RU2093678C1 - Method for mining thick steep ore bodies - Google Patents

Abstract

FIELD: mining technology. SUBSTANCE: according to method, ore body is mined from top to bottom in blocks of rhombic configuration. Block is divided into two chambers. Upper part of block is worked by chamber of corresponding configuration with subsequent gobbing. After required strength is achieved in result of gobbing, work is proceeded in chamber of rhombic configuration in block of upper level. Chambers of rhombic configuration are left ungobbed. EFFECT: high efficiency. 1 dwg

Description

 The invention relates to the mining industry and can be used in the development of powerful steeply falling ore bodies by systems with a hardening tab.

There is a method of developing powerful steeply falling ore bodies, including breaking the ore body from top to bottom with rhomboidal blocks, arranging them crosswise to offset adjacent blocks by half the height of the floor, laying the worked out space of the blocks with concrete and placing the upper half of the blocks between adjacent embedded blocks, and the lower half in ore mass [1]
The disadvantage of this method is the relatively large loss of ore on the bottom and dilution of the beaten ore from the collapse of the host rocks.

There is also a known method of developing powerful steeply falling ore bodies, including breaking the ore body from top to bottom with rhomboidal blocks, arranging them crosswise to offset adjacent blocks by half the height of the floor, laying the worked out space of the blocks with concrete and placing the upper half of the blocks between adjacent embedded blocks and the lower half in the ore massif, dividing the block into two chambers, first working off part of the block under the concrete roof of the chamber of the truss form after laying the last one, mining and laying the bottom of the block to the camera rhomboidal shape similar to the shape of the processed block [2]
The disadvantage of this method is the relatively high cost of a hardening mixture.

 The purpose of the invention is the reduction of production costs by reducing the consumption of hardening mixture.

 This goal is achieved in that the blocks of two adjacent floors are worked out in the following order: first they work out and lay down the roof-shaped chambers of the overlying floor, then they work out and lay down the roof-shaped chambers of the lower floor, after working out the necessary strength, they work out, but do not lay the rhomboidal chambers overlying floor forms.

 The drawing shows a diagram of the method, a section along the strike of the ore body.

 The ore body across the strike is developed in rhomboidal blocks with their displacement relative to each other by half the height of the floor. The floor is prepared by the main transport drift 1, slope, sub-floor transport drifts 2, ore pass 3 and the filling drift along the rock.

 To work off the upper part of the block from the drift 2 of the upper sub-floor, a transport unit 4 and loading rides 5 are held to the displacement boundary of neighboring blocks, where the receiving niches 6 are cut. Simultaneously with the passage of the unit vector 4 from the transport unit 7, the lower chambers of the overlying block produce a roofing chamber of the rafter form 8 and trenches. After the chamber is fully prepared for excavation, layer-by-layer breaking of the fans of the wells is carried out and ore is released through niches to the delivery horizon. The spent upper part of the block (rafter chamber) is laid with a hardening tab through the main horizon of the upper) floor. After a bookmark has been set up with the required fortress, chambers of the rafter-shaped blocks of the lower floor 9 are worked out and laid in the same order. Then they proceed to working out the rhomboid chambers of the upper floor. These chambers are drilled from the transport unit vector of the upper sub-floor and released through the narrowed part of the rhomboid chamber to the haulage horizon. After breaking and releasing the ore, the chambers are left empty. The sequence of mining chambers is indicated on the drawing in Roman numerals.

 The application of the proposed method in the mining industry can reduce the cost of laying cameras with a hardening mixture.

Claims (1)

 A method for developing powerful steeply falling ore bodies, including breaking the ore body from top to bottom with rhomboid blocks, arranging them crosswise with mixing adjacent blocks at half the height of the floor, dividing the block into two chambers, working out the upper part of the block with a truss shaped chamber, laying the last one, working out the lower part block camera rhomboidal shape, similar to the shape of the worked block, characterized in that the upper parts of the blocks of the upper sub-floor work with a bookmark in the first place, secondarily the upper parts of the adjacent blocks of the lower sub-floor, and after a set of the necessary strength is set by a bookmark, they work out without laying a rhomboid-shaped chamber in each block.