RU1802140C - Method for driving raises - Google Patents

Abstract

Used: for conducting treatment operations in underground ore mining. SUMMARY OF THE INVENTION: Initially, a compensation well is drilled to the design depth of the rising one, the directions and magnitude of the main stresses acting in the array are determined. The first logging wells are placed in the direction of action of the main tensile stresses. The rest is. Numerous wells are located taking into account the magnitude of the stresses acting in the area of their occurrence. In the bottom part of the cut wells, annular profile depressions are made. 2 ill.

Description

The invention relates to the mining industry, in particular to a method of sinking workings by blasting a borehole charge, and can be used primarily for sinking uprising and close to them in the direction of workings,

The aim of the invention is to increase efficiency by reducing the amount of drilling work.

Fig. 1 shows a diagram of the location of the cut wells and the directions of the main stresses in the array; figure 2 is a longitudinal section of one of the log wells with an annular profile recess in the bottom.

The method of sinking uprising workings is carried out as follows.

Compensation well 1 (Fig. 1) is drilled to the design penetration depth of the riser. Placement of logging wells

2,3,4 and 5 are carried out taking into account the stress state of the array. To this end, one of the known methods determines the direction and magnitude of the main stresses acting in the array. Chisel-hole wells 2,3,4 and 5 explode sequentially with a certain deceleration. The work of the first charges in wells 2 and 3 takes place in very difficult cramped conditions and has a decisive influence on the results of drilling as a whole. To avoid, the lumbago of wells 2 and 3 without breaking the rock mass, they are placed at distances determined according to well-known recommendations, but they are located in the reduced range. tensile stresses, when the tensile stresses arising during the explosion and the main tensile stresses in the array coincide, which. facilitates the destruction of the rock bridge between the compensation well 1 and the cut wells

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2 and 3 over the entire height of the riser and the entire width of the diameter of the compensation well 1, this is also facilitated by the redistribution of the explosion energies due to the implementation of the 4 bottom part along the perimeter of the cutting wells 2,3.4 and $ of artificial stress concentrates in the form of triangular grooves 6 located in the plane perpendicular to the axis of the wells 7 (Fig. 2). The parameters of concentrates 6 are recommended by a number of researchers: the angle at the apex is 45-90 °, the minimum depth is 0.05 D square meters.

The use of stress concentrates (b) allows for a narrower range of stresses and to accelerate the process of crack development in a given direction - perpendicular to the axis of the wells and thus increase the fraction of the explosion energy in useful forms of work, i.e. the destruction of rock lintels between the compensation well 1 and the hole 2.3, and ejection from the hole cavity of the destroyed rock mass. This creates favorable conditions for the action of the charges of the cutting wells 4.5 and high-quality design of the cutting cavity.

Then, the charges of the boreholes and the contouring wells are blown up one by one, making a riser to a predetermined height within the design loop.

Claims (1)

The claims A method of sinking uprising workings, including the drilling of compensation, plunge, breaker and contouring wells, loading and blasting them in a certain sequence, characterized in that, for the purpose of increasing. efficiency by reducing the amount of drilling work, they initially drill a compensation well to the design depth of the rising one. determining the direction and magnitude of the main stresses acting in the massif, the first log wells are placed in the direction of the main tensile stresses, and the remaining wells are placed taking into account the magnitude of the stresses acting in the area of their laying, and in the bottom part of the log wells annular profile depressions are made in a plane perpendicular to the axis of the wells. Qus.j Editor Compiled by V. Voronenke Tehred M. Morgenthal Corrector N. Revska