RU2800752C1 - Method for open-pit mining of mineral deposits - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: method of open-pit mining of mineral deposits includes mining of the initial block to the final mining depth of the deposit, placing overburden from the initial block into an external dump, placing the overburden during mining of subsequent blocks of the deposit into an internal dump located in the mined-out space of the previous blocks. The open-pit field is divided into blocks with the parameters determined on the basis of the calculated parameters of the initial block. The volume of the initial block is calculated taking into account the geometric parameters of the mined block, for which the depth of mining is determined by the mining and geological parameters of the mined suite for maximum extraction of the mineral. The length of the block along the bottom is determined as the sum of the transportation distance to the dump, along the side and the bottom of the block, taking into account the final mining depth and is limited by the maximum possible reasonable transportation distance for the conditions of the deposit. The length of the block along the top is determined as the sum of the length of the block along the bottom and the length of the posting of the end part of the block, taking into account the stable parameters of the side. The width of the block along the bottom is determined as the sum of the horizontal thickness of the worked out suite of seams and the minimum width of the cut trench. The width of the block along the top is determined as the sum of the width of the block along the bottom and posting, taking into account the stable parameters of the side. The second block is worked out, while the volume of the second block and the subsequent ones does not exceed the maximum receiving capacity of the internal dump located in the previous block.

EFFECT: ensured rhythm of mining operations, possibility of maximizing the use of mined-out space for placement of overburden, reducing transportation distance and its constancy throughout the entire period of mining of the open-pit field.

1 cl, 5 dwg

Description

The invention relates to mining, in particular to the development of minerals in an open way, and can be used in the development of coal deposits.

A known method of mining deposits in an open way, according to which large fields of cuts intended for mining on the transport system with the export of rocks to external dumps, are pre-divided into separate parts, called blocks. First, the initial block is stripped and mined, while the overburden is placed in an external dump. Then, during the subsequent development of the quarry field, while working out the second and subsequent blocks, overburden rocks are placed in the internal dump of the mined-out space of the initial and previous blocks (Rutkovsky B.T. author's certificate No. 337516).

The known method allows you to work out the deposit to full depth along its entire length, provide a reduction in land use and a reduction in the range of transportation of waste rock by storing overburden in the goaf, and will also allow you to restore a significant part of the goaf due to internal dumping.

The disadvantage of the known method is that the development of a quarry field is carried out according to block technology, in which each of the subsequent blocks is included in the work after the completion of the previous one. During the development of subsequent blocks, overburden rocks are placed in the mined-out space of the previous blocks. At the same time, there are no recommendations for determining the main parameters of the initial and subsequent blocks, which include: depth, width, length of blocks, volume of blocks, capacity of the internal dump, transportation distance. This drawback is due to the fact that when determining the main parameters of each of the blocks, the relationship between the parameters of the developed block and the mined-out space of the mined-out block is not taken into account, in which the volume of mined rocks cannot be placed in the mined-out space of the previous block. This circumstance determines the uneven distribution of overburden from the mined block to the worked-out space of the mined one, which negatively affects the technical and economic indicators of the section - the transportation range increases due to the movement of excess rock to external dumps, and the volumes and areas for external dumps increase.

The technical result of the application of the invention is to ensure the rhythm of mining, the possibility of maximizing the use of mined-out space for the placement of overburden, reducing the distance of transportation and its constancy throughout the entire period of mining a quarry field.

The specified technical result is achieved by the fact that in the method of open pit mining of mineral deposits, which includes the development of the initial block to the final depth of mining of the deposit, the placement of overburden from the initial block into the external dump, the placement of overburden during the development of subsequent blocks of the deposit into the internal dump, placed in the mined-out space of the previous blocks, according to the claimed invention, the division of the quarry field into blocks is carried out on the basis of pre-calculated parameters of the initial block, such as depth, taking into account the entire depth of the suite for maximum extraction of the mineral, the length of the block along the bottom and along the top, taking into account the rational range of transportation, which includes the distance of transportation along the bottom of the block, the side of the block and the distance to the outer dump for the initial block, and to the inner dump for the second and subsequent blocks, the width of the block along the bottom and along the top, taking into account the stable parameters of the sides, the volume of the block, the possible capacity internal dump in the mined-out space of blocks.

The proposed method is illustrated by drawings, where in Fig. 1 schematically shows a general view of the mining of the initial block with the location of the transport connection between the initial excavation and the external dump; in fig. 2 - shows a cross section of a quarry field; in fig. 3 - shows: a longitudinal section of a quarry field with an assessment of the worked-out space for the formation of an internal dump in the initial block and its placement, the parameters of the second block and the minimum gap between the lower edge of the dumping front and the lower edge of the next block; in fig. 4 - shows a longitudinal section of a quarry field with an assessment of the goaf for the formation of an internal dump in the second block and its placement; the parameters of the third block and the minimum gap between the lower edge of the dumping front and the lower edge of the next block; in fig. 5 - shows a longitudinal section of a quarry field with an assessment of the goaf for the formation of an internal dump in the n-th block and its placement; parameters of the n-th block and the minimum gap between the lower edge of the dumping front and the lower edge of the next block.

The method is carried out as follows. The construction of the priority block is carried out to the full depth of the deposit development, as shown in Fig. 1. In this case, the overburden is stored in the external dump 1. The parameters of the primary block are determined in the following way. The mining depth 2 of both the initial and subsequent blocks is determined by the mining and geological parameters of the suite being mined 3 for maximum extraction of the mineral. As mining deepens in the block, the bead is set to the limit position, while reaching the final depth 2 during the construction of the initial block is necessary, since this ensures the possibility of forming an internal dump. Determination of the level of production capacity of a quarry for a mineral, the opening scheme of each block, the transport connection between the blocks are not significant in the framework of the claimed invention.

The length of the original block 4 along the bottom is determined by the total transportation distance to the dump 5, along the side 6 and the bottom 7 of the original block, taking into account the final mining depth 2 and is limited by the maximum possible rational transportation distance, for field conditions. In general, the bottom length of the original block 3 is determined as follows:

Where - rational range of transportation according to economic criteria, km

L _day - transportation distance along the bottom of the block 5, km

L _side - transportation distance along the side of the block 6, km

L _resp - transportation distance from the block to the dump 7, km

The length of the original block 8 along the top is determined in total as the length of the original block 4 along the bottom and the spacing of the end part of the block, taking into account the stable parameters of the side. In general, the length of the block 8 along the top is determined as follows:

The width of the initial block to ensure the maximum recovery of the mineral is mainly determined based on the geological conditions of the occurrence of suite 3, as shown in FIG. 2. The width of the initial block 9 along the bottom is determined as the sum of the horizontal thickness of the mined suite of seams and the minimum width of the cut trench:

Where B _suites - horizontal thickness of the worked out suite of seams, m;

В _tr - the minimum width of the cutting trench along the bottom, m.

The width of the original block 10 along the top is determined in total as the width of the original block 9 along the bottom and spacing, taking into account the stable parameters of the side. In general, the width of the original block 6 at the top is determined as follows:

In this case, the volume of the initial block 11, taking into account the geometric parameters, is determined by:

Where H _{1 bl} is the depth of the original block 2, m.

Next, the mined-out space of the initial block is evaluated for the possibility of placing in it the internal dump 12, formed from the overburden of the next block, as shown in FIG. 3. The length of the base 13 of the internal blade is determined based on the length of the initial block along the bottom 4 minus the minimum gap between the lower edge of the front of the moldboard operations and the lower edge of the next block 14. The length of the blade along the top is determined based on the parameters of the base of the blade, taking into account stable parameters. In this case, the geometric volume of the internal dump 15 is determined as follows:

Taking into account the fact that all overburden rocks of the second block are placed in the mined-out space of the previous block, the volume of the second block 16 and subsequent ones should not exceed the maximum receiving capacity of the internal dump 15 located in the previous block:

those.

The movement of overburden from the second block to the mined-out space of the original block during the development of the upper horizons of the block is carried out along the transport board of the block. Transport access of each horizon of the operated block is available to each horizon of the formed internal dump. At the same time, in the total amount of transportation distances, transportation distances along the side of the block and along the internal dump will prevail; when finalizing the block in the total amount of transportation distances, the transportation distances along the bottom of the block and along the internal dump will prevail.

Since the second and subsequent blocks have only one end part and the stable parameters of the end will be the same throughout the entire career excavation, then the volume 16 and the length 17 of the second and subsequent blocks along the top and bottom will be equal to the previous ones. Thus, the length of the second block along the bottom 17 is determined taking into account the receiving capacity of the internal blade 15 formed in the previous block and the cross section of the operated block. In this regard, it is necessary to determine two lengths and volume of the block: the length and volume of the block, taking into account the capacity of the internal dump; the length of the block, at which the total transportation distances from the operated block to the internal dump will be less than the rational transportation distance of overburden for the developed field.

Accordingly, in general terms, the equation for determining the parameters of the second and subsequent blocks, taking into account the geometric capacity of the internal dump, is as follows:

Where S _{2 bl.} - cross-sectional area of the second block, m ² .

The block length parameter, taking into account the total transportation distances from the operating block to the internal dump 11, is determined as follows:

Given the above, the volume 16 and the parameters of the second and subsequent blocks are determined as the smallest, based on the capacity of the internal dump and the rational range of transportation:

The principle of determining the parameters of subsequent blocks is similar to determining the parameters for the second block. The general scheme of mining the next block and the formation of an internal dump is shown in Figs 4, 5.

The total set of distinguishing features, such as the distance of transportation, the parameters of the blocks, the relationship between the volumes of blocks and internal dumps, ensures the achievement of the claimed technical result due to the following.

The features described above make it possible to organize the quarry excavation space permanently, within the framework of the development of the corresponding horizons in the corresponding blocks. The determined parameters of the blocks make it possible to maintain the transportation distance constant within the rational range, which ensures the rhythm of mining operations, the possibility of maximizing the use of the mined-out space for overburden placement, reducing the transportation distance and its constancy throughout the entire period of mining the quarry field.

The inventive method was tested in the conditions of the Krasnobrodsky mine, which develops suites of steep and sloping coal seams.

When designing the Krasnobrodsky site, a quarry field 6.7 kilometers long and 2.3 kilometers wide and 290 meters deep was divided into blocks. Overburden from the original block (Northern Block) was hauled to external dumps. After completion of mining of the Northern block, an internal dump formed from the rocks of the Southern block is located in its goaf. The dimensions of the Northern block are 3.5 km × 2.3 km, and those of the Southern block are 3.1 km × 2.1 km. At the same time, the internal dump is filled by 70-80%. Overburden transportation distance is more than 7.5 km.

Prior to the transition to work according to the claimed method, mining operations on the site were carried out with a conditional division of the quarry field into blocks. The conditional boundary of the blocks was a transverse exploration line located in the center of the quarry field. This did not take into account the volume of overburden in the Northern and Southern blocks, the distance of transportation during the development of each block.

Based on the results of the proposed method, the volumes of overburden rocks in each block were determined and the sizes of the Northern and Southern blocks were adjusted based on the specified volumes. As a result, the length of the Northern Block has been reduced by 15-20% from the original, which makes it possible to place all the overburden of the Southern Block in the internal dump of the Northern Block. At the same time, the transportation distance during block mining does not exceed 6 km.

According to the results of the proposed method, the share of external dumping was reduced by more than 30%, the distance of transportation of overburden rocks to the dumps changed to a smaller side, the fluctuations of which were less than 10% due to changes in the locations of the sliding ramps, the work acquired a uniform character, which indicates that that the claimed method of open mining of mineral deposits ensures the rhythm of mining operations, the uniformity of the load on personnel and equipment during the development of the deposit.

Claims (1)

A method for open pit mining of mineral deposits, which includes mining the initial block to the final mining depth of the deposit, placing overburden from the initial block into an external dump, placing overburden during the development of subsequent blocks of the deposit into an internal dump located in the mined-out space of previous blocks, characterized in that the quarry field is divided into blocks, the parameters of which are determined on the basis of the calculated parameters of the initial block, the volume of the initial block is calculated taking into account the geometric parameters of the mined block, for which the depth of mining is determined by the mining and geological parameters of the mined suite, for maximum extraction of the mineral, the length of the block along the bottom is determined as the sum of the transportation distance to the dump, along the side and the bottom of the block, taking into account the final mining depth and limit the maximum possible rational distance of transportation for the conditions of the field, determine the length of the block along the top as the sum of the length of the block along the bottom and the length of the spacing of the end part of the block, taking into account the stable parameters of the side, determine the width of the block along the bottom as the sum of the horizontal thickness of the worked out suite of seams and the minimum width of the cut trench, determine the width of the block along the top as the sum of the width of the block along the bottom and spacing, taking into account the stable parameters of the side, the second block is mined, while the volume of the second block and subsequent exceeds the maximum receiving capacity of the internal dump located in the previous block.