SU1578335A1 - Method of mining seams of useful mineral with poorly caving roof - Google Patents

Abstract

The invention relates to the mining industry and can be used in the development of stratum deposits with hard-to-break roofs. The purpose of the invention is to reduce the loss of minerals (PI), prevent damage to the lining and improve the management of the roof. For this purpose, within the extraction column (BC), perpendicular to the clearing line, reservoir preparatory paired excavations (CB) are conducted, which are knocked between each other by glades at a distance L from each other equal to L = B + 0.8L 0, where B - The pillar width between CB, L 0 is the step of the collapse of the roof. The development of the Armed Forces is first conducted simultaneously with the groove of the PI between the NE. After moving the treatment plant to a distance of 0.8L 0, the bottom of the lava is divided into parts. The PI was worked out from the outer side of the NE by short holes of the face, forming pillars between them. After moving the short faces to a distance equal to the width of the said pillars, the bottom of the lava is again combined into one. When mining flammable and outburst-hazardous formations, the pillars are first excavated and concrete supports installed instead. All BC operations are repeated until it is fully processed. 2 Il.

Description

The invention relates to the mining industry and can be used in the development of stratum deposits with hard-to-break roofs.

The purpose of the invention is to reduce the loss of minerals, prevent damage to the lining and improve the management of the roof.

Fig, 1 - the scheme of testing, leaving the pillars, - in Fig.2 - replacement of pillars with artificial supports

The development of the layers is carried out as follows.

A section of the formation with a hard-to-be-heavy roof is prepared for excavation using a system of long pillars. For this purpose, preparatory openings 1 and 2, contouring the excavation pole, and the assembly chamber 3, in which the equipment for the cleaning hole 4 is mounted, are conducted, and the length of the lava is taken to be equal to the width of the extraction pole. Simultaneously with cutting and preparation for the work of the lava within the excavation column, paired reservoir excavations 5-8 are conducted, which are knocked between each other by glades 9. Paired stratified excavations and glades are carried out only along the roadway without breaking up the lateral rocks, depending on the width of the excavation the pillar determines the number of pairs of reservoir workings, the distance between adjacent pairs and between workings in pairs, the distance between adjacent pairs should be no more than 0.8 LO, where C is the step of roof collapse, according to the conditions of stability of the roof, and hundred between the workings in the pairs determined by calculation from the known formulas.

The distance between the tracks is determined by the formula

I b + 0.8 Lo,

where b is the pillar width between the paired workings.

After the formation workings are carried out, they proceed to working out the column with lava, the length of which is equal to the width of the excavation column, they are dredged by complete slaughter, and the pillars 10 are extracted between the paired workings. After the lava has retired to a distance of 11, equal to 0.8, the lava is stopped and, depending on the total width of the excavation column, is divided into a number of short lavas. For example, lava is divided by sodium of lava 12,13,14, the length of each of which is equal to 0.8 L0, equipment from parts of lava located opposite the rear pillar 10, is transferred to the space located ahead, and ventilation and transportation from lavas is carried out for each separately for the corresponding contouring and reservoir workings.

The separation of long lava into shorter lengths of less than the marginal span of the roof and the remaining pillars makes it possible to avoid the collapse of a heavy roof, which in some cases leads to damage to the lining. The dimensions of the pillars are chosen so that the roof on the area worked by lava 4 is maintained by them until the lava leaves under the protection of the pillars located further, i.e. will be in position 15. After the lavas have been moved a distance equal to the width of the rear sight 10, the lavas are stopped, their conveyors are joined to the conveyors previously transferred to the clearances 9, and the mining is again continued with long lava. Then, all the operations in this sequence are repeated until the mining column has been completely worked out.

For excavation of fire-hazardous formations or formations hazardous by rock bursts or sudden outliers, the method can be applied in the variant presented in

figure 2. For its implementation in advance, as in the case described above, it is necessary to determine parameters such as the width of the artificial support.

After determining the parameters and conducting the contouring workings, the installation of the lava and the penetration of the paired workings are started with simultaneous extraction of the rear pillar between them in areas where artificial pillars should be erected in accordance with the accepted method. The extraction of the mineral from the pillars is carried out with the help of the same means as the excavation of workings, and artificial

The pillars are made, for example, from concrete blocks made on the surface.

After mining and the creation of artificial pillars, they proceed to the excavation of the mineral

described in order

Claims (1)

The invention of the method of mining minerals with a hard-to-damage roof, including carrying out delineating excavation pillar preparatory workings, working out the pillars with one clearing face of the lava from the split furnace and managing the roof with a complete collapse on the lining and pillars, characterized in that, in order to reduce the loss of mineral resources, prevent damage to the lining and improve roof management, previously within the the column perpendicular to the refining line, paired reservoir excavations are carried out, which knock each other at a distance from one another with I b + 0.8 Lo through the glades, where b is the width of the rear section between paired workings, L0 is the step of roof collapse, mining the extraction column is first carried out simultaneously with the excavation of the mineral between the paired workings, then after moving the cleaning hole from the split furnace to a distance of 0.8 L0, the lava seam is divided into parts, the mineral from the outer side of the paved workings with short facets of lava and Pillars are formed between the said workings, then after moving the short faces at a distance equal to the width of the pillars, the bottom of the lava is joined into one, after which all operations to work out the extraction column are repeated until it is fully worked out, Wtf / s yvF  L LU. A l L / JU U / xfilPQ fe. K x / raixix  iAJi.XlXpJ №Loi.UM & 1 ET to 7fTA, t / four  / Ni x X at 74 x x Xj figure 1