SU1684498A1 - Method for working steep ore bodies - Google Patents

Abstract

The invention relates to mining promet and m. used in underground mining of ore on stockpiles, including under the bottom of the pit. The purpose of the invention is to improve the performance of extraction and development costs when sublevel mining ore mass (PM). Breaking down the ore in the upper part of the deposit forms a protective protective layer (CS) of the large-piece structure. The ore is excavated by sub-floors (PE) under the ES. After the PM has been crushed in PE, the face release of the broken ore is made within the layer. The ore is excavated in a subsequent PE after the complete removal of the PM in the previous PE and the release of broken ore. In each subsequent PE, the PM is taken out in the opposite direction to the notch in the previous PE. Following the excavation of the underlying PM, they bypass CS. When an ES bypass, its parameters change. By changing the direction of the recess of the PM in the subsequent PE to the opposite with respect to the previous PE, the CS parameters are restored. 5 il. w ё

Description

The invention relates to the mining industry and can be used in the underground mining of ores in rod stocks, including under the bottom of the open pit.

The purpose of the invention is to improve the mining and extraction costs of the mine during the subsurface excavation of the ore massif.

FIG. 1 shows the initial position of the protective layer of broken ore; in fig. 2 - the same, its position after the extraction of ore from the first substage; in fig. 3 - the same, its position after the extraction of ore from the second substage; in fig. 4 is a vertical section of the ore body across the axis of the panels; in fig. 5 shows section A-A in FIG. 4 (vertical section along the axis of the panels, the arrows indicate the incision grooves).

The method is carried out as follows.

A steeply dipping w.,; Ј The ore body with strong ore and stable host rocks is worked, for example, under the bottom of the open-pit. The excavation of the ore body is carried out by a subsurface collapse system. In order to protect the workings of the working levels, preserve the ventilation mode and improve the extraction of mineral resources, mining is performed under a protective protective layer of broken ore.

The ore body is divided into sub-floors 1, and sub-floors on panel 2. A part of the ore reserves, the bodies under the bottom of the open-pit, are being worked out with the aim of creating a protective protective layer 3 of large-sized structures.

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For this, the array is drilled into a thin grid of wells of increased diameter from the drill workings of the horizon. Blasting is carried out simultaneously or in layers. To create compensation, partial ore is produced from broken layers.

At the subsurface horizons, there are drilling and delivery dorts 4, cutting drifts 5. transport and ventilation drifts b and cutting slots 7. Breaking down the ore massif on the first sub-floor 1 being worked out after the massif at the lateral side is made by ascending fans 8 wells 9 with a diameter of 50-65 mm by vertical or inclined layers 10. After the next layer 10 has been crushed, the ore beneath the safety valve 3 is released through the loading and unloading machines through the loading and hauling machines and transferred to the concentration horizon 3 Without ore pass 11, and then beat off the next layer. After complete separation of the ore massif of the substage, they proceed to the subsequent excavation. In this case, the excavation is carried out in the direction opposite to that of the previous substage, i.e. from the vis of which the sides to the lying. For this, a piece of the array is carried out at the side of the wall.

When the first sub-floor is removed, the safety layer shifts towards the beginning of the sub-floor notch. Have a side

ore body thickness is significantly reduced. To restore its original shape and parameters, the direction of the notch in the subsequent substage is reversed. After removing the second substage due to the displacement of the safety layer in the opposite direction, it takes mostly the original parameters throughout the ore body, which restores its functions as a safety layer.

After mining the ore body, the ore reserves contained in the protective layer are excavated.

Claims (1)

The invention of the Method of developing steeply dipping ore bodies, including the formation of a protective protective layer of a lumpy structure, breaking of the ore massif, face production of broken ore and the bypass of the protective layer following the excavation of the underlying ore massif, characterized in that, in order to improve the extraction rates and cost of development in case of subsurface excavation of the ore massif, a protective protective layer is formed from the broken ore, and the ore mass in each subsequent sub-floor is removed after the full the strikes of the ore massif in the previous substage and the release of broken ore in the opposite direction to the excavation of the previous substage. figure 1 (pus 2 fig-3 Editor I. Casard FIG. five Compiled by A.Loginsky Tehred M.MorgentalKorrektor T.Paly four