RU2651727C1 - Method of underground development of the inclined ore deposits - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention refers to the mining industry and can be used for underground mining of inclined ore deposits of minerals at great depths under conditions of increased rock pressure. Method includes development of the deposit from top to bottom across the strike of the ore body, under the protective concrete layer, which is formed by the inclined splits, longhole stoping of ore during the extraction of the main reserves by means of the inclined chambers, which are developed in the staggered order, shipment of rock mass and filling of the worked out space with the filling material. Protective layer is formed by means of the inclined strips with the calculated angle of production in relation to the air/stowing gate in the horizontal plane.

EFFECT: technical result of the invention is the reduction in the volume of the developing entries, which are carried out on the empty rocks, the reduction in losses of broken ore and its choking.

1 cl, 3 dwg

Description

The invention relates to the mining industry and can be used in the underground development of inclined ore mineral deposits at great depths under high rock pressure.

Currently, there is a known method of development with excavation of chambers along the strike of the ore body under a protective layer laid by a hardening tab [Osintsev V.A., Berkovich V.M., Sharaev D.V. Technology for mining shock hazardous areas of the field. Mountain news and analytical bulletin. T. 2. No. 2, 2011, p. 99-105]. The formation of the protective layer is carried out by penetrations conducted in the roof of the deposit at the ore-rock contact. Chambers are excavated along the strike of the ore body.

The disadvantages of this method are: the limited application of the technology of forming a protective layer by the angle of elevation of mining equipment; increased volume of lost ore and mixed rocks at the ore-rock contact in the lower part of the chamber.

There is also a known method of development with a layered and chamber recess along the strike of the ore body under the protective layer, laid with a hardening tab, formed by penetrations conducted in the roof of the deposit at the ore-rock contact across the strike of the ore body [Karelin V.N., Kositsyn A.V. Effective innovation in the development of the Oktyabrsky field. Effective innovations in geotechnology: Sat. materials of the international scientific-practical conference. / Ed. V.V. Kravtsova, D.E. Malofeev; GOU VPO "State. U-NT color, metals and gold." - Krasnoyarsk, 2006. S. 87-103]. Reserves of the deposit under the protective layer are extracted by cameras or layers depending on the stability of the ore mass. Excavation blocks are oriented along the strike of the ore body. The disadvantages of this method are: a large amount of preparatory workings due to the presence of an inclined exit, passed through waste rocks and serving to connect the delivery workings; increased volume of lost ore and mixed rocks at the ore-rock contact.

A known method of underground mining using a chamber-pillar development system. This method is used in the development of ore bodies with a dip angle of 15-35 degrees. Excavation is carried out by cameras along the strike of the ore body with the remaining between chamber pillars. The removal of the chambers begins from an inclined ramp passed through the ore body through all future chambers [Pushkarev L.I., Drobot B.P., Beach O.A. The use of chamber-pillar development system in the conditions of SUBR. Mining Journal - 1973, p. 35-38].

For the development of inclined deposits in conditions of high rock pressure, this method has several disadvantages: the ore mass within the developed areas is not unloaded from high compressive stresses; increased volume of lost ore and mixed rocks at the ore-rock contact in the lower part of the chamber; danger of falling into the working area of pieces exfoliated from the roof and walls of the treatment chambers.

The objective of the invention is to reduce the volume of preparatory workings conducted on waste rocks, reducing losses and dilution during treatment excavation.

This is achieved by the fact that the method of underground mining of inclined ore deposits, including the development of the ore body under the protective layer in a checkerboard pattern and filling the worked out space with a hardening tab, the protective layer is formed by conducting inclined approaches with a working angle determined by the formula

where α _s - the angle of the mine with respect to the ventilation and filling drift in the horizontal plane, deg;

α _in - the angle of inclination of the mine, degrees;

α is the angle of incidence of the deposit, deg,

and the extraction of the main reserves is carried out by inclined chambers across the strike of the ore body.

The invention is illustrated by drawings, where in FIG. 1 is a diagram of the formation of a protective layer; FIG. 2 is a diagram of a recess of chambers across the strike of an ore body, FIG. 3 - dependence of the angle of development of the development of the angle of incidence of the deposits.

The proposed development method includes:

1 - protective concrete layer;

2 - ventilation and filling drift;

3 - inclined approach;

4 - the angle of development relative to the ventilation and filling drift;

5 - pipeline filling mixture;

6 - delivery drift;

7 - split ort;

8 - ore extraction chamber;

9 - ore passing;

10 - recoil drift.

The method is as follows.

The development of the deposit begins with the formation of a protective concrete layer 1 (see Fig. 1). The technology for the formation of the protective layer consists in conducting a venting and filling drift 2 for ore in the upper part of the ore body at the contact of the ore-rock from the venting and filling drift inclined runs are carried out (3). The angle (4) of the laying of the mine relative to the ventilation and filling drift in the horizontal plane is calculated so that it matches the technical capabilities of the loading and delivery machines and drilling rigs, and is calculated by the formula 1

where α _s - the angle of development relative to the ventilation and filling drift in the horizontal plane, deg .;

α _in - the angle of inclination of the mine, deg .;

α is the angle of incidence of the reservoir, deg.

After the sunset, the worked-out space is filled with a hardening mixture. The mixture is fed from the ventilation filling drift through a special pipeline (5).

After a protective layer has been set up with the required strength, the main reserves are removed by the cameras. The chambers are staggered to ensure uniform distribution of rock pressure. The technology of work is as follows (see Fig. 2): a delivery drift 6 is carried out along the strike of the ore body; a split ort 7 is drawn from the delivery drift, the working angle (4) of the working relative to the delivery drift is determined by formula 1; after breaking the drift drift with an overlying delivery drift, the chamber 8 is removed using borehole blasting, the beaten ore is delivered to the ore gate 9, from which it is shipped to the transport on the haul drift 10. After the chamber is mined, the chamber is filled with a hardening filling mixture.

Claims (6)

The method of underground mining of inclined ore deposits, including the development of an ore body under a protective layer in a checkerboard pattern and filling the worked out space with a hardening tab, characterized in that the protective layer is formed by conducting inclined openings with a working angle determined from the formula

where α _s - the angle of the mine with respect to the ventilation and filling drift in the horizontal plane, deg; α _in - the angle of inclination of the mine, degrees; α is the angle of incidence of the deposit, deg, and the extraction of the main reserves is carried out by inclined chambers across the strike of the ore body.

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