SU1703816A1 - Method of ore quality formation - Google Patents

Abstract

The invention relates to the mining industry and can be used in the formation of the quality of ores of rare and non-ferrous metals. The purpose of the invention is to increase the efficiency of the method by increasing the degree of homogeneity of the ore mass in the development of the site. The invention relates to the mining industry and can be used to form the quality of rare and non-ferrous metal ores. The purpose of the invention is to increase the efficiency of the method by increasing the degree and homogeneity of the ore mass in quality during the development of mainly stock-type deposits. The method is carried out as follows. births of predominantly stockwork type. As a result of testing the ore massif, zones with a predominant variability of the qualitative composition (X) in the vertical and zones with a uniform qualitative composition are identified and delineated. Within the X-ray zones, horizontally, the borehole charges are placed in the contact area of different-grade ores. By blasting these charges, the ore mass is partially averaged by quality in the contact area. The exploded ore mass is removed by a front loader with the combination of the axis of symmetry of the loader bucket and the line of contact of different sort inclusions. This averages out the loader bucket. The exploded ore mass in the X-ray zone vertically is taken out with a unit with a vertically oriented scoop trajectory. The extracted ore mass from the zones with a uniform qualitative composition is transported to the averaging warehouse, and the ore mass, taken out from the zones with predominant X, vertically and horizontally, is transported directly for processing. According to the results of testing the re-drilling of explosive wells or visual geological-technological mapping, zones with preferential variability of the qualitative composition horizontally, zones with preferential variability of its vertical and zones with conditionally uniform qualitative composition are identified. The presence of such zones is typical of the stock-type deposits. ate with VJ about from 00 about

Description

At the points of contact of different-grade inclusions in zones with predominant horizontal variability, explosive wells with increased network density are drilled. & the remaining zones, wells were drilled through a network corresponding to the strength and structural characteristics of the array. Blasting wells produced with a short deceleration. After the explosion, fine crushing and partial settling of different-sorts inclusions occurs in the areas of their contact in zones with predominant horizontal variability.

After the explosion, the excavation begins to produce in areas with a high degree of fragmentation (an area with preferential horizontal variability) with a front loader. The use of a front loader is due to the fact that its bucket can be moved predominantly in a horizontal plane, which ensures that different types of ores are stuck in the loader bucket at the same time.

When excavating, the axis of the loader bucket is aligned with the line of vertical contact of the ore layers, which ensures averaging directly in the loader bucket / since differently sorted ores fall into the latter in a roughly equal ratio.

Zones with a predominant vertical variability and zones with a uniform qualitative composition are treated with a mechanical shovel type excavator. The use of a mechanical shovel allows, when excavating in areas with predominant vertical variability, to cross an excavator bucket with several grades of ore. where they mix and provide the necessary averaging.

Zones with a uniform qualitative composition are worked out by the excavator selectively and the ores from these zones are directed to the averaging warehouse, where they are mixed with ores of the corresponding grade. Ores taken out of zones with predominant horizontal and vertical variability are sent for further processing.

Example. Vertical blastholes are drilled using SBSH-250 MN-32 type machines over a network in zones with a predominant horizontal variability of 6 x 7 m and in other zones of 7 x 8 m, after which the wells are charged with ammonium type Nb and LW and exploded. The average diameter of the piece after the explosion in the zone with predominant horizontal variability is 30 cm at the exit

0.5% of oversize and 45 cm in the remaining zones when 2% of oversize leaves (according to an experimental blast at the Sora career). Zones with predominant horizontal

variability (zones vary from 5–6 to 15–20 m) are processed by a Michigan-type front loader 675 V. The width of the loader’s cutting edge is 5,664 m, which allows

Border of multi-grade ores pick up a layer approximately equal to 2.8 m of each grade of ore. Zones with predominant variability (zone sizes vary from 3-4 to 12-15 m) are processed by an EKG-4.6 excavator with

Claims (1)

the height of the mining ledge is 10 m. Zones with a uniform qualitative composition are processed by an EKG-4.6 excavator and directed to the average storage. Invention Formula A method of forming ore quality, including testing the ore massif, isolating zones with different contents of the useful component, currying it, placing explosive charges in the wells and blasting them, selectively excavating the ore mass, transporting the ore mass to the average stockpile and for processing, characterized in . to increase efficiency method by increasing the degree of homogeneity of the ore mass in quality in the development of deposits of predominantly stockwork type, according to the results of testing, zones with predominant variability of the qualitative composition horizontally, zones with predominant variability in the vertical and zones with uniform qualitative composition are revealed and outlined in areas with the predominant horizontal variability of the charge B B is located in the contact area of different-grade ores. By blasting these charges, the ore is partially averaged. mass in terms of quality in the area of contact and excavation of the ore mass by the front loader with a combination of the axis of symmetry of the loader bucket and the line of contact of different sort inclusions is averaged in the bucket loader, the ore mass in zones with preferential variability in the vertical direction is taken out by an aggregate with a vertically oriented trajectory of the scoop, and the extracted ore mass from the zones with uniform with qualitative composition, it is transported to the average storage, and for processing - ore mass taken out of the zones with preferential variability horizontally and vertically.