PL152779B1 - A method for mining thick deposits - Google Patents

Description

REPUBLIC

POLAND

OFFICE

PATENT

RP

PATENT DESCRIPTION 152779 Additional patent to patent no --- Int. Cl. ⁵ E21C 41/22 Reported: 86 11 24 (P. 262571) Priority;- . - * V -pj v i. ΐ * *; · V Application announced: 88 09 01 Patent description published: 1991 06 28

Creators of the invention: Antoni Bober, Stanisław Dziubka, Jerzy Markowski, Edward Rzepka, Tadeusz Szeląg, Kazimierz Ziaja, Jan Butra, Andrzej Janowski

The holder of the patent: Kombinat Górniczo-Hutniczy Miedzi, Zakłady Górnicze LUBIN, Lubin (Poland)

THE METHOD OF CHOOSING THICK FILMS

The subject of the invention is a method of extracting coarse deposits, especially copper ores with a thickness from 5 m to about 15 m, lying under strong and compact ceilings, with the removal of trimmings selected with liquid proppant.

In the mining technology, several methods of mining thick ore deposits are known with passive and chamber systems. These systems differ in the method of preparing the deposit for exploitation, methods of mining, methods of supporting workings, organization of the extraction process and the method of liquidation of the selected crop.

Discloses a method for operating a coarse ore presented in the Polish description of the patent No. 77 · dimensions _of 029 in which the operation is carried out simultaneously with two phase shifting parallel to the wing at a fixed distance from each other. Works in the first phase are carried out in a chamber and pillar system, cutting the bed in the first upper layer of the bed. In the second phase, extraction is carried out in the parapentric chamber with ridges for at least two layers. The ancestors of the carriers are kept at a constant distance from each other.

In the method described in Polish patent description No. 81 757, the bed is selected in two layers, and the bottom layer is selected with a chamber excavation along the line of the filling with two phases. In the first phase, the rock mass is left between the chamber excavation and the space filled with proppant of the entire length of the chamber, which is processed in the second phase in the direction opposite to the previous chamber's dredging direction.

The method of selecting thick deposits, presented in Polish patent description No. 82 871, consists in dividing the deposit into at least two layers cut with tines. Choosing the traps in the lower layer is preceded by selecting the traps in the upper layer. In Polish patent specification No. 109 736, the method of selecting a thick bed is also based on a two-layer top-down selection. The top layer is selected with a chamber and pillar system with the division of the operational front into at least two sections. The lower layer is made available from the upper layer with ramps made for each section of the front. By selecting the layer 152 779

The lower cones are left in place of the upper support pillars to the full height of the selected bed. '

Polish patent description No. 131 743 describes a method of exploiting a thick bed, which consists in accessing with double bored galleries under the ceiling and bottom of the bed, and then selecting the bed in successive chambers with layers from top to bottom. The excavation in the upper layer is performed by making chamber galleries with indentations. The mining of the bottom layer of the bed in the chamber is carried out by the stacking or firing method of long blast holes drilled from the additional sub-chamber heading.

As presented in the Polish patent description No. 136 678, the thick bed is cut with workings in the overhead layer into exploitation blocks and selected in the adjacent blocks using the chamber method, while the upper layer of the deposit in the chamber is selected by boring chamber walkways with commas and indents, while the layer the lower one is selected with independent tabs on both sides. Access to the bottom layer is achieved by making descents in the chamber or access and preparation workings.

The method of selecting thick beds according to the invention is intended for the exploitation of a thick bed with a thickness ranging from 5 m to about 15 m. It consists in cutting the contoured extraction field in the overhead layer by means of preparatory workings carried out along the length of the bed and commas made after the rise, for large technological pillars. Each row of large technological pillars constitutes one operational block. Operation in the extraction field is carried out with a yielding front consisting of at least two blocks, where the lower block always precedes the higher block, lying at least by the length of the exit connecting the bottom of the roofing layer with the bottom of the deposit. Preparatory workings carried out along the length are workings that provide access to the roof layer of the lower block and the bottom layer of the upper block at the same time. Mining in the block is carried out by chambers parallel to the goaf line, selected in two layers from top to bottom. The top layer is selected in two phases, in the first of which a chamber pavement is made after the fall, leaving the pillar on the side of the filled space. In the second phase, this pillar is selected by cutting it in the direction opposite to the cutting direction of the chamber heading. Successively, while uncovering the bottom of the roofing layer, the bottom layer of the deposit is being worked in a single-phase, one-sided carrier. The bottom of the deposit is made available by making a saucer trim in the preparatory excavation. After selecting the bed within the chamber and damming it, it is supported with a liquid prop. In the case of a high concentration of mining works, it is advantageous to use a leading, limited section of the deposit along the rise in the ceiling layer to two rows of large technological pillars.

Exploitation of the deposit with the use of the method according to the invention enables a high concentration of extraction at low operating costs and a high level of safety, achieved by: limiting the length of the descents providing access to the bottom of the deposit made in the preparatory workings conducted along the deposit's extension, obtaining good support of the roof in the space selected by full filling the mining chambers after collapse, favorable organization of works on the selective front and achieving relatively large progress on the front.

The subject of the invention is described in the embodiment of the exploitation works and shown in the drawing, in which fig. 1 shows a top view of a fragment of the exploitation field with three separated exploitation blocks, fig. 2 - top view of a fragment of the exploitation block with a chamber gallery made of the next chamber together with Fig. 3 - side view of the preparatory excavation, Fig. 4 - side view of the chamber while selecting the top layer and starting to select the bottom layer, Fig. 5 - side view of the chamber while selecting the separating pillar at the border of the selected block . An embodiment of the invention concerns the exploitation of a copper ore deposit with a thickness of about 15 m. In order to make the mining field available, bundles of slopes 1 and 2 are made in the top layer of the deposit, constituting the basic transport and ventilation pits, limiting the field overhang after its length. In the preparatory works, the 1 and 2 basic pavements are drilled along the length of the 3 preparatory excavation with commas 4, separating the rows of large 5 technological pillars, each of which is one block Bn

152 779 operational. To ensure the uniformity and concentration of mining works, the mining front covers three blocks: Bn, Bn + 1, Bn + 2, of which the first two are alternately exploited and decommissioned, and the third is the reserve front. The exploitation blocks constitute a yielding selectable front in which the lower Bn block is ahead of the upstream Bn + 1 block at least by the length of the exit 6 in the preparatory excavation 3 connecting the bottom of the roofing layer with the bottom of the deposit. The preparatory excavation 3, which is the excavation providing access to the roof layer of the lower Bn block and the bottom layer of the Bn + 1 block above the goaf section of the lower Bn block, is protected by separating pillars. In addition, two rows of large technological pillars are separated in the roof layer with a limited advance section along the rise. After preparing the Bn, Bn + 1 blocks,

Bn + 2 begins mining the deposit.

In the first phase, in the top layer of the block, an 8-chamber walkway is made, leaving the pillar 9 intact from the goaf side or the pillar 9 with an indentation 15 (Fig. 2) to the selected chamber 10. In the second phase, the pillar 9 is selected by cutting it in the opposite direction to the cutting direction. 8-chamber sidewalk. With the underside of the top layer being uncovered, the bottom layer in the chamber is processed with a one-sided traverse using the known method of stacking. In the last stage of selecting the chamber, the separating pillar 11 is operated to protect the descent to the bottom of the deposit from the goafs of the lower block.

The haulage of the excavated material from the roofing layer is carried out with self-propelled loaders or loaders and haulage vehicles for dumping 13 onto a belt conveyor 14. On the other hand, the dredged material from the bottom layer is also placed at the dumps 13, while the loaders have to overcome the descents 6. The selected chamber 10 is dammed with dams 12 and supported with a liquid filling supplied through a pipeline. For this operation, in the variant with a pillar and indentation 15 (Fig. 2), indent 15 is also used for the selected chamber 10. During the preparatory and operational works, the anchoring of the ceiling and the ridges is used. The working cycles are repeated in parallel in the adjacent Bn, Bn + 1 production blocks until the deposit is selected within these blocks.

Claims (2)

Patent claims 1. The method of mining thick ore deposits with mining with explosive material and the use of an anchor casing and a backfilling, especially a liquid one, for the liquidation of the selected space, consisting in cutting the selector field in the roofing layer into operating blocks with preparatory workings connected with commas, which separate large technological pillars on the operating front runway , whereby the roofing layer in the block is selected by boring the chamber walkway after the fall, leaving the pillar on the side of the goafs and by cutting this pillar in the opposite direction to the direction of the chamber walkway, while the buttress layer is selected with a one-sided stepping method successively behind the selected pillar in the roofing layer, characterized in that the roofing layer of the lower block and the bottom layer of the higher block are simultaneously accessible from the preparatory workings (3) led along the extent of the deposit by making descents (6) to the bottom of the deposit, while the extractive front is divided into at least two blocks (Bn, Bn + 1), exploitation equal to the width of large technological pillars (5), is led compliant along its length, with the lower block (Bn) ahead of the block (Bn + 1) higher by at least the length of the descent (6) to the bottom of the deposit, and the mining of the deposit in the mining chamber (10) is carried out in parallel and successively in the top and bottom layers along the rise, with the face in the top layer ahead of the face in the bottom layer. 2. The method of selecting a thick bed according to claim 3. The method as claimed in claim 1, characterized in that the preparatory pits (3) run along the length of the space of the selected lower block are protected by left-over separating pillars (11) connected in the roofing layer with filling dams (12), and these pillars are selected in the chamber preparation phase ( 10) for liquidation. 152 779 Department of Publishing of the UP RP. Circulation 100 copies Price: PLN 3,000