RU2449124C1 - Method to increase stability of ceiling in downward slicing development of deposit with backfilling - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: method to increase stability of a ceiling in downward slicing development of a deposit with backfilling includes serial tunnelling and backfilling of parallel mines - stope entries, leaving ore pillars with width equal to one, two or three spans of mines, backfilling of mines with a concrete mix, and after backfilling hardens, ore pillars left between concrete strips are mined. At the same time the vault of stope entries is arranged as deep, besides, ore pillars are left in the roof between concrete backfilling of adjacent stope entries.

EFFECT: higher stability of a mine ceiling.

4 dwg

Description

The method relates to mining and can be used to develop powerful deposits of weak ores in conditions where it is necessary to prevent sediment covering the mined space of ores and rocks. For example, under water bodies, quarry bottoms, flooded with Quaternary sediments.

The well-known "Bookmarking method for the downward extraction of minerals by sunset" (patent RU No. 2069765, publ. 11/27/1996), which provides for the tabs entry in three layers, and the top layer is filled with a mixture with the addition of an expanding component NRS-1 (non-explosive expanding mixture for mining and drilling), providing an increase in bookmark volume by 10%.

The disadvantage of this method lies in the fact that with a small thickness of the underlay roofing layer of the bookmark, the expansion of the mixture by 10% does not provide podbubivanie ceiling with an uneven outcrop contour. In addition, the problem of leakage of the cast mixture for a puff in the roof of the casts is also not solved.

The known ore mining system at the Oryol mine with openings with tabs in descending order (V.V. Mikhailov, V.F. Scherbinin, G.M. Pustokhin. “Layer mining system with tabs of worked out space” / Mountain Journal. M., Nedra, No. 8, p. 39-43). To ensure the completeness of the bookmark, the entries pass with a slope of 5-7 °.

The disadvantage of this method of ensuring the completeness of the bookmark is that in areas with large ore searches behind the lining, due to uneven outcropping in the roof and tightening of the interframe gaps of the void behind the lining remain uninhibited.

There is a method of mining weak ore under a reservoir in descending layers from top to bottom with the tab of the primary and secondary calls. To ensure the completeness of the bookmark, the layers are given a slope of 6 ° (B.P. Drobot. Layer-by-layer development of ore deposits under an artificial roof. M., Nedra, 1978, P.133, 134).

The disadvantage of this method is that to fill the voids with a bookmark in areas with large searches of ore behind the lining, due to uneven outcropping in the roof, a slope of 6 ° to the horizon is not enough. The voids under the roof remain uninhibited.

There is a method of working out the castings during the construction of the protective floor above the treatment units (D.N. Petrov, Yu.N. Antonov. "Evaluation of the degree of influence of the construction of the protective floor on the deformation of the enclosing massif" / Bulletin of Tula State University. Tula, 2009, Issue 4 , S.145-148), with typical ore deposits for the Yakovlevsky deposit for the design circuit (p.147, Fig. 3), taken as a prototype.

The method adopted for the prototype is illustrated in figure 1. In Fig.1: 1 - the first turn in, laid with concrete; 2 - entry of the second stage to the bookmark; 3 - voids in the roof of the mine workings of the first stage; 4 - pedigree pillar. In this method, the first stage treatment openings pass in a different sequence, through pillars with a width equal to one (Fig. 1, a), two (Fig. 1, b) or three spans of workings, then lay them with concrete mix. After hardening the tabs, ore pillars left between concrete strips are developed.

The disadvantage of this method is that in the openings, secured by an arch compliant roof support, in areas with large ore busts behind the roof support due to uneven outcropping in the roof and tightening of the interframe gaps, the voids behind the roof support remain unladen, because of this, when working out the excavation block, covering the ceilings by mining, it hangs over the bookmark. The voids between the filling concrete and the ceiling pose a potential danger of spontaneous, uncontrolled planting of the coating thickness on the filling concrete, with the destruction and formation of water-conducting cracks in the ceiling. In addition, the roof in loose ores has an uneven profile with protrusions and depressions.

The technical result is to increase the stability of the ore ceiling during the development of powerful deposits of weak ores. As a result, the safety of work during development increases.

The technical result is achieved by the fact that in the method of increasing the stability of the ceiling during layered mining of deposits in a descending order with a bookmark that includes sequential sinking of parallel workings (treatment openings), leaving ore pillars with a width equal to one, two or three spans of workings, laying workings with concrete mix and after hardening the tabs, the development of ore pillars left between concrete strips, according to the invention, the set of treatment openings is uplifting, while in the roof between onnoy laying of sewage adjacent zahodok leave ore pillars.

The implementation of the arch treatment lift up provides a more even distribution of the load from the overlying stratum on the protective floor. The stability of the ore ceiling increases due to its support on the filling concrete and eliminates or reduces the negative impact of underpayment on the stability of the ore and rock strata that overlap the excavation block.

Ore pillars, which were left in the roof between the concrete laying of adjacent treatment openings, serve as supports between the ceiling and the concrete laying of the upper layer.

The essence of the method is illustrated in figure 2 and figure 3. Figure 2 shows a cross section of the treatment plant, where in figure 2, a depicts a reduced set of treatment plant, adopted at the Yakovlevsky mine (according to the prototype), figure 2, b shows the elevated arch. Figure 3 is a cross section of the upper layer of the workings of the lifting arch, secured with anchor support.

The method includes sinking openings with a lifting arch (1) in cross section, leaving ore pillars of various widths and laying the worked out space with concrete mix, securing the openings with anchor support (2) and laying with the placement of the filling pipeline (3) under the roof of the treatment openings. After hardening the tabs, ore pillars left between concrete strips are developed. Due to the changed shape of the excavation arch, the filling concrete is contacted with the ore mass along the lateral sections of the arch, regardless of the voids left under the roof of the treatment run as a result of under-deposit (4) and shrinkage of the filling concrete.

Example. On the horizon - 370 m of the Yakovlevsky mine, a protective ceiling is being built to protect the underlying mining blocks from water breakthrough from aquifers above the ore body. Protective flooring is a system of sewage treatment planted with concrete mixture.

Numerous measurements showed that the adopted construction technology and the cross section of the treatment openings do not provide the transfer of forces from the overlying stratum to the protective floor, due to voids above the filling mass. The ore ceiling hangs over the ceiling and there is a chance that the ceiling will sit on the ceiling, this also leads to more intense dumping.

Changing the cross section of the treatment openings for these conditions from a lowered arch to a raised one ensures contact between the filling concrete and the ore mass along the lateral sections of the arch, regardless of the voids left under the roof of the cleaning sunset as a result of under-deposit and shrinkage of the filling concrete, which eliminates or reduces the negative impact of under-deposit on the stability of the overlying block excavation unit of ores and rocks.

A standard set of tunneling equipment is used for the construction of a protective floor with treatment gates with a lifting arch. Approaches are blasting or combine harvesting.

Thus, the method provides increased stability (strength) of the ceiling.

Claims (1)

A way to increase the stability of the ceiling during layered mining of deposits in a descending order with a bookmark, including sequential sinking of parallel workings (treatment openings) with the leaving of pillars of ore with a width equal to one, two or three spans of workings, laying workings with concrete mix, and after hardening the bookmarks, development left between concrete strips of ore pillars, characterized in that the set of treatment openings is uplifting, while in the roof between the concrete laying of adjacent treatment openings of the remains lyayut ore pillars.

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