SU1126696A1 - Method for underground working of mineral deposits - Google Patents

Abstract

THE METHOD OF UNDERGROUND DEVELOPMENT OF USEFUL MINING DEPOSITS, including the separation of the body of a mineral mineral by stratified mountain production into layers, ahead of the erection in each area, starting from the upper, parallel and perpendicular to the soil of the artificial surface, each of the process voids, and the main step, which is the main component of the project, which is covered with the surface of the mineral, produced in each layer, made from the top, parallel and perpendicular to the soil of the artificial surface, were filled with the process elements, and the main component, which was formed, and the group of processors in the procession, each of them, and the project team; Under their protection, that is, by the fact that, in order to reduce losses and dilute the mineral during hydroperiod on steep seams, the excavation of the mineral in each The ohm layer is produced from a layered excavation, passed over the parallel soil of the artificial layer entirely after its construction, and the technological voids form artificial pillars in the soil perpendicular to the soil, and the erection of the artificial pillars is done by expanding the layer mining openings by reverse JOD. an artificial target, erected in the upper layer, and cyclically filling the cavities formed with a hardening mixture, and the distance between the gaps does not more than the collapse of the lateral rocks of the reservoir. to a f

Description

The invention relates to the mining industry and is intended for underground mining of mineral deposits.

A known method of underground mining of mineral deposits flj.

However, this method is characterized by significant losses of minerals.

There is a method of underground mining of mineral deposits, including dividing the body of a mineral by layered mines into layers, advancing the construction of a layer of artificial pillars with technological voids in the top, parallel and perpendicular to the soil and subsequent excavation of the mineral in the layer under their protection [ 2 J.

However, this method is also characterized by significant loss and dilution of the mineral.

The purpose of the invention is the reduction of losses and dilution of minerals during hydraulic production in steep formations.

This goal is achieved by the fact that according to the known method of underground mining of mineral deposits, including · dividing the body of the mineral by layered mines into layers, ahead of the construction in each layer, starting from the top, parallel and perpendicular to the soil layer of artificial pillars with technological voids and subsequent excavation minerals in the layer under their protection, the extraction of minerals in each layer is made from the layer workings, passed over the parallel the whole layer of the layer after artificial erection, and technological voids are left in artificial pillars perpendicular to the soil layer, and the artificial pillars are erected by backward expansion of the lay workings, formation of cracks from these workings to the artificial pillar erected in the above layer, and cyclic filling of the cavities hardening mixture, and the distance between the cracks take no more than the step of collapse of the lateral rocks of the reservoir.

The method is as follows.

* The excavation field is contoured artificially as a whole to the entire thickness of the formation. C. belt (sub-floor). piles run through the place to the boundaries of the excavation field, layered mine workings (subfloor drifts), which are knocked down with ventilation subfloor drifts located above the subfloor drifts. Then, for example, using hydromechanization by reverse stroke, the sub-floor drift is expanded to the entire thickness of the formation with the formation of a cavity equal to the size of the future artificial pillar, erected parallel to the soil of the layer. If necessary, the cavity is supported by temporary support. After retreating to a distance close to I but not exceeding the step of collapse of lateral rocks under specific conditions, from this sub-floor drift using, for example, a jet monitor, a cavity (gap) is formed to an artificial pillar erected in the upper sub-floor and to the entire thickness of the formation . The cavities formed in this way are then filled with a hardening mixture, which is fed through a pipeline with a layer of workings passed over the artificial one. Entirely in an upstream sub-floor drift. To do this, in the artificial pillar, erected perpendicular to the soil layer (sub-floor drift), leave technological voids, for example; using inflatable structures placed in the cavity before it is filled with a hardening mixture. ' ,

Filling the cavities with a hardening mixture is carried out cyclically after the formation of another gap. Before feeding into the cavity of the hardening mixture in the sub-floor drift, a portable jumper is erected.

After the construction of the main pillar of the artificial pillars above the artificial pillar, a layer production takes place, from which the hardening mixture is supplied to the lower cavities, and then coal is produced from this substage.

In the excavation field between the sub-floors, in which hydro production is carried out in one and the pillars are erected in the other, there must be at least one sub-floor ready for hydro-production, providing a supply of hardening mixture to the lower sub-floors prepared for production.

The proposed development method will minimize the loss and dilution of coal during the progressive hydraulic mining method. At the same time, the safety and productivity of treatment operations are increased due to a decrease in the development of rock pressure in the excavation field, improved ventilation of the working face and weakening of the solidity of the coal mass with artificial pillars.

Claims (1)

METHOD FOR UNDERGROUND DEVELOPMENT OF MINERAL DEPOSITS DEPOSITS, including dividing the body of a mineral by stratified openings into layers, ahead of the construction in each layer, starting from the top, parallel and perpendicular to the soil layer of artificial pillars with technological voids and subsequent excavation layer in the layer under their protection, characterized in that, in order to reduce losses and dilute the mineral during hydro production on steep formations, excavation of the mineral in each layer not producing! · from a pit, passed over the parallel soil of the layer with the artificial whole after its erection, and technological voids are left in artificial pillars perpendicular to the soil of the layer, and the erection of artificial pillars is carried out by expanding the backward layers of the mine workings, the formation of cracks from these workings to artificial target-: built in the upper layer, and cyclically filling the formed cavities with a hardening mixture, and the distance between the slots takes no more than a step about Rushen side reservoir rocks. „SU" ..1126696