SU972140A1 - Method of airing mines - Google Patents

Description

(54) MINE VENTILATION METHOD

one

The invention relates to the mining industry and can be used in mines and mines in the development of ore and non-metallic deposits.

A known method of ventilating the shaft consists in supplying fresh air through the air supply trunk, capital and preparatory workings and one of the excavation drifts and discharging the outgoing air stream to the day surface through the workings system 1.

The disadvantages of this method are: a limitation on the magnitude of a general depression; restriction on air velocity in mine workings. In addition, the transportation of air through workings in the form of a free jet leads to intensive heat exchange with the surrounding mountain massif, which is not desirable from the point of view of conditioning in deep mines with a positive temperature regime and according to the factor of stability of mine workings in mines with a negative temperature regime in permafrost . At the same time, low aerodynamic controllability of air distribution due to the presence of diagonals with unstable jet movement and significant air leaks does not reduce the risk of gas and gas and dust explosions.

The closest in technical essence to the present invention is a method of ventilation of a shaft, which consists in supplying a fresh stream of air from the day surface to the excavation section through a pipeline located in the trunk and preparatory workings. A part of the fresh jet is directed to the capital workings, and the outgoing jet from the cleaning and preparatory faces is also diverted through pipelines, with the end of the air exhaust pipe being placed behind the lava 2.

The main disadvantage of this method is that a fresh air jet is supplied to the excavation section through the pipeline from the surface. When the main and standby fans are stopped in an emergency, the mine will be without ventilation. In addition, this method, like all other known ones, provides for supplying refrigerants to the mine and the presence of refrigeration units on deep horizons.

which, as practice shows, are not effective.

The purpose of the invention is to increase the efficiency of ventilation.

The goal is achieved by the fact that in the ventilation method of the mine, which includes the supply of fresh air to the mine workings and its removal, the air is supplied and discharged by accumulating compressed air in gas holders with a further supply and removal of compressed air through the installed main ducts with reduction in places of consumption and compression during exhaust spray.

In addition, along the way, a number of additional effects are achieved, namely: the HBaiine mining of mines by supplying compressed air largely solves the problem of cold production in the mine, since the expansion of air is accompanied by heat absorption; compressed air for ventilation also solves the problem of overcoming the depression barriers on super deep horizons; airing the shaft with compressed air reserved in underground gas-holders provides air supply for a certain period after a mass loss of energy, i.e. increases the reliability of the mine ventilation system and the safety of mine workings.

FIG. 1 schematically shows mine output; in fig. 2 - feed and toroidal gas holders, section.

The proposed method is carried out as follows.

In parallel with the main barrel 1, feed 2 and 3 gas holders are utilized, which can be made in the form of a cassette of reinforced wells. At the depth of the developed horizon, a toroidal gas holder 4 is created around each of them, which is connected to gas holders 2 and 3, by a series of radial workings 5. From toroidal gas holders 4, supply 6 and outlet 7 main ducts are conducted. These air ducts are represented by They are specially passed mining workings of small section and are intended only for transporting compressed air.

From the main feed of his 6 and. The removal of 7 air ducts is carried out by concentrating and sectional 8 and 9 supply and exhausting 10 and 11 respectively, air ducts on which switchgears 12 and 13 are installed, sectional air ducts 9 and 11 are connected to mine workings, from which excavation fields are prepared. At the interfaces with the mine workings, the air ducts are equipped with reduction devices 14 and 15. Air from the surface with the help of compressor units -16 is compressed to an overpressure of 6-7 kg / cm and supplied to the supply gasholder 2. The capacity of the gasholder is designed, for example, for 12-16 hours independent ventilation of the shaft. Further, the air under pressure through a toroidal gas tank, the air ducts 6, 8 and 9 are supplied, for example, to

local mine workings through reduction devices 14, in which the pressure

air decreases to normal. In the area of mine workings in which people can be found, air that has been reduced to normal pressure is fed into the clearing holes 17. The outgoing air stream from the clearing hole 17 through blowers 18

served to the reduction devices 15, where the exhaust air is compressed, and then through the air ducts 11, 10 and 7, the gas tank 4 serves it to the issuing recycling gas tank 3.

Airing of preparatory faces is carried out similarly. Airing of mine workings for various purposes, including capital ones, is carried out by individual supply of compressed air and reducing it to normal pressure from ducts 6, 8 and 9. The proposed method allows to increase the efficiency of airing of the mines and mines at the expense of reducing the cross section major mining workings, as well as by increasing the reliability of the ventilation system, using air to transport minerals to the fr

compressed air in the technological cycle of mining production.

Claims (2)

Invention Formula The method of ventilation of the mine, which includes the supply of fresh air to the mine workings and its withdrawal, characterized in that, in order to increase the ventilation efficiency, the air is supplied and discharged by accumulation. OfjaToro of air in gas holders with a further supply and discharge of compressed air through the installed main ducts with a reduction in the places of consumption and compression during the discharge of the spent jet. Sources of information taken into account in the examination 1. A. A. Skochinsky et al. Mining ventilator. Ugletekhizdat, 1951, p. 514, fig. 249. 2. USSR author's certificate No. 592989, cl. E 21 F 1/00, 1974 (prototype). yx / Nf // x x M g / (i)