SU589406A1 - Method of working thick slightly inclined and inclined seams of ore deposits - Google Patents

Description

(54) METHOD FOR DEVELOPING POWERFUL PROPOSITION AND INCLINED ORE DEPOSITS

The invention relates to the mining industry, in particular, to the technology of mining minerals during their underground mining, and can be carried out with a gentle and inclined bed of powerful ore bodies.

There is a known method for developing thick flat and inclined ore deposits, where bookmark 1 is simulated to maintain the cleansing space.

The disadvantage of this method is the excessive labor costs for the production of bookmarks and the need to find workers in the cleaning space.

There is a method of developing powerful flat and inclined ore deposits, which consists in breaking down the ore in the chambers, scrapering it and delivering it to the haulage mine, and subsequently extracting the chamber pillars with the collapse of overlying rocks into the spent chambers 2.

The aim of the invention is to increase the safety of work by eliminating the presence of workers in the cleaning space.

This is achieved by the fact that when the chamber stocks are crushed, the adjacent sides of the workings, traversed by the fall of the ore body near the roof of the seam, where the scraper blocks are strengthened, are exposed and

reservoir, where winch chambers are equipped with scrapers, and at the same time they work out the number of chambers equal to the overburden collapse.

FIG. 1 shows the cameras being worked out, vertical section; in fig. 2 is a section along A-A in FIG. one.

From the pit horizon, the upward contact 1 of the ore body along the dip passes inclined rising 2, which divide the ore body into panels and pillars 3, and through the lower contact 4 pass split 5, which divide the panels into separate digging chambers 6. At In this way, the inclined rising 2 and the split drifts 5 pass to the extraction chambers 6 so that when the chambers are worked out, the adjacent beams of the workings are exposed, forming a system communicating with the chamber 6 along its entire length.

Split shchtreki 5 bring down with inclined rising 7, which also serve to ventilate the initial period of the chamber 6, and also with the openings 8 of the haul horizon ore chords 9.

The winch chambers 10 are equipped at the ore chutes 9 (or at the discharge slot).

The cleaning works begin with the penetration of the compensation gap 11. The breaking down of chamber stocks is carried out vertically with layers. The drilling of fan holes 12 is carried out by deep drilling machines, which are installed in inclined rebels 2. Cleaning broken ore - scraper. The scrapers 13 are used both of the usual type (rowing) and accumulating depending on the physical and mechanical properties of the mineral.

The cleaning work in each chamber is carried out in an upward order, and the ore body in ue / JO vi is worked out in a downward order, and the number of chambers equal to the overburden breaking step is also processed at the same time.

Blocks 14 scraper installation before the explosion with layering haul to winch. After the explosion, the blocks from the split drift 5 are lifted up again with inclined rising arms 2, where they are fixed.

The excavation of the supporting ore pillar 3 is carried out after the completion of the cleaning works in chambers 6. The rear pillars are drilled with vertical fans of wells from the drop-down generation 15.

Depending on the specific conditions, the pillars are pulled in sections or at the same time on a series of pre-passed exhaust funnels, from where the ore is released into the openings 8 of the haul horizon. Following the collapse of the pillar, the roof collapses into the void space of the chambers.

Claims (2)

1.Smirnov, A.A., et al. Drilling and blasting when excavating cells between concrete pillars. “Tsvetna metallurgists, № 6, 1969, p. 8-10. 2. Starikov N. A., Field development systems. M., 1947, p. 82-85. to eleven