RU2504656C1 - Development method of inclined ore deposits - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: method involves development and temporary workings, drilling of bore pits in the face of the mining slab, charging and explosion of bore pits, removal of crushed rock mass, hydraulic cleaning of the developed slab; bore pits are located in lower row at the distance of 2-3 diameters of the bore pit; every second one is charged with distributed charge; bore pits of each next row are oriented along one line in the ore deposit rise direction. Reduction of losses of crushed ore fine parts is achieved due to creation of chutes on bottom layer of ore deposit; at hydraulic cleaning of the extracted slab, movement of hydraulic mixture consisting of water and ore fine parts is performed along smooth surface of chutes.

EFFECT: improving development efficiency of ore bodies and reducing losses of enriched ore fine parts at hydraulic cleaning of extracted slab.

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Description

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

Known methods for developing inclined ore deposits, including carrying out preparatory and rifling workings, drilling holes in the face of the extraction block, loading holes and blasting hole charges, securing the treatment space, scraper delivery of ore from the treatment face to the rolling drift (see Agoshkov M.I., Mukhin M.E. et al., Systems for the development of vein deposits. M. Gosgortekhizdat, 1960, - S. 244-249).

The disadvantage of these methods is the high loss of ore on the recumbent side of the extraction block.

Closest to the claimed one is a method that includes carrying out preparatory and rifling workings, drilling holes in the face of the extraction block, charging holes and blasting hole charges, securing the treatment space, scraper ore delivery from the treatment face to the recoil drift and subsequent hydraulic cleaning of the spent block, based on the destruction of internal adhesion forces and the transportation of ore fines by the energy of water flowing out of the nozzle of a hydraulic monitor (see Erzikov G., Hydraulic cleaning of ore oh little things, Non-ferrous metals, - 1964, - No. 23, S.7-9).

The disadvantage of this method is the high loss of enriched ore fines on the lying side of the extraction unit due to the loss of water from the stream and deposition on the rough surface of the most enriched ore fines. Moreover, the accumulation of the heaviest, most enriched, part of ore fines on the lying side increases its density so much that turbulent flows are not able to loosen it.

The technical result of the invention is to increase the efficiency of development of ore deposits by reducing the loss of broken ore fines in the extraction unit by forming gutters on the recumbent side of the ore body being mined.

The result is achieved by the fact that the method of developing inclined ore deposits, including the preparation and cutting workings, drilling holes in the face of the extraction block, loading holes and blasting holes, cleaning the broken ore mass, hydraulic cleaning of the spent block, differs in that when drilling holes in the bottom row is placed at a distance of 2-3 diameters of the hole, the holes are charged through one with a dispersed charge, while the holes of each subsequent row are oriented along one line in the direction The uprising of the ore deposit.

Reducing the loss of broken ore fines is achieved by creating gutters on the lying side of the ore deposit, during hydraulic cleaning of the spent block, the movement of the slurry, consisting of water and ore fines, occurs along the smooth surface of the gutters.

Figure 1 shows the location of the holes in the face and the gutter on the lying side of the extraction block.

A method for developing an inclined ore deposit is as follows.

Conduct preparatory and rifling workings, when drilling holes in the working face, the bottom row is placed in one line in the direction of the uprising of the ore deposit at a distance of 2-3 diameters of the hole. The holes 1 are charged through one with a dispersed charge. After blasting, boreholes are formed on the lying side of the ore deposit, which are rectilinear grooves 2, and between them a fairly smooth convex surface 3. Scrapers deliver the broken ore mass from the face. After working off the block, it undergoes complete hydraulic cleaning with the help of a hydraulic monitor installed in the upper part of the extraction block. Under the influence of the energy of the water flowing out of the hydraulic monitor, the ore fines slide down the gutters to the scraper path and are loaded into the trolleys with the help of a scraper.

Thus, the claimed method for the development of inclined ore deposits provides a 15-20% reduction in the loss of enriched ore fines during hydraulic cleaning of the spent block.

Claims (1)

A method for developing inclined ore deposits, including carrying out preparatory and rifling workings, drilling holes in the face of a mining block, loading holes and blasting drill holes, cleaning the broken ore mass, hydrotreating the spent block, characterized in that the holes are located at a distance in the bottom row when drilling 2-3 diameters of the hole, the holes are charged through one with a dispersed charge, while the holes of each subsequent row are oriented along one line in the direction of the uprising of the ore deposit .