SU949182A1 - Method for working gently sloping mineral seams - Google Patents

Description

(54) METHOD FOR DEVELOPMENT OF EPOLOGICAL LAYERS OF MINERAL RESOURCES

The invention relates to the mining industry and can be used for combining the recess chambers of closely spaced layers with low-power inter-area x.

There is a method of developing potash salts, which includes the removal of chambers of contiguous layers separated by interlayer 1.

The closest technical solution to the invention is a method of developing flat seams of minerals, including panel preparation, excavation of preparatory and cut openings, ore chutes, ore extraction by chambers, penetration of trenches less than the width of the chamber along the entire length of the chamber, harvesting of the rock into spent chambers and release ore 2.

The disadvantages of this method are low development efficiency due to the need for a large amount of field development workings, the impossibility of using combine complexes at the clearing recess and the increased danger of conducting work.

The aim of the invention is to increase the efficiency of ore extraction through the use of combine complexes and the safety of cleaning operations in the development of close flat seams.

The goal is achieved by passing the trench after the chamber has been worked

5 of the upper layer in the underlying rocks to the roof of the lower layer, then a trench is deepened into the lower layer and expanded when the ore is excavated to the design dimensions of the chamber, while leaving the rear sight under the excavation, with two opposite chambers of adjacent half panels during the excavation of reserves of neighboring chambers, and the broken ore is delivered first to the excavation drift through the sludges that pass through the soil of the lower reservoir to the neighboring chambers, and after the ore passes are opened. - on the ore passes.

FIG. 1 shows a part of the panel in the plan; in fig. 2 is a section A-A in FIG. one; 2Q in FIG. 3 shows a section BB in FIG. 2; in fig. 4 shows a section B-B in FIG. one; in fig. 5 a section of YYY in FIG. four; in fig. 6 is a section d-d in FIG. one; in fig. 7 shows section EE of FIG. one; in fig. 8 - LC section in FIG. one.

In preparing the panel for mining, excavation 1, two ventilation drifts 2 and ore drainage wells 3 are transported to the upper drift 4. The cleaning excavation of the layers is carried out by chambers 5 in a downward order. At the end of the chamber excavation, an opening trench 6 in the soil of the chamber passes along the longitudinal axis of the chamber from the excavation drift 1 along its longitudinal axis and to the depth to the roof of the underlying formation with the rock from the penetration into the previously used chambers. In order to reduce the cost of conducting the trench, it is formed with a width smaller than the width of the chamber, which is determined from the condition of ensuring the stability of the consoles that are formed and between the areas for the technological time of working out and laying the chamber. After opening the underlying reservoir, the excavation of its reserves is carried out by deepening and extending the opening trench to the design dimensions of the chamber. When working out the trench opened by the lower reservoir, it is highly productive to work it out with a combine complex, the safety of cleaning works is improved due to preliminary degassing of the reservoir and ventilation of the chambers due to a general depression, the driving conditions of the combine with a complex hypsometry of the bed are improved. In this case, under the excavation drift, a part of the mineral reserves A remains in the underlying reservoir, the excavation of which is carried out at the end of the next chamber. For this, the coupling of 7 is carried out on the soil of the lower reservoir and the remaining reserves are simultaneously excavated in two opposite chambers, delivered broken ore through coupling 7 to the excavation shtrak, and after opening the ore-bleeding hole - to the ore-bleeding hole

The use of the proposed method ensures the effective use of a combine excavation in the development of contiguous formations and an increase in the efficiency of mining operations due to an increase in the labor productivity of workers at the cleanup // ////// //

N

-IH, IllTO L

excavation, increase the quality of the mined ore by eliminating dilution of its rocks by interplast, improving working conditions, increasing its level of mechanization, as well as improving the safety of developing gas-rich reservoirs due to their preliminary degassing and ventilation of the chambers due to general depression.

Claims (2)

1.Imenitov V.R. Underground mining processes in the development of ore deposits. M., "Nedra, 1978, p. 353-364. 2. USSR author's certificate No. 714012, cl. E 21 C 41/06, 1980 (prototype).   J -S Th i Y / V // //, / 7 XLK  e / yjrf yf f7 / (7Cf7r fft / Jfr Vt / -f; lfu ff -I +