SU1458574A1 - Method of mining ore bodies - Google Patents

Abstract

The invention relates to mining and m. used in underground mining of ore on gently falling and weakly inclined deposits, hazardous for mining blows. The goal is to ensure high intensity and safety of development. Layer rising t-.y excavation of ore are plots sent in h from the lower boundary of the site on the uprising of the ore body with the orientation of the layers across the strike of the ore body. Bookmark the developed space of layers form a backfill array. The stacking operations are carried out after the next layer has been shoved, leaving a layer in the process space with a height that provides ventilation and movement of the miners. Podslechnye excavation passes from the ventilation slope to the place of cutting. The penetration of undercut openings oriented along the strike of the ore body and their laying with high-strength material create sweeps in the direction from the upper boundary of the site along the fall of the ore body. Undercutting openings pass from the boundary of the site to its center and are knocked down with a backfill array. 1 hp f-ly, 7 ill. € (L

Description

one

The invention relates to mining and can be used in underground mining of ore on gently dipping and slightly sloping deposits, dangerous for mining shocks.

The purpose of the invention is to ensure high intensity and safety of development.

FIG. 1 shows the plot plan; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. 1 in FIG. 4 - plan for the roof of the ore body after the extraction of reserves of the panel; in fig. 5 is a volumetric plan of the excavation site during the development of mining operations simultaneously in several panels with ore excavation by the ascending layers oriented along the ore body uprising in the direction from the lower boundary of the developed site, with the construction of a reinforced concrete slab in the ore body roof by the ore body falling by workings, oriented along the strike, when the construction of the overlap begins after the extraction of the stocks of the first belt; in fig. 6 - the same, when the start of construction of the block is ahead in time of the full development of the stocks of the first tape; in fig. 7 is a volumetric plan of the excavation site, in which the mining operations in adjacent panels are carried out by various development systems (in panel X, the proposed option, in panel Y, by a downward layer-by-layer notch with laying under protection of reinforced concrete slabs).

The developed section of deposit 1 is divided into panels. On borders

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The panels pass through transport 2 and ventilation 3 slopes (orts), in the area of which the ore passes 4 and ventilation rising are concentrated 5. To enter clearing excavation 6, layer drifts pass through the soil of the ore body.

Mineral reserves within the panel are divided into vertical strips (tapes) 8, which are worked upwards from the bottom, and the backfilling work 9 is carried out after the next layer has been drilled, leaving the process space with a height that provides the mine workers with ventilation drilled holes in the next layer.

Cleaning work in the strip (tape) 8 start with working out dead end of the first layer. Subsequently, as the reserves of the tape are mined on the soil of the ore body, the strips that are removed in a similar sequence, etc. In this case, the front face of the clearing faces acquires in terms of a wedge shape with the movement of the faces by the front of the uprising and the strike of the deposit.

Simultaneously with the groove of the first strip, the creation of a sweep along the roof from the upper part of the panel with the workings oriented along the strike of the deposit begins. The development passes from the border of the panels 17 to its center and is brought down with a backfill array.

In general, the beginning of the construction of protective overlap does not depend on the position of the cleaning works in the panel and determines the overall development of mining operations in the mine field (for example, the beginning of mining operations in the field, completion of marginal parts of the ore body, etc.) .

The main condition associated with

to

A split ort 10, connecting the cleaning work with the creation of yellow layer drifts, goes on together.

The cutting of the ore body begins after cutting and laying the work area in the center of the panel.

The subcutting openings 11 extend from a ventilation slope to the cutting site at a right angle to the cleaning strips. Before laying the workings on the soil, an iron mesh or reinforcement is installed. At the approach of a continuous cutting front to the ventilation drifts 12 and for organizing by non-work

Concrete overlap, is the need to work out the separation array on the roof of the ore body before the refining operations come close to its minimum size. Therefore, depending on the situation in general, the beginning of the creation of cuttings along the roof may coincide in time with cutting the excavation area with the first cleaning strips or be ahead of the first cleaning of the first cleaning tape.

dependent maintenance of cutting work on the roof and work in the vertical strips (tapes) of the overlap development are isolated from the cleaning space by the ore massif 13, which is additionally earned by cleaning works when excavating adjacent vertical strips (tapes) on the soil of the ore body. Along the underworked array, a ventilation trough 14 is passed, which allows smoothly providing cleaning holes with fresh air when the next ventilation drift is redeemed. After the ventilation drift is redeemed, its function is performed by an unencumbered production of notching 15. The last generation in the interval between the exhausted air ventilation systems is not laid down and is used to ventilate the mining faces when the subsequent vertical strips (notched) are excavated under the protection of an artificial reinforced concrete ceiling 15.

The development of the reserves of the panel begins with the removal of the first vertical strip (tape) located in the central part of the panel, with layers from the bottom up, oriented along the rise of the reservoir. As the mining and laying of several layers (more than three) are involved in the development of reserves adjacent to the per35

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In all cases, reinforced concrete overlap is constructed by the fall of a deposit with parallel workings oriented along strike. The development passes from the border of the panels 17 to its center.

Claims (2)

1. A method of developing ore deposits, including a layer-like ascending reservoir of ore sections, forming a backfill array by laying out the worked-out layer space and creating a sweep in the roof of the ore body by penetrating undercut openings and laying them with high-strength material, characterized in that the safety of the development, the excavation of ore is carried out in the direction from the lower boundary of the site along the ore body uprising with the orientation of the layers across the strike of the ore body, and cutting is created direction from the upper boundary portion of the ore body to fall from the orientation slash workings along the strike of the ore body. 2. A method according to claim 1, characterized in that the sub-mine workings are knocked down with a backfill array. output lanes that are removed in the same sequence, etc. In this case, the front face of the clearing faces acquires in terms of a wedge shape with the movement of the faces by the front of the uprising and the strike of the deposit. Simultaneously with the groove of the first strip, the creation of a sweep along the roof from the upper part of the panel with the workings oriented along the strike of the deposit begins. The development passes from the border of the panels 17 to its center and is brought down with a backfill array. In general, the beginning of the construction of protective overlap does not depend on the position of the cleaning works in the panel and determines the overall development of mining operations in the mine field (for example, the beginning of mining operations in the mining field, completion of marginal parts of the ore body, etc.). The main condition associated with o cleaning time with the creation of reinforced concrete slabs, is the need to work out the separation array on the roof of the ore body before the cleaning works approach the minimum allowable size. Therefore, depending on the situation in general, the beginning of the creation of a sweep along the roof may coincide in time with the cutting of the excavation area with the first cleaning strips or be ahead of the working of the first cleaning tape n works five 0 five 0 In all cases, reinforced concrete overlap is constructed by the fall of a deposit with parallel workings oriented along strike. The development passes from the border of the panels 17 to its center. Invention Formula 1. A method of mining ore deposits, including layer upstream excavation of ore by sections, formation of a backfill massif with laying of the worked-out layer space, and creation of sweeps in the roof of the ore body by penetrating undercut openings and laying them with high-strength material, characterized in that in order to ensure high intensity and safety the development and excavation of the ore is carried out in the direction from the lower boundary of the site along the uprising of the ore body with the orientation of the layers across the strike of the ore body, and cutting is created direction from the upper boundary portion of the ore body to fall from the orientation slash workings along the strike of the ore body. 2. A method according to claim 1, characterized in that the sub-mine workings are knocked down with a backfill array. 1 -HonpaSfleHue dibigenm (front ot i / wall ob / efif i / -predlemy movement front co3dof i / ff noffcet / f (u U 1 Pa Ut-f; - Trj. lou.fc:: A ::; r vv; :: v; vi; v; v; S7 ; p.;: ivi; tp / 7     I. . iVr-j CA. 7i t A iwilglbL-% .-- / ... .- ... -L. 7yy4: N gi-iJjx. if.trjiiv-:.; -: -; ir -;, -..... v.vtfу, - .. / 7: V- y- .y. -: -....: -. I-. . ///// 12 PanelX 3Fig.  ; vi; v; v; S7 v.f.-f vT  / ////// 1 L / / niJ i. / v / // / / / N: .. f fvvv hy / FIG. five 11/6 - 7/7 PanelU ( Panem U Panel Y eight at Z