SU899956A1 - Method of mining sloping and steep fire-hazardous coal beds - Google Patents

Description

(54) METHOD FOR DEVELOPING ROUND AND TILTING FIRE-RELIABLE COALS

Claims (2)

The invention relates to the mining industry and can be used in the development of steep and inclined fire-hazardous coal seams, preferably with a dip angle of 40-60 °. There is a method of developing steep and oblique fire-hazardous coal seams, which includes panel-based reservoir mining with the construction of an inter-horizontal artificial pillar 1. However, this method is characterized by insufficient pillar stability as well as considerable labor-intensiveness of the latter. There is also known a method of developing steep and sloping fire-hazardous coal seams, which includes carrying out preparatory workings, excavating the installation layer at the roof of the reservoir with laying the flexible overlap of the installation layer on the soil and subsequent working the reservoir with transversely inclined columns in the direction from the roof of the reservoir to its soil with the formation of an inter-horizontal pillar 2. However, this method is characterized by a relatively high likelihood of fires on the underlying horizon, a low stability of inter-horizon about the rear sight and significant loss of coal in the rear sight. The purpose of the invention is to reduce the fire hazard of the development, increase the stability of the pillar, and also reduce the loss of coal during development. The goal is achieved by the contour pillar from the side of the working horizon contour by working the shield column from the top of the reservoir to the soil at an angle of 85-90 ° to the horizontal in a vertical plane across the strike of the formation, while the cross-inclined posts adjacent to the shield column work out consistently with decreasing shield slab before lowering the flexible overlap onto the soil of the reservoir, as well as the fact that the upper part of the inter-horizontal coal pillar is worked in layers and the lower strips, while The developed space of layers and strips is laid with hardening material with the formation of an artifact of the inter-horizontal pillar. FIG. diagrams of sequential reservoir development and contouring of an inter-horizontal coal pillar are presented; in fig. 5, 6 are diagrams of variants of working out an inter-horizontal coal pillar and the formation of an artificial inter-horizontal pillar. The method is as follows. When the horizontal development of a powerful steep or sloping fire-hazardous coal seam is left, the trans-pole rear sight 1 is used. When the underlying horizon is excavated, the installation layer at the roof of the formation is worked out first. A flexible overlap 2 is laid on the soil of the installation layer. The reservoir development on the underlying horizon is performed by transversely inclined pillars 3-6, in the direction from the roof of the reservoir to the soil under the protection of the flexible overlap 2. Target 1 from the side of the worked horizon is contoured by working out the shield column 7 from roof of the reservoir to the soil at an angle of 85-90 ° to the horizontal in a vertical plane across the strike of the reservoir. This angle is the angle of the zone of the upper influence of the cleaning operation. Cross-inclined pillars are taken out sequentially as the shield slab 8 is lowered, i.e., the cross-inclined column 3 is worked out simultaneously with the development of the shield column to the output level 9, and the cross-inclined column 4 is processed simultaneously with the development of the shield column from the output level 9 to the output level 10. The shield column and the transversely inclined columns are worked out before the flexible overlap 2 is lowered onto the soil of the formation. The coal long-range pillar can work out both before and after working out the underlying horizon. Pillars are worked out in layers 11 and strips 12. The upper part is worked out in layers, and the lower in strips, leaving safety pillars 13. The developed space of layers and strips is laid with a hardening material, thus forming an artificial inter-horizontal sight. This method will reduce the risk of fire. development, improve the stability of the cross-pillar and reduce the loss of coal during development. Claim 1. Method of development of steep and inclined fire-hazardous coal seams, including the carrying out of preparatory workings, excavation of the installation layer from the roof with laying of flexible overlap on the soil of the installation layer and the subsequent development of the reservoir transversely inclined columns in the direction from the roof of the reservoir to its soil with the formation of inter-horizontal pillar, characterized in that, in order to reduce the fire hazard of the development and increase the stability of the inter-pillar collar, the latter is from the side of the developed horizon This is contoured by working the shield pillar from the top of the reservoir to the soil at an angle of 85-90 ° to the horizontal in a vertical plane across the formation’s stretch, while the transversely inclined pillars, when connected to the shield pillar, are worked out successively as the shield slab goes down to lower the flexible overlap on the soil layer. 2. A method according to claim I, characterized in that, in order to reduce coal losses during development, the upper part of the inter-horizontal coal pillar is worked out in layers, and the lower - in strips, while the developed space, layers and strips are formed by hardening the material with the formation of artificial inter-horizontal pillar. Sources of information taken into account in the examination 1. USSR author's certificate number 99130, cl. E 21 C 41/0, 1952, 2.Instructions for the prevention and suppression of endogenous fires in the mines of Kuzbass. Prokopyevsk - Kemerovo, KuzNIUI, 1973, p. 6-9. FIG. five