SU611003A1 - Method of mining orebodies - Google Patents

Description

(54) METHOD FOR DEVELOPING MINERAL DEPOSITS

The invention relates to the extraction of minerals by the method of mining and can be used in the development of moshy mineral deposits.

Known methods of development

ore deposits 6p (stone-shaped form with release of the collapsed ore worch duchki or ends of workings. In this case, only one receiving horizon l is arranged in each block for ore output.

The disadvantages of these methods are low output intensity and relatively high working life & ore loss.

There is also known a method of developing ore deposits in blocks of p {mboidapn | hey forms, located with vertical displacement on the half-storey floor (substage), with the area of the ore through the opposite direction of the outgoing workings, which are symmetrical relative to the vertical axis of the bloc.

The disadvantages of this method are relatively high dilution and foams. tvri ore.

In order to reduce losses and dilute broken ore by increasing the width of the block according to the proposed method of generating output for two gs more receiving horizons, located stepwise one above the other.

At the same time, all output generation at the above-mentioned zones are positioned in a horizontal plane at a distance, ensuring the interaction of fngering at the output of the ore.

FIG. 1 shows a method for developing ore deposits with a stepped bottom for the area-face-to-face) production of collapsed ore, a general view; in fig. 2 is an AA section of FIG. one; in fig. 3 is a section along BB in FIG. one; in fig. 4 shows a section along BB in FIG. one.

The symmetric stepped bottom at the base of the block includes the openings 1 and 2 for the delivery of ore and the lower and upper receiving horizons, counter-directional face formations “3, drilling openings 4, and ores bypass rising 5.

In order to prepare the block for the clearing exit: ceilings of level 1 at the bottom and 2 at the top receiving horizons are carried out. Of these, on each horizon, equal lengths of counter-directional excavations 3 (face faces) are carried out for the production of crushed ore.

The vertical distance between the receiving horizons is assumed, based on the stability and strength of the ore, so as to ensure the safety of the mine workings 1 for the period of extraction of the block reserves. Production 2 is horizontally shifted to the outside relative to TWC 1 in order to provide twice as large; the width of the cleaning zone at the level of the upper receiving horizon

The horizontal distances between the oppositely directed exhaust workings 3 are taken from the condition of ensuring the interaction of all adjacent loosening figures. For a more complete extraction of the ore, the end faces of the 3 upper and lower receiving horizons are arranged, in staggered order (with mixing at half the horizontal distance between them

At the level of the upper receiving horizon, syruals 6 and 4 were drilled to drill the ore body by deep wells. The ore-passing uprising 5 is arranged taking into account the applied means of mechanization of the processes of ore production and delivery.

The ore block massif (panel) is collapsed using deep wells, the upper part of the block massif is drilled from the mines 1 and 2 of the semi-finished blocks, and the lower part from drilling mines 4 and counter-directional 3 approaches. The upper part of the block massif can collapse ahead of to the bottom. The cutting of ore lead or compensation space 6, or in a clamped environment.

Symmetric-step bottom of the block is formed by ore blasting between the upper and lower receiving horizons from the oppositely directed workings of 3 lower receiving horizon and drilling holes 4 located at the level of the upper receiving horizon.

The collapsed ore is discharged through the cake and the pits of the slaughter 3 simultaneously on all receiving horizons. The released ore is delivered to the uprising rebels 5.

During the development of the deposit across the strike, the excavation of the blocks is carried out in the sequence indicated in FIG. 1 in roman numerals I, Pi Sh.

The proposed method of development makes it possible to reduce the dilution and loss of ore by 1.5–2 times, and also to increase the productivity of labor at the clearing notch by 2–2.5 times.

Formula and invention

Claims (2)

1, A method of developing the ore deposits of the Scientific Research Institute of rhomboidal blocks, located with a vertical mix on a half floor (substage), with a psntsadno-tortsovy release of the collapsed ore through counter-directed exhaust 5 ki, passed symmetrically with respect to the vertical axis of the block, in order to reduce losses and dilute the ore by increasing the block width, the output generation is carried out at two or more receiving sites. Hsrizontah, located stepwise one above the other. 2. A method according to claim 1, characterized in that all the generation outputs on the above horizons are arranged in a horizontal plane at a distance that ensures the interaction of the loosening figures when the ore is released. Sources of information taken into account during the examination: 1, Dubynin N, G, Production of ore in underground mining. M., Nedra, 1965, p. 171-173, 2, Agoshkov M, I. et al. New constructions, bottoms of blocks with vibrating channels for ore production, Torny Journal, 1964, No. 8, c, 23-28. one L