RU2763561C1 - Method for reclamation of the waste dump - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: proposed method relates to mining, in particular to the development of deposits by the open method and the restoration of areas disturbed by open mining operations, and can be used in the extraction of minerals and reclamation of waste dumps. A method for reclamation of a waste dump, including laying waste in a dump, covering it with a fertile soil layer and sowing grasses, and placing waste in a dump is performed in an L-shaped form at a quarry, cover the dump with an advancing front from the periphery with a fertile layer of soil from two warehouses for permanent storage of the fertile layer Soils: L-shaped on the pit side safety berm, removed within the boundaries of the waste dump, and rectangular, removed within the boundaries of the pit. The formation of permanent storage warehouses is carried out in the following sequence: strips of removal of the fertile soil layer (FSL) are separated by a bulldozer to concentrate it in piles, followed by shipment by an excavator onto a conveyor to move the FSL to the permanent storage site and laying with a spreader in strips on the territory of the FSL warehouse until application to the waste dump. At the final stage of mining technical reclamation after the end of mining operations, the FSL is loaded from the warehouses with EKG-5A excavators through a self-propelled bunker onto a conveyor and dumped using a spreader, and then the soil layer applied to the surface of the dump is leveled with a bulldozer.

EFFECT: increasing the ecological efficiency of the dumped waste dump covered with a fertile soil layer.

1 cl, 1 dwg

Description

Technical field

The proposed method relates to mining, in particular to the development of deposits by an open method and the restoration of areas disturbed by open mining, and can be used in the extraction of minerals and the reclamation of rock heaps.

State of the art

There is a method of open-cast coal mining (patent RU 2186474, IPC A01B 75/02, Published: 08/10/2002, Bull. No. 22), including the removal of the upper soil layer and its preservation or transfer to areas to be restored; loosening, loading and transportation of overburden with the formation of waste dumps; breaking, loading and transportation of coal to the warehouse; recultivation of dumps, moreover, weathered coal from seams close to the day surface is mined and stored separately, rock dumps are leveled, a layer of soil and weathered coal is applied to the leveled surface, the resulting layer is loosened with undercutting of overburden and rolled.

The disadvantage of this method is the low environmental efficiency of the dumped rock heap covered with a fertile layer of soil.

The closest method of reclamation of rock dumps is known (patent RU 2684235, IPC A01B 79/02, Published: 04/04/2019, Bull. No. 10), including laying waste in a dump, covering them with a layer of soil and sowing grasses, characterized in that for reducing the cost of recultivation and creating a potentially fertile layer, the soil layer is formed by introducing into the bare soil a substrate prepared from a mixture of sludge from urban sewage treatment plants, sludge from the bottom of the water cooling pond of the alumina production heat and power plant and overburden sand mining in a ratio by weight of 0.5 :0.5:1, substrate layer thickness 15-20 cm.

The disadvantage of the closest method is the low environmental efficiency of the dumped rock heap covered with a fertile soil layer.

Disclosure of invention

The technical result is to increase the environmental efficiency of the dumped rock heap covered with a fertile soil layer.

The present technical result is achieved in a method for reclamation of a waste dump, including laying waste in a dump, covering it with a fertile layer of soil and sowing grasses, and laying waste in a dump is L-shaped at a quarry working, covering the dump with an advancing front from the periphery with a fertile soil layer of two warehouses for permanent storage of the fertile soil layer: L-shaped on the safety berm of the side of the quarry, removed within the boundaries of the rock dump and rectangular in shape, removed within the boundaries of the quarry, the formation of permanent storage warehouses is performed in the following sequence: lanes for removing the fertile soil layer (PSP) are distinguished by a bulldozer for its concentration in piles, with subsequent shipment by an excavator to a conveyor for moving the PSP to a place of permanent storage and laying by a spreader in strips on the territory of the PSP warehouse until it is deposited on the rock dump, at the final stage of mining reclamation after the completion of the mining operations of the PSP and From warehouses, they are loaded by EKG-5A excavators through a self-propelled bunker onto a conveyor and dumped using a spreader, and then the soil layer applied to the surface of the dump is leveled by a bulldozer.

The distinguishing features are:

waste is laid in a dump in an L-shaped form at the quarry, the dump is covered with an advancing front from the periphery with a fertile layer of soil from two warehouses for permanent storage of the fertile soil layer: L-shaped on the safety berm of the side of the quarry, removed within the boundaries of the rock dump, and rectangular , taken within the boundaries of the quarry, such a geometric shape of the rock dump and the sequence of actions allows the use of electrically driven mechanisms in the form of conveyors and a spreader with high environmental efficiency in the main processes of coating the PSP;

the formation of permanent storage warehouses is carried out in the following sequence: strips are selected for removing the fertile soil layer (PSP) by a bulldozer to concentrate it in piles, followed by shipment by an excavator onto a conveyor to move the PSP to a place of permanent storage and stacking with a spreader in strips on the territory of the PSP warehouse until the moment of application on the rock heap, this gives environmental efficiency due to the straight-line shapes of the strips and warehouses of the PSP, which allow the use of conveyor transport in the optimal mode for removing and storing the fertile soil layer, which has the lowest environmental impact;

at the final stage of mining and technical reclamation after the completion of mining operations, PSP is unloaded from warehouses by EKG-5A excavators through a self-propelled bunker onto a conveyor and dumped using a spreader, and then the soil layer applied to the surface of the dump is leveled by a bulldozer, such a sequence of processes leads to an increase in the environmental efficiency of the dumped rock dump covered with a fertile layer of soil.

Comparison of the proposed solution with analogue and prototype did not reveal in them the features that distinguish the proposed solution, which allows us to conclude that the criterion of "novelty" is met.

Brief description of the figure

The drawing shows a schematic view of the rock heap covered with a fertile soil layer, including: 1, 3, 4, 6, 8 - selected bands for removing the fertile soil layer (PSP) (for example, in the contour of a quarry, similarly performed under a rock dump); 2, 5, 7 - strips with concentrated PSP in piles, with subsequent shipment by excavator onto a conveyor for moving PSP to a permanent storage site; 9, 10, 11 - lanes for laying PSP on the territory of the warehouse for its permanent storage until it is applied to the rock dump; 12 - rock dump; 13 - laying the PSP with a spreader on the surface of the rock dump; 14 - warehouse for permanent storage of PSP, taken within the boundaries of the rock dump; 15 - solid line characterizing the direction of conveyor flows to cover the dump with a fertile soil layer; 16 - removal of the PSP by a bulldozer into the collars; 17 - the contour of the earth's surface of the mined-out space of a quarry; 18 - warehouse for permanent storage of PSP, taken within the boundaries of the quarry; 19 - dotted line characterizing the direction of conveyor flows when removing the PSP from the boundaries of the quarry and moving it to a permanent storage warehouse.

Implementation of the invention

The rock dump 12 is L-shaped and formed at the contour of the earth's surface of the worked-out space of the quarry 17, which allows the use of electrically driven mechanisms in the form of an excavator, conveyors and a spreader with high environmental efficiency in the main processes of coating the PSP. PSP warehouses are pre-cleaned and formed in the following sequence. In the contour of the quarry, strips for the removal of PSP 1, 3, 4, 6, 8 and its concentration by a bulldozer in strips 2, 5, 7 are distinguished, followed by shipment by an EKG-5A excavator to conveyor 19 to move the PSP to a place of permanent storage in warehouse 18. Similarly, they perform in the contour of the rock dump 12 strips of removal, concentration and shipment, movement, storage of the PSP in the warehouse 14 on the safety berm of the side of the pit, since the load from the warehouse 14, which has a height of 3 m, will not affect the stability of the side of the pit in the calculations and will be located in the area errors in calculations, amounting to 10% for mining tasks. At the final stage of mining and technical reclamation after mining, the PSP from warehouses 14 and 18 is shipped by EKG-5A excavators through a self-propelled hopper to the conveyor 19, along which the shipped soil layer is moved to the rock dump 12. from its periphery are shown by solid arrows in the drawing. On the dump, 12 PSPs are dumped using a spreader, and then the soil layer applied to the surface of the dump is leveled by a bulldozer.

Thus, the formation of a rock dump near a quarry, covered with a fertile layer of soil, with rectilinear geometric shapes, makes it possible to use electrically driven mechanisms in the form of an excavator, conveyors and a spreader with high environmental efficiency in the main processes of removing, storing and covering the CAP.

Sources of information

1. Patent RU 2186474, IPC A01B 75/02, Published: 08/10/2002, Bull. No. 22;

2. Patent RU 2509457, IPC A01B 75/02, Published: 03/20/2014, Bull. No. 8.

Claims (1)

A method for reclamation of a waste dump, including laying waste in a dump, covering it with a fertile soil layer and sowing grasses, characterized in that the waste is laid in a dump in an L-shaped form at a quarry working, the dump is covered with an advancing front from the periphery with a fertile layer of soil from two permanent warehouses. storage of the fertile soil layer: L-shaped on the safety berm of the side of the quarry, removed within the boundaries of the rock dump, and rectangular in shape, removed within the boundaries of the quarry, the formation of permanent storage warehouses is performed in the following sequence: lanes for removing the fertile soil layer (PSP) are distinguished by a bulldozer for its concentration in piles, with subsequent shipment by an excavator to a conveyor for moving the PSP to a place of permanent storage and laying by a spreader in strips on the territory of the PSP warehouse until it is applied to the rock dump, at the final stage of mining reclamation after the completion of mining, the PSP is shipped from the warehouses to excavators and EKG-5A through a self-propelled bunker onto a conveyor and dump it using a spreader, and then the soil layer applied to the surface of the dump is leveled by a bulldozer.

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