RU2101510C1 - Method for preventing air leaks through head of ventilating shaft - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: according to method, installed in wall of mine head-gear is mixing chamber of ejection ventilating unit with its outlet end directed to atmosphere. Supplied to nozzle of ejection ventilating unit is air outcoming from main shaft ventilating unit. Inleaking air from mine head-gear is removed by ejection through ejection ventilating unit. This reduces external leakage of air, ensures delivery of air into mine in amount equal to capacity of main ventilating unit, cuts power consumption for ventilation of mine. EFFECT: high efficiency. 1 dwg

Description

 The invention relates to the mining industry and is intended to reduce air loss through the surface structures of ventilation shafts.

 There is a method of preventing air leakage through the mouth of an air-venting ventilation shaft, which consists in dividing the upper part of the ventilation shaft by a partition into two channels, the mine air passes through the first channel into the channel connecting the barrel to the fan, and the second channel - mine air passes above the connection between the barrel and the fan in a way that prevents the passage of air leaks through the mouth of the trunk.

 A disadvantage of the known technical solution is the lack of effectiveness due to the limited use on the trunks used in the technological processes of ore delivery to the surface.

Closest to the proposed is a method consisting in creating a vacuum in the mine building with a special fan, while the air intake from the mine building does not go through the mouth [1]
A disadvantage of the known technical solution is the need for an additional fan.

 The aim of the invention is to increase the efficiency of preventing air leaks through the mouth of an air-venting ventilation barrel, based on the use of the energy of the flow of the ejection air suction from the mine building, while the ejection flow comes from the main ventilation unit.

 The goal in the proposed method is achieved by the fact that in the wall of the mine building there is installed a mixing chamber for the ejection fan unit, the exhaust of which is directed to the atmosphere, and air is exhausted from the main ventilation unit in the nozzle of the ejection fan unit, while air suction from the mine building is removed ejection through an ejection fan unit into the atmosphere.

 In comparison with the known prototype having an additional fan installation, the proposed method uses the energy of the air flow leaving the fan installation of the main ventilation.

 The proposed technical solution uses high-speed discharge created at the exhaust of the main ventilation fan unit to eject air leaks from the mine building, thus eliminating the passage of air leaks through the barrel mouth.

 The drawing shows a diagram of the proposed method for preventing air leaks through the mouth of the venting ventilation barrel, where the positions denote: 1 venting ventilation barrel; 2 channel connecting the barrel with the fan installation of the main ventilation; 3 fan installation of the main ventilation; 4 diffuser of the main ventilation fan installation; Channel 5 from the diffuser of the main ventilation fan unit to the nozzle; 6 mine building; 7 mixing chamber of the ejector fan unit; 8 ejector nozzle; 9 mine air flow; 10 air flow passing through the bore; 11 - air leaks; 12 air coming from the main ventilation fan installation; 13 ejected air leaks; 14 an ejection stream exiting the nozzle; 15 airflow entering the atmosphere.

 The method is as follows.

 Due to the vacuum generated by the main ventilation fan unit 3, the mine air stream 9 moves along the air-venting ventilation shaft 1, which is directed through the channel connecting the barrel to the main ventilation fan unit 2, and the main ventilation fan unit 3 itself into the diffuser of the main ventilation fan unit 4 , then the air coming from the fan unit of the main ventilation 12 passes through the channel from the diffuser of the fan unit of the main ventilation I am up to the nozzle 5 and fed into the nozzle of the ejector 8, from the nozzle of the ejector 8, the air coming from the fan unit of the main ventilation 12 comes out in the form of an ejection stream 14, which sucks the ejected air suction into the mixing chamber of the ejection fan unit 7 (due to the ejection effect) 13, which penetrate into the mine building 6 by flows of suction air 11 through leaks in the mine building 6, out of the mixing chamber 7 exit the general air flow entering the atmosphere 15, the ejection stream 14 and the ejected suction ozduha 13, wherein the air flow through the mouth of the barrel 10 becomes zero.

 The proposed technical solution will be tested at the SKPRU-1 mine of Silvinit JSC in the third quarter of 1996.

 Compared with the known technical solution prototype, the proposed technical solution will reduce the loss of energy consumption for ventilation of mines and increase the reliability of ventilation, which will affect the safety of mining of underground minerals.

Claims (1)

 A method of preventing air leaks through the mouth of an air-venting ventilation shaft, including removing air leaks from a mine building using a fan installation, characterized in that a mixing chamber of the ejection fan installation is installed in the wall of the mine building, the exhaust of which is directed into the atmosphere, and the nozzle of the ejection fan installation is fed the air leaving the fan installation of the main ventilation, while the suction of air from the mine building is removed by ejection through an ejector fan unit to the atmosphere.