RU2642193C1 - Method for developing horizontal and lower ore bodies of average capacity - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: how to develop horizontal and inclined orebody medium power under-level collapse involves workings: delivery of Horta, drilling entries, separating the ore body, shipping arrivals, dividing into partitions the panel ventilation rebelling, and also capable to cut layers of ore fans wells drilled from drilling entries, onto the clamping medium and the release of the beaten off place ore-face scheme simultaneously through pins and drilling loading races. As the drilling workings, the drifts of the release horizon are used. Capable to cut ore sections, having the form of parallelepiped, exercise ahead of refining of partitions in the center pane, providing a taper-/wedge-in terms of the shape of the front of mining, defines temporary resistance of overlapping rocks above the recoverable partitions and an increase in the release points for ore beaten off the Central Panel, up to three, for the rest of the panels-up to two. The height of the section is assumed to be equal to the thickness of the deposit, the width of the section is assumed to be equal to the width of the panel, which is determined from the average diameter of the ore flow at the end outlet, 8 m, the thickness of the section is taken in accordance with the critical height of the discharge ellipsoid, defined as half of the section height.

EFFECT: invention makes it possible to increase the efficiency of the technology by reducing the amount of tunnelling work and achieving high-quality indicators and completeness of extracting ore from the bowels while working out horizontal and gentle deposits with a capacity of 10-15 m.

2 cl, 3 dwg

Description

, по критической высоте эллипсоида выпуска). Проветривание тупиковых выработок осуществляется подачей свежего воздуха за счет общешахтной депрессии по доставочному орту, далее с помощью вентиляторов местного проветривания - по штрекам и погрузочным заездам. Омывая забой, загрязненный воздух выдается на вентиляционный горизонт по вентиляционному восстающему. Изобретение направленно на повышение качества и полноты извлечения руды при отработке горизонтальных и пологих рудных залежей.The invention relates to the mining industry and can be used in underground mining of horizontal and flat ore deposits with a thickness of more than 10-15 m. The method includes carrying out a delivery unit and a ventilation uprising, drifting drifts separating the ore body on the panel, as well as breaking the ore layers with fans of wells, drilled from drifting drifts. The layers are broken in the clamp, and the release is carried out according to the area-end scheme under the collapsed rocks. Fan sets of wells for breaking layers are drilled from the boring shafts of the corresponding panel, the section beaten up in one blast section consists of several (2-3) layers. To the center of each section between the drifts are loading races. Sections are mined along the strike of the ore body with advanced ore extraction from the central panel, forming a wedge-shaped front of mining operations. Each section has a parallelepiped shape. The height of the section h corresponds to the thickness of the deposit, the width of the section a to the width of the panel (it is recommended to take 8 m, according to the average diameter of the ore flow at the end outlet), the thickness of the section b (it is recommended to take

, by the critical height of the ellipsoid of release). The ventilation of the dead-end workings is carried out by supplying fresh air due to the mine depression on the delivery unit, then with the help of local ventilation fans - on drifts and loading rides. Washing the face, polluted air is discharged into the ventilation horizon along the ventilation uprising. The invention is aimed at improving the quality and completeness of ore extraction during the development of horizontal and flat ore deposits.

There is a method of developing ore deposits by a sub-floor collapse with an end ore output (Imenitov V.R. Underground mining processes in the development of ore deposits, 3rd ed., Revised and additional M: Nedra, 1984, pp. 419-427, Fig. XIII. 25), which includes carrying out sub-floor drilling delivery channels, delivery drifts, ore passes, layer-by-layer breaking of ore diamond-shaped panels in a clamped medium by vertical fans of wells, and layer-by-layer end production of ore into the soil of delivery-supplying channels under collapsed rocks.

The disadvantage of this method in the face issue is the relatively low indicators of completeness and quality of extraction of ore from the subsoil when developing steeply falling deposits - the losses are 10-15%, dilution - 22-30%, when using this method in horizontal and shallow ore bodies of medium power - losses increase to 20-25% due to the technical impossibility of extracting ores on the soil of the deposit, in the gaps between the diamond-shaped panels. There is also known a method of developing ore deposits under-floor collapse according to the patent of the Russian Federation No. 2301335, Е21С 41/22, publ. in 2007, including conducting drifts on the horizon: delivery drift, unit load, loading races, contouring drift, ventilation uprising, as well as drilling workings, breaking ore panels with fans with holes in a clamped environment and releasing broken ore according to the area-end pattern at the same time through the orths and loading races under the collapsed rocks.

The disadvantage of this method is the lack of technical ability to extract ores on the soil of the deposit, in the gaps between the diamond-shaped panels and, as a result, the limited scope of the method steeply dipping deposits.

The closest analogue in technical essence and the set of essential features is a method of developing ore deposits under-floor collapse according to the patent of the Russian Federation No. 2208162, Е21С 41/22, publ. in 2003, including the production of workings at the production horizons: drifts, gates and ventilation insurgents, the conduct of drilling workings on sub-floors and the breaking of ore panels by wells with the formation of a temporary pillar over the workings of the production horizon, the breaking of the temporary pillar by sections with a lag behind the breaking of ore panels, in layers in the clamp and with the end release of the broken ore under the collapsed rocks. In addition, loading arrivals pass between the Orts, and the ore panels are broken off on the sub-floors along the strike of the ore body, while the temporary pillar is broken off in sections from the unit vectors across the strike of the ore body, the beaten ore is discharged according to the area-end scheme simultaneously through the mentioned unit vectors and loading races that are used to ventilate stope faces.

The disadvantage of this method is the sinking of the workings on a separate horizon (sub-floor) and, as a result, the increased volume of sinking, poor extraction rates, due to the mismatch of the parameters of the ore panels with the ore discharge pattern, and the two-stage process of the cleaning excavation, including breaking the ore panel and extracting the temporary pillar .

The technical task is to increase the efficiency of the technology by reducing the volume of tunneling and achieving high quality and completeness of ore extraction from the bowels when mining horizontal and flat deposits with a thickness of 10-15 m.

The problem is solved in that in the method of developing horizontal and shallow ore bodies of medium power by sub-floor collapse, including the workings of: delivery unit, boring delivery drifts separating the ore body on the panel; loading races dividing panels into sections; ventilation uprising, as well as breaking the layers of ore with fans of wells drilled from the drift drifts to the clamping medium and the discharge of the beaten ore according to the areal-end circuit simultaneously through the drift drifts and loading races, according to the technical solution, drift horizon drifts are used, break parallelepiped-shaped ore sections ahead of mining sections in the central panel, providing a wedge-shaped frontal shape of mining operations that defines times the increased stability of the overlying rocks over the extracted sections and an increase in the outlet points of the broken ore for the central panel to three, for the other panels to two.

The use of the production horizon as drifts of drifts ensures a reduction in the volume of tunneling work, and consequently, a decrease in the cost of excavation of the workings and an increase in the intensity of field development, which leads to an increase in the efficiency of the technology. The layer-by-layer breaking of the parallelepiped-shaped ore sections and the areal-end mining scheme provide the possibility of separating and leaving interbeds of gangue and substandard ores and, as a result, improving the quality of extraction of broken ore from the subsoil. The completeness of the extraction of the beaten ore is ensured by the formation of sections in the central panel that is wedge-shaped in terms of the shape of the front of mining, which determines the temporary stability of the overlying rocks over the extracted sections and the increase of the outlet points of the beaten ore for sections of the central panel to three, for sections of the remaining panels to two. The loss of ore in this case is 7.0 ÷ 8.5%, dilution does not exceed 12.0 ÷ 13.5%, the yield of pure ore before dilution is 65 ÷ 72%.

It is advisable to accept the following parameters of the produced sections:

- the height of the section h is taken equal to the power of the reservoir;

- the width of the section a corresponds to the width of the panel (it is recommended to take 8 m, according to the average diameter of the ore flow at the end output);

, что соответствует критической высоте эллипсоида выпуска.- thickness of section b is recommended

, which corresponds to the critical height of the ellipsoid of release.

This achieves minimal losses and dilution of the recaptured ore, and, consequently, increases the efficiency of the technology.

It is advisable to carry out layer-by-layer production of broken ore in equal doses from the loading run and the drift delivery drift. This achieves an additional increase in the indicators of completeness and quality of ore extraction, and consequently, an increase in the efficiency of the technology.

The essence of the method of developing horizontal and flat ore deposits of medium power is illustrated by drawings, where:

in FIG. 1 shows a technology diagram, top view: 2 - delivery unit; 5 - delivery drift; 6 - ore panel; 7 - loading arrival; 8 - section boundary; 10 - beaten layers; 11 - a chamber filled with a hardening tab.

in FIG. 2 is a section AA in FIG. 1: 2 - delivery unit; 4 - ventilating and uprising; 7 - loading arrival; 9 - fans of wells.

in FIG. 3 is a section BB in FIG. 1: 1 - release horizon; 2 - delivery unit; 3 - ventilation horizon; 4 - ventilating and uprising; 5 - delivery drift; 9 - fans of wells.

The claimed method is implemented as follows.

The whole complex of preparatory and rifling operations is carried out within the same production horizon 1. At the boundary of the excavation section, there is a delivery unit 2 across the strike of the ore body, which goes astray with the rising horizon 3 rising 4. From the delivery unit 2, there are delivery drifts 5 separating the ore body on the panel 6 along the strike of the ore body. The width of the panel is chosen equal to the distance between the delivery drifts 5. Next, from the delivery drifts 5, loading rides 7 pass to the center of the beat section 8 at an angle of 45-60 °, with two races running opposite each other to the sections of the central panel, one at a time Check in from one of the sides of the panel. Delivery drifts 5, of which fans of wells 9 are drilled, are used as drilling workings.

The mining of the ore panels 6 is carried out in sections 8 having the shape of a parallelepiped and consisting of several layers 10, determined by the distance between the fans of the wells 9 drilled from the delivery drifts 5. The mining of the excavation section is carried out along the strike of the ore body with the leading ore excavation of the central panel, forming a wedge in plan the shape of the mining front, providing temporary stability of the overlying rocks over the extracted sections and an increase in the output points of the broken ore for sections of the central panel to three, for sections about steel panels - up to two. The output of broken ore is carried out according to the area-end scheme, respectively, from two loading arrivals and drift in sections of the central panel, from one loading arrival and drift in sections of the remaining panels. Mines are ventilated due to the mine shaft depression and local ventilation fans, by supplying a fresh air stream through delivery unit 2 and delivery drifts 5 with the subsequent release of contaminated air to the ventilation horizon on rising 4.

Claims (2)

1. A method of developing horizontal and shallow medium-grade ore bodies by sub-floor collapse, including mine workings: delivery unit, drift drifts separating the ore body into panels, loading races separating the panels into sections, ventilation uprising, as well as breaking ore layers with fans of bored holes from drift drifts, to the clamping medium and the release of the beaten ore according to the area-end scheme simultaneously through drift drifts and loading rides, characterized in that as the mine workings use drifts of the output horizon, break the parallelepiped-shaped ore sections ahead of the sections in the central panel, providing a wedge-shaped mining front shape that determines the temporal stability of the overlying rocks over the extracted sections and increases the output points of the broken ore for the central panel up to three, for the remaining panels - up to two. 2. The method according to p. 1, characterized in that the height of the section is taken equal to the power of the deposit, the width of the section is taken equal to the width of the panel, which is determined by the average diameter of the ore flow at the end outlet equal to 8 m, the thickness of the section is taken in accordance with the critical height of the ellipsoid release, defined as half the height of the section.

Images