RU2052111C1 - Method for mining steeply dipping ore bodies - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: method for mining steeply dipping ore bodies includes simultaneous drilling off the whole reserves of sublevel and reserves of low-grade ore. In so doing, holes used for breaking high-grade ore are not drilled to sublevel pillar foot, and holes used for breaking low-grade ore are drilled through the whole height of sublevel. High-grade ore is broken first. Broken high-grade ore is mucked from pillar foot, and then, low-grade ore is brokem. Broken low-grade ore is drawn from all sublevels simultaneously. EFFECT: higher efficiency due to exclusion of broken ore lases during its drawing. 3 dwg

Description

 The invention relates to mining and can be used to develop ore bodies, mainly steep with variable in power content of high-value useful components.

 A known method for the development of steep ore bodies, including mining blocks with the formation in each block of sub-floor drifts and drilling out of them stocks of sub-floors, which are developed along strike, with the advanced production of rich ore [1] The disadvantage of this method is the dilution of the produced broken rich ore is poor due to their simultaneous release , with an increase in the volume of preparatory and rifling work on the formation of duches. In addition, when using the technical solution, the ore losses in the subsurface pillars left in the worked out space are quite large.

 A known method for the development of steep ore bodies, including their mining from sub-floor drifts with drilling stocks of sub-floors worked out by the advanced production of rich ore [2] The disadvantage of this method is the need for a large amount of additional work associated with the mining of the poorest ores, loss of rich ore.

 The task to which the claimed solution is directed is to reduce the dilution of rich ore of poor and decrease the loss of rich ore.

 To solve this problem, the method of developing steep ore bodies, including their mining by blocks with the formation of sub-floor drifts in each block and drilling out of them the stocks of sub-floors, which are worked out along strike for the advanced production of rich ore, is characterized in that in each sub-stage, the poor ore reserves are broken after breaking off and releasing its reserves of rich ore, while breaking off the reserves of rich ore, they leave the whole of it under the sub-floor drift of the overlying sub-floor, repaid when breaking the reserves of poor ore, torye fight off without leaving pillars between substages.

 In addition, ore is being blasted ahead in the overlying sub-floors.

 In FIG. 1 schematically shows a General view of the block in size by drop at the initial stage of mining; in FIG. 2 the same in the process of mining; in FIG. 3 general view of the block in the process of general production of poor ore.

 The drawings show sub-floor drifts 1, a retraction field drift 2, wells (bore-holes) 3 and 4, respectively, intended for breaking rich and poor ore, contours 5 of rich ore reserves, containing rocks 6, poor ore 7, border 8 of the sub-floor pillar 9, beaten off rich ore 10, beaten poor ore 11, ort-race 12.

 The method is carried out in the following order. The preparation of the block for mining is reduced to carrying out a retraction of 2 drifts of a block of sub-floor 1 drifts and flank rebels (not shown in the drawings) or spiral descents (if the use of self-propelled equipment is provided for drilling sub-floors and releasing rich ore).

 In the case when the hatch production of poor ore will be planned, hatches on the exhaust holes 2 are hung on the outlets knocked out on the bottom. At the same time, all the sub-floor reserves are drilled (i.e., rich ore limited by circuits 5 and reserves of poor ore, i.e. reserves lying between the contours of the removed reserves and the host rocks and circuits 5 of the rich ore reserves). At the same time, well 3 (boreholes) intended for breaking rich ore reserves do not reach the bottom of the overlying sub-floor drift by an amount that ensures the formation of a sub-floor pillar of 9 design thickness after breaking rich ore reserves in the sub-floor. The design thickness of the sub-floor pillar 9 is taken from the condition of its strength. Wells 4, designed to break down poor ore, are drilled to the full sub-floor height. As the sub-floor is drilled, rich ore reserves are chipped off, for which explosive charges are placed in wells 3, after the blasting of which beaten rich ore 10 is removed from the bottom of the corresponding sub-floor drift 1. After breaking and discharge of the beaten rich ore 10, wells 4 are charged. after blasting explosive charges of which, the reserves of poor ore of the sub-floor are recaptured. As a result of this, after mining the sub-floor, its mined-out space is filled with the recaptured poor ore 11. Similarly, the underlying sub-floors are mined (in this case, the mining of rich ore reserves and the subsequent breaking of the poor ore in the sub-floors are carried out in descending order, i.e., ahead of them works in the upper floors, works in the lower ones (the descending order of mining allows to reduce the size of the pillar pillars 9 and to simplify the work of charging wells 4, designed to break poor ore).

 After a complete breakdown of the reserves of poor ore of the block in a known manner, its general release is carried out through the orth-races 12 and the recoil drift.

 The production of poor ore will not require additional labor and time for its breaking.

 Due to the fact that the mined space is filled with a bookmark, spontaneous, i.e. Omnidirectional destruction of the enclosing massif, which could lead to the filling of the worked out space with empty rocks, especially if the layer of lean ore in the roof of the ore body is much smaller than in the soil (i.e., in the lying side) and, thereby, the quality of the poor ore is reduced.

 PRI me R. An ore body is being developed with a variable content of useful components within the mineralization. The thickness of the rich ore layer is 0.4 m with a total ore body thickness of 1.6 m (0.5 m on the one side of the rich ore layer and 0.7 m on the other). The ore body is mined in blocks of 50 m long and 49 m high. Each block is divided into seven sub-floors in height. Sub-floor drifts 1 are carried out with a height of 20 m and a width of 2.2 m. The dimensions of the recoil drift 2 are taken from the condition of ensuring the possibility of work for small-sized self-propelled equipment (loading-sufficient vehicles of the TORO-150 or ST-2B type).

On the flanks of the mining block, insurgents (not shown) are carried out, in one of which an ore separation compartment is equipped. The rich ore is broken off and produced using small-sized drilling and sufficient equipment (PR-308B, PG-36M and small-sized scraper winches. The stocks of sub-floors are drilled from sub-floor drifts, while wells 3 in rich ore are drilled staggered at a distance of 1.0 m from each other, with a slope from the dip line to the worked-out space (which reduces the spread across the drift of the beaten rich ore). 4 poor holes are drilled in the poor ore (parallel holes) along the contact plane with the host rocks 6. Well 3 us (at a rich ore) is drilled to the design border 8 sublevel pillar 9 (a length of the order of 5.3 m at an angle ^of 30 to the fall line) and the borehole 4 drilled almost the entire height of substage (about 5 m) that provides redemption pillar 9 rich ore during the breakdown of poor ore reserves.

 It is advisable to place shields in the working space before breaking off the rich ore, which prevents the overburden of the beaten rich ore 10 from expanding over the block and, thereby, contributing to the localization of the bulk of the beaten rich ore 10 in a limited area.

 Rich ore 10, beaten off by blasting explosive charges by means of a scraper winch (not shown in the drawings), is delivered to the ore pass through which it is passed to the horizon of the recoil drift 2.

 After the full production of rich ore 10, explosive charges are loaded into the wells 4 and the stocks of poor ore 7 are beaten off (until the stockpiles of poor ore 7 of the underlying sub-floor are broken off, the beaten-out poor ore 11 of the adjacent overlying substage rests on the under-pillar 9 and the unrefined mass of poor ore 7). With the lagging behind the process of breaking the poor ore 7 upper floors, beat off the reserves of poor ore 7 adjacent to them the underlying floors. At the end of the breakdown of the poor ore reserves of the lowest substage, the mined block space turns out to be filled with the beaten out poor ore 11, which is taken through the ort-races 12 from the recoil drift 2. In the process of preparing the reserves for mining, it is advisable to provide a haul drift 2 for the entire length of the ore body, which allows at the stage of the general release of poor ore from the block to group several neighboring blocks into one recoil drift 2, and ultimately reduce the loss of the beaten out poor ore when released due to It is appropriate for the organization of production, excluding the mixing of beaten ore with host rocks.

Claims (1)

 METHOD OF DEVELOPING STEEP ORE BODIES, including their mining from sub-floor drifts with drilling of stocks of sub-floors, which are worked out with the advanced production of rich ore, characterized in that when the stocks of rich ore are broken off under the sub-floor drift of the overlying sub-floor, they form the whole of the rich ore that is rich in ore mining ore, while the reserves of poor ore are mined with storey shopping and general release after breaking off the reserves of the entire block.

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