RU2167296C1 - Method of underground mining of ore deposits - Google Patents

Abstract

FIELD: mining. SUBSTANCE: method deals with underground mining of thick and medium thick flat and inclined ore deposits including those with poorly defined contacts, characterizing by medium rigidity of ores and enclosing rocks with substandard content of useful components. Method is realized by field preparation of block with fringe trench bottom in deposit lying wall, working of chambers by boreholes with delivery of ore to trench by blasting and delivery of broken ore to district ore chute. After working of chamber, trench and worked out chamber are filled with substandard ore of lying and hanging walls, from driving of mine workings and induced caving of roof. Then substandard ore is subjected to prolonged leaching with chemically active leaching solution. Due to claimed method, deposit reserves are fully extracted with ore losses in pillars, no displacement of rocks of hanging wall due to full filling of gobs with substandard ore from driving of fringe workings and roof rocks. Cost of fill material is minimal due to absence of binding agents in fill, and useful components are recovered from fill presented by substandard ore. EFFECT: higher efficiency. 1 dwg

Description

 The invention relates to mining, in particular to the underground development of powerful and medium power flat and inclined ore deposits, including implicit contacts, characterized by the average stability of ores and host rocks that contain an off-balance content of useful components.

A known method of developing minerals according to copyright certificate N 1721221, M.cl ⁵ E 21 In 43/28, published in B.I. N 11.92, which consists in the formation of blocks by preparatory workings, rock breaking within the chamber contour with the size of a conditioned piece corresponding to the leaching conditions, the alternate supply of leaching solution to the chambers and the collection of production solution. The disadvantage of this method is the incomplete extraction of ores.

 A known method for the development of shallow and inclined deposits by chambers with explosive ore delivery along strike of a deposit into a trench located under the chamber with subsequent filling of the worked-out space with a hardening tab [ed. St. N 1335701 of February 24, 1986].

The disadvantages of this method are:
- the use of an expensive binder (cement) for the preparation of hardening bookmarks;
- loss of ore on the bottom of the chamber during its explosion supply horizontally, which limits the width of the chambers;
- the inability to feed the breed bookmarks under the roof, which leads to uncontrolled self-collapse of the roof rocks;
- loss of useful components contained in the host rocks (off-balance ore).

 The objective of the invention is to remedy these disadvantages. The problem is solved in that in the method of underground mining of ore deposits, including field preparation of a block with a field trench in the lying side of the deposit, mining the chambers with wells with blasting ore to the trench, and delivering the beaten ore to the local ore discharge, the trench and the spent off-balance chamber are filled ore lying and hanging side from the excavation of mine workings and forcibly collapsed off-balance ore roof, after which they are subjected to prolonged leaching of chemically active th leach solution.

 The method is illustrated in the drawing, where 1 is the ore body with the balance ore, 2 is the chamber, 3 is the borehole for breaking the ore, 4 is the trench, 5 is the off-balance ore from the excavation into the trench, 6 is the loading run, 7 is the recoil drift, 8 - ore drill drift, 9 - inclined transport ramp, 10 - boreholes in the off-balance ore of the hanging side, 11 - development of the ventilation horizon, 12 - wells for supplying the leach solution, 13 - off-balance ore in the massif.

 In the proposed method, an upward order is used to mine ore bodies (1) by chambers (2), mined by blasting ore delivery along the strike to the outlet trenches (4), passed in the lying side and then filling the waste space (5) with off-balance ore from driving openings (drifts, loading races, trenches, rebellious) and forcibly collapsed off-balance ore of the hanging side, followed by leaching of useful components from them with chemically active solutions supplied through wells (12) from the ventilation horizon (11), passed in the hanging side of the reservoir.

 The exhaust trench (4) pass through the center of the chamber from an inclined trench-forming uprising in the form of a vertical slit at an angle that allows transporting the broken rock mass under the action of gravity. The width of the trench should be greater than four diameters of the conditioned piece during borehole breaking. The upper part of the vertical slit passes at an angle of 25-30 degrees to create inclined slopes that facilitate the explosive delivery of ore to a length of 20-25 m [Bronnikov OM, Burtsev LI Explosive ore delivery in chambers. M., 1972].

 The ore is blasted in the chamber by wells. Fans of blast holes are drilled from ore drifts (8), connected in different floors by an inclined transport exit (9) (with an inclination angle necessary for the operation of self-propelled vehicles). The development of chamber ore reserves by boreholes (3) from the axis of the chamber (2), which eliminates the need for the presence of people, makes it possible to increase its span along strike to the limit due to the temporary stability of roofing rocks. During explosion delivery, the beaten ore falls into the trench (4) and then into the loading run (6), from which the mined ore is delivered by self-propelled loading and delivery vehicles to the haul-off drift (7) and the local ore launch. Off-balance ore from excavating workings and trenches by loading and unloading vehicles is delivered via an inclined transport ramp (9) to the upper ore drift (8) of the previously worked sub-floor and dumped (transferred) into a trench (4) freed from mined ore and the spent chamber located above it (2). To completely fill the worked out space in the roof of the ore body from the upper sub-floor drilling drift (8), drill holes (10) into the off-balance ores of the hanging side to force them to collapse, ensuring self-winding upstream mass. Subsequently, off-balance ore is subjected to prolonged leaching to extract useful components from them by irrigation with chemically active solutions [Lunev LI, Rudakov I.E. Underground metal leaching systems. M., 1974].

Claims (1)

 The method of underground mining of ore deposits, including field preparation of a block with a trench bottom in the lying side of the deposit, mining the chambers with blasting ore delivery to the trench and delivering the beaten ore to the local ore pass, characterized in that after the chamber is mined, the trench and the spent chamber are filled with off-balance ore lying and hanging side from the excavation of mine workings and forcibly collapsed off-balance ores of the roof, after which they are subjected to prolonged leaching chemically a clear leach solution.