SU1670130A1 - Method for mining ore deposits with chamber extraction - Google Patents

Abstract

This invention relates to mining, and b. used in the development of powerful ore deposits by technologies with coal chamber excavation. The goal is to improve safety by ensuring the stability of the camera, increasing its volume and simplifying the method by reducing the rifled work. The method of developing ore deposits with chamber excavation is carried out as follows. On the sublevel receiving horizon, orths and drifts pass. Drilling stops pass from the orts within the excavation panel and break the array in the chambers with explosives placed in parallel wells drilled into the compensation cavity. The array is drilled by ascending parallel wells in an asymmetric pattern with a variable solution angle at a distance of 1.2 - 1.4 LNS from the preceding free surface. Parallel wells are then charged at a density that decreases as the angle of the funnel solution increases. At the same time, the wells are undercharged taking into account the forcing at the base of the rear sight camera with a parabolic surface. The ore is released into the receiving horizon as the mass is broken.

Description

The invention relates to mining and can be used in the development of powerful ore deposits by technologies with chamber dredging.

The purpose of the invention is to increase safety equipment by ensuring the stability of the camera, increasing its volume and simplifying the method by reducing the rifled work.

The method includes the following operations. On the sublevel receiving horizon, there are trips and drifts. Drilling stopovers pass from the orts within the excavation panel and break the array in the chambers with explosives placed in drilled

wells on the compensation cavity. The array is drilled with ascending parallel wells in an asymmetric pattern with a variable solution angle,

Ascending wells are placed at a distance of 1.2-1.4 lines of least resistance LNS from the previous free surface with the angle of solution of the funnel. increasing to periphery within 15-70. In the center of the excavation panel, a compensation cavity is prepared, for example, a compensation well is drilled.

Then parallel wells are charged with a density decreasing as

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increase the angle of the solution funnel. At the same time, the wells are underexposed in view of the forcing in the rear sight chamber with a parabolic surface.

Wells are also drilled from the drill holes to form outlet funnels.

The reversal of the craters is performed at one time by breaking the ore. The breaking of the array within the excavation panel lead from the center to the periphery. Initially, the compensation cavity is expanded by blasting the first one near the well. Then the formed cavity is expanded by a regular well with a solution angle of 30 °.

When blasting explosive charges in subsequent wells, the solution angle is increased to 70 °, i.e. its optimum value. Broken ore is produced as the mass is broken.

In the final stage of mining, the panels bring down the pillars and the ceiling, and the final ore is produced.

Claims (1)

The invention of the method of development of ore deposits with chamber excavation, including the penetration of drilling inlets, breaking the array in the chambers, explosive charges placed in wells drilled parallel to the compensation cavity followed. the release of blasted ore to a receiving horizon, characterized in that, in order to increasing safety due to ensuring the stability of the chamber, increasing its volume and simplifying the method by reducing the rifled work, drilling gates pass on the receiving horizon, The array is drilled in an asymmetric pattern with a variable angle of solution at a distance of 1.2-1.4 lines of least resistance from the preceding free surface, then the array is fought off with forming in the base of the chamber a plexus with a parabolic surface, which is the last one to beat off, and the density and depth of the wells will decrease with increasing angle of the solution.