SU1707200A1 - Method of mining flat stratified deposits - Google Patents

Abstract

The invention relates to the mining industry and reduces the loss of minerals. In the middle of the completed column, a excavation drift is passed, a junction of the entry is formed with the indicated drift, and a mineral is dredged from the conjunction to the technical boundary of the extraction pole with the formation of an inter-tail pillar. In this case, the excavation of the mineral in the stowage is carried out with an increase in the width of the mineral in the direction from the interface to the technical boundary of the excavation column. The width of the entry at any point is determined from the expression: В Ву + b, where В is the width of the entry at any point along its length, m; Wu is the width of the gate at the interface, m; b — pillar width at the interface, m; I is the distance from the interface to the inlet, m; L is the distance from the excavation drift to the technical boundary of the excavation column, m. 2 Il. s / s

Description

The invention relates to the mining industry and can be used in the underground mining of gently sloping mineral deposits.

The aim of the invention is to reduce the loss of mineral resources by extracting cross-pillars.

FIG. 1 shows a scheme for mining the extraction pole by stoppers; in fig. 2 shows section A-A in FIG. one.

The method is carried out as follows.

In the middle of the notch pole in the massif 1, the notch drift 2 passes by the mining combine with the shipment of the broken rock mass to the trolleys or to the drift conveyor,

which is extended as the excavation drift advances. The developed space is fixed by installing a ring-shaped ring lining, which consists of two side racks, the top and the top. Initially, puffs are laid on the working base, after the blade is settled, and racks are installed on its side parts. The upper parts of the uprights are placed on top, and all connecting parts are secured with locks. From the spillage of rocks into the inside of the mine, the developed space is drawn in by a wooden or reinforced concrete tightening. The tilting frames are connected with bolts. And so do until the end of the excavation drift.

N: s with

At the end of the excavation drift, a niche is cut into the right or left side, where the mining combine and equipment are installed. Then, the mining of minerals is started, the excavation of which is carried out by 3 or 4 stoppings. As the mining combine is introduced into the ore, the mining mass is shipped by the executive body of the combine to the intermediate conveyor, which loads the mining mass to the cantilever-conveyor-discharger. He in turn reloads the rock mass onto a conveyor located on the excavation drift, and he overloads onto the main conveyor, and the hearth is broken. The mass is transported to the reloading point and delivered to the mountain. The intersection tailgate 6 is left between the developed space 5 and the entry. The length of entry L, the depth of penetration of the combine into the massif during the development of entry I. The width b of the intersection target in the mouth of the entry, determines the width of the By mouth of the target entry. Having penetrated 0.7 m by a combine into an array, they proceed to the installation of catch lining 7, which has a limit of extension (working zone 0.5-1.0 m) and consists of two parts, lock 8 and column 9. Install one of the parts downhole supports on the left side, the other on the right side of the entry, and connect the frame of the downhole supports with a clamp. A support lining and a lining support are laid on the frame 10 and the lining is fastened to the frame overturn by means of a stitch.

After fixing the worked-out space in the niche, the future stopping begins to extract the ore. Having penetrated 0.7 meters, they install the next frame of the lead-in lining and connect it with the standing frame next to each other on the top of the frame. The space between the frames is tightened by puffing from spills. Cranking to a depth of another 0.7 m, install the following frame of the lining, determined its width B by the formula

In By + b Ј

and thanks to the razdvizhnosti frames maintain the planned size of production. Next, one of the sections of the downhole conveyor 11 is installed. Having installed a part of the conveyor in the bottomhole and securing it, they proceed to the extraction of the ore by stopping, observing the specified return gate width. As the drill is refined, the downhole conveyor is expanded in sections. Practicing this approach, get a tapered section of production for

the account of the partial extraction of the inter-tailing pillar, which comes to the technical border with its width in width to O. Having finished working off the entry 3, proceed to

dismantling of the conveyor 11 and, in parts, are placed on the excavation drift. After that, they proceed to the extraction of ore from the gate A, at the same time the attack on the landing works in gate 3, the strands 9 are thrown out,

Lock 8 is disassembled and landing gear 7 is retrieved by means of a landing winch, which are transferred to the excavation drift and stored.

As you remove the catch lining 7

from gate 3, the roofing of the excavation is effected on the basis of generation and the inter-entry pillar is destroyed. The landing works in the spent counterblock 3 are made, not the income of the excavation drift, where the interstitial rear sight and the frames of the bolt support create additional resistance to rock pressure on the support of the excavation drift with the entry, while maintaining the stability of the excavation of the excavation drift.

Claims (1)

The invention The method of developing flat stratal deposits, minerals, including carrying out excavation drifts, formation of conjugations of entries with a drift and excavation of the mineral fossil in the direction from interfaces to the technical boundaries of the extraction pole, the formation of pillars between the developed space and the inlets, the collapse of overburden, which is different from the fact that, in order to reduce the loss of the mineral by extracting the intersectional pillars, the excavation of the mineral in the inlets leads to an increase in the width of the latter the boundaries of the extraction column, and the width of the entry point at any point along its length is determined from the expression In Wu + b Ј, where B is the width of the entry at any point along its length, m; By is the width of the gate from the interface with the excavation drift, m; b — pillar width at the interface, m; I is the distance from the interface to the inlet, m; L is the distance from the excavation drift to the technical boundary of the excavation column, m 1