RU2810041C1 - Method for developing powerful steeply dipping ore bodies with goaf stowing - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: used in underground mining of deposits represented by powerful steeply dipping ore bodies, followed by goaf stowing with hardening mixtures. A method for developing powerful steeply dipping ore bodies with goaf stowing, including the development of mining chambers of the first and subsequent stages, the roof of which is given a polygonal shape, and the bottom is similar to a mirror image of the roof, and the extraction of ore simultaneously on several floors, characterized in that the chambers of the underlying floor perform under the chambers of the upper floor without displacement and exclude direct contact of the broken chambers of the lower floor with the embedded chambers on the upper floor by leaving on the horizon interfloor pillars of a diamond-shaped asymmetrical shape, designed along the contour so that side “a” is not parallel to side “c”, and side “c” was not parallel to side “d”, in addition, side “a” is larger in linear dimensions than side “c”, and side “c” is larger in linear dimensions than side “d”, while the diamond-shaped rear sight is removed after excavation chamber reserves both on the upper horizon and on the lower horizon, ore bodies are mined in the floor in sections, including chambers of the first (I), second (II) and third stages (III), where the width of the chambers of the first stage (I) is twice larger than the width of the chambers (II-III stages) and is 40 m, and when designing the face of the chambers (I) of the stage it is given a convex shape.

EFFECT: ensuring the safety and efficiency of ore mining.

1 cl, 2 dwg

Description

The invention relates to mining and can be used in underground mining of deposits represented by powerful steeply dipping ore bodies, followed by filling the mined-out space with hardening mixtures.

In the proposed development method, for geomechanical reasons, the length of the chambers can be increased to an instrumentally determined safe parameter. For example, at the Estyuninsky deposit with a very high level of natural stresses, after the introduction of pliable ceiling and dividing inter-chamber pillars, even when mining subsequent horizons (2-3 horizons below), it was possible to increase the length of the chambers from 50 m according to early projects to 100-220 m. They limited only according to geological and technological indicators with a floor-chamber development system on ore bodies with a thickness of up to 50-60 m and an angle of incidence of ore bodies of 45°-80° and a strike length of up to 1300 m, a floor height of 60 m (Patents No. 924379, No. 2099525).

There is a known method for the development of mineral resources by chambers with the collapse of the host rocks and the construction of artificial pillars in the mined-out space by filling the voids in the collapsed rocks with a binder solution at the border with the next cleaning chamber [1].

However, this method is characterized by low productivity of mineral extraction, which is due to the relatively long development of strength of filling mixtures with the impossibility of working on several horizons in adjacent chambers simultaneously.

In addition, there is a known method for the development of steeply dipping bodies, including the mining of primary and secondary chambers with the displacement of the chambers of the underlying floor by half their width, the roof is given a vaulted shape, and the bottom - similar to a mirror image of the roof, the release of ore and the construction of artificial pillars in the mined-out space of the chambers [2 ].

The disadvantage of this method is the relatively low stability of the third-stage treatment chambers under conditions of high stress state of the rock mass at great depths and accumulated significant volumes of excavation voids. And also there is a decrease in the quality of the ore due to the collapse of the treatment chambers with the embedded mined-out space, dilution and clogging of the ore occurs. Reducing the pace of field development due to the increase in strength properties of backfill mixtures in waste chambers.

The purpose of the invention is to ensure the safety and efficiency of ore mining.

This goal is achieved by the fact that the development of powerful steeply dipping ore bodies with the backfilling of mined-out space is carried out while simultaneously extracting ore at several horizons. To increase the productivity of the mine, use self-propelled loading and hauling equipment, including working on the horizons of the first and subsequent stages of the treatment chambers, leaving diamond-shaped interfloor diamond-shaped pillars (RMP) in strong ores that are not prone to spontaneous combustion.

In order to increase the safety and efficiency of this method, the development of interfloor temporary pillars is carried out using remotely controlled loading and delivery vehicles (LHDs) after drilling and delivery workings have been carried out through the backfill mass according to a special project.

In fig. 1 shows a diagram of cleaning work within the horizon (floor) leaving interfloor asymmetric diamond-shaped pillars and chambers of stages I, II and III; in fig. 2 - scheme of clearing work within several horizons leaving inter-storey asymmetrical diamond-shaped pillars with mining sequence.

The invention is carried out as follows:

To ensure safety and efficiency, the development of powerful steeply dipping ore bodies (Fig. 1, 2) with the backfilling of goaf while simultaneous extraction of ore at several horizons is carried out leaving a diamond-shaped asymmetrical mine.

The proposed method for developing powerful steeply dipping ore bodies with backfilling of goaf under conditions of high stress state of the rock mass at great depths includes: excavation of the outlet shaft 1 Fig. 1, haulage ort 2. To increase the safety of cleaning operations, direct contact of the broken chambers on the lower floor with the blocked chambers on the upper floor is excluded by leaving on the horizon the interfloor pillars of the MeC of a diamond-shaped asymmetrical shape, designed along the contour so that side “a” is not parallel to side “ c", and side "b" was not parallel to side "d" (Fig. 1). In addition, side “a” is larger in linear dimensions than side “c”, and side “b” is larger in linear dimensions than side “d” to ensure jamming of asymmetrical diamond-shaped pillars in cases of their movement towards lower horizons.

The diamond-shaped rear sight is removed after excavating the chamber reserves on both the upper horizon and the lower horizon. The shape of the pillar is chosen so that after it is exposed during the excavation of any of the chambers that outline it, it does not have the opportunity to shift towards the mined-out space. The rear sight will be in a wedged state after two chambers have been worked out and laid on top of the rear sight on sides a and b, and two chambers on the bottom of the rear sight on sides d and c.

And to increase the safety and efficiency of mining operations in conditions of a high stress state of the rock mass at great depths, at each horizon (Fig. 1) twin arrays of chambers with a thickness of 40 m are left as first-stage chambers, giving them a convex shape to the face, thereby allowing an increase chamber stability and development efficiency [Zubkov A. V. (2001) Geomechanics and geotechnology. Ekaterinburg: IGD Ural Branch of the Russian Academy of Sciences, 335 p. Figure 3.12 and Table 3.10].

Information sources:

1. Copyright certificate of the USSR No. 398747, class. E 21 41/06, 04.10.71.

2. Copyright certificate of the USSR No. 153893, class. E 21 41/06, 02/03/62 (prototype).

Claims (1)

A method for developing powerful steeply dipping ore bodies with backfilling of mined-out space, including the development of mining chambers of the first and subsequent stages, the roof of which is given a polygonal shape, and the bottom is similar to a mirror image of the roof, and the extraction of ore simultaneously on several floors, characterized in that the chambers of the underlying floor perform under the chambers of the upper floor without displacement and exclude direct contact of the broken chambers of the lower floor with the embedded chambers on the upper floor by leaving on the horizon interfloor pillars of a diamond-shaped asymmetrical shape, designed along the contour so that side “a” is not parallel to side “c”, and side “ "c" was not parallel to side "d", in addition, side "a" is larger in linear dimensions than side "c", and side "c" is larger in linear dimensions than side "d", while the diamond-shaped rear sight is removed after excavation of chamber reserves both on the upper horizon and on the lower horizon, mining of ore bodies in the floor is carried out in sections, including chambers of the first (I), second (II) and third stages (III), where the width of the chambers of the first stage (I) is two times the width of the chambers (II-III queues) and is 40 m, and when designing the face of the chambers (I) of the queue it is given a convex shape.