RU2672294C1 - Method for dumping overburden rocks into outer dump with non-transport sinking of initial cut - Google Patents

Abstract

FIELD: mining.SUBSTANCE: invention relates to the mining industry and can be used in the open development of mineral deposits. Method includes the conduct of overburden works by longitudinal overburden through the non-transporting system with the overburden moving in the transverse direction to the upper edge of the non-working pit side and laying the overburden rocks with inclined layers into the outer dump, overburden rocks are dumped into longitudinal dumps with the upper working sites along the outer and inner longitudinal borders of the outer heap and the upper longitudinal edges of each dump layer, except for the top, forming continuous slopes of the outer and inner sides of the outer blade.EFFECT: increased productivity.1 cl, 8 dwg

Description

The claimed invention relates to the mining industry and can be used in open pit mining of mineral deposits by transport system in difficult mining and geological conditions.

The claimed invention relates to priority areas for the development of science and technology "Technologies for the environmentally sound development of deposits and mining," because it solves one of the problems associated with the mechanization and environmental safety of open cast mining [Alphabetical Subject Index to the International Patent Classification by Priority Development Trends science and technology / Yu.G. Smirnov, E.V. Skidanova, S.A. Krasnov. - M.: PATENT, 2008 .-- p. 110].

The problem of increasing the efficiency of the method of dumping overburden into an external dump during transportless driving of a cutting trench is as follows.

There is a method of driving a split trench with perekaskavanie overburden rocks draglines [Rzhevsky V.V. Open cast mining. Part 2. Technology and complex mechanization. M .: Subsoil. 1985, p. 217, fig. 6.13]. The trench is cut by longitudinal overburden approaches with over-excavation and storage of overburden rocks in an external dump placed on the upper platform of the open side of the quarry in tiers. Overburden rocks are poured into the outer dump with draglines along the front, which are formed along the upper edge of the open side of the quarry. At the same time, the approaches are worked out in the direction from the working side of the quarry to the non-working one.

Common features of the known method of driving a split trench with perekaskavanie overburden rocks draglines with the claimed invention are:

- sinking of a cutting trench with longitudinal overburden approaches;

- storage of overburden rocks in an external dump in tiers, placed on the upper platform of the open side of the quarry;

- the formation of an external dump on the front of work.

The disadvantages of the known method of driving a split trench with perekaskavatsii overburden rocks draglines are:

- significant volumes of re-escavation when moving overburden rocks;

- low productivity due to the significant distance of movement of rocks;

- low environmental friendliness due to the large area of disturbed land under an external dump;

significant costs for moving overburden and restoration of disturbed lands.

A known method of transportless driving a cutting trench (RU No. 2520234, IPC E21C 41/26, published on 06/20/2014), including conducting overburden operations with longitudinal overburden inserts, moving overburden from the bottom of the overburden overburden in the transverse direction to the longitudinal overburden overburden, laying overburden rocks to an external dump along the front of the dump with external and internal sides, located on the upper platform of the open side of the quarry.

Common features of the known method with the claimed invention are: conducting overburden operations with longitudinal overburden approaches, moving overburden from the bottom of the longitudinal overburden in the transverse direction to the longitudinal overburden, laying overburden rocks in an external dump located on the upper platform of the open pit of the quarry, dumping overburden rocks inclined layers with external and internal sides with the formation of dump tiers. The disadvantages of this method are:

- low productivity due to the significant distance of movement of rocks;

- low environmental friendliness due to the large area of disturbed land under an external dump;

- Significant costs for the movement of overburden and restoration of disturbed lands.

The prototype adopted the method of transportless tunneling trench cutting (RU No. 2602246, IPC Е21С 41/26, published 10.11.2016), including overburden operations with longitudinal overburden penetrations, overburden rock movement in the transverse direction to the longitudinal overburden overburden, overburden overburden dumping to an external dump with external and internal sides, placed on the upper platform of the open side of the quarry, storage of overburden rocks in dump embankments with upper working platforms during the formation of a slope of overburden of the inner side externally of satiety.

Common features of the prototype with the claimed invention are: conducting overburden operations with longitudinal overburden approaches, moving overburden from the bottom of the longitudinal overburden in the transverse direction to the longitudinal overburden, dumping the overburden into an external dump placed on the upper platform of the open side of the quarry, storing overburden rocks layers with the outer and inner sides with the formation of a slope of the overburden of the inner side of the outer dump.

The disadvantages of this method are:

- low productivity due to the significant distance of movement of rocks;

- low environmental friendliness due to the large area of disturbed land under an external dump;

- significant costs for the movement of overburden and restoration of disturbed lands.

The task of the invention is to increase the efficiency and environmental friendliness of dumping overburden in an external dump during transportless driving a split trench.

The technical result of the claimed invention in increasing productivity.

The technical result of the claimed invention is achieved by the fact that the method of dumping overburden into an external dump during transportless excavation of a split trench includes conducting overburden operations by longitudinal overburden approaches, moving overburden rocks in the transverse direction to the longitudinal overburden approach and storing overburden rocks in inclined layers into an external dump with an external and inner sides, placed on the upper platform of the open side of the quarry, with the formation of a longitudinal dump embankment from the upper working area According to the invention, the lower longitudinal dump embankment with the upper working platform is placed on the upper platform of the open quarry side of the quarry in the middle of the distance between the lower boundaries of the outer and inner sides of the outer dump of the open side of the quarry, with each subsequent a longitudinal dump embankment with an upper working platform is formed on the upper working platform of the previous dump stage in the middle of its width, comb overburden rocks are poured into the lower longitudinal dump approaches with upper working platforms, placed along the outer and inner borders of the outer and inner sides of the outer dump of the open pit, with laying overburden on the outer and inner slopes of the lower longitudinal dump embankment with the upper working platform and sections of the upper platforms the outer and inner sides of the outer dump of the open side of the quarry along their width equal to the distances between the upper edges of the outer and inner slopes of the lower dump embankments with the upper working platform, and the external and internal borders of the external dump of the open pit of the open pit, respectively, in addition, subsequent longitudinal dump approaches with upper working platforms, placed along the upper edges of the previous dump level of the external and internal sides of the external dump of the open pit the quarry is formed by storing overburden rocks on the external and internal slopes of the subsequent longitudinal dump embankment with the upper working platform and sections of the upper workers sites of the previous dump level of the outer and inner sides of the outer dump of the open pit along the width equal to the distances between the upper edges of the outer and inner slopes of the subsequent embankment with the upper working platform and the upper edges of the previous dump level with the upper working platforms of the outer and inner sides of the outer dump of the non-working the sides of the quarry, respectively, and overburden rocks are stored on the upper platform of the non-working side of the quarry in an external dump along the width of its base, determined by the following mathematical formula [1]:

where a is the width of the base of the outer dump of the inoperative side of the quarry, m;

in - the width of the upper working platform of the last dump stage of the outer dump of the open side of the quarry, m;

S is the cross-sectional area of the open pit trench, m ² ;

To _p is the coefficient of loosening of overburden in the external dump of the open side of the quarry, unit;

α is the slope angle of the overburden of the overburden of the outer dump of the open pit of the quarry, deg.

The lower longitudinal dump embankment with the upper working platform on the upper platform of the open side of the quarry is placed in the middle of the base of the external dump, while each subsequent longitudinal dump embankment with the upper working platform is formed on the upper working platform of the previous dump level in the middle of the width of the previous dump level of the outer and inner sides of the outer dump of an inoperative side of a quarry. The listed signs create the conditions for the installation of overburden equipment on these embankments for dumping overburden rocks during the formation of the external and internal sides of the external dump without additional areas. This reduces the width of the external dump, the area of disturbed land and the distance of movement of the overburden, which is aimed at achieving a technical result.

The overburden rocks are poured into the lower longitudinal dump approaches with the upper working platforms, placed along the external and internal borders of the external and internal sides of the external dump of the open pit with laying overburden on the external and internal slopes of the lower longitudinal dump embankment, and sections of the upper platforms of the external and internal sides the external dump of the open side of the quarry along their width equal to the distances between the upper edges of the external and internal slopes of the lower dump embankment from the upper working area infernal, and the outer and inner borders of the outer and inner sides of the outer dump of the open side of the quarry.

The subsequent longitudinal dump approaches with upper working platforms, placed along the upper edge of the previous dump level of the external and internal sides of the external dump of the open pit, are formed by storing overburden rocks on the external and internal slopes of the subsequent longitudinal dump embankment with the upper working platform and sections of the upper working platforms of the previous the dump tier of the outer and inner sides of the outer dump of the open side of the quarry along their width equal to the distances between the upper brow in the external and internal slopes of the subsequent dump embankment with the upper working platform and the upper edges of the previous dump level with the upper working platforms of the external and internal sides of the external dump of the open pit, respectively.

The stated characteristics, technology and procedure for dumping overburden rocks of the external dump create conditions for forming the slope angles of the outer and inner sides of the outer dump by storing overburden in tiers when they are placed in at least two longitudinal dumping holes and one dump embankment in one tier. This is aimed at reducing the area of disturbed land, the distance of transportation of overburden and, as a result, to achieve a technical result.

The width of the base of the outer dump of the non-working side of the quarry is determined by the mathematical formula [1].

The mathematical formula makes it possible to determine the width of the base of the external dump, the size of which allows you to form the upper working platform of the external dump of the smallest size, which includes at least two upper working platforms of the longitudinal dumping embeds and one upper working platform of the longitudinal dump embankment at the given slope angles of the sides of the external dump. This reduces the area of disturbed land, the distance of transportation of overburden and is aimed at achieving a technical result.

The described procedure for the formation of the external dump presents the opportunity to store overburden rocks during the detuning of the outer side of the external dump without ledges, as provided for by the prototype, that is, overburden rocks are dumped with the formation of a continuous slope. As a result, the angle of inclination of the outer side of the outer dump of the open pit of the open pit with a constant width of the upper working platform of the outer dump increases, reducing the width of the base of the outer dump and the area of disturbed land. At the same time, the center of mass of unloading of overburden rocks in the cross section of the external dump is shifted towards the idle side of the quarry, reducing the distance of movement of overburden from the cut trench to the external dump. As a result, productivity increases, which is aimed at achieving a technical result.

The method is carried out using an excavation and transportation complex according to the patent of the Russian Federation for the invention No. 2456454, class. Е21С 42/00, E02F 3/54, published July 20, 2012, Bull. No. 20.

The difference from the prototype proves the conformity of the proposed method to the condition of patentability "novelty". It is not known from the prior art to dump overburden into an external dump during transportless tunneling of a cutting trench by placing the lower longitudinal embankment with the upper working platform on the upper platform of the open side of the quarry in the middle of the distance between the external and internal boundaries of the external dump during the formation of each subsequent dump embankment on the upper working platform of the previous one dumping tier in the middle of its width. Moreover, the overburden rocks are poured into the lower longitudinal dump approaches with the upper working platform, placed along the external and internal borders of the external and internal sides of the external dump of the open pit, with laying overburden on the external and internal slopes of the lower longitudinal dump embankment with the upper working platform and sections of the upper areas of the outer and inner sides of the outer dump of the open pit along their width equal to the distances between the upper edges of the outer and inner slopes of the lower dump the embankment with the upper working platform, and the outer and inner borders of the outer and inner sides of the outer dump of the open side of the quarry, respectively. In addition, subsequent longitudinal dump approaches with upper working platforms, placed along the upper edges of the lower dump level of the external and internal sides of the external dump of the open side of the quarry, form by storing overburden rocks on the external and internal slopes of the subsequent longitudinal dump embankment with the upper working platform and sections of the upper working sites of the previous dump stage of the outer and inner sides of the outer dump of the open side of the quarry along their width equal to the distances between the upper the external and internal slopes of the subsequent dump embankment with the upper working platform and the upper edges of the previous dump level with the upper working platforms of the external and internal sides of the external dump of the open pit, respectively, and the width of the base of the external dump of the open side of the pit is determined by the mathematical formula [1].

The content of the above features proves compliance with the condition of patentability "inventive step".

The invention is illustrated by the drawings, which are shown in FIG. 1, 3, 3, 4, 5, 6, 7, 8.

FIG. 1 - storage of overburden rocks in the lower longitudinal dump embankment with the upper working platform, placed in the middle of the width of the base of the outer dump of the open side of the quarry (transverse section).

FIG. 2 - storage of overburden rocks in the lower longitudinal dump embankment with the upper working platform, placed in the middle of the width of the base of the outer dump of the open side of the quarry (plan).

FIG. 3 - storage of overburden rocks in the lower longitudinal dump openings placed along the outer and inner borders of the outer and inner sides of the outer dump of the open pit side (transverse section).

FIG. 4 - storage of overburden rocks in the subsequent longitudinal dump embankment of the subsequent (second) dump level in the middle of the width of the working platform of the lower dump level of the outer dump of the open side of the quarry (transverse section).

Figure 5 - storage of overburden rocks in subsequent longitudinal dump approaches placed along the outer and inner borders of the lower dump level of the outer and inner sides of the outer dump of the open pit side (transverse section).

FIG. 6 - storage of overburden rocks in the upper longitudinal dump embankment of the upper (third) dump level in the middle of the width of the working platform of the subsequent dump layer of the outer dump of the open pit side (transverse section).

FIG. 7 - storage of overburden rocks in the upper longitudinal dump openings placed along the upper edges of the subsequent (second) dump level of the outer and inner sides of the outer dump of the open side of the quarry (transverse section).

FIG. 8 - storage of overburden rocks in the upper longitudinal dump openings placed along the upper edges of the subsequent dump layer of the outer and inner sides of the outer dump of the open pit side (plan).

In FIG. 1, 3, 4, 5, 6, 7 - the letters a, b, c, d show the contour of the cross section of the cut trench.

In FIG. 1, 3, 4, 5, 6, 7 - within the contour of the cross section of the trench a, b, c, d, the solid and dashed lines show the contours of the cross section of the worked overburden approaches.

In FIG. 8 - arrows indicate the direction of filling of overburden rocks in layers. In FIG. 1, 7 - shows the contour of the outer dump of the open side of the quarry. In FIG. - 3, 4, 5, 6, 7 the contour of the external dump of the open side of the quarry is partially presented or not shown.

The positions of the method of dumping overburden into an external dump during transportless driving of a cutting trench are indicated by the following numbers and letters:

1 - overhead running fixed platform with a mast;

2 - intermediate running fixed platform with a mast;

3 - dump running fixed platform with a mast;

4 - rope suspension system;

5 - a double-sided bucket with a V-shaped bottom;

6 - split trench;

7 - lower longitudinal dump embankment with the upper working platform of the outer dump of the open side of the quarry;

kl - the upper working platform of the lower longitudinal dump embankment of the external dump of the open side of the quarry;

and-to - the external slope of the lower longitudinal dump embankment with the upper working platform of the external dump of the open side of the quarry;

l-m - the internal slope of the lower longitudinal dump embankment with the upper working platform of the external dump of the open side of the quarry;

to - the upper edge of the external slope of the lower longitudinal dump embankment with the upper working platform of the external dump of the open side of the quarry;

l - upper edge of the internal slope of the lower longitudinal dump embankment with the upper working platform of the external dump of the open side of the quarry;

d-i - the section of the upper platform of the open side of the quarry, placed along the outer border of the outer side of the outer blade of the open side of the quarry;

M-z - the site of the upper platform of the open side of the quarry, placed along the inner border of the inner side of the outer blade of the open side of the quarry;

8 - non-working side of the quarry;

9 - working board quarry;

a-b-c-d - the transverse profile of the split trench;

g - the upper edge of the working side of the cutting trench quarry;

д-е - ж-з - transverse profile of the external dump of the open side of the quarry;

d - the outer border of the outer side of the outer blade of the open side of the quarry;

h - the inner border of the inner side of the outer dump of the open side of the quarry;

10, 11, 12, 13, 14, 15 - the first, second, third, fourth, fifth and sixth longitudinal overburden approaches successively worked out in the direction from the open side of the quarry to the working board, respectively;

16 - lower longitudinal dump entry located along the outer border of the outer side of the open side of the quarry;

17 - lower longitudinal dump entry, located along the inner border of the inner side of the outer dump of the open side of the quarry;

d-n-o-s - lower dump level of the outer side of the outer dump of the open side of the quarry;

n - the upper edge of the lower dump layer of the outer side of the outer dump of the open side of the quarry;

about - the upper edge of the lower dump level of the inner side of the outer dump of the open side of the quarry;

18 - subsequent longitudinal dump embankment with the upper working platform of the outer dump of the open side of the quarry;

rs - the upper working platform of the subsequent longitudinal dump embankment of the outer dump of the open side of the quarry;

P-r - external slope of the subsequent longitudinal dump embankment with the upper working platform of the external dump of the open side of the quarry;

with-t - the internal slope of the subsequent longitudinal dump embankment with the upper working platform of the outer dump of the open side of the quarry;

p - the upper edge of the external slope of the subsequent longitudinal dump embankment with the upper working platform of the external dump of the open side of the quarry;

c - the upper edge of the internal slope of the subsequent longitudinal dump embankment with the upper working platform of the external dump of the open side of the quarry;

n-p is the section of the upper working platform of the lower dump level of the outer dump of the open side of the quarry, placed along the outer edge of the lower dump level of the outer side of the external side of the outer dump of the open side of the quarry;

t-o - the section of the upper working platform of the lower dump level of the outer dump of the open side of the quarry, placed along the upper edge of the lower dump level of the inner side of the external side of the outer dump of the open side of the quarry;

n-f-u-o - the subsequent dump stage of the outer side of the outer dump of the open side of the quarry;

19 is a subsequent longitudinal dump approach, located along the upper edge of the lower dump level of the outer side of the outer dump of the open side of the quarry;

20 is a subsequent longitudinal dump approach located along the upper edge of the lower dump level of the inner side of the outer dump of the open side of the quarry;

21 - the upper longitudinal dump embankment with the upper working platform of the outer dump of the open side of the quarry;

eu - the upper working platform of the upper dump embankment of the external dump of the open side of the quarry;

x-e - external slope of the upper longitudinal dump embankment with the upper working platform of the external dump of the open pit of the quarry;

si — internal slope of the upper longitudinal dump embankment with the upper working platform of the external dump of the open pit of the quarry;

e - the upper edge of the external slope of the upper longitudinal dump embankment with the upper working platform of the external dump of the open side of the quarry;

y - the upper edge of the internal slope of the subsequent longitudinal dump embankment with the upper working platform of the external dump of the open side of the quarry;

f-x - a section of the upper working platform of the subsequent dump stage of the outer dump of the open pit of the open pit, placed along the upper edge of the lower dump level of the external dump of the outer side of the external dump of the open pit of the open pit;

I-y - a section of the upper working platform of the subsequent dump stage of the outer dump of the open pit of the open pit, placed along the upper edge of the lower dump tier of the inner side of the external side of the external dump of the open pit of the open pit;

f - the upper edge of the subsequent heap tier of the outer side of the outer dump of the non-working side of the quarry;

y - the upper edge of the subsequent dump stage of the inner side of the outer dump of the open side of the quarry;

f-e-zh-u - upper dump layer of the outer side of the outer dump of the open side of the quarry;

22 - upper longitudinal dump entry, located along the upper edge of the subsequent dump layer of the outer side of the outer dump of the open side of the quarry;

f-x - a section of the upper working platform of the subsequent dump stage of the outer side of the outer dump of the open side of the quarry;

23 - the upper longitudinal dumping entry located along the upper edge of the subsequent dumping tier of the inner side of the outer dump of the open side of the quarry;

Iu - a section of the upper working platform of the subsequent dumping tier of the inner side of the outer dump of the open side of the quarry;

The method of dumping overburden into an external dump during transportless driving of a cutting trench is as follows.

The starting position before starting work on dumping overburden into an external dump during transportless excavation of a trench is the entrance and exit trenches passed on the flanks of the field (not shown in the drawing). These developments are carried out using known methods, for example, using road transport. Sectional trench 6 passes between two workings - the entrance and exit trenches.

In accordance with the parameters of the cutting trench 6 and the inventive method of dumping overburden into the external dump during the transport-free driving of the cutting trench, the transverse profile of the external dump e, f, g, 3 is constructed (Fig. 1) and the width of the base of the external dump is determined by the mathematical formula [1] .

The width of the upper working platform “c” is taken equal to the total width of the two upper working platforms of the dumping embankment, and the width of the upper working platform of the dump embankment. The height of the outer blade is calculated. The height of the dump stage is assumed to be equal, based on the height of the intermediate and dump masts of the running fixed platforms 2, 3 of the excavation-transporting complex.

The lower longitudinal dump embankment 7 with the upper working platform k, l of the external dump d, f, g, 3 of the open side of the open pit 8 is placed on the upper platform of the open side of the open pit 8 in the middle of the distance between the lower boundaries of the external d and internal sides of the external dump d , f, f, 3 of the non-working side of the open pit 8 (Fig. 1). The volume of dump rocks in the lower longitudinal embankment 7 with the upper working platform is taken equal to the volume of overburden of the first longitudinal overburden entry 10 of the split trench 6.

The lower longitudinal dumping insert 16 with the upper working platform nk, placed along the outer border d of the outer side d e, the outer blade d, f, f, 3 of the non-working side of the open pit 8 (Fig. 1, 2), is formed by laying overburden to the external slope and to the lower longitudinal dump embankment 7 with the upper working platform of the open side of the quarry and the section of the d and upper platform of the external side of the external dump of the open side of the quarry along its width equal to the distance between the upper edge to the external slope and to the lower dump embankment 7 with top p the working platform and the outer border d of the outer side d of the outer blade d, f, f, 3 of the idle side of quarry 8 (Figs. 1, 3).

The lower longitudinal dumping insert 17 with the upper working platform l-o, placed along the inner border of the inner side h of the outer blade d, f, f, 3 of the open side of the open pit 8, is formed by laying overburden on the inner slope of the lower longitudinal dump embankment 7 with the upper working platform of the outer blade of the open pit of the open pit 7 and the section m of the upper platform of the inner side of the external dump of the open pit of the pit along its width equal to the distance between the upper edge of the internal slope of the ml of the lower o an embankment 7 with an upper working platform of grade l and an inner border h of the inner side of the w-h of the outer blade d, f, f, 3 of an idle side of quarry 8 (Figs. 1, 3).

The total volume of dump rocks of the lower longitudinal dumps 16 and 17 with the upper working platforms n-k and l-o, respectively, of the external dump e, f, g, 3 of the non-working side of the open pit 8 is taken to be equal to the volume of overburden rocks of the second longitudinal overburden of the 11 cutting trench 6 (Figs. 1, 3).

The subsequent longitudinal dump embankment 18 with the upper working platform rs is poured on the upper working platform n-o of the lower dump tier d, n, o, s in the middle of its width (Fig. 4). The volume of dump rocks of the upper longitudinal dump embankment 18 with the upper working platform rc is taken equal to the volume of overburden of the third longitudinal overburden entry 12 (Fig. 6).

The subsequent longitudinal dumping approach 19 with the upper working platform i-p, placed along the upper edge n of the lower dump level d-n-o-z of the outer side d-e of the outer blade d, f, g, h of the open side of the open pit 8, is formed by storing overburden rocks on the external slope of the subsequent longitudinal dump embankment 17 with the upper working platform of the river and the section of the upper working platform, e.g. the lower dump level of the outer side of the outer side d, e, g , 3 idle sides of the quarry 8 along its width equal to the distance between the upper edge of the p slope of the next subsequent dump embankment 17 with the upper working platform rs and the upper edge of the lower dump level n with the upper working platform n-o of the outer side d-e of the outer blade d, e, f, h of the open side of the quarry 8 (Fig . 5)

The subsequent longitudinal dump 20 with the upper working platform c-t, placed along the upper edge about the lower dump tier d-n-o-s of the inner side w-w of the outer blade d, f, f, h of the open side of pit 8, is formed by storing overburden rocks on the internal slope of the subsequent longitudinal dump embankment 17 with the upper working platform rs and the section of the upper working platform t-about the lower dump tier d-n-o-z of the inner side w-h of the outer dump d, f, f , from the idle side of quarry 8 along its width equal to the distance between the upper br an internal slope ramp followed by a dump embankment 17 with an upper working platform rs and an upper brow about the lower dump tier d-n-o-s with an upper working platform n-o inner side w-h of the outer blade d, f, f, s the idle side of the quarry 8 (Fig. 5).

The total volume of waste rocks of the lower longitudinal dumping holes 19 and 20 with the upper working platforms fr and c, respectively, of the external dump e, f, f, 3 of the non-working side of the open pit 8 is taken equal to the volume of overburden rocks of the fourth longitudinal overburden of the 13 cutting trench 6 (Figs. 1, 3, 5).

The upper longitudinal dump embankment 21 with the upper working platform, e-th is dumped on the upper working platform f-y of the subsequent dump tier n, f, y, about in the middle of its width (Fig. 6).

The volume of dump rocks of the upper longitudinal dump embankment 21 with the upper working platform eu is taken equal to the volume of overburden of the fifth longitudinal overburden entry 14 (Fig. 6).

The upper longitudinal dump 22 with the upper working platform e-e, placed along the upper edge f of the subsequent dump tier n, f, y, o of the outer side d of the outer blade d, f, f, h of the open side of pit 8, is formed by storing overburden rocks on the external slope of the e-x upper longitudinal dump embankment 21 with the upper working platform e-u and the section of the upper working platform f-x of the subsequent dump level n, f, y, o the outer side d e external dump e, f, g , from the idle side of the open pit 8 along its width equal to the distance between the upper edge th e external slope e-x of the upper longitudinal dump embankment 21 with the upper working platform e-u and the upper edge f of the subsequent dump tier n, f, y, о with the upper working platform f-u of the outer side d e external dump e, e , z, from the idle side of the open pit 8 (Fig. 7).

The upper longitudinal dump 23 with the upper working platform s-w, placed along the upper edge at the upper dump tier f, f, f, at the inner side w-h of the outer blade d, f, f, h of the open side of pit 8, is formed by storing overburden rock on the inner slope of the u-th upper longitudinal dump embankment 21 with the upper working platform e-u and the section of the upper working platform i-y of the subsequent dump tier n, f, y, on the inner side w-w of the outer dump d, f, f , from the idle side of the open pit 8 along its width equal to the distance between the upper alignment of the inner slope of the u-th upper dump embankment 21 with the upper working platform e-u and the upper edge at the subsequent dump level n, f, y, о with the upper working platform f-y of the inner side w-h of the external dump e, f, Well, off the open pit 8.

The total volume of dump rocks of the upper longitudinal dumping passages 22 and 23 with the upper working platforms e-e and s-zh, the external dump d, f, f, 3 of the non-working side of the open pit 8, respectively, is taken to be equal to the volume of overburden rocks of the sixth longitudinal overburden of 15 cutting trenches 6 (Fig. 7).

The excavation and transportation complex includes a stripping running fixed platform with a mast 1, an intermediate running fixed platform with a mast 2 and a dump running fixed platform with a mast 3, interconnected by a rope system 4, to which a double-sided bucket with a V-shaped bottom 5 is suspended (Fig. . 1, 2, 3, 4, 5, 6, 7, 8). The excavation and transportation complex during the development of longitudinal overburden approaches 10, 11, 12, 13, 14, 15 can move both in the direction from the entrance trench to the exit, and in the opposite direction - from the exit trench to the entrance trench. Overburden is stored in the lower longitudinal dump embankment with the upper working platform with 7 inclined layers according to the technology described in the description of the RF patent for invention No. 2520234 C ₁ Е21С 41/26 Publ. 06/20/2014, Bull. Number 17. When practicing the first longitudinal overburden entry 10, the overhead running fixed platform with mast 1 moves along the top edge of the working flange 9 of the open pit trench 6, excavating overburden from the bottom of this entry 10 and moving them in the direction perpendicular to the open side of the open pit 8 (Fig. 12). An intermediate running fixed platform with a mast 2 moves along the upper platform of the drift side of the open pit 8 within the width of the base of the outer blade of the drift along its inner boundary s, transporting and storing overburden from the bottom of the first longitudinal overburden 10 in the direction of their storage in the lower longitudinal dump embankment 7 with the upper working platform to the class of the external dump d, f, g, s. The dumping running non-rotating running platform with mast 3 moves along the upper platform of the dc outboard side of open pit 8 within the width of the base of the outer dump dz along its outer border d, transporting and storing overburden rocks in the lower longitudinal dump embankment 7 with the upper working platform to -l of the external blade d, f, g, s (Fig. 1, 2). When practicing the second longitudinal overburden entry 11, the overhead running fixed platform with the mast 1 moves along the upper edge of the working flank of the open pit 10 of the trench 6, excavating overburden from the bottom of this open 10 and moving them in the direction perpendicular to the open side of the open pit 8 and storing the rocks overburden in the lower longitudinal tabs 16 and 17, placed along the upper q and lower c of the borders of the external q and the inner w of the sides of the outer blade q, f, x, h of the open side of the open pit 8, respectively (Fig. 1, 2, 3 ) At the same time, the intermediate running intermediate fixed platform with the mast 2 moves along the upper working platform to the bottom longitudinal dump embankment 7; it transports and stores overburden rocks in the lower longitudinal tabs 16 and 17, placed along the upper d and lower h boundaries of the external d and the internal ws of the sides of the outer blade d, f, w, h of the idle side of the open pit 8, respectively (Figs. 1, 2, 3). Moreover, the dump running non-rotating running platform with the mast 3 moves along the upper platform of the open side of the open pit 8 along the outer border d of the outer side d of the outer blade d, f, g, h of the open side of open pit 8, transporting and storing overburden rocks in the lower longitudinal approaches 16 and 17, placed along the upper q and lower c of the boundaries of the external q and q w of the sides of the outer blade q, f, x, h of the open side of the open pit 8, respectively (Figs. 1, 2, 3). Overburden can be poured into longitudinal dumping slots 16 and 17, both in the direction of the external and internal slopes of the lower longitudinal dump embankment with the upper working platform 7, and in the opposite direction. In FIG. 8 shows the dumping of overburden rocks into longitudinal dump approaches in the direction of the external and internal slopes of the longitudinal dump embankment with the upper working platform. When practicing the third longitudinal overburden entry 12, the overhead running fixed platform with mast 1 moves along the top edge of the working flange 9 of the open pit trench 6, excavating overburden from the bottom of this entry 12 and moving them in the direction perpendicular to the open side of the open pit 8. , the intermediate running fixed platform with the mast 2 moves along the upper platform of the bottom dump blade 17, located on the upper platform of the unoperated side 8 of the open pit along the inner border z, transport By lining and storing overburden rocks in the subsequent dump embankment 18 with the upper working platform of the river basin. Moreover, the dump running non-rotating platform with mast 3 moves along the upper platform of the lower loading edge 16 located on the upper platform along the outer border d of the outer side d of the outer blade d, f, f, h of the open side of the quarry 8, transporting and storing overburden rocks in the subsequent dump embankment 18 with the upper working platform of the river site (Fig. 4). During the development of the fourth longitudinal overburden entry 13, the overhead running fixed platform with the mast 1 moves along the top edge of the working flank of the open pit 9 of the trench 6, excavating overburden from the bottom of this open 13 and transporting them in the direction perpendicular to the open side of the open pit 8 and storing the rocks overburden in the subsequent longitudinal dumping holes 19 and 20, placed along the upper boundaries n and o of the lower dump tier d, n, o, h of the outer dump d, f, f, h of the open side of the open pit 8, respectively (Fig. 1, 3, 5). At the same time, the intermediate running fixed platform with the mast 2 moves along the upper working platform p-with the subsequent longitudinal dump embankment 18, transports and stores overburden rocks in the subsequent longitudinal dump inserts 19 and 20, placed along the upper brows along the lower dump tier d, n , o, s of the outer blade e, f, g, h of the idle side of the open pit 8, respectively (Figs. 1, 3, 5). Moreover, the dump running non-rotating running platform with the mast 3 moves along the upper platform of the open side of the open pit 8 along the outer border d of the outer side d of the outer blade e, f, g, h of the open side of open pit 8, transporting and storing overburden rocks in subsequent longitudinal approaches 19 and 20, placed along the upper brow nor about the lower dump level d, n, o, s of the outer blade d, e, g, h of the open side of the open pit 8, respectively (Figs. 1, 3, 5). When practicing the fifth longitudinal overburden entry 14, the overhead running fixed platform with the mast 1 moves along the top edge of the working flank of the open pit 9 of the trench 6, excavating overburden from the bottom of this open 14 and moving them in the direction perpendicular to the open side of the open pit 8 and storing the rocks overburden in the upper longitudinal dump embankment 21 of the external dump d, f, g, h of the open side of the quarry 8. (Fig. 6). At the same time, the intermediate running fixed platform with the mast 2 moves along the upper working platform I-y of the subsequent dumping 20, transporting and storing overburden rocks in the upper dumping embankment 21 with the upper working platform e-u. Moreover, the dumping running fixed platform with the mast 3 moves along the upper working platform of the fx subsequent dumping 19, transporting and storing overburden rocks in the upper dumping embankment 21 with the upper working platform e-u (Fig. 6). When practicing the sixth longitudinal overburden approach 15, the overhead running fixed platform with the mast 1 moves along the top edge of the working flank of the open pit 9 of the trench 6, excavating overburden from the bottom of this open 15 and transporting them in the direction perpendicular to the open side of the open pit 8 and storing the rocks overburden in subsequent longitudinal dumping holes 22 and 23, placed along the upper borders of f and at the subsequent dumping tier d, n, o, s of the outer dump e, f, g, h of the open side of quarry 8, respectively (Fig. 1, 5). At the same time, the intermediate running fixed platform with the mast 2 moves along the upper working platform of the e-th subsequent longitudinal dump embankment 21, transports and stores overburden rocks in the upper longitudinal dump inserts 22 and 23, placed along the upper brow f and at the subsequent dump level n, f, y, o of the external blade d, f, f, h of the idle side of open pit 8, respectively (Figs. 1, 7). Moreover, the dump running non-rotating running platform with the mast 3 moves along the upper platform of the open side of the open pit 8 along the outer border d of the outer side d-d of the outer blade e, f, g, h of the open side of open pit 8, transporting and storing overburden rocks in the upper longitudinal dump runways 22 and 23, placed along the upper brow f and at the subsequent dump tier n, f, y, about the outer blade d, f, f, h of the open side of the open pit 8, respectively (Fig. 1, 7).

Thus, as a result of the implementation of the essential features of the claimed invention, the following technical result is achieved. The sequential storage of overburden rocks in the lower, subsequent and upper dump layers along the height of the outer dump along the outer and inner borders of the outer and inner sides of the outer dump of the open pit of the open pit forms a continuous slope of dump rocks of the overburden of the outer and inner sides of the outer dump of the open pit of the open pit. At the same time, the slope angle of the slope of the outer side of the outer dump increases as compared with the prototype due to the elimination of the ledges of the outer side of the outer dump, the width of the base of the outer dump is reduced, and the outer border of the outer dump is shifted toward the open side of the quarry, reducing the distance of transportation of overburden from the cut trench to an external dump, increasing productivity. So, when driving a cutting trench with an average width of 125.0 m and a depth of 40.0 m according to the application for an invention, an external dump can be formed with the following parameters: the height of the blade and dump level is 46.0 and 15.3 m, the width of the upper platform and base dump - 81.0 and 212.5 m, respectively. The width of the base of the external dump compared with the prototype is reduced by 13.3%, and the distance of movement of the overburden - by 10.0%. This increases productivity by creating conditions for increasing the width of the trench.

The stated results of the implementation of the proposed method for dumping overburden into an external dump during transportless digging of a trench proves the conformity of the proposed method to the patentability condition "industrial applicability".

The originality of the claimed invention lies in the formation of an external dump on the upper platform of the open side of the quarry with continuous slopes of the external and internal sides of the external dump during the transport-free driving of a trench without additional transshipment of overburden dump rocks.

Claims (7)

A method of dumping overburden into an external dump during transportless excavation of a split trench, including conducting overburden operations with longitudinal overburden approaches, moving overburden rocks in the transverse direction to a longitudinal overburden approach and storing overburden rocks in inclined layers in an external dump with external and internal sides located on the upper platform a non-working side of the quarry, with the formation of a longitudinal dump embankment with an upper working platform and a slope of dump waste overburden of the inner side of the outer the shaft of the open pit of the quarry, characterized in that the lower longitudinal dump embankment with the upper working platform is placed on the upper platform of the open side of the quarry in the middle of the distance between the lower boundaries of the outer and inner sides of the outer dump of the open side of the quarry, with each subsequent longitudinal dump embankment form on the upper working platform of the previous dump stage in the middle of its width, moreover, overburden rocks are poured into the lower longitudinal dump inserts with upper working platforms, located along the external and internal borders of the external and internal sides of the external dump of the open pit, with laying overburden on the external and internal slopes of the lower longitudinal dump embankment with the upper working platform and sections of the upper platforms of the external and internal sides of the external dump of the open pit along their width equal to the distances between the upper edges of the external and internal slopes of the lower dump embankment with the upper working platform, and the external and internal boundaries and the external and internal sides of the external dump of the open pit of the open pit, respectively, in addition, the subsequent longitudinal dump approaches with the upper working platforms, placed along the upper edges of the previous dump tier of the external and internal sides of the external dump of the open side of the pit, are formed by storing overburden rocks on the external and internal slopes of the subsequent longitudinal dump embankment with the upper working platform and sections of the upper working platforms of the previous dump level of the external and internal side in the outer dump of the open pit of the mine along their width equal to the distances between the upper edges of the external and internal slopes of the subsequent dump embankment with the upper working platform and the upper edges of the previous dump level with the upper working platforms of the external and internal sides of the external dump of the open side of the quarry, respectively, and overburden store on the upper platform of the open side of the quarry in an external dump on the width of its base, determined by the following mathematical formula: а = (in ² +4 S × К _P / tgα) ^0.5 , m, where a is the width of the base of the outer dump of the inoperative side of the quarry, m; in - the width of the upper working platform of the last dump stage of the outer dump of the open side of the quarry, m; S is the cross-sectional area of the open pit trench, m ² ; To _p is the coefficient of loosening of overburden in the external dump of the open side of the quarry, unit; α is the slope angle of the overburden of the overburden of the outer dump of the open pit of the quarry, deg.

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