RU2187645C1 - Method of mining of steeply dipping veins of compound morphology - Google Patents

Abstract

FIELD: mining industry; applicable in mining of compound morphology veins, particularly, with nonuniform thickness to the rise. SUBSTANCE: method includes driving of haulage drift, block raise, extraction of ore by inclined layers, ore partial shrinkage, drawing of ore excessive in breakage face space through ore chute. In mining of veins with nonuniform thickness to the rise, ore is extracted in two semiblocks with lengthening of central raise. At districts with reduced vein thickness below the minimum possible width of breakage space, rigid roofing is laid on shrinkage ore and selective extraction is made with broken rock left in semiblocks. At district of mining of veins with thickness corresponding to possible width of breakage face space and above, laid on broken rock is permanent flooring, and at point of joint of permanent flooring with ore cute, chute door is installed. EFFECT: reduced impoverishment of ore. 2 dwg

Description

 The invention relates to the mining industry and can be used in the development of veins of complex morphology, in particular with unrestrained rebellion power.

 A known method for the development of thin steeply dipping veins, including the breaking of ore and rock in the ore semiblock with the placement of broken ore in the ore half block, the breaking of the rock and ore in the rock half block with the placement of the broken rock in the rock half block, the formation of the flooring in the breed half block and delivery of it broken in the rock semi-block of ore into the ore half-block, after breaking the ore in the ore half-block, a flooring is formed on the surface of the beaten ore and the rocks selectively beaten on it are delivered to the rocky half-block, and beaten in the rocky half-block ore is delivered to the ore semiblock after removal of the specified flooring (as USSR AS 1162977, class E 21 C 41/06, 1983).

 The disadvantage of this method is the high complexity of the work on moving ore and rock between adjacent semi-blocks.

 The closest in technical essence and the achieved effect is a method of developing steeply dipping veins of complex morphology, including the conduct of a drift drift, block rebels, breaking the ore with inclined layers, its partial storing, the release of unplaced ore in the treatment space through the ore pass and subsequent general release (see Nazarchik A F. and other Development of vein deposits. - M .: Nedra, 1977, p.120-121).

 The disadvantage of this method is the significant dilution of ore in areas with core power below the minimum allowable width of the treatment space.

 The technical result of the invention is to reduce ore dilution.

 The result is achieved by the fact that in the method of developing steeply dipping veins of complex morphology, including carrying out a retraction drift, block rebels, breaking the ore with inclined layers, its partial storing, releasing unplaced ore in the treatment space through the ore discharge, when developing veins with an unstable uprising power, the ore is broken in two semi-blocks with a central uprising buildup, in areas where the core power is reduced below the minimum allowable width of the treatment space per storey a hard floor is laid and selective excavation is carried out, the broken rock is left in a semi-block, and in sections of the core mining with a capacity corresponding to the minimum permissible width of the treatment space and above, a permanent flooring is laid on the broken rock, and at the junction of the permanent flooring with an ore discharge, an exhaust Luke.

 Selective excavation is carried out in sections of core power reduction. The preliminary construction of a hard ceiling over the stained ore will allow for general production and prevent ore dilution overlying overburden. In mining areas with a capacity corresponding to the width of the treatment space and above, the laid permanent flooring on the broken rock will exclude dilution, and the hatch installed at the junction of the permanent flooring with the ore discharge will provide general ore output.

 Figure 1 shows the treatment unit - section across the strike; figure 2 is a section along the strike.

Initially, preparatory work is carried out, which begins with a haul-off drift 1, block rebels 2 and 3, creation of a compensation space 4, hinges of hatches 5. The ore is broken by inclined layers at an angle of 35 ^o to the horizontal from the center in the direction of block rebels. As the block is mined, a central uprising is building up 6. In areas where the core capacity is reduced below the minimum allowable treatment space width (less than 0.7 m), hard overlap 7 is laid on the stained ore, which is fixed to the lateral rocks using anchors 8. This overlap is initially beaten off ore, which is released to the haul-off drift 1 along the ore passes of block rebels 2 and 3. Then the rock is beaten off, which is left in the treatment space of the semi-block. A temporary, artificially folding metal flooring is laid on the broken rock, onto which the ore is beaten. The named technological operations and techniques are repeated. Permanent metal flooring 9 is laid on the rock mass in the mining areas with a power corresponding to the minimum permissible width of the treatment space and above, and at the junction of the permanent flooring with the ore run of block rebellion 2 and 3, an exhaust hatch is installed 10. Then ore is broken by all power veins. The recaptured ore is partially stores, and the unplaced ore is discharged through the ore passes of block rebels 2 and 3. After the block has been completely mined, the ore is generally discharged through hatches 5 and 10.

 The application of the proposed method for the development of steeply dipping veins of complex morphology can reduce ore dilution.

Claims (1)

 A method for the development of steeply dipping veins of complex morphology, including the conduct of a drift drift, block risers, breaking the ore with inclined layers, its partial stacking, the release of unplaced ore in the treatment space through the ore pass, characterized in that when developing veins with unstable rebellion capacity, the ore is broken into in two semi-blocks with a central uprising buildup, in areas where the core capacity is reduced below the minimum allowable width of the treatment space for the stained ore yvayut rigid overlap and produce selective recess muck left in the half-block, and at sites mining conductor with a power corresponding to the cleaning space minimum allowable width and above, on the muck laid permanent flooring, and in place of docking permanent flooring with ore pass is set discharge hatch.

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