RU2541352C1 - Open development method of mineral deposits - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: method involves driving of permanent and working trenches, installation of downhole and main transport pipelines, extraction of a mineral deposit with wedge-shaped producing blocks. Driving of a working trench is performed by means of a parallel cut throughout the length of an open-pit field, and direction of a mine work front line is offset in a circumferential direction, the centre of which is a stationary rotary station of transport pipelines with radius R equal to maximum width of excavation cut to observe parallelism of the axis of transport pipelines to the mine work front line. The formed angle α_i between radius R and the line of the main transport pipelines is determined from a mathematical expression.

EFFECT: improving efficiency of a fan development system.

3 dwg

Description

The invention relates to the mining industry and can be used in the development of powerful mineral deposits of shallow and slightly inclined occurrence using continuous open-cast technique.

There is a method of open development of mineral deposits, for the development of complex structural deposits with steep or inclined falling layers of different strengths. The goal is to increase the efficiency of averaging of rocks in the bottom due to the possibility of quality control during explosive breaking of bottom rocks. To do this, conduct a split trench and orient it along the contact of the rocks with the location of the contact inside the contour of the trench, which is practiced by wedge-shaped cuts. The width of the entry is set less than the width of the split trench. The top of the wedge is oriented into an array of rocks and placed on the contact of the rocks or the projection of the contact on a horizontal plane. The angle of the wedge peaks is taken within 80-90 degrees. Wells are drilled in rows in the sunset area in rows parallel to the generatrix of the wedge-shaped sunset. Then the wells are charged and the rows of wells are blasted alternately from each of the sides forming a wedge-shaped entry, and the blasting begins with hard rocks. At the time of the explosion, layer-by-layer application of rocks of one strength to rocks of another strength occurs. When excavating blasted rock mass, an operation of mixing rocks of different strengths is additionally carried out. [SU patent No. 1652553 A1 of 11.23.1988, publ. 05/30/1991, IPC E21C 41/00].

This development method is characterized by low efficiency associated with the complex organization of work during the development of one part of the quarry field using a longitudinal system, and the other - fan and periodic excavation of “wedges” at the beginning of each approach.

The closest in technical essence and the achieved result is a method of open development of mineral deposits of horizontal and gentle bedding of powerful deposits using continuous technology. This method includes the development of overburden, excavation of minerals and internal dumping, the development of overburden is performed by wedge-shaped approaches with a complete excavation of the wedge, provided the parallelism of the lines of the lower edge of the internal dump from the mining zone, the centerline of the excavator during the development of the lower mining subsurface step, the axial line the course of the loader, the lower and upper edges of the lower production ledge of the subsequent entry, the axial lines of the downhole conveyors for transportation is useful of the fossil during the extraction of the lower and upper mining steps, the axial line of the excavator during the mining of the upper mining step of the ledge, the lower and upper edge of the upper mining ledge of the subsequent run, the axial line of the overburden excavator, the lower and upper edge of the overburden ledge of the subsequent run. [RU No. 2394157 C1, E21C 41/26 dated 05/26/2009, publ. 07/10/2010].

This development method is characterized by low efficiency, mining and loading complex in a wedge-shaped entry.

An object of the present invention is to increase the efficiency of a fan development system.

The problem is achieved in that in the method of open-pit mining of mineral deposits while fanning the front of mining operations, including the sinking of the capital and split trenches, the installation of downhole and main transport communications, the extraction of minerals by wedge-shaped operating blocks, according to the invention, the sinking of the split trench is carried out by means of parallel sunset along the entire length of the quarry field, and the direction of the front line of the mining operations is shifted around a circle, the center of which I wish to set up a fixed turning point transport communications with radius R equal to the maximum width of the excavator stope for compliance parallel to the axis of transport communications lines front of mining operations, wherein the angle α _i formed between the radius R and the line of main transport communications is determined from the condition:

α _i = 180 + (n · α _f ),

where α _f - the angle of rotation of the front of mining specified depending on the extraction equipment, degrees;

n is the sequence number of the wedge-shaped operating unit.

The parallelism of the axis of transport communications to the front line of mining ensures the efficiency of the extraction of mineral reserves.

A stationary turning point provides a constant distance of transportation of minerals and allows you to favorably plan the location of stationary industrial structures. Digging a trench through parallel approach along the entire length of the quarry field provides preparation of the field for excavation with a fan development system.

This method is illustrated in figure 1, 2, 3,

where: 1 - capital trench; 2 - split trench; 3 - trunk transport communications; 4 - downhole transport communications; 5 - stationary turning point; 6 - rotor complex; 7 - wedge-shaped operating unit; 8 - front line of mining operations; 9 - direction of the front line of mining.

The method is as follows. Using well-known methods and means, a major 1 is cut and a split 2 trench is built, in which trunk 3 and bottomhole 4 transport communications are located, with a stationary turning point 5. The split trench 2 is removed along the entire length of the quarry field with a rotor complex 6 by means of a parallel approach, the width of which equal to the maximum width of the excavator insertion - Bmax, corresponding to the radius R. The subsequent removable sections are wedge-shaped - wedge-shaped operating blocks 7. For effective pits are minerals with a fan system is a necessary condition for the development of the principle of parallelism of the axis of the transport communications to the front line of mining. To comply with the principle of parallelism, it is necessary to adjust the front line of mining operations 8 relative to downhole transport communications 4 based on the condition that the direction of the front line 9 is displaced in a circle, the center of which is a stationary turning point of transport communications 5 with a radius equal to the maximum width of the excavator entry.

This technological technique ensures the efficient development of a mineral deposit with a fan-shaped development system through a continuous mining and loading complex.

Claims (1)

A method of open-pit mining of mineral deposits while fanning the front of mining operations, including the sinking of the capital and split trenches, the installation of downhole and main transport communications, the extraction of minerals by wedge-shaped operating blocks, characterized in that the cutting trench is excavated by parallel drilling along the entire length of the career field , and the direction of the front line of the mining operations is shifted around a circle, the center of which is a stationary turning point trans ortnyh communication with radius R equal to the maximum width of the excavator stope for compliance parallel to the axis of transport communications lines front of mining operations, wherein the angle α _i formed between the radius R and the line of main transport communications is determined from the condition:
α _i = 180 + (n · α _f ),
where α _f - the angle of rotation of the front of mining, specified depending on the extraction equipment, degrees;
n is the sequence number of the wedge-shaped operating unit.

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