SU1714131A1 - Method of mining flat stratified mineral deposits - Google Patents

Abstract

The invention relates to the development of, for example, manganese ores. coal and others. The goal is to reduce the labor intensity and increase the safety of work by reducing the number of transported lining elements and preventing the penetration of collapsed rocks into the working space of redeemable approaches. Pass the excavation drift, from which the excavation of the mineral is conducted by stopping. The cleaning face was fastened with frames and racks and tops. When planting the roof in the spent entry remove the rack in the podzavalny side. On the side of the whole side of this entry, when it is redeemed, a part of the supported space is formed by moving the openings to the ground when extracting the filling posts of the ends of aerials relative to the ends of the whole side. The extracted support is stored in the decorated part of the supported working space of the spent stopping. When testing the adjacent approach, the support, extracted in the under-bassing section of the spent approach, is installed in the whole side of the developed approach. 5 il.

Description

The invention relates to mining and can be used in underground mining of gently sloping mineral deposits, such as manganese ores, coal, etc., in difficult geological conditions.

The purpose of the invention is to reduce the labor intensity and increase the safety of work by reducing the number of transported lining elements and preventing the penetration of collapsed rocks into the working space of redeemable stopovers.

FIG. 1 shows the scheme of mining the excavation area by one-sided entries. top view: in FIG. 2 is a section A-A in FIG. one; in fig. 3 is a section BB in FIG. 1; in fig. 4 — node I in FIG. FIG. 5 special nozzle assembly to a portable rack ..

The method of developing flat stratal mineral deposits is carried out as follows.

Initially, excavation drift 2 is being drilled through mineral formation 1.

telescopic belt conveyor 3 for the entire length of the covered drift. The mining of the reserves of the excavation column is carried out in a reverse direction towards the border of the 4th pillar pole 5 and the redemption of the excavation tunnel 2. The excavation of the mineral within the developed column is carried out by adjacent visits 6 with their successive mining. Before the entry is carried out, a junction 7 of the drift 2 is formed with the stoppers 6, for which several drift support frames 8 are removed (for the width of the stopovers), and the detected roof is overlaid with a knurler (not shown) from a circular forest, which is laid along the drift with one end the other in the dead-end part of the frame of the liner, and the other on the lintel from the side of the untouched massif of the mineral. After this, the first 3 meters (niche) of the stopping pass from the excavation drift 2 manually using a jackhammer with loading of the rock mass onto the drift conveyor 3, since the technical characteristic of the mining combine 9 KMS does not allow it to conduct a notch directly from the excavation drift 2. After penetrating a niche into it, the factory and the mining combine 9 and the installation of a portable downhole conveyor 10 is effected. Subsequently, as the inlet moves towards the technical boundary 11 of the excavation column, the bottomhole conveyor 10 is built up it adding sections and dimensional segments of the conveyor belt.

The stowage as it is held is tamped with a metal frame yielding lining. The support for maintaining the clearing flank, installed on the soil of the inlet, consists of three, for example, arched top-pillars 12, portable, for example, hydraulic pillars 13 and 14, connecting, for example, quick-release wedge locks 15, interframe slats-16 and interframe fencing, for example wooden tacks 17. Upper ki-resistant 12 are made pliable and consist of two segments (segments) of a mine special profile, overlapped with quick-detachable wedge locks 15. Pull-out flutes 18 of portable hydraulic racks 13 and 14 in the upper part they are threaded and provided with nozzles 19, designed to swivel hydraulic struts 13 and 14 with upper struts 12 and enable the latter to rotate relative to CToek in a plane perpendicular to the longitudinal axis of the fit. The nozzle 19 is made in the form of glass 20 with thread on

the inner surface, to the side walls of which from the outside is rigid, for example by welding, two segments 21 mine special profiles are fixed. The nozzle is screwed onto a retractable hydraulic rod. The fastening of the carried-in approach is carried out as follows.

After excavation of the rock mass from

0 untouched array of mineral 1 in the installation step, the support lifts the end of the upper stanchion 12 (from the side of the whole side), resting on the soil 22, to the roof and install the extracted one

5, working off the previous adjacent approach of the portable hydraulic rack 13. The upper to-rack 12 takes a horizontal position and supports the bare roof 23. With one end it rests

0 on the installed rack 13, and others on the installed and left fixed (unrecovered) when working out the previous adjacent stopping rack 14. At the same time, the ends of the top ka-rack 12 are placed on top of the nozzles 21 19. Next, they install the one that was removed when working the previous adjacent stopping upper rack 9 as an auxiliary side pillar 24 (from the side of the whole side).

0 Raised under the roof of the upper rack 12 and the installed auxiliary side rack 24 is connected by straps-straps 16 to the previously installed lining support frames. With the help of wooden wedges

5, they wedge the installed frame and erect a frame-to-frame fence made of wooden taps 17. Thus, a frame of hinged-flexible support is obtained, in which one of the upper struts 12 performs the function of the top itself, and the other two function as lateral auxiliary racks 24, 25, in the manner described, the fit along its entire length. The mining mass repulsed in the borehole is loaded by the mining harvester onto the bottomhole conveyor with its subsequent transfer to the drift conveyor and then delivered to the mine-wide transport network.

Upon completion of the entry to

0, its entire length is carried out by driving a mining combine to a drift, dismantling, and discharging from the design of the bottomhole conveyor structure. After that, proceed to planting the roof in the waste entry. Landing roof

5 in the spent stopping lead in the opposite direction from the mechanical border 11 of the extraction column to the tunnel 2.

When planting the roof in a spent stowage, for example, a portable rack 14 in the basement side is removed using a hand winch and a flexible connection (cable). The end of the arcuate top ka-pillar 12. which rests on this pillar is lowered to the ground by 22 stoppages. Smooth lowering of the upper castex 12 is facilitated by interfacial straps 16, which prevents penetration of the collapsing rocks of blood 23 into the working space of the redeemed entry, reduces the risk of injury (leading to the redemption of the entry), and improves safety in general. Portable rack 13 in the whole side of the array mineral 1 is not removed. This leads to the fact that it forms together with the end of the upper frame 12 and the non-removable auxiliary side stand 24 (from the whole side) of the frame (which consists of three elements), which reliably supports the suit 26, moved to Gtochvts. At the same time, the lining 6, which is retrieved at maturity, is placed in the support of the stored stowage part 26, i.e., by removing the MjecTy without discharging them to the drift, and is installed in the center side of the clearing atyvaemoy adjacent stope. Etryodrodit a significant reduction in the proxy krlichestva allowed stope and granted on the drift lining elements, suschestBCHHoi relieve th eet the heavy manual labor in tselrm reduces complexity and works of reference povyschaet their effectiveness.

In addition, the sweep lining of the outline plays the role of a trimming row, preventing the roof from hanging over the vyrabrtanny space in the form of a wall of dyne and the destruction of its large-sized blotches. This leads to a decrease in the load on the lining due to the absence of dynamic (shock character)

impacts from collapsing roofs and enhances safety of operations. The landing of the roof and the maintenance of part 26 of the roof is carried out throughout the entire length of the roof.

To prevent rock breakthroughs from

excavated area

drift 2 at the mouth of the yard zhrdki vrzvr

d t dreshchatyu jumper 27. On eprm cycle

The job of Zahrdke is completed. In the case of subsequent successive prdr prr prk pr rhims and surpcrtions, another prrnrrrbrbtki reserve reserve rrrrrrrr strba.

Formula a and 3 for brea

The method of developing flat stratal deposits of minerals, including the penetration of the mine drift, excavation of adjacent minerals. fastening rcchistnrgr zabr ramami ustrvkkry racks on the soil of a stopping in

basement and one-sided side and tops, and landing roof extract lining.

about tl and h and yushchi and with that. what. with the aim of

reducing labor intensity and increasing work safety by reducing the number of transported lining elements and preventing penetration of collapsed rocks into the working space of redeemable entry. in the spent entry

remove the rack in the basement side. The CP side targets of this entry, at its redemption, form part of the supported working space by moving the returnees to the ground.

Crvsrvnuyu krv relative to the whole side pillars, extracted in the podzavalny side of the lining is stored in the decorated part of the supported working space spent, stope. and when working out

A contiguous stowage extracted in the podzavalny side of the hand-stitched collar is set in the entire area of the land plow.

J .2 8 L LY. Yu.9

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20 ± 6 15

Fig.Z. 7

year

.five

Claims (1)

Claim A method for developing shallow stratified mineral deposits, including excavation of a drift drift, excavation of minerals with adjacent inserts, fixing the bottom face with frames by installing racks on the entry soil in the gutter and the entire side and the upper sections, and the roof is planted by removing the lining, the roof and the roof This is because, in order to reduce the complexity and increase the safety of work by reducing the number of transported lining elements and preventing the penetration of collapsed rocks into the workspace of the removed entries, in the fulfilled entry, the racks are removed in the sub-gash side, from the side of the entire side of this sunset, when it is extinguished, a part of the supported working space is formed by moving onto the soil of the sunset of the released ends of the upper arms relative to the whole-side racks, the support removed in the gantry side is stored in the decorated part of the supported working space worked out approach, and when working out an adjacent approach, the lining extracted in the sub-gutter side of the worked out approach is installed in the whole side fulfills stope. 1 Fig.Z