RU2107818C1 - Method for development of flat and inclined seams of minerals - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: according to method, mining field is divided along strike into stalls, intermediate inclined workings are driven at boundaries of stalls along seam at angle to extracting drifts, and working of seam by pillars with stopping faces going across inclined workings. Auxiliary and conveyor slopes are arranged in middle of mining field, thus dividing it into rear and front stalls which are additionally divided into parts both on dipping and on strike by making additional inclined workings. Seam is worked by long pillars along strike with extending stopping faces in lower part of mining field at beginning of intermediate inclined workings, then of additional workings. Operation in upper part of mining field is performed at beginning of additional workings, then of intermediate inclined workings. In development of seams appearing under alluvium and by open and subsurface operations, inclined workings located at side of rear flange of stall upper part are driven from day surface of from quarry floor. EFFECT: higher efficiency. 1 cl, 6 dwg

Description

 The invention relates to mining and can be used for opening, preparing and mining flat and inclined coal seams located in large inclined fields along strike and dip.

 A known method of panel development of shallow seams of minerals, including dividing the mine field on the panel, conducting main retraction and excavation drifts, central panel slopes (Bremsbergs) with walkers dividing the panel into two wings, and mining the formation in each wing of the panel with long columns for wiping, starting from the flanks towards the central panels of the workings [1].

 However, with such technological schemes, the extraction of minerals in the wings leads to the guarded central panel workings of safety pillars, which contributes to an increase in mineral losses in the bowels of the earth. Practice has shown that the extraction of pillars of coal after mining reserves in the wings of the panel leads to an increase in the cost of one ton of mined minerals compared with the cost of mining the formation in the wings of the panel with lava, equipped with mechanized complexes 2.5 - 10 times. In addition, the small length of the wings of sloping fields (an average of 820 m) leads to frequent remodeling of mechanized complexes. The cost of transferring the equipment of modern complexes from the old lava to the new one reaches 20% of the cost of the complex, which increases the complexity of the work and the cost of coal mined. At the same time, coal production for lava is reduced due to an increase in the time spent on installation, dismantling and transportation works, on rolling of the recycle mantle and on lava rocking during its commissioning.

 The closest in technical essence to the invention is a method of developing gentle and inclined seams of minerals, including dividing the mine field on the panel, conducting inclined workings and excavation drifts and mining the formation with lavas, starting from the lower boundary of the mine field, with successive commissioning of the upstream lavas along one between adjacent parallel inclined workings and the formation of a steep mining front, in which the inclined workings are carried out along the mineral layer with the daily the surface is conducted along the mineral layer from the day surface at an angle to the excavation drifts, and the development of the formation is carried out with the transition of inclined workings by the lavas [2].

 However, this method does not provide for the development of shallow and inclined strata of minerals by excavation fields of great length simultaneously along strike and dip, which reduces the efficiency and scope of its application. When mining large-length excavation fields along strike and dip, additional costs arise for the delivery of materials, equipment and people for inclined workings and excavation drifts, and the cost of maintaining them also increases.

 The problem and the object of the invention to be solved is to find an effective way to develop shallow and inclined coal seams located in sloping fields of great length along strike and dip, reducing the length of delivery of materials, equipment, people and coal to mine workings, as well as reducing the cost of maintaining mine workings, increasing the load on the lava and reducing the cost of coal mined.

 This goal is achieved by the fact that in the method of developing shallow and inclined layers of minerals, including dividing the mine field along the strike on the panel (part), conducting in the middle of the panel along the mineral layer at an angle to the excavation drifts of intermediate inclined workings (conveyor and auxiliary slopes) and development of the formation by methods with the transition of inclined workings by the lavas, the mine (inclined) field of great length along strike and dip is divided both along strike and fall into parts by the use of additional inclined workings (slopes) and excavation drifts, with additional inclined workings from the rear flange being carried out in the upper part of the field from smooth drifts to excavating drifts, dividing the field by falling into parts, and from the front flank in the lower part of the field from excavating drifts separating the field according to the fall of the part to the lower boundary of the field, and the development of the formation is carried out by long columns with the transition to working faces: in the lower part of the field, first intermediate, and then additional deviations, and in the upper part STI field - at the beginning of more, and then the intermediate slopes. In addition, when developing coal seams that go under the pumps and mineral deposits through open-pit mining, intermediate inclined workings conducted along the coal seam to the lower boundary of the field, and additional inclined workings located on the back flank in the upper part of the field, are carried out by a coal seam or surface, or from a quarry soil.

 In FIG. 1 shows an example implementation of the method when developing a hollow coal seam located below the working horizon of an active mine; in FIG. 2 is a sectional view of the abc in FIG. one; in FIG. 3 shows an example implementation of the method when opening the coal seam from the surface; in FIG. 4 is a sectional view of the abc in FIG. 3; in FIG. 5 shows an example implementation of the method in open-pit mining of shallow and inclined coal seams; in FIG. 6 is a sectional view of the abc in FIG. 5.

In FIG. 1 - 6 are designated 1, 2 - the upper and lower parts of the panels of the mine field, located at the bottom of the formation; 3, 4, 5 - parts of the mine field, placed along the strike of the formation in the upper and lower parts of the panels; 6, 7 - the main drifts, conveyor and auxiliary (Fig. 1, 2), passed through a coal seam in the upper part 1 of the mine field; 8 - treatment face (treatment output); 9, 10 - front and rear flanks of the mine field; 11, 12 - auxiliary and conveyor slopes, passed along the coal seam on the front flank 9 from the main drifts 6, 7 (Fig. 1, 2) or from the surface 13 (Fig. 2, 3), or from the soil 14 of the quarry 32 (Fig 5, 6) to the lower boundary of the 15 mine field; 16 - drainage; 17, 18 - intermediate inclined workings, auxiliary and conveyor slopes, passed through the coal seam at an angle β = 30-60 ^° to the excavation drifts 19 in the direction of the rear flank 10 from the main drifts or from the surface, or from the quarry soil to the lower boundary of mine shaft 15 Fields 20, 21 - additional inclined workings, auxiliary and conveyor slopes, passed from the side of the rear flank from the surface, or from the quarry soil to the excavation drifts 22, dividing the indicated panel by falling into parts 1, 2; 23, 24 - additional inclined workings, auxiliary and conveyor slopes, passed along the coal seam from the front flank 9 in the lower part of the front panel from the dredging drifts 25 dividing the specified panel by the dip of the formation in parts 1, 2 to the lower boundary 15 of the mine field; 26 - gateway jumpers; 27, 28 - conveyor and auxiliary cross-hoses of the active mine, passed at various levels (Fig. 1, 2); 29 - galleries, equipped with conveyors (Fig. 3, 4); 30 - prom. playground; 31 - waste formation; 32 - quarry (Fig. 5, 6); l _Pts - the length of the working face (treatment output), m; L _W , L _century - the length of the mine field and excavation columns along the strike of the formation, km (Fig. 3, 4).

 The method is as follows.

 When developing shallow and inclined strata of minerals of great length along the dip and strike on the front flank 9 of the mine field or from the main drifts 6, 7 (Fig. 1, 2), or from the surface 13 (Fig. 3, 4), or from the soil 14 quarry 32 (Fig. 5, 6) to the lower boundary 15 of the mine field spend auxiliary 11 and conveyor 12 slopes and equip a drainage 16. In the middle of the mine field at an angle β to the excavation drifts 19 conduct intermediate inclined workings, auxiliary 17 and conveyor 18 slopes dividing the mine field into the rear and front pas spruce, which are further divided as the dip and the strike on the parts 1, 2 and 3, 4, 5, through further inclined openings 20, 21 and 23, 24 and 22 and the excavation 25 drifts.

 Additional inclined workings 20, 21 from the side of the rear flank 10 are carried out in the upper part 1 of the rear panel to the excavation drifts 22, dividing the indicated panel by the dip of the formation into parts 1, 2, and from the side of the front flank 9 additional inclined workings 23, 24 are carried out in the lower part 2 of the front panel from the excavation drifts 25, dividing the specified panel by the fall of the reservoir in parts 1, 2, to the lower boundary 15 of the mine field.

 The development of the formation is carried out by long columns along strike with the transition by working faces 8 in the lower part 2 of the mine field - first intermediate 17. 18, and then an additional 23, 24 inclined workings, and in the upper part 1 of the mine field - first an additional 20, 21, and then intermediate 17, 18 inclined workings.

 In the development of mineral deposits in the open underground method (Fig. 5, 6) or coal seams coming out under sediments (Fig. 3, 4), flank 11, 12 and intermediate 17, 18 inclined workings, revealing a sloping field to the lower boundary 15, and additional inclined workings 20. 21, located on the back flank side 10 in the upper part 1 of the field, are carried out from the day surface (Fig. 3, 4) or from the soil of the quarry 14 (Fig. 5, 6).

 The distance between the conveyor and auxiliary slopes of the intermediate and additional inclined workings is taken to be X = 60 - 200 m, taking into account the possibility of installing lock bridges 26 between them, which ensure the delivery of materials, equipment and people with the help of delivery vehicles and working pressure to fix the workings during the transition by working faces inclined workings. Excavation fields are practiced by long-distance posts along strike without remounting of equipment of mechanized complexes with a transition to face 8: in the lower part of the field - at the beginning of intermediate inclined workings 17, 18 and then additional inclined workings 23, 24, and in the upper part 1 of the field - at the beginning additional inclined workings 20, 21, and then the intermediate inclined workings 17, 18.

The conditions for the application of the proposed method:
Removable thickness of the reservoir (layer), m - 1-4.5 m
The angle of incidence of the formation, α - 0-30 ^o
The length of the mine (sloping) field (L _W ) and excavation column (L _H ) along strike - Up to 5 km
The length of the mine (sloping) field in the fall - Up to 2 km
The angle of the intermediate and additional inclined workings to the excavation drifts, β - 30-60 ^o
Distance between conveyor and auxiliary slopes, X - 60-120 m
Coal Seam Fire Hazard - Any
Formation Gas - Any
Development System - Long Stretch Poles with Lava Crossing of Sloping Excavations
Roof Management Method - Complete Collapse
Estimated figures:
Removable thickness of the formation (layer), m - 3.2 m
Volumetric weight of coal, γ - 1.35 t / m ³
Formation angle, α - 16 ^o
Shaft field length: strike, L _w - 4050 m
by the fall, L _pad. - 1250 m
The angle of the intermediate and auxiliary inclined workings to the excavation drifts, β - 47 ^o
Distance between conveyor and auxiliary slopes, X - 200 m
The length of the excavation column along strike, L _{century with} - 4000 m
The length of the treatment output, l _Pts - 156 m
Industrial reserves: mine fields, Q _sh - 20.7 million tons
excavation column, Q _century - 2.6 million tons
Movement of the working face, V _{och. Mass} - 160 m / month
V _{very good year} - 1920 m / year
Coal mining, A _month - 103650 t / month
A _year - 1244160 t / year
The number of workers, T - 240 people.

Labor productivity per worker, P - 432 t / month
Operational losses of coal, q - 4%
The annual economic effect of the implementation of the proposal, E _g - 10 million rubles.

 Implementation of the proposed method in Kuzbass is possible on 63 coal seams with the simultaneous operation of 10 mine sites, while the economic effect will be about 100 billion rubles. in year.

High technical and economic performance of mine sites in the implementation of the proposed method for the development of shallow and inclined coal seams are achieved by:
- reducing the cost of installation, dismantling and transportation;
- increase the time of continuous operation of mechanized complexes due to the technological lengthening of excavation columns along strike. The effect is achieved without additional investments, but through the use of commercially available domestic equipment and the use of internal reserves, laid down in technological schemes that allow mining of large length excavation sections without major repairs of excavation drifts and remounting of equipment of mechanized complexes. The length of the sloping field along the strike is taken such that the mechanized complexes fully use their technical resource and are written off after working off the column. It is possible that during excavation work the replacement of worn corners of combines, downhole conveyor, hydraulic system, as well as individual sections of supports and conveyor with new ones.

- significantly reducing the volume of mine workings;
- full conveyorization from faces to the coal depot;
- reliable ventilation of excavation sites by isolating them separately;
- purification of contaminated water in mine conditions by passing it through a worked-out space;
- a significant reduction in the loss of minerals in the bowels of the earth through the development of pillars of coal from guarded inclined workings.

Claims (2)

 1. The method of developing gentle and inclined seams of minerals, including dividing the mine field along the strike on the panel, conducting at the boundaries of the panels along the seam at an angle to the excavation drifts of the intermediate inclined workings and working off the formation with columns with the transition faces of the intermediate inclined workings, characterized in that intermediate inclined workings, auxiliary and conveyor slopes pass in the middle of the mine field between the rear and front panels, which are additionally divided both by fall and about stretching to parts by carrying out additional inclined workings and excavation drifts, and additional inclined workings from the rear flag side are carried out in the upper part of the rear panel to the excavation drifts separating the specified panel according to the formation fall into parts, and from the front flank in the lower front part panels from excavation drifts dividing the indicated panel according to the dip of the formation into parts, to the lower boundary of the mine field, and the mining of the formation is carried out by these columns with the transition to the working faces in the lower part and a mine field - at first intermediate, and then additional inclined workings, and in the upper part of the mine field - at first additional, and then intermediate inclined workings.  2. The method according to claim 1, characterized in that during the development of formations emerging under sediments and open underground work, intermediate inclined workings and additional inclined workings located on the side of the rear flank of the upper part of the panel are carried out from the day surface or from the soil of the quarry.

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