RU2044998C1 - Method for rock blasting in open pit - Google Patents

Abstract

FIELD: ore mining industry. SUBSTANCE: drilled undercutting holes spaced at 200-500 m. Undercutting holes are drilled with inclination to undercut the level of bottom of breakage holes in the second or in the last row provided the difference in elevations of mouth and bottom of undercutting hole is within 7 m. In case of insufficient filtering capabilities of worked rock mass, blasting method is used to develop transverse and main drainage zones. After provision of transverse zone, arranged in undercutting hole is water conduit with its outlet on the slope of low bench to vessel. Hole mouth round the metal pipe is sealed with rubber ring. Water flows into vessel, first, under the water head from undercutting hole, and then, due to vacuum created by water between levels of vessel (metal pipe ring) and hole mouth. As a result, cone of influence in water flow in bench is provided and constantly maintained at the preset level that allows blasting of bench rocks with use of explosives not resistant to water. EFFECT: higher efficiency. 2 cl, 2 dwg

Description

 The invention relates to methods for drilling and blasting with the drainage of the worked ledge and can be used in the mining industry with open development of deposits.

 The experience of drainage of water in quarries is known by forming a main drainage zone with a blasting method with its exit beyond the quarry and several transverse drainage zones within the working horizons of the quarry [1] The disadvantage of this technical solution is that water wells are not provided in bore holes, a large the volume of initial labor in quarries, allowing the natural flow of water beyond borders.

 Closest to the proposed one is a method of breaking rocks at a quarry [2], including drilling a series of wells, drilling a series with a reverse angle of inclination relative to the slope plane of the ledge to the border of the lower edge, loading explosive wells, jamming and blasting with a millisecond slowdown, the last row is drilled along the contour of the ledge to a depth of not more than half the height of the ledge, and between this row and the inclined near the opposite angle of inclination, drill an auxiliary row of the well to a depth equal to the distance from the bottom of the well of the last row to the top th surface of the ledge, and the blasting begins from the last row of the well.

 The aim of the invention is to increase the efficiency of drilling and blasting operations at the quarry due to pre-treatment for drainage of the ledge by suction of water from the cut well.

 The goal is achieved by the fact that in the method of breaking rocks at the quarry, including drilling a series of wells, loading explosive wells, jamming and blasting with a millisecond slowdown, drill slitting wells with a slope, place the vessel on the slope of the underlying ledge and connect the latter with a slitting hole, and the level of the upper edge of the vessel is located at the suction level of the pipeline, while in order to increase the filtration capacity for water in the array, explosive charge sections are preliminarily blown in the plane x wells with the intersection of the breakdown lines along the front of the ledge and in the bores of the boreholes, and then the explosive charges of the boreholes.

 The proposed method of breaking rocks at a quarry provides a flow of water in the area of blastholes due to the disturbance (increase in fracturing) of the array in the plane (layer) of bores and slitting wells in the form of a pipe shape and the creation of a vacuum in this layer due to suction formed by the vessel, which allows the use of non-water resistant explosives.

 Figure 1 shows the plan of the ledge; figure 2 section aa in figure 1.

 The method of breaking rocks on a quarry is as follows.

 According to the certificate of drilling and blasting operations, downstream boreholes 1 and transverse boreholes 2 are drilled after 200-500 m. Boreholes are drilled with a slope, cutting the bottomhole level of 3 boreholes 1 in the 1st or last row, provided that the difference between the marks of the mouth and bottom is undercut wells do not exceed 7 m.

 In case of insufficient filtration capacity of the water array, a transverse and main drainage zone is created. A transverse zone in the form of a cut hole with the formation of increased fracture at the intersection (in plan) with the main zone, for which blast cartridges are blown up, for example, for a well D = 100 mm cartridge weighing 3 kg. In the case of wall shedding, a sub-hole is drilled a second time in the places of violation. Placed in a slit well pipe (pipe) 4, for example a metal pipe. Then, a main drainage zone is formed near the metal pipe 4, for which blast cartridges are detonated, located in the wells of the last row of selectively or in all of the holes of the drill holes. After the preparation of drainage zones, if the geological conditions of the rocks require it, then, as the subcutaneous well is filled with water or drained from it, the metal pipe 4 from the mouth 5 is connected by a pipe 6, for example, with a rubber hose, to a vessel 7 located on the slope 8 of the underlying ledge 9 The level of the upper edge 10 of the vessel 7 is located at the level of the suction 11 of the metal pipe 4, introduced into the undercut hole. After filling the well to be cut with water, the wellhead 5 around the metal pipe 4 is sealed with a rubber ring. Water will merge into the vessel at first under the pressure of water from the cut well, and then due to the vacuum formed by the water between the levels of the vessel (the suction of the metal pipe) and the wellhead. As a result, a depressing funnel will be created from the cut-off well through the drain in the ledge and constantly maintained at a predetermined level, which will make it possible to break the ledge with non-water-resistant explosives, including in the wells.

Claims (2)

 1. METHOD FOR BREAKING ROCKS ON A CAREER, including drilling a series of wells, loading explosive wells, jamming and blasting with a millisecond slowdown, characterized in that they cut slitting wells with a slope, place the vessel on the slope of the underlying ledge and connect the latter with the slitting wells, and the level of the upper edge of the vessel is located at the suction level of the pipeline.  2. The method according to p. 1, characterized in that they pre-explode sections of explosive charges in the planes of the cutting wells with the intersection of the breakdown lines along the front of the step and in the bores of the drill holes, after which the explosive charges of the drill holes are blown up.

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