SU730971A1 - Method of dedusting a preparatory working face - Google Patents

Description

the same, with the location of the dust collection unit at the main workings. In the bottom of 1 preparatory generation 2, connected to the main output 3, along which fresh air 4 flows, a sinking combine 5 is installed, which forms dust during destruction.

For suction and subsequent cleaning of dusty air from dust, the preparatory generation 2 is provided with a dust removal unit 6. At the entrance, the dust removal unit 6 has an air inlet 7 with an air inlet 8, and an outlet 9 for exhausting the cleaned air with an outlet 10.

For supplying fresh air to the bottomhole 1, a local ventilation fan 11 is installed at the primary excavation 3 with a flexible pipe 12- laid along the entire length of the preparatory excavation 2.

The fresh air for ventilation of the preparatory mine is supplied by a local ventilation fan 11 through two outlets 13 and 14. Hole 13 is located near the bottom 1 at a distance of L less than 8 m, opening 14 is removed from the bottom 1 by a distance of Lg, more than 8 m. Air in the amount of Gt.jgg passes through the near outlet opening 13, air in the amount Q passes through the remote outlet opening 14. The air in the amount of QOTJ is sucked out by the dust collecting unit 6. The total amount of air QiQj + Q jjg for ventilation of preparatory generation is greater than the amount of air Qoif sucked by the dust collecting unit b by the amount Qg. Amount of QOTC air sucked off by the dust-collecting unit b. more than the amount of air Q3o6 supplied for ventilation 1, by Q value. Instead of a pipeline with two outlets, two pipelines can be applied, laid in parallel, one of which is built up ahead of the other.

When the combine 5 fails to operate with a local ventilation fan 11, air is supplied only in an amount through the near outlet 13. Air washes in the face 1 and, in preparation air 2, returns to the main production

When the sinking combine 5 is turned on, the outlet 14 opens and the dust collecting unit is turned on. B. Since the amount of air drawn in QOTC. more air flow OZDR. I supplied to, part of the air is equal to

 the outlet 14 is directed to the air intake port 8 of the air intake manifold 7, presses the dusty air and prevents it from escaping from the bottom hole.

Dusty air enters the air intake manifold 7, is cleaned in the dust collection unit, and is discharged into the atmosphere of preparatory generation 2 or primary generation 3.

Due to the fact that the amount of air supplied to the preparatory generation, by the value of Q. is more than the amount of suction

5 air, air in the amount of preparatory development 2 in the direction of the primary development 3, the fan this area.

The method is as follows.

0 way.

Sucked dusty air in the amount of QOTC, 350. Fresh air is supplied to the face through the air inlet located

5 at a distance of 8 m from the bottom of 9z 100, and through an outlet, located at a distance of 25 m from the bottom of the bottom of 29z.

At the same time, the dust content in the air has decreased to 16 mg / m

Claims (2)

1. Skochinsky A.A. Miner ventilation. Ugletekhizdat, 1951, p. 401. 2. Abkin A “A. Dust removal unit PU-1. The fight against dust in the coal mines of the USSR. M., .1962, p. 85-86 (prototype). n t2 . % V {CR f, L, SM t df L g bjs L 4 2