SU1680992A1 - Method of selective mining steep composite beds - Google Patents

Abstract

The invention relates to the mining industry and allows to increase the load on the working face and to improve the quality of the extracted mineral. Ventilation and transport drifts are conducted in the excavation field. Connect them with a split oven. The sliced pillar is separated by intermediate furnaces (PP) in 20-25 m. The split furnace is formed in the form of soil access faces. They are given an oblique shape with an angle of incidence equal to the angle of repose of the destroyed PI. Separate PI and waste rock are alternately separated in each ledge. Broken rock mass is accumulated in the PP. The rock is unloaded from the PI separately from the PI. After excavation of the PI formation, the support sections are moved to full capacity. As they approach the conveyor roadway, the roof sections are disassembled, delivered to the air vent, then they are mounted in the mounting niche 2 or later.

Description

The invention relates to the mining industry and is intended for the development of mineral deposits of steep fall, complex structure using cleaning complexes.

The aim of the invention is to increase the load on the working face and to improve the quality of the extracted mineral.

Figure 1 shows the scheme for implementing the method for selectively excavating steeply dipping layers, a general view; 2 is a section A-A in FIG. one.

The method is carried out as follows.

In the excavation field, ventilation and transport drifts are made, which at the border of the excavation section are connected by a split furnace, i.e. cut to length

long post along strike. The sliced pillar is separated in 20–25 m by intermediate furnaces 1, which serve for the reception of minerals, waste rock and air supply. In the course of development of works from the borders of the excavation floor, the face is given an inclined shape with a dip angle equal to the angle of natural repose of this fossil. At the intersection with the furnaces, the higher sections advance the lower ones by 1-2 advances. form and slaughter

In each step, the excavation is carried out as follows.

With the help of excavation machines (blasting, jackhammers), the upper mineral pack is removed for the entire length of this ledge, then, depending on the technology adopted, the lower

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pack or sheet. Repulsed minerals under the action of its own weight are transported by slaughter to the furnace, passed along the lower margin of the ledge and further to loading. Then the interlayer is removed and accumulated in the intermediate furnace. The beaten rock is discharged from the furnaces separately from the mineral. After releasing the furnaces remove the bottom pack. After excavation of the reservoir, the support sections are moved to full capacity 2.

As they approach the conveyor roadway, the sections 3 are disassembled, delivered to the ventilation roadway, where they are mounted in the installation niche 4.

Claims (1)

The invention The method for the selective development of steeply dipping seams of complex structure, including ventilation and transport workings, the formation of long pillars along the strike, the installation in the mining face of mechanized roof supports, alternate excavation of minerals and waste rock and their transportation through development, characterized in that, in order to increase the load on the mining face and improve the quality of the extracted mineral, soil-facing slaughters, which are divided by intermediate furnaces, are formed in the excavation column, and the successive excavation of mineral and waste rock is carried out independently by each earthen-hole slaughter, and The crushed rock mass is pre-accumulated in intermediate furnaces, while the soil-accessible faces form inclined with an angle of incidence not less than the angle of repose of the destroyed mineral. Editor Z. Khodakova Compiled by S.Sopilko Tehred M. Morgenthal Aa FIG. 2 Proofreader O. Kravtsov