RU2674452C1 - Reserves in the working sides dredging development method - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to the mining, and can be used in the mainly medium and deep placers dredging development. Placer deposits dredging method includes opening in the industrial stocks contours, reducing the productive deposits thickness by their cutting to the depth sufficient to work the rest part with the dredger, cut productive deposits transfer to the trench and the prepared reserves dredging; the trench is formed in the adjacent to the reserves contours dredging pocket, at that, the dredging dump slope to the dredging stroke boundary is divided into terraces with the intercourse depressions backfilling (filling-in), being cut productive deposits upper layer is transferred to the terraces horizontal platforms, and dredging is carried out in layers until rocks from the dredging dumps appearance in the buckets.

EFFECT: enabling the possibility to control the drag stroke transverse parameters by means of the cut face width and height changing.

4 cl, 1 dwg

Description

The invention relates to mining and can be used for dredging man-made placers or sections of deposits adjacent to a developed space with a productive formation capacity exceeding the maximum permissible dredge bottomhole height.

The thickness of the reservoir at alluvial deposits varies over a fairly wide range. When choosing a dredge for the development of a specific field, as a rule, they are guided by the average thickness of the reservoir. Moreover, throughout the placer there are areas with a capacity exceeding the dredging capacity (greater than the sum of the maximum digging depth and the maximum freeboard). In many cases, such areas are underdeveloped in depth and part of the mineral remains in the bowels.

To develop deep placers, as a rule, deep digging dredges were used with sand excavation depths of 30 to 50 m.However, the use of such unique dredges on medium-depth placers with rare areas with high productive sediment thicknesses is not economically justified. Currently, many placers mined by deep-digging dredges in the sides of the workings have significant reserves of gold. However, the remaining gold reserves, as a rule, cannot recoup the use of unique deep-digging drags and use less powerful dredges to refine man-made reserves on the sides of the dredge cut (including the placer of the Marakan River, developed by the 600-liter dredge, finalizing the remaining a 380-liter dag is carried out on the sides of the reserves; on the site at the mouth of the Veselyaevsky village being developed by the 380-liter dredge, the remaining reserves will be finalized by the mounted 250-liter dredge). When using drag with lesser depth of digging on such man-made placers, part of the reserves (mainly in the near-flood zone) will be lost.

Known methods of excavation of sands from near-flat sediments and rafts of the raft located below the depth of digging using various special devices [SU No. 209340, IPC E02D 17/16, E02F 1/00, published January 26, 1968; SU No. 275911, IPC E21C 45/00, published July 14, 1970, SU No. 283141, IPC E21 50/00, published October 6, 1970; SU No. 292714, IPC E21C 45/00, published 01/15/1971]. However, these methods are suitable for excavating small volumes of sand and the devices used have a low productivity. In addition, their use entails significant downtime and leads to a decrease in mining.

A known method of dredged mining of alluvial deposits (RU No. 2629187, IPC E21C 41/30, published on 08.25.2017), which includes opening industrial contours in the contours, reducing the capacity of productive deposits by cutting them to a depth sufficient to work the remainder of the dredge, moving the cut productive sediment in the trench and dredging prepared reserves. In this case, a trench is formed in unproductive areas located along the course of the dredge.

The use of this method is possible on placers with an intermittent arrangement of reserves and the presence of unproductive sections along the course of the dredge. In addition, this method provides an additional amount of excavation to create a trench.

The prototype adopted a method of developing alluvial deposits [SU No. 1802578, IPC E21C 41/32, published July 26, 1990], according to which, in order to reduce the cost of mining powerful productive deposits by ensuring the possibility of their extraction by mass production dredges, a trench is drawn along the border of productive sediments beyond the contour of industrial stocks, reduce the power of productive sediments by cutting them to a depth sufficient to mine the remaining parts with dredges and move the rocks into a trench, after which dredging is carried out in omyshlennyh circuits, and then for the industrial circuit.

The signs of the prototype, which coincide with the existing features of the proposed method, are the opening of industrial stocks in the contours, reducing the capacity of productive deposits by cutting them to a depth sufficient to work the remaining part of the dredge, moving the cut productive deposits into the trench and dredging the reserves thus prepared.

A comparative analysis of the proposed technical solution with the prototype shows that the main disadvantage of the latter is a significant increase in the volume of earthwork associated with the creation of trenches and additional overburden operations. On placers with peat, the expansion of the dredging course to create a trench will lead either to re-excavation, or to a significant lengthening of the distance for transporting waste rock to dumps placed on the sides of the dragee cut.

The presence of dragee production on man-made placers can significantly simplify the preparation of reserves in the sides of the placer for dredging.

The invention is aimed at increasing the efficiency of dredged mining of placers by reducing the loss of sand and reducing the cost of preparing reserves.

The technical result consists in providing the ability to control the transverse parameters of the dragee course by changing the ratio of the width and height of the face.

The technical result is achieved by the fact that the method of dredged mining of alluvial deposits, including opening in the contours of industrial reserves, reducing the capacity of productive sediments by cutting them to a depth sufficient to mine the remaining part of the dredge, moving the cut productive sediments into a trench and dredging prepared reserves, according to the invention, a trench is formed in the pelvis sinus adjacent to the contours of the reserves, while the slope of the pellet dump to the border of the pellet course is divided into terraces with By filling (filling) the inter-passage troughs, the upper layer of cut productive deposits is moved to the horizontal terraces, and dredging is carried out in layers until rocks from dredged dumps appear in the scoops. Breakdown of the slope of the dump blade into terraces is carried out from top to bottom, and the height of the terraces is set to a multiple of the value of the layer-by-layer lowering of the scoop frame. With a large number of cut-off productive deposits, terraces are formed with the expansion of the dungus sinus. With a small width of productive deposits, the productive layer is cut to marks below the sediment depth of the dredge pontoon.

Differences from the prototype prove the novelty of the invention.

The use of the dungus sinus as a trench without terracing the slopes of the heaps will lead either to significant loss of minerals or to its great dilution due to the high roughness of the surface of the heaps caused by the technology of excavation of sand and dumping.

Methods for terracing slopes of dumps are known and are used in the reclamation of damaged surfaces. However, the parameters of the ledges in the known methods are determined based on the need to provide favorable conditions for the restoration of vegetation.

In the proposed technical solution, the parameters of the steps are set based on the conditions for the maximum reduction of losses and dilution of the mineral. Creating terraces allows you to cut the crest of the dumps and place them in the inter-step depressions. The height of the ledges and the width of horizontal platforms are determined taking into account the equality of the volume of rocks cut and dumped into the troughs.

In order to increase dredge productivity and reduce mineral dilution, the height of the ledges is set to a multiple of the power of the dredged layers.

The power of the cut sand layer from the surface of the onboard reserves is primarily determined by the excess of the total power of the sand over the maximum height of the dredge bottom. However, in order to create the most favorable conditions for dredging and reduce the surface part of the face, the thickness of the cut sand layer can be adopted significantly more. The indicated power is set taking into account the optimization of the parameters of the dredged face and the intended water level in the section.

With an insignificant width of reserves in the sides of the mine (on-board pillars), substantially less than the minimum allowable dredge face width, the depth of cutting of the upper productive layer increases to a depth exceeding the draft of the dredge pontoon. This solution simplifies the maneuvering of dredge in the context and makes it possible to carry out the development of reserves by a slaughter of a smaller width. The latter allows dredging of narrow sections of the landfill without diluting productive deposits.

The invention is illustrated in the drawing, where in FIG. 1 shows a cross-section of a dredge landfill with a dredge adjacent to its contour according to the claims,

Where

1 - dragin sinus;

2 - the sands as a whole;

3 - board development;

4 - slope of the dredger blade;

5 - terraces on the slope of the dump;

6 - pile of sand in the sinus;

7 - placer raft;

The method described in the claims is as follows. A trench is formed along the course of the dredge with sufficient lead and maximum water reduction in the dungus sinus 1, adjacent to the contour of the sand reserves 2 on the dragee mine 3.

8 in the process of forming a trench in the axillary sinus, the slope of the dredger blade 4 from the side of the working board of the mine is divided into terraces 5. The height of the terraces - h is set to a multiple of the thickness of the dredged layer, and the width b is determined taking into account the equalization of the cut and dumped volumes of rocks along the slope of the dumps. After that, in the trench 6 sands are stored in bulk, handled from a dredge landfill having a productive layer thickness N _pr greater than the maximum dredged bottom height N _max (taking into account the freeboard).

Sand handling can be carried out both by excavation using equipment with large operating parameters (for example, draglines), and using bulldozers. After the preparation of the reserves, they are flooded with a rise in water level in the dividing section and subsequent dredging of productive sediments (sands) to the placer raft 7. In this case, the dredging frame of the dredge is turned towards the dumps until pebble or epheletic deposits appear in the scoops.

Claims (4)

1. The method of dredged mining of alluvial deposits, including opening industrial contours in the contours, reducing the capacity of productive deposits by cutting them to a depth sufficient to mine the remaining part with dredge, moving the cut productive deposits into the trench and dredging the prepared reserves, characterized in that the trench is formed into drag sinus adjacent to the contours of stocks, while the slope of the dump blade to the border of the drag move is divided into terraces with filling (filling) of inter-passage troughs, vert Nij productive layer be cut is moved on the horizontal Fat pad terraces and dredging lead to layerwise until the ladle of dredging rock dumps. 2. The method according to p. 1, characterized in that the breakdown of the slope of the dredger blade into the terraces is from top to bottom, and the height of the terraces is set to a multiple of the value of the layer-by-layer lowering of the scoop frame. 3. The method according to and 1 and 2, characterized in that with a large number of cut productive deposits, terraces are formed with the expansion of the axillary sinus. 4. The method according to 1 and 2, characterized in that with a small width of productive sediments, reducing their power by cutting the upper layer is carried out to marks below the sediment depth of the dredge pontoon.

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