RU2134402C1 - Method for blasting of rock mass - Google Patents

Abstract

FIELD: mining industry, applicable at blasting of rock mass by deep-hole and chamber charges of explosive. SUBSTANCE: method consists in cutting of entries, multirow drilling of holes, their charging and blasting; the rows of holes are arranged between the design contours of mass sections, blasted by charges of entires; they are blasted by rows in the direction of breaking, and the entires are blasted in the last place. EFFECT: uniform and effective breaking of rock mass. 1 dwg

Description

 The invention relates to the mining industry and can be used for explosive crushing of rock mass by borehole and chamber explosive charges.

 Known methods for explosive blasting with beam borehole explosive charges (for example, ed. Certificate. No. 160134), in which parallel-spaced wells are located at a distance of 3-4 diameters from each other in the amount of 6-8 wells in the beam. Bunches of borehole charges are placed on a geometric grid of 3x4 up to 6x6 m. The maximum possible level of saturation of the rock mass with explosives in this method of breaking is 0.800 kg / t.

 The disadvantage of this method is the limited degree of crushing by the level of saturation with energy of the explosive and the geometrical grid of the location of explosive charges.

 The closest in technical essence and the achieved effect is the method of breaking the massif with chamber rows of explosives located in uprising mine workings and deep-groove ridges (see Rimarchuk BI "Parameters of breaking the massif with concentrated charges located in isolated uprising workings", -В collection "Development of ores of ferrous metals", - Krivoy Rog, 1981, pp. 81-96). The specific consumption of explosives in this case reaches values of 1.5 - 2 kg / t.

 The disadvantage of this method is the presence of unregulated crushing zones in the center between charges and the exit of large fractions of pieces of rock mass with low explosive crushing efficiency by chamber explosive charges.

 The aim of the proposed invention is to ensure uniform and efficient crushing of rock mass.

 This goal is achieved by the fact that in the known method, including sinking uprising mine workings, multi-row drilling of deep wells, loading them with explosives and blasting in a certain sequence, the rows of wells are located between the design contours of the sections of the array, beat off by the charges of the rebellious workings, they are blown up in the direction blasts, and rebellious workings explode last.

 The invention is illustrated in the drawing, which, as an example, shows a plan of the drilling horizon of the block, prepared for mass collapse.

In the beaten array of mineral 1, uprising mine workings 2 pass, wells 3 located in rows 4 are drilled. The explosive chamber charges in the uphill workings are located at a distance equal to twice the radius of the crack formation zone (R _tr ), which is calculated by known formulas (cm ., for example, V.M.Senchuk “Impulse of an explosion and the condition of its fuller use for crushing hard rock masses during downhole breaking” - In coll. “Physicotechnical problems of mining”, 1979, N 1, p. 28- 34).

The boundaries of the cracking zone 7 is the design outline of sections 8 of the rock mass, which are represented by a multifaceted prism in the drawing. Borehole explosive charges are located in the zone of uncontrolled crushing behind the zone of crack formation of chamber charges between the design contours of individual sections of the rock mass, beaten off by the charges of the rising workings
Then they charge uprising workings and boreholes with explosives, install the blasting network and blast with a slowdown to compensation 5 and a clamping medium 6. The first stages of slowdown blow up the rows of wells located in the first row from free surfaces 9 between the design contours of the sections of the massif that are beaten off by the charges of the rebellious workings . Then produce blasting of borehole charges located in subsequent rows. After the formation of additional free surfaces 10, restricting individual sections of the array 8, blast chamber charges in the uprising mine workings.

The application of the proposed method for explosive blasting of a rock mass in comparison with the prototype allows you to:
1. To reduce the specific consumption of explosives for secondary crushing.

 2. To reduce the volume of drilling operations and the loss of wells.

 3. To reduce the seismic effect of the explosion on guarded buildings, structures and mine workings.

 4. To increase labor productivity in the production and delivery of ore from the block.

Claims (1)

 The method of explosive blasting of an array of rocks, including sinking uprising workings, multi-row drilling of wells, loading and blasting them in a certain sequence, characterized in that the rows of wells are located between the design contours of the sections of the massif beat off by the charges of the rising workings, they are blown up in the direction of breaking, and uprising workings explode last.