RU2085747C1 - Method for ventilation of blind workings - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: this is intended for high efficiency ventilation of underground workings near cutting face. For this purpose, installed in cutting face zone of working is longitudinal partition which separates ventilation ejection unit from remaining part of blind working, and polluted air is withdrawn along wall of working in direction of withdrawing stream. Delivery of compressed air is effected along opposite wall of working. Amount of fresh air delivered to blind working is equal to amount of withdrawn polluted air. Delivery of fresh air is effected due to total mine depression. Longitudinal partition is untight over its length. Besides, additional depression is created by plant in direction of air stream of ejector fan. Fan is located in cutting face part of working between its wall and longitudinal partition. Usable in function of longitudinal partition is such machinery as heading combine, bin-reloader or self-propelled mine car. EFFECT: high efficiency. 1 cl, 1 dwg

Description

 The invention relates to the mining industry and can be used for ventilation of mine workings.

A known method of ventilating workings by suction of pollution through a pipeline using a fan installed near the neck of a dead end [1]
A disadvantage of the known technical solution is that with this method it is necessary to use a pipeline of rigid materials, which leads to an increase in the complexity of the installation of the pipeline, and there is also the problem of timely build-up of the pipeline as the bottom moves, which is dangerous due to the accumulation of pollution in the bottom-hole zone.

Known is a combined method of venting a dead-end mine using two fans with a jumper in the near-well zone [2]
A disadvantage of the known technical solution is the need to use two fans and the use of a rigid duct for the suction fan. The time-consuming movement of the jumper as the face moves, the time-consuming constant measurement of the pipeline rate, which is associated with stopping the production process. The pipeline is not tight and therefore there are air leaks, which leads to a swirling stream of clean air and, consequently, a decrease in the volume of air involved in washing the face of the dead end mine. All of the above reduces the effectiveness of airing a dead end.

 The closest analogue to the claimed invention is a method [3] in which when venting dead faces due to mine depression, the dead ends of the workings can be ventilated using partitions.

 The disadvantages of this method include large leaks and, as a result, the low flow rate of the ventilation stream reaching the bottom faces, the cumbersomeness of erecting large partitions.

 The purpose of the proposed method of ventilation of the dead-end mine is to increase the efficiency of ventilation of the bottomhole zone. No piping is used.

This goal is achieved by the fact that in the method of venting a blind hole, including installing a longitudinal partition along the length of the blind hole, supplying fresh air to the bottom-hole zone of the mine due to social depression along one wall of the mine and removing contaminated air along the opposite wall, the longitudinal partition is performed with leaks along its length, create additional depression by installing an ejector fan located along the bottom of the working ki between its wall and a longitudinal partition. As a longitudinal partition, the equipment of the tunnel complex is used, for example, a roadheader, a hopper loader or a self-propelled car. 9
The drawing shows a dead end 1, conducted from the through aerated outlet 2, through which jets of fresh air 3 and polluted air 4 pass, in the dead end 1 there is a fan ejection unit consisting of an ejector fan 5, a shell 6, a longitudinal partition 7. Longitudinal partition 7 from the side of the face limits the bottom-hole zone 8 of the dead-end mine 1 and is made with leaks along the length.

The method is implemented as follows:
The ejector fan 5 is turned on, the air volume of the bottomhole zone 8 is passed through the shell 6, separated from the rest of the output by the longitudinal partition 7, the contaminated air 4 from the bottomhole zone 8 is removed along one wall of the excavation 1, which has an ejector fan, while due to depression, created by the ejector fan in the bottom-hole zone 8, along the other wall of the mine 1 passes fresh air 3 into the bottom-hole zone 8, as a result of which there is air circulation in the mine working 1. Since there is movement tion of air through a ventilated formulation 2, the contaminated air 4 from the stall generation output toward the outgoing stream, the same amount of fresh air supplied to the winding 3 stall 1 generation.

 The method eliminates the use of special pipelines. The ventilation scheme for the culvert production is circulating, with the removal of dust and gases to the outgoing stream.

 It is advisable to use this method when driving blind pits with combine complexes, when hazardous emissions are distributed evenly, and there is also equipment moving behind the bottom of the face where the ejector fan can be placed.

Claims (2)

 1. A method of venting a dead-end mine, including installing a longitudinal partition along the length of the dead-end mine, supplying fresh air to the bottomhole mining zone due to a shaft depression along one wall of the mine, and removing contaminated air along the opposite wall, characterized in that the longitudinal partition is made with leaks along it length and create additional depression by installing along the stream of air an ejector fan placed in the bottom-hole part of the mine between its wall and noy partition.  2. The method according to claim 1, characterized in that the equipment of the tunnel complex is used as a longitudinal partition, for example, a roadheader, a hopper loader or a self-propelled car.