SU1420180A1 - Method of airing workings of considerable length - Google Patents

Abstract

This invention relates to a mountainous area. The purpose of the invention is to reduce the cost of maintaining a normal mode of ventilation. The device contains successively installed along the length of generation of fans, flexible pipes 2, 7, having suction ends 6, connected to fans, exhaust ends and valves 10, 11 and 13. In the places of installation of fans, compensation chambers (K) 4 are placed. Out The junction end of each pipeline 2, 7 connected to the previous fan is connected to the end 6. The latter is connected to the subsequent fan by means of K 4. Valves 10, 11 and 13 are installed at the ends 6. To ensure redundancy of the fans, the suction end of the flexible pipe the backup fan 12 is installed in K4. When the air pressure in K 4 decreases, valve 10 is activated and K 4 is sucked in from the air output. When the admissible gas content in K 4 is exceeded, valve 10 closes and valve 13 is turned on, which provides partial recirculation of air in the fan 5. 2 Cp f-ly, 3 ill. (cl

Description

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; The invention relates to the mining industry and can be used when airing large workings {length), for example, when penetrating them. I The purpose of the invention is to reduce the cost of maintaining the normal mode of ventilation and ensuring redundancy of the fans.

I FIG. 1 shows a schematic diagram of the proposed device; in fig. 2 - Compensation chamber; in fig. 3 - expansion: room in the compensation chamber of the main and backup fans.

The device comprises a first fan 1 with a flexible pipe 2 mounted on a fresh stream. The exhaust end 3 of the flexible pipe is inserted into the compensation chamber 4, in which a second fan 5 is installed, connected to the suction end 6 of the flexible pipe 7. The exhaust end 8 of the pipeline 7 is inserted into the next compensation chamber with a fan, etc. The last fan delivers air directly to the bottom through a flexible pipe 9. The compensation chambers 4 are equipped with valves 10 and 11 to maintain a predetermined pressure in them. If redundancy is required, a backup fan 12 connected in parallel with the second (main) fan 5 to the flexible pipe 7 can be placed in the chamber. The flexible pipe 1 of each subsequent fan can communicate with valve 13 with the help of the compensation chamber 4. Fan 1 installed in the excavation 14, delivers fresh air to the bottom of the excavation 15. The chamber 4 is equipped with a sensor 16 of methane.

The device works as follows.

Fresh air from the outlet 14 of the fan 1 through the flexible pipe 2 is supplied to the compensation chamber 4, from where the fan 5 via the flexible pipeline 7 is supplied to the next compensation chamber and so on until the ventilated generation 15. For short-term inconsistencies in operating parameters, for example, a valve Tori 1 and 5, the normal operation of the ventilation system is achieved due to the volume of the compensation chamber. With long-term disruption of normal operation, reliability is ensured

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a system of valves 10, 11 and 13. For example, when the air pressure in the compensation chamber 4 increases (the fan 1 supplies more air than the fan 5 takes) above the valve 11 setting limit, the latter releases excess air into the output and keeps the chamber set in the chamber pressure. When the air pressure in chamber 4 decreases (fan 1 delivers less air than fan 5 can pick up) valve 10 is activated and air is sucked into the air chamber from the output. The gas content in the chamber in this case is monitored by the sensor 16 and when the permissible norms are exceeded (for example, 0.5 ° / o of methane), the valve 10 is closed and the valve 13 is turned on, which partially recirculates the air in the fan 5. If the gas content rises, then the sensor shuts down the system. If redundancy is required, the backup fan 12 is installed in the chamber 4 and connected to the pipeline 7. The fan 12 operates in the same way as the fan 5.

Claims (3)

1. A device for aerating long workings, including successively installed fans along the working length, flexible pipes having suction ends connected to fans, exhaust ends, and valves, in order to reduce the costs of maintaining normal of the ventilation mode, it is equipped with compensation chambers located at the places where the fans are installed, and the exhaust end of each flexible pipe connected to the previous fan is connected to the suction the flexible end of the flexible pipe connected to the subsequent fan by means of a compensation chamber. 2. The device on c. 1, characterized in that the valves are installed on the suction ends of the flexible pipes. 3. The device according to paragraphs. 1 and 2, characterized in that, in order to ensure the redundancy of the fans, the suction end of the backup pipeline of the backup fan is installed in the compensation chamber. fie.g