SU1265334A1 - Method of deposit-mining - Google Patents

Abstract

METHOD FOR DRIVING FIELD comprising tunneling drilling excavation, drilling, blasting ore layers from top to bottom, ore shipment samohodnsch equipment, forming on the soil layer Nabal fines, stowing layer hardening material and shipping of the ore bed together with the bulk of the ore fines overlying layer , characterized in that, in order to reduce the labor-intensiveness of mining at the expense of reducing labor costs for the formation of bulk ore fines of a conical shape, in the soil during ore blasting, ore protrusions form along the side walls along the entire length of the treatment space, in which drilled holes are drilled at an acute angle to the horizon below the soil contour of the layer, and after shipment of the ore from the ore from the ore protrusions and the remaining slopes of the ore on them move to the axial lines of slurry with directional blasting of the indicated lines (Bore holes. IN3 o: ate OS 4

Description

The invention relates to mining and can be used in underground mining of ore deposits with hardening laying of the worked out space.

The purpose of the invention is to reduce the labor intensity of mining at the expense of reducing labor costs for the formation of a pile of ore fines of a conical shape on the soil of the working layer.

FIG. 1 shows the scheme of the clearing recess in the overlying layer of the vertical strip before the ore is crushed in the layer; in fig. 2 - the same, before the formation of pile on the soil of the layer, a cross section; in fig. 3 - the same, when mining the overlying layer in two stages.

The scheme contains the ore massif 1 of the working layer, prepared for breaking the main set of wells, the underlying layer 2 ore, the previously worked and built-in space 3 of the upper layer, drilling (discharge) production of 4 layers, soil level 5 of the working layer, sets of wells 6 for breaking 1 array , ore lugs 7 with the remaining broken ore, wells 8 of the lower row, located symmetrically with the axial line of production 4 below the level 5 of the soil layer at acute angles to the horizon, unchargable ends of the borehole 9 of the second row, slope 10 of a broken ore angular elements 11 of the underlying layer 2, a pile

12 ore fines with the contour of the roof of the underlying layer, formed by the blasting of the ore protrusions 7, the slopes 10 of the broken ore and corner elements 11, the axial line

13slok

The method is carried out as follows.

After penetrating the split (drilling) excavation 4 in the overlying layer 1, sets of wells 6 are drilled, wells 8 of the lower row and second row 9 are located along the approaching grid. At that, symmetric with respect to the axial line of production 4 wells 8 of the lower row and drilled at an acute angle below the soil level 5 of the mine 4 with intersection of sections 11 of the underlying layer 2 and left uncharged for the entire length, and in wells of the second row leave only their peripheral parts to the width of the horizontal sites of the ore protrusions 7. The width of the horizontal sites of the ore protrusions 7 is prescribed depending on the required volume of bedding in the pile 12, taking into account the known angles of repose of broken ore and ienta loosening ore in base sites x.

After blasting the main set of wells in the fan (excluding wells 8 of the lower row, the peripheral parts of wells 9), on the soil of layer 1, from the side adjacent to the side walls, ore projections form with platforms 7, on which slopes 10 of broken ore are concentrated. Due to the excess of the areas above the soil level of the layer, these ore slopes are not involved in the total shipped mass of layer 1 and therefore no special work is required to clean them. After the ore has been shipped and the soil has been stripped of the lagging layer 1 of the lower row well 8 and the ends of the wells 9 are cleaned, charged and exploded using the directional blast ejection technique, the ore in the slopes 10, the projections 7 and the corner elements 11 of the underlying layer 2 are moved by the blast energy The center line 13 of Layer 1 and 2 forms a pile cone-shaped 12. After leveling the surface of the pile with wheeled vehicles, the surface of the pile 12 is waterproofed and quenched the rest of the space of layer 1 by hardening materials. After the laying in the layer i hardens to the values of the normative strength, the underlying layer 2 is crushed and the pile 12 is extracted. In case the layer 2 can also serve as a roof for clearing workings, i.e. Below it, there are reserves of mining ore, the work on its mining and laying is carried out in the sequence of operations described above.

In the case of weak rocks of the upper contour of the deposit, the drill workings form sectionally, successively in the section with each other, sections with sizes that are narrowed along the width. Under these conditions, the drilling workings 4 in the sections are located on opposite sides of the axial line 13 of the withdrawn strip 2 (Fig. 3). The ore blasting is carried out by a half-drill of wells 6, forming ore outflows with flat 7 and slopes 10 from the outer edges of the excavation of layer 2, and the ore projections explode to eject ore to the opposite wall of the mine 4, and form a pile 12 in the form of polushara. Then, after laying the excavated space, the second half of the layer is also worked out relative to the axial line 13. After the array of artificial roof is formed in sections across the width of the strip 2, the underlying layer of ore in strip 2 is beaten over the entire width of the layer.

Claims (1)

METHOD OF DEPOSIT PROCESSING, including drilling of mine workings, drilling of wells, explosive breakdown of ore in layers from top to bottom, self-propelled ore loading of ore, formation of ore fines on the soil layer, laying of the developed space of the layer with hardening material and loading of the ore layer together with ore fines layer, characterized in that, in order to reduce the complexity of mining deposits by reducing labor costs for the formation of a pile of ore fines of a conical shape, in the soil layer at ore bumps are formed along the side walls along the entire length of the treatment space, in which close wells are drilled at an acute angle to the horizon below the bed contour of the bed, and after the shipped ore is shipped from the bed, the ore bumps and the remaining slopes of the beaten ore are moved to the center line of the bed directional blasting of these adjacent wells. SU „„ 1265334 Figure 1