RU2126133C1 - Method of working driving - Google Patents

Abstract

FIELD: mining industry, in particular, working driving by blasting operations. SUBSTANCE: parallel single and two conjugated wells are drilled, these wells are charged by explosive by sections with installation of intrawell retarders between them, and initiation of explosive charges in sections of conjugated wells is accomplished with an advance by one section with respect to explosive charges in single wells, and explosive charges in wells are blasted in the direction of the formed compensation cavity. EFFECT: facilitated procedure. 4 dwg

Description

 The invention relates to mining and can be used in the construction of underground mining.

 A known method of uprising mining (Auth. Certificate. USSR N 1004643, class E 21 D 1/00), including drilling the compensation cavity and blast holes, installing charges in them and initiating charges simultaneously in the compensation and in one blast hole, after which produce sequential short-delayed initiation of explosive charges in the remaining wells.

The disadvantage of this method are:
the use of wells of various diameters as explosive and the creation of compensation cavities and as a result of this, various mining equipment is required for their drilling;
the synchronization of explosions of explosive charges located in compensation wells and the first well hole is violated due to different detonation speeds, since the detonation speed of the detonating cord exceeds 2 times the detonation speed of explosives in the well while initiating them.

 The closest technical solution to the proposed one is the method of driving uprising workings (ed. Certificate of the USSR N 1666732, class E 21 D 1/00), including drilling parallel single and two conjugate wells, loading the explosive wells in sections with the installation of intra-well retardants between them, initiation from the side of the compensation capacity for the rock mass and the explosion of explosive charges by sections in the direction opposite to the action of gravity.

The disadvantage of this method are:
failure to use two conjugate wells to form explosion funnels as compensation cavities;
a large number of contouring wells.

 The aim of the invention is to increase the efficiency of breaking in the section with explosive charges by changing the interaction of the explosion of charges on the formed compensation capacity.

 This goal is achieved by the fact that in the known method of mining, including the drilling of parallel single and two conjugate wells, loading the wells with explosive sections with the installation of downhole retarders between them, initiating from the compensation capacity of the rock mass and blasting explosive charges with sections, charge the conjugated and single wells, and the initiation of explosive charges in sections of paired wells is carried out ahead of one section with respect to explosive charges in single wells blown in the direction formed by the compensating capacitance.

 Using half the number of wells, the method allows both safe uprising detachments and horizontal for interruptions of horizontal ventilation workings and deep logging cavities in those carried out with the transfer of reference rock pressure from the mine working to the bottom (chest) of the logging cavity.

 The essence of the proposed method is illustrated by drawings, where in FIG. 1 shows a longitudinal section through one of the paired and one borehole wells, FIG. 2 shows a section along AA in FIG. 3, a method of breaking off by explosion funnels to form a mine; in FIG. 3 - plan of the location of wells; in FIG. 4 - the design of the dispersed charge.

 A method of conducting mine workings involves drilling in zone 1 between the horizons of the drilling and hooking 2 of two paired 3 and 4 wells and contouring 5 and 6 parallel wells, and the paired 4 are not drilled to the cutting horizon of 1 m. The sections are charged, initiated and blown up starting from the side of the compensation tank 7, for storing the beaten rock mass. Initiation is carried out in the direction of the sector alignment: opposite to the action of gravity to the horizon.

 In wells drilled from top to bottom between two horizons 2 from the drilling to the hook, wooden plugs 8 with a capsuleless gun 9 are installed in the conjugate well 3 from the hook horizon, from which charges are initiated in the conjugate wells 4 and 5, and in contouring wells: in the well 5 a wooden cork 8 with a capsule-free action movie 9 and a pyrotechnic relay 10 with a delay of 50 ms; in the well 6 they also install, but with a slowdown of 75 ms. Two sockets 11 are formed in a wooden cork, for example, for the KZDSH-69 pyrotechnic relay, by drilling a through hole, and for KZDSH-69, on one side, to its full length and a diameter greater than 5 mm of the KZDSH-69 diameter and then drilling a hole 12 in the cork produced under the diameter of the detonating cord. Then, the wells are charged in sections from the drilling horizon 2. The explosive charge 13 is placed in the first section in contact with the capsule-free action cartridge 9. Then, in the subsequent sections of all the wells, the same is repeated: laying the jammer 14 and the explosive charge 13, wherein the jammer 14 is designed shell of the fighter cartridge 15 with sludge 16 and a retarder 17 blasting in it with a KZDSh-69 pyrotechnic relay with a 100 ms slowdown installed in the tubular element 18 and placed in a piece of metal pipe 19, flattened on one side to one Toroni wedge. The retarder 17 with drill cuttings 20 is completely covered with a wooden plate 21, which prevents pressure transfer with the output of the ends of the detonating cords 22 and 23. The ends of the cords 22 extend from the side of the wedge, and the ends of the cords 23 are filled up with explosives and are covered with paper 24 with a twine 25. As a result of such stacking of explosive charges and stemming with moderators while simultaneously initiating the ends of the detonating cords 26 on hook 2, explosions will be produced in each section in the following sequence: I instantly explode in the first section explosive charges in associated wells 3 and 4, with a delay of 50 ms explosive charges in a single well 5 and with a slowdown of 75 ms — explosive charge in a single well 6. The second section and the subsequent ones explode with deceleration after an interval of 100 ms for each well, but the deceleration interval explosive explosive charges in each section remains similar to the first section.

 After charging the vertical workings to the full depth of the wells, from the cut 2 (bottom), the detached ends of the detonating cords 26 are simultaneously initiated at the same time, in the ascending and horizontal workings the initiation is carried out similarly by decelerations (the means of blasting may be different) from the chest of the face. At the same time, explosive explosive charges in two associated wells with blasting to the bottom of the bottom contribute to the formation of an increased compensation funnel for breaking single-hole explosive charges at it and the bottom of the bottom, formed by explosions of previous explosions in the same wells.

 As a result, an enlarged section of the mine with an unlimited vertical length, and in inclined and horizontal lengths, is equal to the value of the rock mass emissions.

 Compared with the prototype, the proposed technical solution will reduce the amount of drilling work, increase the stability of blasting in the section by an increased compensation funnel instead of the conjugate wells, and in horizontal workings: carrying out deep cutting cavities with relatively small explosive charges, creating conditions for the mechanization of drilling operations borehole cavities and contouring cords.

Claims (1)

 A method of mining, including the drilling of parallel single and two conjugate wells, loading of explosive wells with sections with the installation of downhole retarders between them, initiating from the compensation capacity of the rock mass and blasting explosive charges with sections, characterized in that the conjugate and single wells are charged, and initiation of explosive charges in sections of associated wells is carried out one section ahead of explosive charges in single wells and explode in the direction of the image emoy compensation tank.

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