SU1507987A1 - Method of airing the excavation area - Google Patents

Abstract

The invention relates to the coal industry and is intended to ventilate the excavation sites (WU) during the mining of coal-bearing gas. The goal is to increase the safety of mining operations and the efficiency of airing of the inlet device. Fresh air is supplied to the clearing face through two contouring excavation pillar (B). In this case, the outgoing jet of the high-pressure jet along B is directed, which passes in the inlet to the mounting chamber of each column being processed at the boundary of the mass-generated space. The outgoing jet from the clearing intake is discharged along B, supported behind the clearing inlet at the boundary of the mass-generated space. At the same time, air leaks with a high concentration of gas are diluted with fresh air to safe standards on the outgoing jet through the air amount regulators. The latter are installed in the bridges of the connecting furnaces between the central air supply B, which is carried out when cutting each excavation column, and B, along which the outgoing jet of air is diverted. 3 il.

Description

The invention relates to the mining, mainly coal, industry, and can be used to ventilate the excavation sites during the mining of coal-bearing coal seams.

The purpose of the invention is to improve the safety of mining operations and the ventilation efficiency of the excavation site.

FIG. 1 shows a diagram of the ventilation of the excavation section when working on one extraction column in the panel, a plan view; in fig. 2 shows the ventilation pattern for working out two excavation pillars in the panel, a plan view; in fig. 3 shows the ventilation pattern when the adjacent extraction column with the previously spent column is prepared for excavation, a plan view.

In the method of ventilating the excavation site, which includes supplying fresh air to the cleansing face through two contouring excavation pillars and discharging the outgoing jet from the cleansing slab, supported behind the clearing face at the boundary of the mass-generated space, the outgoing jet of the excavation portion is guided , which passes in addition to the mounting chamber of each worked-out column at the boundary of the mass-developed space, while diluting the air leaks with a high concentration of gas Fresh air is supplied to safe norms on the outgoing jet through the air quantity regulators installed in the bridges of the connecting furnaces between the central air outlet, carried out when cutting each extraction column, and the outlet through which the outgoing stream of the section is diverted.

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The ventilation of the excavation section is carried out according to a scheme that contains extraction columns 1 and 2, excavation tracks 3 and 4, mounting chambers 5, ventilation openings 6 for diverting outgoing jets from the excavation sections that go to the mounting chamber 5 for each extraction space a column, a central air supplying outlet 7 for supplying fresh air and transporting cargo, ventilation bridges 8 with air flow regulators 9, installed in shedding furnaces 10 between ventilation assemblies 6 and a central air vent a supply opening 7, a preparatory production 11 for cutting adjacent excavation pillars, a local ventilation fan 12 for airing the bottom of the preparatory production 4, a cleaning face 13.

The method is carried out as follows.

The outgoing jet from the cleaning hole 13 of the extraction column 1 (Fig. 1) is retracted along the excavation pad 4, supported behind the cleansing hole, and the outgoing jet of the excavation section is removed through the ventilation section 6 beyond the limits of the excavation panel. Air leaks (indicated by arrows) with an increased concentration of methane under the influence of depression are transferred to the ventilation valve 6, where they are diluted to safe norms with fresh air through air flow regulators 9 installed in the jumper-8 in the final furnaces 10 between central air supplying openings 7 and ventilation connections 6. Preparatory openings 11 produce cutting of an adjacent extraction column, the downhole preparatory openings 11 are ventilated with local ventilation fan 12, set in prices Air supplying 7.

After the start of the mining of the extraction column 2 (Fig. 2), the inlet to the mounting chamber 5 of this extraction column prior to the primary landing of the main roof at the border of the mass-generated space passes the ventilation assembly 6, starting from the clearing hole 13 and from the extraction section of the extraction column 2 is discharged by pin 4, supported behind the clearing hole, and a part of the central air supplying exit 7, along which the outgoing jet of the p-preparatory exit 11 is also drained. Airing of the excavation section of the extraction pole 1 is carried out as described above (Fig. 1).

After the completion of the vent of the sled assembly 6 for the extraction column 2, the ventilation of the extraction section of this extraction column is carried out according to the drift 4 and the ventilation coupling 6 (Fig. 3). Adjacent to the extraction column I plot prepared for the clearing recess. Simultaneously with the mining of the extraction column 2, the subsequent cutting adjacent to the extraction column 2 is made. The use of the method will allow to carry out a cleaning excavation simultaneously in two excavation pillars in the panel (block), to reduce downtime of mining mechanisms and to increase the load on the clearing holes while improving the safety of mining operations during the clearing excavation.

Claims (1)

Invention Formula The method of ventilation of the excavation site, which includes the supply of fresh air to the cleansing face through two contouring excavation pillars and discharge of the outgoing jet from the cleansing face, is maintained behind the clearing face at the boundary of the mass-developed space, characterized in that mining and airing efficiency of the excavation section, the outgoing jet of the excavation section is guided along the excavation, which is passed through to the assembly chamber of each workout an air column with a high gas concentration is diluted with fresh air to safe standards on the outgoing jet through the air amount regulators installed in the bridges of the final furnaces between the central air supply pillar, and the development, which deviated from the end of the jet stream area. cpuai cpue.Z SrigZ