SU1546638A1 - Method of mining sloping ore deposits - Google Patents

Description

<p> The invention relates to underground mining methods. The goal is to increase the productivity of ore production by improving its loose properties. Pass preparatory workings. Development of deposits are carried out by vertical panels in the fall. Ore massif top </ p> </ li> </ ul> <p> The invention relates to mining, in particular, to methods for underground mining of ores. </ p> <p> The purpose of the invention is to increase the productivity of ore output by improving its loose properties. </ p> <p> Figure 1 shows the ore deposit across the strike in the initial stage of formation of the compensation chamber, a section; figure 2 - the same, in the final stage of the formation of the compensation chamber; fig. 3 - the same, in the stage of drilling ore massifs in the lower part of the previous and upper parts of the subsequent panels; </ p> <p> and the bottom of the panel separately drilled deep wells from sublevel workings. Form a comp </ p> <p> A disposing chamber, expanding it, and .detaching deep wells in sub-floors. Carry out a separate collapse of the upper and lower parts of the panel. First, they crush the upper part of the next panel and release the ore, then they crush the lower part of the previous panel and release the ore. In this form the ore flow </ p> <p> A pit over a single clearing space formed at the top of the next panel and at the bottom of the previous panel. After that, the ORE Crowd is brought down, the final ore is produced from the previous panel and the broken ore is magnetized in the upper part of the subsequent panel, which is produced when the underlying substage is developed. 5 il. </ P> <p> in FIG. 4, the same, p formation stages in the upper part of the subsequent panel of a free cleaning space; figure 5 - the same, in the final stages of the formation of a single cleaning space in the lower part of the previous panel and the upper part of the subsequent panel. </ p> <p> Testing excavation area (block) 1 according to the proposed method is carried out in the following sequence. Preparation of block 1 for the clearing recess consists in carrying out an orta-check in 2, from which a process of working out the sub-floors 3,4, 5 </ p> <p> C 1546638 </ p> <p> '6–17 rebels pass. Vspstuyuschie knock together and as far as the development of the sub-floors 3, 4, 5 are economic orta 18, 19, 20, of which pass drifts delivery $ 21-29, and of them duchki 30. Above duchki 30 are boring orta 31, 32. Of drilling orts 31, 32 pass cutting drifts 33, 34, and in viedyachy and lying side. the base of drifts 35-38. </ p> <p> Clearing the recess lead vertical panels in the fall and start with the formation of the compensation chamber ed 39, for which from the cutting drift 33 pass cutting rising 40 and niche 41 o From the niche 41 drill 42 and blowing them to the cutting cutting-off 40 form a cutting gap 20 43 o From the cut-off drift 33 drill the fans of the wells 44.i, blasting them to the cutting slot 43, form a compensation chamber 39. From the drill-bit, 31 deep-hole fans 45 expand the ore massifs of the lower part 46 of the previous panel 47 and the upper 48, followed by 31 pan li 49. </ p> <p> After the formation of the compensation chamber 39, blasting fans of deep wells 45 beat the ore massif of the upper part 48 of the next panel 49. The broken ore 50 is delivered by the force of an explosion and under its own weight into a row of duchke 30 from the side of the hanging side, 24, from where it is delivered to the rising 14. From the rising 14, the broken ore 50 is loaded into the haulage vessels located in the rear stage 2. After the release of the broken ore 50 in the upper part 48 of the next panel 49, a free cleaning space 51 is formed, supported by whole 52, ceiling 53 and ore mass of the lower part 46 of the previous panel 47. By blasting the fan wells 45 to the free cleaning space 51 they crush the ore ma- chen of the lower part 46 of the previous panel 47, the broken ore 50 is released · under its own weight into duchki 30 delivery drifts 24, 25, .26, from where it is delivered to the rising 14, </ p> <ul style = "list-style: none;"> <li> <p> 4.3, 12 and then into the haulage vessels located in orte-race 2. After the release of broken ore 50 in the lower part 46 of the previous panel 47, there remains a free cleaning space 54 <sub> O </ sub> Cleaning spaces 51 and </ p> </ li> </ ul> <p> 54 form a single cleansing space, supported by pillars 52, 53, 55о. By blasting wells 45 and 56, a single cleansing space <sub> # </ sub> is crushed, while together with the ceiling 53 they will crush the ore previously buried on its surface. 57 top 58 of the previous panel 47. In the process of falling in the clearing space 51, 54 and when the panel 47 collides with the bottom 47 and the top 48 of the subsequent panel 49, it will break up into separate constituent pieces, be further crushed and disintegrated. cleaning space, produce the final release of the ore of the previous panel. Repelled ore 57 and collapsed zagupirovannuyu ore 50 under the action of their own? The main weight is released into duchki 30 delivery drifts 24, 25, 26, from where it is delivered to the rising 14, 13, 32, and then to the haulage vessels located in orte ride 2. </ p> <p> Part of the ore 57 and 50 collapsed into the cleaning space 51. The upper part 48 of the subsequent panel 49 does not fall upon release into the zone of influence of discharge ducts 30 delivery lines 24, 25, 26. This ore is stored and extracted when the underlying substage 5 is developed. substage 5 is conducted similarly to the above described development of substage 4. </ p>

Claims (1)

Claim Method of development of inclined ore deposits, including preparatory-rifled workings, mining of vertical deposits in the fall, separate drilling of deep wells from sublevel openings of the ore massif of the upper and lower parts of the panel, formation of a compensation chamber and its expansion, blasting deep wells in sub-floors, separate collapse the upper and lower parts of the panel, the formation of cleansing space and the release of ore, which is, with the aim of increasing productivity OSCAL ore by improving its bulk properties; first pull the top five a part of the subsequent panel and produce broken ore, the ore massif of the lower part of the previous panel collapses and the broken ore is produced at the same time forming the ore ceilings above the single cleaning space of the upper part of the subsequent 1546638 ⁶ the panels then break down the ore to the ceiling, produce the final release of broken ore from the previous panel and store the broken ore in the upper part of the subsequent panel, which is produced when mining the underlying 1546638