RU2215147C2 - Method of mining of inclined ore deposits - Google Patents

Abstract

FIELD: mining; applicable in underground mining of ore medium deposits. SUBSTANCE: method includes sinking of raises and main haulage drifts in rocks of lying side with drawing holes, ore breaking from drilled workings with broken ore delivery by blast force to drawing holes, drawing and haulage of ore over drifts and block raise. After driving of block and ventilating raises to the dip of ore body, driven on each subhorizon simultaneously with main drifts in ore body are additional scraping drifts which are interconnected by drilled raises. From the latter, ore is broken and hauled over additional scraping drifts to drawing chute, and further over block raise. During second stage, ore is drilled-off from additional scraping drifts. Broken ore is drawn through drawing chute to main scraping drifts and further hauled over block raise. EFFECT: reduced impoverishment of ore with preserved safety in mining. 2 dwg

Description

 The invention relates to mining and can be used in underground mining of inclined ore deposits of medium power.

 There is a method of mining inclined ore deposits by chamber-pillar mining systems, including sinking block, ventilation insurrection and scraping drifts in the ore body and mining the ore body with impacts along the dip or strike leaving ore pillars (Kaplunov D.R. Tikhomirov A.P., Sokov VA "The state and ways to improve the efficiency of technical re-equipment of underground mines of non-ferrous metallurgy", Central Research Institute of Tsvetstvet of Economics and Information. Rotprint, M., 1981, 63c.).

 The disadvantages of the above development method include the large loss of ore in the pillars and the dangerous working conditions of miners working directly in the treatment chambers.

 There is also a method for mining inclined ore deposits by development systems with ore delivery by explosive force (Improvement of mining technology at the Urup mine. Report on the research work of the Unipromed Institute, Sverdlovsk, 1990, 82 pages (contract 338-88 / 13 of 02.06. 88 between Urupsky GOK and the Uniromed Institute), including the sinking of block and ventilation insurrections in the rocks of the lying side, the drift of drills with outlet workings and drilling insurrection, borehole breaking of ore with the delivery of the force of the explosion to the outlet hole This method improves the safety of working conditions of miners, since they do not work in open treatment chambers, however, the disadvantages of this method include a large dilution of ore by the rocks of the hanging side.

 In addition, there is a known method of mining inclined ore deposits, including sinking of rising and main delivery drifts in the rocks of the lying side with the outlet workings, breaking the ore from the drillings with the delivery of the force of the explosion to the outlet workings, production and transportation of ore through the drifts and block riser (a. p. 1456577, class E 21 C 41/22, published 07.02.89).

 An object of the present invention is to reduce dilution while maintaining safe working conditions.

 To solve the problem in a method of working out inclined ore deposits, including driving uprising and main delivery drifts in the rocks of the lying side with outlet workings, breaking the ore from the workings with the delivery of explosive force to the workings, ore production and transportation along the drifts and block rebellion, after additional penetration drifts are carried out simultaneously with the main ones in the ore body at the same time as the main ones in the ore body; Among themselves, drilling uprising, ore is beaten out of the latter and transported through additional scraping drifts to the ore discharge and further along the block riser, and in the second stage, additional scraping drifts are used for ore drilling, and the collapsed ore is delivered through the outlet funnels to the main scraping drifts and then transported on the block rebellion.

The method is illustrated by drawings, where
in FIG. 1 shows a section of the treatment unit with a vertical plane along the fall of the ore body,
in FIG. 2 - section of the treatment unit with a horizontal plane along the fall of the ore body.

In figures 1 and 2, the positions shown:
1 - block rebellion,
2 - the main scraping drift, passed from the block uprising 1, in the rocks of the lying side;
3 - ore pass, passed from the main drift of scraping 2 into the ore body;
4 - additional scraping drift, passed in the ore body (not indicated);
5 - inter-panel drilling uprising, passed in the ore body from an additional drift of scraping 4;
6 - spent chamber, formed on the site of the interdannel drilling uprising 5;
7 - wells for caving in and explosive ore delivery, by means of which inter-panel drilling risers 5 are cut into spent chambers 6;
8 - collapsed ore;
9 - scraper bucket;
10 - inter-chamber pillar formed between the treatment chambers 6 after the first stage of mining;
11 - outlet funnels recovered from the main drift of the scraping 2 after the formation of treatment chambers 6 and interdannel pillars 10 on the upper and lower panels relative to the drift of scraping 2;
12 - wells for the development of reserves of the second stage, drilled simultaneously with the formation of outlet funnels 11;
13 - interchamber pillar after the second stage of mining.

 The method is as follows. Block risers 1, scraping drifts 2 and ore passes 3 pass in the lying side, and additional scraping drifts 4 pass in the ore body, which knock off inter-panel drilling risers 5. The part of the ore body that forms between the two additional scraping drifts forms a treatment panel. The mouth of the drilling rebels is designed to receive collapsed ore.

 In the first stage, the reserves of the panel are worked out with the inter-panel pillars 10 left. Of the 5 rebellious, 7 are drilled, the ore is beaten off and delivered with an explosion to an additional scraping drift 4. The ore is delivered to an additional scraping drift 4 and the bottom of the treatment chamber 6 is cleaned with a scraper bucket 9. According to an additional drift of scraping 4 ore is delivered by a scraper (not indicated) to the ore pass 3 and then along block rebel 5 for loading into haulage trucks.

 In the second stage, additional scraping drifts 4 are used for drilling ore reserves with wells 12. The collapsed ore through the outlet funnels 11 is delivered to the main scraping drifts 2 and then transported through a block rebellion. The accepted direction of breaking the massif by wells 12 relative to the pillars of ore allows minimizing losses by reducing the expansion of pieces of ore into the treatment chambers.

 After mining ore reserves in the first and second stages remain ore pillars 13, interchamber pillars 4 after the second stage of mining, which are the natural supports of the roof of the treatment chambers. The targets 13 prevent the collapse of the roof rocks of the treatment chambers, reducing dilution.

Claims (1)

 A method for working out inclined ore deposits, including sinking of rising and main delivery drifts in the rocks of the lying side with outlet workings, breaking the ore from the workings with delivery by the force of the explosion to the workings, discharge and transportation of ore along the drifts and block riser, characterized in that after the sinking by the fall of the ore body of the block and ventilation insurgents on each sub-floor, simultaneously with the main ones, additional scraping drifts pass in the ore body, which knock together in equal uprising, the ore is beaten from the latter and transported through additional scraping drifts to the ore outlet and further along the block riser, and in the second stage, additional scraping drifts are used to ore the ore, and the collapsed ore is delivered through the outlet funnels to the main scraping drifts and then transported along the block uprising.

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