RU2671381C1 - Method of open mining of solid minerals - Google Patents

Abstract

FIELD: mining.SUBSTANCE: invention relates to the mining industry and can be used to openly develop small coal mines and to obtain by classification directly in the process of mining sorted coal, ensuring its safety and energy properties by packing fuel in containers for delivery to remote consumers located in the northern regions, including the Arctic. Method for the open development of solid mineral deposits includes the production of conditioning fractions by means of a continuous excavation and classification process with stripping by stratification in a stratified stratum of a mineral deposit, supply of rock mass from the working body of the mining complex directly to the classification unit. By means of an automatic system, the separated coarse fraction and fine fraction are periodically fed into soft containers through hopper compartments after the soft container is installed by means of an automatic packaging device equipped with a pivoting mechanism. After filling the soft container controlled by the automatic system, the automatic packaging device seals the soft container, disconnects it from the nozzle and sends a signal to the drive of the rollers of the platform to guide the soft container over the overpass under the action of gravity on the face of the face.EFFECT: technical result of the proposed method is to increase productivity and technological efficiency by combining operations in extraction, sorting and differentiated packing of minerals in the mining complex.1 cl, 3 dwg

Description

The invention relates to the mining industry and can be used for open-pit mining of small coal mines and obtaining by classification directly in the process of mining sorted coal, ensuring its safety and energy properties by packing fuel in containers for delivery to remote consumers located in the northern regions, including the number of arctic.

Known methods of extraction and transportation of raw coal in order to supply consumers located in remote Arctic territories [1]. Raw coal is transported in bulk on water and sea routes with several intermediate transshipments and inter-navigation storage on the way.

The disadvantages of this method of extraction and transportation of fuel to remote consumers are significant losses in the mass and quality of coal from atmospheric influences and spillage during its extraction, transportation and transshipment. The presence of a large number of small fractions in the raw coal determines a decrease in the efficiency of combustion plants during its combustion.

A known method for the classification of coal based on a resource-saving mining complex, including the process of producing conditioned fractions by means of a continuous extraction-classification method with working out a layer-by-strip method of a mineral layer, supplying the rock mass from a working body driven by a drive, classifying the rock mass by fractionation and moving the fractions of large fractions for shipment by a scraper conveyor. Resource-saving mountain complex includes a working body, a frame equipped with a running trolley with a feed conveyor and a rotary unloading console. A separation and sorting unit is mounted on the frame of the complex, coupled with a feed conveyor and with additionally placed conveyors that connect the separation and sorting unit with the packaging unit and with the unit for preparing trifles for briquetting. Excavated coal from the working body, driven by a drive, enters the feed conveyor into the separation and sorting unit, where the separation and sorting of the extracted coal takes place [2]. There is a method of open-pit mining of coal deposits, based on the use of a complex of mining mining equipment in the face, including an excavation machine, separation and sorting unit, packing and briquette section, containers [3].

Redundancy of gears and cumbersome construction of mining complexes increases capital and operating costs, reduces the reliability and performance of equipment.

There is a method of open development of solid mineral deposits, including the production of conditioned fractions through a continuous extraction-classification process with the development of a layer-strip method of a mineral layer [4]. The feed of rock mass from the working body of the mining complex is carried out directly to the classification unit located in the casing to exclude losses of fine particles and to ensure accelerated effective separation into two fractions by means of a scraper conveyor and classification grid mounted on elastic supports and equipped with a vibrator. The receipt of the fine mineral fraction separated from the coarse fraction, separated in the classification unit as an under-sieve product, is carried out in the drive, coupled with the casing and installed under the classification grid, by the fine fraction pneumatic conveying system. A large fraction of the mineral is loaded by a conveyor belt of the mining complex into the dump truck, and a thin and small fraction of the mineral into the receiving containers of the vehicle.

The disadvantage of this method is the need to create a production workshop for packaging coal in soft containers, ensuring its qualitative and quantitative safety during transportation to distant consumers.

The technical result of the proposed method is to increase productivity, technological efficiency by combining mining, sorting and differentiated packaging of minerals in the mining complex.

The technical result is achieved by the fact that in the method of open development of solid mineral deposits, including obtaining conditioned fractions by means of a continuous extraction-classification process with mining a layer-by-strip method of a mineral layer, supplying the rock mass from the working body of the mining complex directly to the classification unit located in casing to eliminate the loss of fine particles and provide accelerated effective separation into two fractions by means of a rib conveyor and a classification grid mounted on elastic supports and equipped with a vibrator, the intake of a fine mineral fraction separated from the coarse fraction, separated as a sublattice in the classification unit, into a drive coupled to the casing and installed under the classification grid, and a fine fraction pneumatic conveying system, the automatic system controls the periodic feeding of the separated coarse fraction and fine fraction into a soft container through the hopper compartments, while feeding a large fraction, the shutter of the fine fraction sedimentation compartment closes the outlet by means of a hydraulic cylinder, and the shutter of the coarse fraction compartment is positioned by the hydraulic cylinder in the open state after installing a soft container by means of an automatic packaging device equipped with a rotary mechanism that can be moved to vertical plane and horizontal plane, while after filling the soft container with a large fraction, control automatic system, the shutter of the coarse compartment compartment closes the outlet and the automatic packaging device seals the soft container with the coarse fraction, disconnects it from the nozzle and sends a signal to the drive of rotation of the platform rollers to direct the soft container with the coarse fraction along the overpass under the action of gravity to the surface face, while the fine fraction after filling the drive through the pipeline through the pneumatic conveying system is fed to the deposition compartment, through the cat The fine fraction is directed through gravity to the outlet with a soft container mounted by a rotary mechanism, which periodically mates with a cassette with soft containers folded vertically in a stack and spring-loaded by means of a pneumatic system installed in the lower part of the cassette, and a new cassette is fed through the platform with rollers, the rotation of which is carried out in the opposite direction, followed by movement along the guides of the cassette case, at ohm soft containers marked with the fine fraction through nozzles mounted on a console.

The possibility of forming the required sequence of actions by the proposed means allows us to solve the problem, determines the novelty, industrial applicability and inventive step of development.

The method of open development of solid mineral deposits is shown in the drawings.

In FIG. 1 is a diagram of a field development by a mining complex; in FIG. 2 is a view A in FIG. one; in FIG. 3 is a section BB in FIG. 2.

The method of open development of solid mineral deposits is carried out by developing the reservoir 1 by the mining complex 2, which is equipped with a working body 3, a pneumatic conveying system 4 of fine fraction 5 and a classification unit 6, located in the casing 7 and consisting of a scraper conveyor 8 and a classification grid 9 installed on elastic supports 10 and equipped with a vibrator 11. The receipt of fine mineral fraction 5 separated from the coarse fraction 12 is carried out in the drive 13, paired with the casing ohm 7 and installed under the classification grid 9. The mining complex 2 is equipped with an automatic system 14, which controls the periodic supply of separated coarse fraction 12 and fine fraction 5 into soft containers 15 through compartments 16, 17 of hopper 18. When feeding coarse fraction 12, the shutter 19 of the compartment 16, the deposition of fine fraction 5 closes the outlet 21 through the hydraulic cylinder 20. The shutter 22 of the coarse fraction compartment 17 closes the outlet 24 by the hydraulic cylinder 23. Installing a soft container 15 on the nozzle 25 is carried out by means of an automatic packaging device 26, equipped with a rotary mechanism 27 with the possibility of movement in the vertical plane 28 and horizontal plane 29. The rollers 30 and the drive 31 of their rotation are mounted on a platform 32 connected to the flyover 33, directed towards the face of the face 34. Pipeline 35 pneumatic conveying system 4 is connected with the deposition compartment 16 and the fine fraction 5 gravity zone 36 with the outlet 21. The rotary mechanism 27 is periodically interfaced with the cassette 37 with a soft container 15, folded by the foot 38 in the vertical direction 39. In the lower part 40 of the cassette 41, rails 42 and a pneumatic system 43 are installed. The nozzle 44 is mounted on the console 45.

The method of open development of solid mineral deposits is as follows.

Obtaining conditioned fractions is carried out by means of a continuous extraction-classification process with the mining of a mineral layer 1 by layer-by-strip method, by supplying the rock mass from the working body 3 of the mining complex 2 directly to the classification aggregate 6 located in the casing 7 to exclude losses of fine particles and ensure an accelerated effective separation into two fractions by means of a scraper conveyor 8 and a classification grid 9 mounted on elastic supports 10 and equipped with vibrato ohm 11. The fine mineral fraction 5 isolated in the classification unit as a sublattice product enters the accumulator 13, coupled to the casing 7 and installed under the classification grid 9. By means of the automatic system 14, the periodic feeding of the separated large fraction 12 and small fraction 5 into soft containers is controlled 15 through the compartments 16, 17 of the hopper 18. When a large fraction 12 is fed, the shutter 19 of the fine fraction 5 deposition section 16 closes the outlet 21 by means of the hydraulic cylinder 20, and the shutter 22 coarse cake 17 is positioned by the hydraulic cylinder 23 in the open state after installing the soft container 15 by means of an automatic packaging device 26 provided with a rotary mechanism 27 with the possibility of movement in the vertical plane 28 and horizontal plane 29. After filling the soft container 15 with a large fraction 12, controlled automatic system 14, the shutter 22 of the compartment 17 for coarse fraction 12 closes the outlet 24 and the automatic packaging device 26 seals m a soft container 15 with a coarse fraction 12, disconnects it from the nozzle 25 and sends a signal to the drive 31 of rotation of the rollers 30 of the platform 32 to direct the soft container 15 with a coarse fraction 12 along the overpass 33 under the action of gravity to the surface of the face 34. Fine fraction 5 after filling drive 13 through a pipeline 35 through a pneumatic conveying system 4 is fed to the deposition compartment 16, through the zone 36 of which, by gravity, the fine fraction 5 is directed to the outlet 21 with a soft container 15 mounted rotary fur anism 27, which periodically mates with the cassette 37 with soft containers 15 folded by the stack 38 in the vertical direction 39 and spring-loaded by the pneumatic system 43 installed in the lower part 40 of the cassette 41. The new cassette 37 is fed through the platform 32 with rollers 30, the rotation of which is carried out in the opposite direction, followed by movement along the guides 42 of the cassette 41 housing. Soft containers 15 with a fine fraction 5 are marked by means of a nozzle 44 mounted on the console 45.

The method can be used in the open development of small coal deposits, leading the supply of fuel to remote northern consumers, while ensuring environmental safety and technological efficiency by reducing the quantitative and qualitative losses of minerals in the process of mining and transportation.

Information sources

1. Zakharov V.E., Prokhorov D.V., Gavrilov V.L. Losses of energy value of raw coal during delivery to the Arctic consumers of the Republic of Sakha (Yakutia) // News of higher educational institutions. Energy issues. 2013. No. 5-6. S. 13-22.

2. RF patent No. 2083839, IPC E21C 47/00. Resource-saving mountain complex.

3. RF patent No. 2078928, IPC E21C 41/26. The method of open development of coal deposits.

4. RF patent No. 2596157, IPC E21C 47/00, E21C 41/26. The method of open development of solid mineral deposits.

Claims (1)

The method of open development of solid mineral deposits, including the production of conditioned fractions through a continuous extraction-classification process with the mining of a layer-by-strip method of the mineral layer, feeding the rock mass from the working body of the mining complex directly into the classification unit located in the casing to exclude losses of fine particles and ensuring accelerated effective separation into two fractions by means of a scraper conveyor and classification solution fabric mounted on elastic supports and equipped with a vibrator, the receipt of the fine mineral fraction separated from the coarse fraction, separated as a sublattice in the classification unit, into a drive coupled to the casing and installed under the classification grid, and a fine fraction pneumatic conveying system, characterized in that by means of an automatic system, the periodic feeding of the separated large fraction and small fraction into soft containers through the bunker compartments is controlled In this case, when a large fraction is supplied, the shutter of the fine fraction sedimentation compartment closes the outlet by means of a hydraulic cylinder, and the shutter of the coarse fraction compartment is positioned by the hydraulic cylinder in the open state after installing a soft container by means of an automatic packaging device equipped with a rotary mechanism with the possibility of movement in the vertical plane and horizontal plane Moreover, after filling a soft container with a large fraction, controlled by an automatic system the shutter of the coarse compartment compartment closes the outlet and the automatic packaging device seals the soft container with the coarse fraction, disconnects it from the nozzle and sends a signal to the drive of rotation of the platform rollers to direct the soft container with the coarse fraction along the overpass under the action of gravity to the bottom surface, in this case, the fine fraction after filling the drive through the pipeline through the pneumatic conveying system is fed to the deposition compartment, through the zone of which by means of gravel The small fraction is directed to the outlet with a soft container mounted by a rotary mechanism, which periodically mates with a cassette with soft containers folded vertically in a stack and spring-loaded by means of a pneumatic system installed in the lower part of the cassette, and a new cassette is fed through the platform with rollers rotation of which is carried out in the opposite direction, followed by movement along the guides of the cassette case, while soft containers with m Christmas tree fractions are marked by means of nozzles mounted on the console.

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