RU2014560C1 - Method for contour blasting - Google Patents

Abstract

FIELD: blasting works. SUBSTANCE: rows of contour and precontour boreholes 2 and 3 respectively are drilled in destructible mass. The contour and precontour boreholes are staggered in plane in the vertexes of assumed flat broken line with angles equal to 80-100°. The contour boreholes are charged with reduced charging coefficient, and the precontour ones - with rip charges. All boreholes are exploded simultaneously. EFFECT: improved behind-the-contour mass preservation. 1 dwg

Description

 The invention relates to mining and construction and can be used in open and underground work.

 There is a method of contour blasting by the preliminary slit method, including drilling of contoured contour wells along the contouring line and the contour row of loosening wells, charging contour wells with a reduced loading coefficient, and pre-contour wells with loosening charges and blasting contour wells ahead of 25-250 ms [1].

 The disadvantage of this method is its low efficiency due to the large volume of drilling of contoured contour wells and the insufficient safety of the contour array, since with a simultaneous explosion of charges in contiguous wells lying in the contouring plane, as a result of the counter interaction of stress waves between the wells, the contour array is violated to a greater depth than near the wells.

 A known method of contour blasting by the method of contour blasting, including drilling of hole cuts and adjacent rows of auxiliary, pre-contour and contour holes, moreover, contour and pre-contour holes in the rows are brought together, and sequential blasting in rows [2].

 The disadvantage of this method is its low efficiency due to the large volume of drilling and consumption of explosives and low safety margin array, especially between contour holes.

 The closest in technical essence and the achieved effect is a method of contour blasting with a shock-absorbing layer, including drilling contour and pre-contour rows of wells that are close both in a row and between each other, charging them with a reduced loading coefficient and blasting contour wells simultaneously in a row, but ahead of or with deceleration with respect to charges in the pre-contour row [3].

 The disadvantage of this method is the insufficient safety of the contour array, since with the simultaneous explosion of the contour charges charged along the contouring line, as a result of the oncoming interaction of stress waves between the wells, the contour array is violated to a greater depth than near the well.

 The purpose of the invention is improving the efficiency of contour blasting and improving the safety of the contour array.

The goal in the proposed method of contour blasting, including drilling contour and pre-contour rows of wells, loading contour wells with a reduced loading coefficient, and pre-contour - with loosening and blasting charges, is achieved by the fact that contour and pre-contour wells are staggered in planes at the vertices of an imaginary broken line lines with angles equal to 80-100 ^about and simultaneously explode. Such a mutual arrangement of contour and pre-contour charges and their simultaneous blasting makes it possible to increase on average 1.4 times the distance between contour wells and to prevent destruction of the contour array between contour wells, since counter-interaction of stress waves is directed to the destruction of shock-absorbing protrusions between contour wells.

 Known technical solutions having features similar to those that distinguish the proposed solution from the prototype was not found.

 The drawing shows the location of the contour and pre-contour wells according to the proposed method of contour blasting, where 1 is the contouring line; 2 - contour wells; 3 - wells with loosening charges; 4 - direction of stress waves.

The method of blasting is as follows. The contour wells 2 and the wells of the charges of loosening are located at the vertices of an imaginary flat broken line ABVGDEZH with angles equal to 80-100 ^about . At the peaks that lie on the AVJ contouring line, contour boreholes 2 are drilled, and at the peaks of the BGE contour boreholes are drilled 3. The contour boreholes are charged with a reduced loading coefficient, and the contour boreholes are loosed and simultaneously explode. The distance between the contour and pre-contour charges should ensure the formation of a continuous fracture zone (crack) between them during an explosion. During the explosion between the contour and pre-contour wells, a counter-interaction of stress waves 4 occurs, which is directed to the destruction of the shock-absorbing protrusions between the pre-contour and contour charges of the wells. The counter interaction of the stress waves 4 from the explosion of the contour charges does not have a destructive effect on the contour array, since the distance between the contour charges is increased by about 1.4 times compared with the prototype.

At angles at the vertices ^{of the} polygon below 80 begins to affect the negative impact on an array of perimeter oncoming wave interaction stress contour from the explosion of charges A, B, D and G.

At angles at the vertices of ^a polygon of more than 100 charges loosening located sufficiently close to the contour surface, which also adversely affects safety of perimeter array.

 The proposed method provides improved safety of the contour array by eliminating the negative effects of counterpropagating stress waves from the explosion of contour charges, increases the efficiency of contour blasting by reducing the amount of drilling work to drill contour wells and using the energy of loosening charges to form a contour surface.

Claims (1)

CONTROL EXPLOSION METHOD, including drilling contour and pre-contour rows of wells, loading contour wells with a reduced loading coefficient, and pre-contouring with loosening and blasting charges, characterized in that, in order to improve the safety of the contour array and the efficiency of contour blasting, contour and pre-contour wells are placed plan in a checkerboard pattern at the vertices of an imaginary flat broken line with angles of 80 - 100 ^o and simultaneously explode.