SU922278A1 - Method of breaking rock by closely located well discharges - Google Patents

Description

(5) METHOD OF DESTRUCTION OF MINING ROCKS RELATED. WELLS AND CHARGES

Claims (2)

The invention relates to the mining industry and can be used mainly in drilling and blasting of minerals in underground mining. The known method of mineral blasting during underground mining, in which mass blasting is carried out in layers by blasting explosives placed in bunches of contiguous wells G1. There is also known a method of destroying rocks by contiguous borehole charges pV with well location along two concentric arcs of semi-roundness, the number of wells in the leading arc being 1/2 - 1 / of the number of wells being different. The known method makes it possible to control the explosion energy to some extent, direct its impact to a predetermined area and, as a result, improve the quality of the crushing of the massif. However, the method is not without drawback, part of the explosion energy in the form of stress waves spreads toward the protected array, producing undesirable damage, which reduces the efficiency of crushing the ore mass to be crushed. The aim of the invention is to improve the quality of crushing and reduce the impact on the surrounding array. This goal is achieved by the fact that in each beam, additional wells are drilled and charged with explosives from the protected array, and the blasting of charges in additional wells is carried out before the main charges are blown up to form a shielding slot. In addition to Torja, a screening gap is formed along broken lines parallel to the protected array. The proposed method allows to limit the propagation of stress waves in the direction of the protected massif and use this energy to destroy rocks within the limits of the bottomhole and shielding crack, which ultimately ensures the quality of ore crushing and reduces the impact on the surrounding protected massif. FIG. 1 shows a schematic diagram of the location of bundles of close-fitting wells for breaking a block in plan; FIG. 2 shows the arrangement of the wells in a bundle; in fig. 3 well after the explosion of the charge shell to form a screening crack; in fig. C is the location of the wells for 06 shielding fractures. The division of the field into blocks and their sequence of mining I conduct with known techniques. The cutting of the drilling horizon and the excavation of workings (conventionally not shown) for the placement of drilling equipment are also carried out by known methods. For breaking a block, it is divided into zones 1 (in Fig. 1, the boundaries of the zones are shown by dashed lines) destroyed by explosive charges placed in bundles 2 of contiguous wells 3- Depending on the location of the beam 2 in the block, the size of zone 1 and blasting sequences (in Fig. 1, the blasting sequence is indicated by the numbers I, II, III, IV, y) determine the number of wells 3. in the beam by specific, consumption of explosives per ton of ore and the number of explosives placed in well 3: each bundle 2, boreholes 4 are drilled to form shielding cracks 5, located ennyh along the boundaries of zones 1 (Figures 1 and 2). The number of wells 4 in each bundle 2 is determined from the condition of the adopted fracturing technology and the required length of the screening crack 5 The location of the wells 4 to form the screening crack 5 is determined from the condition of the location of zones 1 in the block, taking into account that boreholes 4 placed in order to form a shielding crack 5 were not disturbed by the wells Z. in bundle 2 for breaking rocks (figure 2). Shielding cracks 5, depending on the location of the beam 2, can be performed in one plane or along broken planes parallel to the protected arrays or zones. Shielding cracks 5 are formed using well-known slotting technology, when along the slot a string of parallel wells is charged through one, and simultaneously camouflaged to uncharged wells with the formation of a crack between them (Fig. 4). A well-known directional crack formation method can also be used to form a shielding crack using a sheath 6 placed in the borehole Q (Fig. 2) with slots 7 directed along the shields of the shielding cracks 5- The shell 6 is filled with explosives and camouflaged by the explosion A fracture 5 is formed and directed along the planes of the slots 7 with a length of 30-40 boreholes 4 (Fig. 3). After the whole set of wells has been drilled to break the block, all boreholes 3 are charged in bundles 2, including well Azhin 4 for the formation of shielding cracks 5, and the commutation of charges. When switching charges, the following sequence is observed: the explosive charge must first be exploded, placed in the well 4 to form a screening crack 5, and then the explosive charges placed in the wells 2 of the beam 2 in the required sequence (Fig. 2)., For example, in the explosion of the l.-th line of beams 2, bore-holes 4 for forming shielding slots 5. are blown up by zero retardation, and bore-holes 3 in the required sequence by the following retardation, i.e. before crushing the ore in the zone, they form a shielding crack 5, with which they provide non-propagation of the array voltage waves, and concentrate all the energy in a given zone, which allows to regulate and ensure the high-quality crushing of the ore. reducing the cost of secondary crushing, reducing the cost of maintaining the workings and improving the safety of cleaning operations. Claim 1. A method of destroying rocks by contiguous borehole charges, including drilling wells arranged in beams along concentric arcs, charging them with an explosive and a short-delay blasting, characterized in that, in order to improve the quality of crushing and reduce the impact on the surrounding massif, each beam is drilled and charged with an explosive to additional wells from the protected array, and 786 charges are blown up in additional wells before the main rows to form shielding W th slot 2. The method of claim. 1, l and m of h and Yusch and with the fact that the gap formed by the shield lines .lomanym ,, guards emomu- parallel array. Sources of information taken into account during the examination 1. USSR author's certificate No. leoU, cl. Е 21 С 37/00, 196Ь 2. USSR author's certificate number 658922, cl. E 21 C 37/00, 1978 (prototype). Fig.Z Fm & 4