SU1265351A1 - Method of driving a mine working - Google Patents

Abstract

THE METHOD OF CARRYING OUT A MINING PROCESS, including drilling wells in the mine bottom, pumping these active compounds to soften the rock, then further destroying the weakened rock mechanically and loading it out of the hole, which is different in order to increase the speed of the mine workings with mining machines. to increase the effectiveness of rock softening, before injection of razruchno-ush, their solutions into the rock around the wells form high trash zones, and newness by blasting explosive charges These wells in these wells are additionally drilled to compensate the wells, through which the high trash zones are washed with water, and the water content of the rocks are injected into these wells, after which the softening solutions are injected into all the wells at the same time, and at a distance from each other equal to the radius of the zone along (L of the higher trushinost rocks. 1chE Oi

Description

The invention relates to the mining industry and can be used for carrying out mining workings on hard rocks by serial tunneling machines. The purpose of the invention is to increase the speed of workings with roadheaders by increasing the efficiency: disintegration of rocks. The drawing shows the layout of the wells in the mine bottom and zones of increased fracturing of the rocks around the well when blasting explosives in them. The diagram shows compensating well I, explosive wells 2-5. The method is carried out as follows. In the bottom of the mine, with the aid of a drilling machine, a well is drilled with a length of 30-50 m and a diameter of 100-120 mm. The location of the wells in the bottomhole is determined based on the magnitude of the radius of the increased fracturing zones (R) resulting from the explosion of the borehole charges. Well 1 (compensating) is located at a distance R from the production soil in the middle of the drift. Wells 2 and 5 are located on the same line with well 1 at a distance R from it. The wells 3 and 4 are drilled in the upper row at a distance R from wells 1 and 2, and 1 and 5, respectively. The radius of the zone of increased fracturing is determined by the formula where E is the linear energy density of the charge, H is the depth of the explosion chamber from the surface, m; S is an experimentally determined constant depending on the physicochemical properties of rocks, kg / m MVz. After drilling, the well-drilling parameters are checked using an inclinometer. Then, peripheral wells are charged with 2-5 explosive charges and exploded. After blasting downhole charges through a compensating well 1, water is injected and the wells 2-5 and areas of increased fracturing around each of them are flushed, thereby freeing the resulting radial tearing fractures from the crushed rock. After flushing, wells 1–5 are sealed using automatic hydraulic locks (or cement mortar) and the formation of chemical-softening solutions that soften the rock is injected through all the wells at the same time. After the softening of the rocks, the excavation was carried out by a tunneling machine and the broken rock was shipped.

Claims (1)

METHOD FOR MINING, including drilling wells in the bottom of the mine, pumping chemically active solutions softening the rock into these wells, subsequent mechanical destruction of the softened rock and its shipment from the bottom of the mine, characterized in that, in order to increase the speed of mine workings by roadheaders due to to increase the efficiency of softening rocks, prior to injection of softening solutions into the rock, zones of increased fracturing are formed around the wells by the explosion of explosive charges TV in these wells, additionally compensating wells are drilled through which zones of increased rock fracturing are washed with water by injecting water into these wells, after which softening solutions are injected into all wells at the same time, while drilling in the bottomhole is carried out at a distance from each other equal to the radius of the increased zone fracturing of rocks. SU „., 1265351