RU2803789C1 - Elliptical rock dump extinguished with an environmental focus - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: development of deposits by an open method and restoration of areas disturbed by open mining, used in the construction of rock dumps. An eco-friendly ellipsoidal rock dump includes the lower base of the dump body along the terrain, the outer slopes of the tiers of the rock dump, formed by reclamation along the perimeter in subtiers of 5-7 m and with slope angles in the range of 18-22°, with a slope of the sites towards the dump body, covered with a fertile layer, the upper base of the dump surface is made by mining and biological reclamation. The upper base of the dump body is made in the form of lateral surface of inverted elliptical cone , the top of which is located in the geometric center of the designed rock dump. The upper base of the dump body is divided into closed elliptical stripes for seedlings in the form of pine, birch, talin, which are executed with alternation to the side tops of inverted elliptical cone with stripes of meadow areas. Around the top of the inverted elliptical cone abandoned an elliptical platform for an artificial reservoir. Closed elliptical strips are made with the location of the short axis of the base of the elliptical cone parallel to the vector axis with the maximum value of the wind rose of the wind regime at a given location according to long-term observations in time intervals with negative temperatures. Ditches for biological reclamation in the form of planting seedlings are made along horizontal closed lines of the side surface of an inverted elliptical cone, ditches are laid with a plow towards the top of the inverted elliptical cone.

EFFECT: increased environmental efficiency of the rock dump.

1 cl, 3 dwg

Description

Field of technology

The proposed device relates to mining, in particular to open-pit mining and restoration of territories disturbed by open-pit mining, and can be used in the construction of suppressed rock dumps. A depleted rock dump is considered to be a formed dump body with completed mining operations and mining and biological reclamation.

State of the art

A known device is a suppressed rock dump (patent RU 2763561, MPK E21S 41/32, Published: 12/30/2021 Bulletin No. 1), including the lower base of the dump body according to the landscape of the area, the dump body, the upper base of the dump body, made with mining and biological reclamation .

The disadvantage of the known device is the low environmental efficiency of the dumped rock dump.

There is a known method for forming an ellipsoidal rock dump with an environmentally friendly orientation (patent RU 2787488, MPK E21S 41/32, Published: 01/09/2023 Bulletin No. 1), including making a pioneer dump embankment within the boundaries of the elliptical dump, formed bifurcated along the border of the dump from the left and right towards to each other to the full design height of the tier, with the simultaneous formation of reclamation along the perimeter of the external slope of the elliptical rock dump under tiers of 5-7 m with slope angles in the range of 18-22°, with the slope of the sites towards the body of the dump, covered with a fertile layer of soil, reception overburden rocks of the quarry, when connecting the opposing boundary dump fronts of the tier, a dump mound is made with the development of the dump work front towards the center of the designed dump body, the process is repeated when forming the next tiers of the dump upward, and the pioneer dump mound within the boundaries of the ellipsoidal dump is formed bifurcated along the border of the dump on the left and right to meet each other at the full design height of the tier, they perform a dump embankment with the development of the dumping front towards the center of the dump body with the location of the short axis of the ellipsoidal dump front parallel to the axis of the wind rose vectors with the maximum value of the wind regime in a given place according to long-term observations, as well as with with the axis of the entrance embankment of the ellipsoidal dump parallel to the axis of the wind rose vectors with the maximum value of the wind regime and in the middle of the long side of the ellipsoidal dumping front, the overburden rocks of the quarry are received in the mode of downstream dumping in the direction of the wind at the current moment, with the development of sectors of the dumping front towards the center of the ellipsoidal dump along the directions of the wind rose vectors in proportion to their length, form the precipitating and dampening turbulent component of the dust flow inside the dumped slope of the ellipsoidal dump front.

The disadvantage of this known method is the low environmental efficiency of the dumped waste dump.

The closest known device is a rock dump of an ellipsoidal shape with an environmentally friendly orientation (Technology of reclamation and development of disturbed lands in Western and Eastern Siberia / I.V. Zenkov et al. - Krasnoyarsk: Siberian Federal University, 2015. - 309 p., p. 93), including the lower base of the dump body according to the landscape of the area, the external slopes of the tiers of the rock dump, formed with reclamation along the perimeter in sub-tiers of 5-7 m and with slope angles in the range of 18-22°, with the slope of the sites towards the dump body, covered with a fertile layer, the upper base of the body dump, carried out with mining and biological reclamation.

The disadvantage of the closest device is the low environmental efficiency of the dumped waste dump.

Disclosure of the Invention

The technical result is to increase the environmental efficiency of the dumped rock dump.

This technical result is achieved in the device of an ellipsoidal rock dump extinguished with an environmentally friendly orientation, including the lower base of the dump body according to the landscape of the area, external slopes of the tiers of the rock dump, formed with reclamation along the perimeter in sub-tiers of 5-7 m and with slope angles in the range of 18-22°, with the slope of the sites towards the dump body, covered fertile layer, the upper base of the dump body is made with mining and biological reclamation, and the upper base of the dump body is made in the form of the lateral surface of an inverted ellipsoidal cone, the top of which is located in the geometric center of the designed rock dump, the upper base of the dump body is divided into closed elliptical strips for seedlings in in the form of pine, birch, talina, which are made with alternating stripes of meadow areas towards the top of the inverted ellipsoidal cone, around the top of the inverted ellipsoidal cone an ellipsoidal area is left for an artificial pond, closed ellipsoidal stripes are made with the short axis of the base of the ellipsoidal cone parallel to the axis of the vector with the maximum value wind roses of the wind regime in a given location according to long-term observations in periods of time with negative temperatures, grooves for biological reclamation in the form of planting seedlings are made along horizontal closed lines of the side surface of an inverted ellipsoidal cone, the dumps of the groove are laid with a plow towards the top of the inverted ellipsoidal cone.

Distinctive features are:

the upper base of the dump body is made in the form of the side surface of an inverted ellipsoidal cone, the top of which is located in the geometric center of the designed rock dump, this increases the environmental efficiency of the dumped spoil dump in the form of rational use of moisture by seedlings on the side surface of the inverted ellipsoidal cone and eliminates gully formation;

the upper base of the dump body is divided into closed elliptical strips for seedlings in the form of pine, birch, and talina, which are made with stripes of meadow areas alternating towards the top of the inverted ellipsoidal cone, which increases the environmental efficiency of the dumped spoil dump in the form of rational moisture consumption by each type of seedlings in the conditions of the created microclimate on the side surface of an inverted ellipsoidal cone;

around the top of the inverted ellipsoidal cone an elliptical area for an artificial reservoir is left, this increases the environmental efficiency of the dumped rock dump in the form of a microclimate with an accumulative artificial reservoir, especially for moisture-loving talina;

closed ellipsoidal stripes are made with the short axis of the base of the ellipsoidal cone parallel to the axis of the vector with the maximum value of the wind rose of the wind regime in a given place according to long-term observations in periods of time with negative temperatures, such formation of ellipsoidal stripes creates conditions for maximum snow retention in snowdrifts;

grooves for biological reclamation in the form of planting seedlings are made along horizontal closed lines of the side surface of an inverted ellipsoidal cone, the dumps of the groove are laid with a plow towards the top of the inverted ellipsoidal cone, this increases the environmental efficiency of the dumped rock dump, due to the created microclimate on the upper base of the dump body in front of each groove with moisture distribution along a closed horizontal groove.

A comparison of the proposed solution with an analogue and a prototype did not allow us to identify in them the features that distinguish the proposed solution, which allows us to conclude that it meets the “novelty” criterion.

Brief description of the drawings

In fig. Figure 1 shows a diagram of the formed ellipsoidal rock dump extinguished with an environmentally friendly focus, including: 1 - entrance embankment of the rock dump; 2 - geometric center of the designed rock dump; 3 - a platform with a slope towards the dump body with a horizontal edge of the tier, covered with a fertile layer of soil; 4 - reclaimed lower tier with a fertile soil layer; 5 - reclaimed upper layer with fertile soil layer; 6 - elliptical strip for pine seedlings; 7 - elliptical strip for meadow grasses after pine plantings; 8 - elliptical strip for birch seedlings; 9 - elliptical strip for meadow grasses after birch plantings; 10 - ellipse-shaped strip for talina seedlings; 11 - an elliptical platform for an artificial pond left around the top of an inverted elliptical cone; 25 - wind rose in a given location based on long-term observations in periods of time with negative temperatures; 27 - axis of the wind rose vector with the maximum value of the wind mode; 28 - short axis of the base of the elliptical cone.

In fig. 2 shows section A-A from Fig. 1 extinguished rock dump of an ellipsoidal shape with an environmentally friendly orientation, including: 12 - dump body; 13 - covering with fertile soil layer; 14 - upper base of the dump body, made in the form of the side surface of an inverted ellipsoidal cone; 15 - pine seedlings; 16 - meadow grasses after pine plantings; 17 - birch seedlings; 18 - meadow grasses after birch plantings; 19 - talina seedlings; 20 - artificial reservoir; 21 - lower base of the dump body according to the terrain; 22 - the top of an inverted elliptical cone.

In fig. 3 shows view B, from section A-A of Fig. 2, a fragment of a groove for planting seedlings on the upper base of the dump body and forming a snowdrift, including: 12 - dump body; 13 - covering with fertile soil layer; 14 - the upper base of the blade body is made in the shape of the side surface of an inverted ellipsoidal cone; 15 - pine seedlings; 23 - dump from a groove, laid towards the top of an inverted elliptical cone; 24 - groove for planting seedlings; 26 - a snowdrift formed according to the wind rose.

Carrying out the invention

An example of the invention. The structure of the complex mechanization of the dump site, with the simultaneous formation of reclamation of the rock layer of the dump, provides for the use of: one T-170 bulldozer and one hydraulic excavator of the “backhoe” model with a bucket with a capacity of 1.5-2.0 m ³ as the main excavation mechanism, used for loading the fertile soil layer. For the reclamation stage, two dump trucks with a carrying capacity of 18-20 tons and another T-170 bulldozer are additionally used. The height of the rock dump tier was 10 m, and the height of the reclaimed tier was 5 m, which corresponds to the equipment used in mining operations. This work is carried out with one T-170 bulldozer, which receives mining dump trucks from overburden excavators along the entrance embankment 1, and forms a suppressed dump front. With a lag of 30-50 m from the embankment of the tier, an additional T-170 bulldozer moves from this tier under the tier with reclamation platform 3 with a slope towards the dump body. The slope of the lower tier 4, the upper tier 5 and the platform 3, tier are covered with fertile soil layer 13 (PSL) or a soil mixture consisting of Quaternary overburden rocks and soil layers up to 2 m thick according to [3]. Delivery of PSP is carried out by additional two dump trucks from under the excavator of the upper overburden ledge. The simultaneous formation of reclamation along the perimeter of the extinguished external slope of the rock dump increases the environmental efficiency of the dumped rock dump, due to the urgent reduction of dust on the slopes during mining operations. When the boundary dump front reaches the final state of the boundary tier, the upper base of the extinguished body of the dump 14 is made in the form of the side surface of an inverted ellipsoidal cone. The top of the inverted ellipsoidal cone 22 is located in the geometric center 2 of the designed rock dump for rational distribution of moisture in the surface part of the dump body. The upper base 14 is divided into elliptical strips 6, 8, 10 for seedlings in the form of pine, birch, talina, which are made with alternating stripes of meadow areas 7, 9 towards the top of the inverted ellipsoidal cone; around the top of the inverted ellipsoidal cone an ellipsoidal area 11 is left for artificial water. The sequence of planting seedlings in the surface part of the dump body is determined by the necessary rational consumption of moisture by each of their species in the conditions of the created microclimate, taking into account the accumulative artificial reservoir. Grooves 24 for biological reclamation in the form of planting seedlings of pine 15, birch 17, talina 19 are made along horizontal elliptical lines of the lateral surface of an inverted elliptical cone. The moldboards 23 from the groove 24 are placed with the plow towards the top 22 of the inverted elliptical cone. Closed elliptical strips 6, 8, 10 for seedlings are made with the short axis 28 of the base of the ellipsoidal cone parallel to the axis of the vector 27 with the maximum value of the wind rose 25 of the wind regime in a given place according to long-term observations in periods of time with negative temperatures. This creates abundant snow retention in the form of snowdrifts 26.

This design creates a microclimate during snowmelt and heavy rainfall with the accumulation of moisture, excluding gully formation, and increases the environmental efficiency of the dumped extinguished rock dump by the necessary moisture consumption by seedlings according to their types.

Information sources:

1. Patent RU 2059074, IPC A01B 75/02, Published: 04/27/1996.

2. Patent RU 2787487, IPC E21S 41/32, Published: 01/09/2023 Bull. No. 1.

3. Technology of reclamation and improvement of disturbed lands in Western and Eastern Siberia / I.V. Zenkov et al. - Krasnoyarsk: SFU, 2015. - 309 p., p. 93.

Claims (1)

Ellipse-shaped rock dump extinguished with an environmentally friendly focus, including the lower base of the dump body according to the landscape of the area, external slopes of the tiers of the rock dump, formed with reclamation along the perimeter in sub-tiers of 5-7 m and with slope angles in the range of 18-22°, with the slope of the sites towards the dump body, covered fertile layer, the upper base of the dump body, made with mining and biological reclamation, characterized in that the upper base of the dump body is made in the form of the side surface of an inverted ellipsoidal cone, the top of which is located in the geometric center of the designed rock dump, the upper base of the dump body is divided into closed ellipsoidal strips for seedlings in the form of pine, birch, talina, which are made alternating towards the top of the inverted ellipsoidal cone with stripes of meadow areas, around the top of the inverted ellipsoidal cone an elliptical area is left for an artificial pond, closed ellipsoidal stripes are made with the short axis of the base of the ellipsoidal cone parallel to the axis vector with the maximum value of the wind rose of the wind regime in a given place according to long-term observations in periods of time with negative temperatures, ditches for biological reclamation in the form of planting seedlings are made along horizontal closed lines of the lateral surface of an inverted ellipsoidal cone, the dumps of the groove are laid with a plow towards the top of the inverted ellipsoidal cone .