiation workings, conditional division of chambers into sectors, formation of transport generation in the underlying rocks towards the bottom of wells, and development of sectors by ray penetration from the radial workings towards the chambers by centrally symmetric passages, the transport workings position the chamber contour and form it in the form of trenches, widening from adjacent wells to the point of their intersection, while in the process of mining the sector, the bottom of the chamber is perpendicular to the longitudinal axis of the trench.

Transport generation is located in the center of the chamber of the axis of the trench, and the testing is conducted by radial approaches in sectors located mirror-symmetrically with respect to adjacent wells.

In addition, transport developments form along the contour of the chamber with od3II

from its sides, and mining is carried out by radial entries in sectors located mirror-symmetrically with respect to adjacent wells.

FIG. 1 - 3 shows the options for working cameras in this way; in fig. 4 - sections BB, B-B and G-G in FIG. 1, 2 and 3, respectively (in section A-A, the slope of the bottom of the excavation in the underlying formations is shown).

The method of removing the chambers is carried out as follows (Fig. 1 - 3).

Firstly, the excavation of the mine workings 1-1 is made to their stand at an equal distance from. adjacent wells. In this case, a slope 1 is formed in the underlying rocks, which ensures an effective self-flowing hydraulic composition of the broken rock mass 2 (Fig. 4, section AA). Then from radiation 35524

The works 3 are used to crush the mineral in sectors 4–9, forming a temporary zigzag pillar. 10. For this purpose, the development of sectors 4–9 is performed with a lag of each subsequent sector as compared with the previous one. In the course of testing the chamber, simultaneously with the formation of a zigzag pillar, a slope of the bottom of the chamber 11 is formed in the direction of the radial workings 3. The sequence of mining the sectors 4-9 with this method of excavation is performed in sequence number.

Taking into account the geological conditions, choose the number and size of the radial sectors.

The proposed method of excavation chambers at downhole hydraulic mining reduces the dilution of the mineral.

Claims (3)

1. METHOD OF DIGGING CAMERAS DURING BOREHORE HYDRODOOMING OF SOLID USEFUL FOSSILS, including penetration from adjacent wells of intersecting beam workings, conditional breakdown of chambers into sectors, formation in the underlying rocks of the transport workout with a slope of the holes of the holes from the bottom of the workings to the openings of the holes towards the camera with centrally symmetrical approaches, characterized in that, in order to reduce dilution, the transport workings are arranged along the camera’s contour and are formed as trans s, expandable from adjacent wells to a point of intersection, wherein in the process of mining sector bias chamber floor operate perpendicularly to the longitudinal axis of the trench. Wil 11 1111552 2. The method according to p. ^ Characterized in that the transport working out is located in the center of the chamber, and the working out is carried out by radiation approaches in sectors located mirror symmetrically with respect to adjacent wells. 3. The method of pop. 1, distinguished by the fact that the transport workings are formed along the contour of the chamber from one of its sides, and the processing is conducted by radiation approaches in sectors located mirror symmetrically with respect to adjacent wells.