SU1472672A1 - Method of mining a sloping mineral bed with goaf-filling - Google Patents

Abstract

The invention relates to the mining industry and prevents the violation of the earth's surface by increasing the intensity of mining operations while maintaining the safety of mining operations. The extraction pole is prepared by conducting ventilation and haulage workings along its boundaries, and the column is tested by chambers (K) from the boundaries to the center along the dip and rising of the formation. As K is removed, the conveyor is assembled. As K is excavated, a niche in K is formed at the soil of the stratum from the side of the untouched massif. At the same time, the installation of the filling pipeline was performed. As you fill the tab, we spend the dismantling of pipeline sections. The dismantled section of the pipeline is laid in a niche and is blocked by a filter partition, which provides drainage of wastewater of the backfill array when working on a fall. Fresh air stream is fed through a niche. After digging, K pushes the conveyor into the niche and makes its laying. After the completion of the excavation K, the equipment is used in the excavation of the next K, and the excavation of K from one border is made simultaneously with the tab K from the other border. 3 il.

Description

one

The invention relates to the mining industry and is intended to develop flat seams of minerals with excavation equipment of frontal action with the laying of a goaf.

The aim of the invention is to prevent disturbances of the earth's surface by increasing the intensity of mining operations while maintaining the safety of mining operations.

FIG. 1 shows a scheme for implementing the method, a plan view; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. one.

The method is carried out as follows.

The preparation of the extraction column is carried out by contouring it with ventilation

1 and 2 drip holes, conveyor 3 and vent 4 ramps. The conveyor belt 3 is equipped with a main conveyor 5, to which coal flows through the conveyors 6, -7 when excavating chambers 8 alternately from ventilation and haulage drifts. A conveyor 9 is installed on the vent wall 4 to its middle, which is used to transport coal to the conveyor 7 at the time the combine 10 enters the newly conducted chambers. Conveyors 5 and 9 are installed at the outer edges of the workings in order to ensure free passage of the harvester through the Bremsberg. In the chambers, movable bending conveyors 6 and 7 are mounted, installation and wiring of the backfill pipe 11, installation of local ventilation fans 12 and

GO

Gi Yu

vodka the ventilating duct 13. The excavation by the harvester 10 of the first chamber is effected, for example, from a ventilation drift. Simultaneously with the notch of the chambers 14, the working body of the harvester is designed out of a nk 15. 15 At the same time, elements of a backfill pipe 17 suspended from the roof are mounted in the chamber. After the excavation of the chamber 8 is completed, the combine 10 is withdrawn to the vent bremgsberg 4 and through it is distilled to the haulage drift 2, where the next chamber 14 is nicked and dredged. At this time, in the chamber 8 near the ventilation drift, the conveyor is moved 6 to beggar 15, install the fastener racks 18, carry out work on laying the worked-out chamber space with simultaneous dismantling of the backfill pipeline. The elements 19 of the filling pipe 17 are placed in the bottom 15, and the niche 15 is separated from the filling mass by a filter partition 20, which provides drainage of the waste water of the filling mass during the fall operation.

Upon completion of the excavation of the chamber 14 at the haulage gateway, the combine is brought onto the conveyor belt 3 and is then distilled to the ventilation drift 1 to excavate the next step-in chamber adjacent to the depleted and indented chamber 8. At this time, in chamber 14 works on laying the developed space.

In this sequence, the whole excavation column is refined, with the front of the cleaning operation moving from the border to the center of the column.

A fresh stream of air enters through the haulage gateway 2 and the local ventilation fans 12 are supplied through pipelines 13 to niches 15 for airing the exhaust space of the entrance chamber. The waste water of the backfill array, when excavated by a dip, drains through filter partitions 20 into the chambers and enters the niches on the conveyor belt 3, which is fed into the precinct and pumped out of it into the main

Schachty water collector. When hardening bookmarks are used, partitions 20 are set to a height of a niche 15, and when using a bookmark made of non-hardening materials {hydraulic or pneumatic bookmark) - to the entire height of the chamber.

Claims (1)

Invention Formula A method for developing a flat mineral reservoir with laying a developed space, which includes preparing the excavation column by conducting ventilation and haul openings along its boundaries, working off the column with chambers, installing the conveyor as the chamber is dredging, 0 forming a hole in the chamber from the side of the untouched massif with its covering filtering the partition, installation of the filling pipeline, dismantling its section as the chamber is filled with a tab, the flow of fresh air into the chamber and the reuse of the during the excavation of the following chambers, characterized in that, in order to prevent disturbances of the earth's surface by increasing the intensity of mining operations while maintaining 30 mining safety, poverty is formed near the soil of the reservoir as the chamber is excavated and at the same time the installation of the filling pipeline is carried out, fresh air is supplied through after the chamber has been removed, the conveyor is pushed into the niche and the chamber is laid out, the section of the filling pipeline being dismounted is placed in the niche and its filing is blocked with a septum as the chamber is filled with a bookmark, and mining of the extraction column is carried out from the boundaries to the center 40 in the fall and rise of the reservoir. In this case, the chamber is dredged at one border at the same time as the camera is laid at another border. 7 21 1 / .Gd V //////////// /// //////////////////////// ////// // / /// 0 srig.g 77  l  D. ; d - dl . f    . . U. -d- Yes . ; . l -; : & t u // //// // A / ////// / 7 / //////////////////////// / srig.Z nineteen