RU2117158C1 - Method for ventilation of blind working - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: according to method for ventilation of blind working, fouled air is evacuated from work face zone by means of circulation vortex motion. Installed in one of contours of circulation vortex motion is source of draft, and exercised is intensive movement of air through contours of circulation vortex motion. Evacuation of fouled air from work face zone is effected through one side of each contour of circulation vortex motion. Delivery of fresh air is effected through other side of each contour. Source of draft is moved in cyclic manner along mine working from one contour to another. Application of aforesaid method increases efficiency of ventilation along entire length of blind underground working. EFFECT: higher efficiency. 1 dwg

Description

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

 There is a method of natural ventilation of a long dead-end mining due to the circulation vortex movement (Krasnoshtein A.E., Fainburg GZ) Diffusion network methods for calculating the ventilation of mines and mines. / Yekaterinburg, 1992. Chapter 7, paragraph 7.1, p. 148-164, fig. 7.8).

 The disadvantage of this method is not always sufficient ventilation along the entire length of the output due to natural air exchange.

 Closest to the proposed method is the ventilation of a dead-end mine, including the removal of contaminated air from the bottomhole zone using a vortex movement, where a traction source is installed in one of the circulating vortex motion circuits and intensive air movement along the circulating vortex motion circuits is carried out, and contaminated air is removed from the bottom-hole zone is carried out on one side of each circuit of the circulating vortex movement, and the intake of fresh air - p on the other side of each circuit of the circulating vortex movement (patent RU N 2064588 C1 of 07.27.96. Bull. N 21).

 The disadvantage of this method is the insufficient ventilation along the entire length of the output due to the traction source located constantly in one of the circuits of the vortex circulation.

 The aim of the invention is to increase the efficiency of ventilation along the entire length of the dead-end mining.

 The goal is achieved by the fact that a traction source is installed in one of the circuits of the vortex circulation movement and cyclically moved from one circuit to another along the excavation - this allows you to accelerate the vortex circulation movement in all circuits (vortices) of the ventilated dead-end mining, providing the necessary ventilation to remove contaminated air along the entire length of the mine. The higher the performance of the traction source, the more intensively the circulation movement in the dead-end mining, the more intensively the volume of polluted air is replaced by the fresh coming from the neck of the dead-end mining.

 The drawing shows a dead end mine 1 having the contours of: circulating vortex movement 2 and ventilated from a through ventilated mine 3, through which jets of fresh 4, contaminated 5 air pass, a traction source 6 installed in one of the circulating vortex movement directions 7 the movement of the traction source and the direction 8 of the air stream leaving the traction source.

 The method is implemented as follows: the thrust source 6, installed in one of the circulating vortex motion circuits 2, is turned on, and the contaminated air 5 is removed from this circuit through the thrust source 6 to the circulating vortex motion circuit 2, which is closest to it in the direction of air flow direction 8, and fresh air 4 enters the other side of the circuit of the vortex circulation, the traction source 6 is cyclically moved from one circuit to another in the direction 7 along the mining dead end 1, as a result of which there is no air circulation in each circuit 2, and the contaminated air 5 due to the operation of the traction source 6 is more intense than when the traction source 6 is stationary in one circuit 2, it is removed from the dead end mine 1, and the polluted air 5 enters the next direction 8 air stream, the circuit of the vortex circulation 2 and so on until the through ventilation aerated 3, and fresh air 4 similarly through the circuits of the vortex movement enters circuit 2, where the traction source 6 is located, then e Intensive air exchange occurs. Since there is air movement through the through ventilated mine 3, the polluted air from the dead end mine is discharged towards the outgoing stream, the same amount of fresh air 4 will enter the ventilated dead end 1.

 This method is advisable to use when driving a dead end mine workings with combine complexes, when the allocation of hazards occurs evenly, for intensive ventilation of the mine along the entire length.

 At the mine of the First Solikamsk Mine Administration of JSC Silvinit, experimental work is underway to test the proposed method.

Claims (1)

 A method of venting a dead-end mining, including the removal of contaminated air from the bottomhole zone using a circulation vortex movement, where a traction source is installed in one of the circuits of the circulation vortex movement and intensive air movement along the circuits of the vortex circulation is carried out, the contaminated air being removed from the bottomhole zone one side of each circuit of the circulation vortex movement, and the intake of fresh air on the other side of each the circulation vortex motion structure, characterized in that the traction source is cyclically moved along the mine from one circuit to another.