SU768985A1 - Method of working seam formations of minerals - Google Patents

Description

one

The invention relates to the mining industry and can be used in the underground mining of mineral ore deaths, occurring 5 fractured Vyomlak (SCHI) prrodakh. -five

Izves; ten dprrrrb ore mine-relief development, which means leaving the ground around the ground 1 {93) ore to feed the roof roof of the chamberr-pillar system 1.10

The disadvantage of this sporb are large prteri ores in pillars.

In addition to the TGO, there is a known method for the development of stratal mineral deposits, p1 drilling for drilling, from i5 to the ore striker 9 block, strengthening of rocks and mining and ore harvesting 2.

This comparison is characterized by comparison of the efficiency of CLEAR go work.

The purpose of the inventive invention is the elimination of non-profit orders.

The goal is achieved by the fact that in the rocks of the roof parallel to the layer - 25 NIK} drill over the entire area of the parallel wells, make contouring of the block being worked out in the roof of the reservoir, at the top of the heading and under the heading of the whole of the shine of 30

accurate and ventilation drifts by Doureni, charging and blasting contour wells, and block breaking up the block’s reserves at the same time by briefly slowing down the wells with advancing blasting of the contour wells through one, and first blowing up the contour wells at the boundary with the pillars indicated, and block ahead of the wells drilled from drilling workings located along the contour of the block, this breaking of the ore starts from the periphery of the block to the center along the strike of the block After that, reinforcement of the roof rocks is carried out by injecting the polymer composition into the wells drilled in the roof rocks, and the broken ore is harvested in strips, leaving the last strips of broken ore, which is removed after the ore is harvested in adjacent strips, and the spent space is fixed, and a perforated hose is inserted into reinforcing wells drilled in the roof rocks.

FIG. 1 shows a schematic overview of the floor prepared for working; in fig. 2 - a general view of the block before ore breaking; in fig. 3 - section A-A of FIG. 2; in fig. 4 - a general view of the block before the end of the cleaning works.

The method is carried out in the following order.

The ore field is divided into floors (floor height 100-150 m, depending on the geological conditions: and the technical capabilities of the equipment used, divided into two sub-floors by haulage output 1. At the floor boundaries, air drifts 2 are stretched along the strike ( the sizes of all workings, except for those specially mentioned, should provide the possibility of using self-propelled equipment), these workings are carried out at full capacity of the ore body 3 (at its thickness up to 4 m), the roof is strengthened by rods and tightened with metal mended.

At the same time, a drilling drift 5 is conducted in the pillar of the 4-storey haulage mine 1, parallel to it, through the contact of the ore body 3 and the roof (in the roof), from which a system of reinforcing wells is drilled 6. The wells 6 are parallel to each other and the ore body and drill in one or several rows, their diameter from 80 to 150-200 mm and the distances between them are determined by specific mining and geological and mining conditions.

After that, within each substage, cleaning blocks 7 are formed due to the connection of the haulage 1 and the ventilation 2 drifts of diagonal rebels 8 and 9, both of which workings out are carried out only at the initial stage of work, and later rising 9 of each subsequent block in the substage block is formed a strip 10 laid out in the already spent block I along the untouched massif of the ore of block 7. The height of these rebels is equal to the power of the ore body, the roof is reinforced with rods and drawn in by a metal grid.

From the diagonal rebel 9, along the strike of the ore body, in the middle of block 7, a drilling chamber 12 is conducted, and is conducted over the ore body, through contact with the roof. At the same time, additional drilling chambers 14 are conducted on the design boundaries of the rear sight 4 of the haulage 1 and the rear axle 13 of the ventilation drift 2 (conducted along the ore body, along the soil, oriented along the strike of the ore body) ....

After the drilling chambers 12 and 14 are completed, the blocking operation of block 7 begins: a system of explosive wells is drilled from the drilling chamber 12 to create a gap in the roof 15 (the wells are parallel to each other and bedding) and a piercer 16 of boreholes 16, an additional system 17 is drilled from the additional drilling chambers 14 wells parallel to each other and perpendicular. roof to the roof, and bogging fans of the wells 18. When drilling the block from the drilling chamber 12, the drilling

equipment capable of drilling up to 40 m from chambers 14 can be drilled with a weaker drilling tool.

After drilling a system of reinforcing wells 6, a perforated hose made of a polymeric material, for example polyethylene, is introduced into them (the diameter of the hose allows it to be freely introduced into the well).

After blocking block 7, the systems of wells 15 and 17 and fans 16 and 18 of the wells are charged, and the wells of system 15 and 17 are charged through one.

Then, explosive ore blasting is carried out, and the blasting is carried out in the following order: the systems of the wells 17 are blown up, then 15, then the blast hole fans 18 and then the fans 16, besides, slow-blasting is used, at which blasting fans 16 and 18 , adjacent to the workings 8 and 9, and then the next to the center of the block.

After being ventilated from the drill drift 5, a reinforcing solution is injected into the boreholes 6, roof rocks are strengthened, possibly cracking due to an explosion, and a system of reinforcing rods is formed.

Next, work begins on the harvesting of broken ore, and mines 8 and 9 are restored first of which, then, broken ore 19 is harvested, so that strips of uncleared ore 20 remain in the cleaning space of block 7 (chambers 21 The pillars 4 and 13 of the chamber 21 are necessarily formed). At this stage of the work, the rock slab, formed in the roof by fortification works, relies on pillars 4 and 13 along the workings 1 and 2 and the uncleaned ore strip 20. It should be noted that the carrying capacity of the strips 20 is less than that of rubble strips of equal width, since for these bands, only the middle part works as a supporting structure, and the adjacent rock prisms only keep this middle part from spreading out under the effect of roof pressure.

After conducting chambers 21, supporting structures 22 (rubble strips or pneumatic support) are built in the entire block length, under the protection of which strips of uncleaned ore 20 are removed, while in strips 21 adjacent to pillars 4 and 13, rubble strips 23 are built necessarily, even if the other chambers 21 use a different type of support.

After the entire ore has been harvested, along the mine 8, the rubble 10 is laid out (now the mine 8 will be used as mine 9 in the next block 24) and the buoyant bands 23 are stowed by drilling and subsequent blasting of wells in the soil under these bands.

The order of mining blocks in the floor is reverse, i.e., from the boundary of the ore floor to the trunk or main haulage workings. With the lag behind the refining operations, the pillars 4 and 13 are redeemed. In this way, in the development of 1 and the excavations 2, the rubble strips are erected and after their explosive spreading under the ftif: all works on the replenishment of the columns are carried out under the rubble 23.

The advantage of this method of development is that it allows you to increase productivity in mining by reducing the total time of breaks for airing and blasting, however, the degree of ore extraction is quite high.

Claims (2)

1. A method for developing reservoir mineral deposits, including drilling wells, breaking down ore in a block, strengthening roof rocks and harvesting ore, characterized in that, in order to increase the efficiency of refining operations by ensuring the continuity of the excavation process, in parallel to the bedding, drill rocks parallel wells are delineated throughout the entire area of the treatment unit; the block is being contoured along the roof of the reservoir, and the superspawn and substrate pillars, respectively, of the retractable and ventilating drilling, charging, and e f3 g detonation of contouring wells, and the blocking of the block reserves is carried out simultaneously by a short-delayed blasting of wells with advanced blasting of the contouring wells through one, and the blasting of wells drilled at the drilling wells drilled out of the drill holes first drilled out at the indicated wells. located along the contour of the block, while ore blasting starts from the periphery of the block to the center along the strike of the block, after which the roof rocks are strengthened by forcing olimernogo composition into wells drilled in the roof rock and cleaning of broken ore manufac t stripes leaving between the latter bands of broken ore, which ore is removed after cleaning and attachment gob. .2. A method according to claim 1, characterized in that, in order to protect the reinforcing wells from destruction during blasting operations in the block, perforated shlang are introduced into the reinforcing wells drilled in the roof rocks. Sources of information taken into account in the examination 1. Agoshkov MI and others. Development of ore and placer deposits. M., 1962, p. 186-196. 2. Tikhonov N.V. Transport vehicles and complexes of mining enterprises. M., 1975, p., 38-39 ... 7 Kz 7 / /////// 77 /  / J Z ///////////////// (