SU1668667A1 - Method for combination mining of gently sloping seams - Google Patents

Abstract

The invention relates to the mining industry, reduces the loss of mineral during mining and the amount of backfilling work in the conditions of surface conservation from disturbance. The excavation area within the panel is prepared by panel 1 and 2 and side 3 drifts. In the center of the pillar, the collecting drift 6 is passed, and intermediate drifts 5 are along the length. At the first stage, the mining is carried out with the formation of chambers using self-propelled machinery. The roof of the chambers was fastened with rods. Then they carry out incomplete bookmarking of the chambers and form in them artificial supports 4 and mine workings adjoining inter-chamber pillars. In the second stage, the mineral is worked by short lava between the artificial supports. Clearing faces in the block from its flanks alternate the chamber - short lava, chamber - chamber - short lava, chamber - chamber - short lava. The width of the half-block is determined from the expression B _pb = NL + 2NB _{l to} ≤L _kr, where N - number of short lava, pieces

L _l - the length of the lava, m

B _to - the width of the camera, m

L _kr - limiting parameter according to the conditions of ventilation or transportation of the mineral, m. The width of a short lava with drifts adjacent to it is set to (2 - 3.5) ^. B _к , but it should not exceed the value of the maximum span of the main roof. 1 hp f-ly, 2 ill.

Description

The invention relates to the mining industry, and in particular to methods of underground mining of stratum deposits for the extraction of solid minerals with the maintenance of overburden and surface.

The purpose of the invention is to reduce the loss of mineral during mining and the volume of backfilling work in conditions of surface conservation from disturbance.

Figure 1 shows a flowchart of the block; figure 2 - section a - a in figure 1.

The method is carried out as follows.

The excavation area intended for working within the panel is limited in length by panel drifts 1 and 2, and laterally by side drifts 3. In the center of the column prepared for excavation, there is a collection drift 6 dividing it into two equal parts, and - intermediate drifts 5, which cut the block into 3 - 5 parts. The parameters of the semi-block are established taking into account the provision of effective ventilation of the chambers in the course of mining operations and the rational delivery distance of the extracted mineral, depending on the downhole equipment used.

The method of developing a reservoir includes: at stage I, excavation of minerals with chambers with roof bars and the use of self-propelled mining equipment (possibly in conjunction with scraper conveyors), incomplete laying of chambers across the width when using a mechanized mobile fence that is installed along the chamber before the start of laying operations , in order to provide the possibility of obtaining a backfilled space of a given size, adjacent to inter-chamber pillars, which are used vehicle in stage II as a transport (conveyor) or ventilation drift; at stage II, the mining of mineral scouring between

artificial supports 4 short lavas with the collapse of only the immediate roof when using hydroformed landing lining. The cleaning holes in the block from its flanks alternate in the following order: camera - short lava, camera - camera - short lava, camera - camera - short lava, etc. The width of the half block Vpb is determined from the expression

Vpb Shl + 2pk Up, m.

where n is the number of short lava, pcs;

1l lava length, m;

Bk — chamber width, m; The calf is a limiting parameter according to the conditions of ventilation or transportation of the mineral, m.

The width of the short lava and adjacent

to her drifts set equal to 2 - 3.5

Bk, but it should not exceed

limit span of the main roof.

Artificial pillars erected from

0 hardening mixture, which is prone to increase in volume during the hardening process to ensure complete laying of the developed space of the gently falling deposit. i

5 Mining operations are carried out in one of the semi-blocks ahead of the other. The direction of the cleaning works in semi-blocks - from the side to the collecting drift with a total

0 the direction of the front of the cleaning works in the excavation area to the loading point. The first stage of the clearing recess cameras, leaving between the chamber pillars significantly ahead of the second stage of the recess.

5 Advance in time depends on the technology of filling works and the duration of the set of standard strength of hardening bookmarks. Cleansing Mineral Short

0 lavas with the collapse of the direct roof when using hydroformed landing lugs lead to the entire length of the excavation site without dismantling the bottomhole equipment in each block.

5 The technological parameters of short lavas with the collapse of the immediate roof ensure the safety of the surface and the safety of mining operations.

The method allows to achieve the greatest

0 concentration of sewage treatment works, excavate the field with an extraction factor of 0.93 - 0.96, reduce the amount of labor-intensive and expensive filling operations by 3.0 - 3.8 times, and use of high-throughput mining methods in short lavas Direct roofing ensures high intensity of mining and a significant reduction in the cost of cleaning works.

Claims (2)

Claim 1. Method for the combined development of seam gently dipping mineral deposits, including 5 panel preparation of the excavation site with its division into blocks, two-stage reservoir mining. partial laying of the developed space of the primary chambers and extraction of mineral reserves between artificial supports with roof collapse, characterized in that, in order to reduce mineral losses during mining and the volume of backfilling work under conditions of preserving the surface from damage, the extraction block with the formation of chambers and the laying of the developed space with hardening mixtures, while in the process of laying the developed space in it form traffic drifts, set to chamber pillars, and intercameral pillars work into the second stage with short lavas with the collapse of the direct roof, and mining of the mineral in the block is carried out from its flanks to the middle and clearing faces alternate the chamber - short lava, camera - camera - short lava, camera - camera - short lava, and the width of VPb (m) of a half block is determined from the expression VPB l -1L + 2 n Uk Up, m, where n is the number of short lavas; l is the length of the lava, m; Bk — chamber width, m; Up is the limiting parameter according to the conditions of ventilation or transportation of the mineral, m. 2. The method according to claim 1, wherein that the width of the short lava and adjacent y. her drifts set equal to (2 -3.5) LK, but not more than the value of the marginal span of the main roof.