RU2490463C1 - Method to mine opencast working flank by high ledges - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: method includes mining of a deposit with normal height of a ledge to the moment of maximum development of mining works, at which the current ratio of stripping is equal to the border one, suppression of mining works, according to the invention, at the moment of maximum development of mining works they change to mining of the opencast working flank by high ledges, provided that the current ratio of stripping is less than or equal to the border one.

EFFECT: production of an additional coal volume on an opencast due to increased finished depth of an opencast, provision of safe performance of mining works.

1 ex, 2 dwg

Description

The invention relates to mining, to the field of mining by open pit mining, in particular during open pit mining of coal deposits.

Currently, the maximum depth of a quarry in open-cast mining is determined by comparing the overburden margin with the current (Reference. Open pit mining / K.N. Trubetskoy, M.G. Potapov, K.E. Vinnitsky, N.N. Melnikov et al. - M.: Mining Bureau, 1994. - P.47).

There is a known method of developing deposits in an open way, which provides for the extraction of coal outside the design bottom of the quarry, including the development of mining to design boundaries, the repayment of mining (application of the Russian Federation for invention No. 94012882/03, published on 06/20/1996).

There is also known a way to refine mineral deposits in a quarry, including mining a field with a normal ledge height until the maximum development of mining at which the current stripping ratio is equal to the boundary, repayment of mining (USSR author's certificate No. 875038, publ. 28.10.81, bull. No. 39).

The disadvantages of the known methods are the small amount of additionally mined minerals, the low safety of mining in cramped conditions.

The technical result of the invention is the extraction at the quarry of an additional volume of coal due to an increase in the final depth of the quarry, ensuring the safety of mining operations.

The specified technical result is achieved by the fact that in the method of mining the working side of the quarry with high ledges, including mining a field with a normal ledge height until the moment of maximum development of mining operations in which the current stripping ratio is equal to the boundary, the repayment of mining operations according to the invention at the time of maximum development of mining operations to work out the working side of the quarry with high ledges, provided that the current stripping ratio is less than or equal to the boundary.

The inventive method is illustrated by drawings, where figure 1 schematically shows a quarry, figure 2 the change in the current stripping ratio in time.

The method is as follows. The development of the field is carried out with a normal ledge height, keeping the slope of the working board at the initial level (α) to a depth of H1, at which the current stripping ratio is equal to the boundary (k _gr ). Go to working out the working side of the quarry with high ledges, thereby increasing the angle of inclination of the working side (β) to a depth of H ₂ so that the current stripping ratio is less than or equal to the boundary. Then carry out the repayment of mining.

The moment of transition to mining the working side of the quarry with high ledges (depth H1 and time point T1) is the moment of maximum development of mining operations, as according to the traditional development system, with the equality of the current overburden coefficient to the boundary one, it is necessary to begin the repayment of mining operations (at the repayment angle γ), which is done in the known methods. In this case, the depth of the quarry would be Nf1 and the life of the quarry TF1.

It should be noted that the dependence of the inclination angle of the working side on the height of the ledge is well studied and described in the technical literature. With an increase in the height of the developed ledge, the inclination angle of the working board increases, since the growth rate of the width of the working platform is less than the growth rate of the height of the developed ledge.

An example of a specific application of the method. When mining a coal deposit with a total horizontal thickness of the deposit of 35 m and a ledge height of 15 m (most commonly found in Kuzbass coal mines), the inclination angle of the working side is 21 degrees and the maximum depth Nf1 = 200 m. When switching to working out the working side of a quarry with ledges with a height of 30 meters, the slope angle of the working side will be 29 degrees and the final depth Nf2 = 227.5 m. Thus, the volume of production of additional coal will amount to 550 thousand m ³ per 1 km of the mining front.

The inventive method allows you to get an additional amount of coal by increasing the final depth to Nf2, to ensure the safety of mining due to the refusal to work in cramped conditions.

Claims (1)

A method for mining a working face of a quarry with high ledges, including mining a field with a normal height of a ledge up to the moment of maximum development of mining operations, at which the current stripping ratio is equal to the boundary, repayment of mining operations, characterized in that at the time of maximum development of mining operations they switch to mining of the working face of the quarry high ledges, provided that the current stripping ratio is less than or equal to the boundary.

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