SU1190036A1 - Method of moving air-bladder roof support when mining steep coal seams - Google Patents

Abstract

1. METHOD OF MOVEMENT bellows is fastened MINING STEEP UGOLNB1H formation comprising notch carbon slaughter tilted toward the direction of mining, the connection between a number of sections in the bellows standpipe support frame in advance working descending row lining in longwall face opening and feeding section working fluid under pressure, characterized in that, in order to reduce the labor intensity of the installation of the sections in the refining bottom, the descent t on coal slaughter, after which the number of push lining of coal face for the passage of the winning machine. 2. A method according to claim 1, characterized in that after descending into the wellbore space of the cleansing bottom of the whole p and pneumatic support, the pressure of the working (P) body in the sections is fixed to the minimum value determined from the ratio n Q (sinoi- / Cfpcosd) (m) 2% S (m) where Q is the mass of the lining section, H; a - dip angle, hail; f (the coefficient of friction of the lining section over lateral rocks of the formation; 5 is the contact area of the bearing shell of the section with the roof of the formation; m is the thickness of the formation at the installation site of the section, M, and after moving the support away from the coal face, the pressure of the working fluid in the sections of support is increased to 3. The method according to claim 1, characterized in that in the case of the rectangular-shaped sections of the pneumatic support during the descent s them into the wellbore space of the clearing (L bottom each section is installed with the long side along the coal face its row of support even sections of the row of support are rotated in the plane of the reservoir by an angle determined from the ratio P arciple-34D - arcsin where a is the distance from the axis of rotation to the long side located near the coal side, m; - the distance from the axis of rotation of the section to the angle of the section relating to the coal with the bottom during the rotation of the section, m; Oi c - the distance between the coal face and the number of lining required for the passage of the excavation mash, m, fix the odd sections of the lining and return the turned sections to the starting position.

Description

The invention relates to the mining industry and can be used in the development of steep coal seams. The purpose of the invention is to reduce the labor intensity of the installation of lining sections in a longwall. The method is carried out as follows. When developing a steep coal seam with haulage and ventilation shchrekov and coal excavation with the face, tilted in the direction of mining, the installation of a downhole pneumatic support in the bottom hole of the cleaning hole is made with a ventilation shredder. The sections of the pneumatic support bolt in the preparatory excavation are connected to the assembly unit (chain, rope) and interconnected. Then, with the help of the winches, they lower the row of lining into the bottomhole space by the coal face. After the descent of the entire row of lining in the bottomhole space, it is moved away from the coal face, freeing up space for the passage of the excavation mashina. The support can be removed by means of hydraulic pneumatic jacks, a system of ropes and winches, and, finally, with the help of hand-held tie-in devices. Then, the working body under pressure is fed into the supporting shells of the support sections. The lining sections stretch between the soil and the roof of the formation and are ready to take up the workload. The value of the minimum pressure in the bearing shells, sufficient to hold the lining sections between the lateral rocks, is determined from the ratio p Q (sinot - Kipcosd.) 2K.rj.S (m) where Q is the mass of the lining section, H; d - dip angle, deg; K, coefficient of friction of the section lining along lateral formations; S is the area of contact of the bearing shell of the section with the roof of the reservoir, m, m is the thickness of the reservoir at the installation site of the section, m. The sections that have a rectangular shape are set with the long side along the coal flank. After descending the entire row, fix the part of the sections, for example, the even sections, with the help of a rope and winches located on the haulage and ventilation drifts, are rotated at an angle in the plane of the formation, while the other sections are moved away from the coal wall. . Then fix the removed odd sections by feeding into the bearing shells of the lining sections of the working fluid. After that, with the help of a rope and winches, the turned (even) sections are returned to their original position and the working body is fed into them under pressure. The sections are unstressed between the lateral rocks and the working load ready for perception. The angle of rotation of the sections is chosen from the ratio P arcs p-E arcsin- | -, where a is the distance from the axis of rotation of the section to the long side of the section located near the coal slab, m; (c) distance from the axis of the vertical section to the angle of the section relating to the coal face when turning the section m; c is the distance between the coal face and the row of supports required for the passage of the guide ski of the excavation mashine, m; As a result of the removal from the technological process of time-consuming and long-term installation near the coal slab, and then extracting to the ventilation shield an additional row of long shells at each descent into the bottomhole space of the next downhill support system and replacing this operation with the slider of the row of support from the coal slab reducing the complexity of the installation of lining sections in the longwall.

Claims (3)

USSR copyright certificate No. 810972, cl. E 21 С 41/04, 1979. (54 (1. METHOD FOR MOVING AN AIR-CYLINDER MOUNT WHILE EXHAUSTING STEEL COAL LAYERS, including coal excavation by a slope tilted in the direction of the mining direction, interconnecting a number of sections of the lowering air-support lining in the preparation support in the bottomhole space of the working face and supply to the sections of the working fluid under pressure, characterized in that, in order to reduce the complexity of the installation of sections in the face, the descent of a number of pneumatic balloon supports into the bottomhole space is carried out stvlyayut the coal slaughter, after which the number of bolting back down from the coal face for the passage of the winning machine. 2. The method according to π. 1, characterized in that after the descent into the bottomhole space of the working face of the entire row of pneumatic balloon support, the pressure of the working (P) body in the support sections is brought to a minimum value determined from the ratio Q (sinoi — Kepcosci) where Q is the mass of the lining section, N; a - dip angle, degrees; To _Tr is the coefficient of friction of the lining section along the lateral rocks of the formation; S is the contact area of the bearing shell of the section with the roof of the formation, m ² ; pg is the reservoir thickness at the installation site of the section, m, and after moving the lining away from the coal face, the pressure of the working fluid in the lining sections is increased to the operational value. 3. The method according to π. 1, characterized in that in the case of a rectangular shape of the sections of the pneumatic balloon lining, when they are lowered into the bottomhole space of the stope, each section is set with the long side along the coal bottom, and after the descent of the entire row of lining, the even sections of the lining series are rotated in the formation plane by an angle determined from relations β = arcsin - ^ - jp - arcsin> where a is the distance from the axis of rotation of the section to the long side of the section located near the coal face, m; in - the distance from the axis of rotation of the section to the angle of the section relating to the coal face when turning the section, m; c - the distance between the coal face and the lining range necessary for the passage of the excavating machine, m, the odd lining sections are fixed and the rotated sections are returned to their original position.