RU2703079C1 - Method for development of a thick gently sloping bed with release of coal of ceiling - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to mining. Method for development of a powerful gently sloping formation with release of coal of ceiling includes coal-mining extraction of coal in undercut layer – layer near bed soil, transportation of broken coal along working face by scraper conveyor, maintenance of working space with sections of mechanized support of supporting-barrier type, preparation of ceiling mass by dividing into equal portions, breaking of its continuity and output of portion of coal of ceiling mass to face conveyor via outlet openings in enclosures of support sections. Division of ceiling of the array into portions is performed by cutting of longitudinal channels with a machine by increasing the thickness of the layer during extraction of each second strip. Disruption of solidity of the ceiling mass is performed by the section of the support sections into the pillars between the formed channels.

EFFECT: invention makes it possible to increase efficiency of production of ceiling.

1 cl, 1 dwg

Description

The invention relates to mining, in particular to the extraction of coal from powerful shallow seams by means of complex mechanization with the release of coal subroof thickness to the face conveyor.

A known method of developing powerful flat seams with the release of coal subroofing layer, including combining excavation of coal in the undercut layer (layer near the soil of the reservoir), transporting the beaten coal along the face of the mine with a scraper conveyor, maintaining the working space sections of the mechanized lining support and protection type and the release of coal mass roofing strata on the face conveyor through the outlet windows in the fences of the lining sections [Klishin, V.I. Development of powerful seams with mechanized roof supports with controlled release of coal / V.I. Klishin, Yu.S. Fokin, D.I. Kokulin, B. Kubanychbek uulu-Novosibirsk: Science, 2007- 135 p. (analog)].

The disadvantage of this method is that the mass of the subroofing layer is destroyed, mainly under the influence of rock pressure, which increases with distance from the bottom of the mine. This means that the effective destruction of the subroofing layer will occur not over the outlet window of the lining section, but somewhat further from it - into the worked out space. That is, the coal of the collapsed subroofing layer will be lost in the worked out space, which increases operational losses and is dangerous by its spontaneous combustion.

The closest in technical essence is the method of developing powerful shallow seams with the release of coal under-roof thickness, adopted as a prototype, including a combine excavation of coal in the undercut layer (layer near the formation soil), transporting the beaten coal along the face with a scraper conveyor, maintaining the working space sections of mechanized support support-protective type, dividing the array of the subroofing thickness into equal portions by violating its continuity with a cleaver and releasing a portion of coal of the massif dkrovelnoy stratum on the face conveyor through the outlet ports in the fence support frames [Pat. 153637 of the Russian Federation. IPC E21D 23/00. Support section of the face of a powerful seam with forced coal release; application 2015116487 dated April 29, 2015, publ. 07.27.2015 (prototype)].

The disadvantage of the prototype is the relative unpreparedness of the coal mass of the subroofing stratum for production. A mechanical cleaver is very limited in size, therefore it is embedded in a coal mass to a shallow depth and does not provide for separation of a portion of the mass at full capacity.

This drawback reduces the efficiency of the development of powerful flat formations with the release of coal from the subroofing massif to the downhole conveyor.

The aim of the invention is to increase the efficiency of the development of powerful flat formations with the release of coal of the subroofing layer to the face conveyor by preparing an array of coal of the subroofing layer for production as the working face of the subsurface layer is moved by alternating loads from the side of the lining section overlap.

This goal is achieved by the fact that in the method of developing a powerful flat seam with the release of coal under-roof strata, which includes a combine excavation of coal in the undercut layer (layer near the formation soil), transporting the beaten-out coal along the working face with a scraper conveyor, maintaining the working space with support and protection sections of the mechanized support type, preparation of an array of subroofing thickness by dividing into equal portions by violation of its continuity and the release of a portion of coal of an array of subroofing thickness to a face conveyor Through the outlet windows in the fencing sections of the lining, in accordance with the technical solution, dividing the array of subroofing thickness into portions is carried out by cutting the longitudinal channels with the combine by increasing the power of each second removable strip, breaking the continuity of the array of subroofing thickness is carried out by spreading the sections of the roofing between the channels.

The invention is illustrated by the scheme is a cross section of the face.

The method of developing a powerful flat coal seam can be implemented as follows. The shearer 1, moving along the frame of the downhole scraper conveyor 2, beats coal in the undercut layer (a layer near the formation soil) and loads it onto the conveyor. The working space of the undercut layer is supported by sections 3 of the mechanized support of the supporting-protective type, equipped with devices for releasing coal to the face conveyor. The coal mass of the subroofing layer is destroyed by the forces of rock pressure; coal flows by gravity through the exhaust device to the downhole conveyor.

To increase the completeness of destruction of the subroofing massif and to increase the development efficiency, each second strip of coal in the undercutting layer is recessed to increase the thickness of the layer, thereby dividing the subroofing massif into longitudinal portions with channels 4 of a width equal to the capture width of the cutting unit of the combine (screw). In this regard, the lining sections are not bursting into the continuous roof of the undercut layer, but into the pillars 5 between the channels 4.

Depending on the physical properties of the coal, the pillars 5, perceiving the load from the overlapping side of the lining section 3, partially collapse and transmit compressive forces to the overlying thickness. Channels 4 do not perceive spacer forces from the side of the lining section, but experience pressure from the side of the overlying stratum, i.e. in the opposite direction, which stretch the surface of the channels 4. Two or three movements of the lining section contribute to cracking of the mass of the subroofing thickness, than prepare it for release, while the most prepared part or portion of the mass is directly above the outlet window of the lining section.

Thus, by cutting longitudinal channels in the subroofing massif, the latter is divided into portions, in which, as the working face moves and due to the uneven distribution of rock pressure forces and spacer forces from the lining section, intense cracking occurs, softening the mass and preparing it to release. This increases the efficiency of developing a powerful flat bed with the release of coal subroof thickness, which corresponds to the purpose of the invention.

Claims (1)

A method for developing a powerful shallow seam with the release of coal under-roof stratum, including combining excavation of coal in the undercutting layer - a layer near the soil of the seam, transporting the beaten-off coal along the working face with a scraper conveyor, maintaining the working space with supportive-protective type roof support sections, preparing the subroofing massif by dividing by equal portions, a violation of its continuity and the release of a portion of coal from the array of subroofing thickness to the downhole conveyor through the outlet windows in the section fencing lining, characterized in that the division of the mass of the subroofing thickness into portions is carried out by cutting the longitudinal channels with the combine by increasing the power of each second removable strip, breaking the continuity of the array of the subroofing thickness by spreading the lining sections in the pillars between the channels.

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