RU2325536C2 - Underground main fan system - Google Patents

Abstract

FIELD: mining industry.

SUBSTANCE: system incorporates operational and standby air-screw fans installed in a fan room. The fan room is divided in two by means of horizontal longitudinal baffle. Fans are installed in the top section at an acute angle to the room axis. The bottom section is divided into two compartments by means of a vertical longitudinal baffle; the said compartments are used as air supply and air exhaust channels. Isolation valves are installed in interconnecting channels, which connect the fans with air supply and exhaust channels. The installation connection is connected to the fan room end in the top section.

EFFECT: less mining losses during sheet deposit development and improved safety for miners.

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Description

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

Known underground ventilating installation of the main ventilation [1], consisting of a working and backup fans with reversing devices located in one fan chamber, air supply and output (air exhaust) channels, tees with switching lads installed in them, transport mounting failure, input connecting elbows, with which the fans mate with the air ducts.

The disadvantages of the fan installation of the main ventilation are the large capital costs for conducting air supply and exhaust ducts and the installation of reversing devices of fans (switching boxes installed in tees) and operating costs for their repair and maintenance, as well as significant losses of minerals in the safety pillars around the fan installations in the development of reservoir deposits.

The closest technical solution, selected as a prototype, is an underground main ventilation fan installation [2], consisting of a working and backup fans with reversing devices located in one fan chamber, air supply and air exhaust channels located in the part of the fenced longitudinal vertical partition of the fan chamber of connecting channels with shut-off ladders, mating fans with air supply and exhaust channels, tees, connected through ventilation ducts with a common mine ventilation network, and transport installation failure.

The disadvantages of the prototype are the increased capital costs for the installation of reversible fans and operating costs for their repair and maintenance, as well as increased losses of minerals in the safety pillars around the fan unit during the development of reservoir deposits.

The present invention solves the problem of reducing the capital and operating costs of the underground ventilating installation of the main ventilation and mineral losses by changing the spatial arrangement of the fans and the air supply and exhaust ducts in the fan chamber.

To achieve this technical result, in an underground fan installation that contains a working and backup axial fans located in one fan chamber, a mounting fault connected to the fan chamber, in contrast to the prototype, the fan chamber is divided into two parts by a horizontal longitudinal partition. The upper part of the fan chamber is divided by a longitudinal vertical partition into two compartments, one of which is used as the air supply, and the other - air exhaust channels. The mounting fault is connected to the end of the fan chamber.

Figure 1 shows a schematic diagram of an underground fan installation of the main ventilation, a plan view; figure 2 is a section aa in figure 1; figure 3 is a section bB in figure 1.

The underground fan installation of the main ventilation includes a working 1 and a backup 2 axial fans located in the fan chamber, which is connected to the general ventilation network using ventilation channels 3. The fan chamber is divided by means of a horizontal longitudinal partition 4 into the upper 5 and lower parts. The latter is divided by means of a longitudinal vertical partition 6 into an air supply 7 and an air outlet 8 channels. Fans 1 and 2, located in the upper part 5 at an acute angle to the longitudinal axis of the fan chamber, which makes it possible to reduce its width, are connected to the air supply 7 and air exhaust 8 channels by means of connecting channels 9. Mounting fault 10, intended for the delivery of equipment and materials, is connected to the upper part 5 of the fan chamber. Fans 1 and 2 are equipped with shut-off valves 11 to prevent air leakage through an idle (standby) fan.

The underground fan installation of the main ventilation works as follows.

In the operating mode or in the mode of reversing the air stream, either the working fan 1 or the backup fan 2 are working (at the discretion of the ventilation service at the mine). In any case, idle fans 1 or 2 are isolated from the air duct 8 by shut-off valves 11 of the fans. In the operating mode, air due to the vacuum created by the fan impeller, enters from the general ventilation network into the ventilation channel 3, enters the air supply channel 7, passes through fan 1, the air exhaust channel 8, and through the ventilation channel 3 enters the ventilation network. The movement of air in FIGS. 2 and 3 is shown by solid lines.

When reversing the air stream in a general ventilation network, the fan 1 is reversed (the direction of rotation of the impeller is changed) and the air moves in the opposite direction, as shown in FIGS. 2 and 3 by dashed lines.

Mine 14-14 bis of OJSC Sevuralboxitruda develops a bauxite ore deposit represented by a reservoir-like deposit of variable thickness from 0.5 to 40 m with an incidence angle of 30 ° on average. In the recent past, the deposit was mined by the open pit method, and currently the mine’s working horizons are at levels from –620 to –740 m. Development systems used in the mine (chamber, layer caving, etc.) have led to the formation of significant volumes of worked out spaces, by means of which the working horizons and working blocks in them are connected aerodynamically not only with each other, but also with the surface.

The mine is ventilated with three main ventilation units installed on the surface in different parts of the mine field. With a total fan capacity of 255.4 m ³ / s, it enters the mine from the surface: through the main air supply shaft 14 bis - 72.4 m ³ / s; for cross-valves from a neighboring mine - 43.4 m ³ / s or only 115.8 m ³ / s, which is 45.5% of the total capacity of three fan units (ΣQ _vi ). Air losses in mine complexes are relatively small and average 21.9%. Thus, 67.4% of the total fan capacity is the volume of air entering the mine at the main workings and surface leaks in the mine complexes. The rest of the air entering the mine and given out by the fans (35.3% of ΣQ _bi ) is its leakage through the worked out spaces from the surface. This air is not involved in the ventilation of work areas. In this regard, a mine reconstruction project was developed using two underground ventilation units for main ventilation. The installations were to consist of VTsD - 31.5 M2 fans with an average capacity of 110.3 m ³ / s, providing working areas with air 50% more than existing ones.

However, the large sizes of the fans created a number of difficulties associated with their delivery to the mine, installation and the large size of the fan chambers and, as a consequence, their poor stability. Therefore, to reduce the size of the cross section of the fan chamber, the project provides for the placement of four smaller VTs-15 fans in one chamber, with three of them working (one in reserve) with a total capacity of 112.1 m ³ / s.

The application of the proposed technical solution avoids suction from the surface, eliminates air leaks through the mine complexes (buildings), and reduces capital and operating costs in comparison with existing technical solutions. At the same time, it is possible to achieve the required safety of miners by improving the sanitary-hygienic working conditions at workplaces. It is also possible to reduce the loss of minerals in the safety pillar around the fan unit due to the more compact arrangement in the space of the air supply and exhaust channels.

The application of the proposed technical solution allows to reduce capital and operating costs and reduce the loss of minerals in the security pillars around the fan unit during the development of reservoir deposits in comparison with existing technical solutions.

Capital costs are reduced by eliminating the need to install reversible fan devices for reversing the air stream. Operating costs are reduced by eliminating the need for maintenance and repair of air jet reversing devices. At the same time, it is possible to achieve the required safety of miners by improving the sanitary and hygienic working conditions at workplaces, and it is also possible to reduce the loss of minerals in the safety pillar around the fan unit by using the bottom of the fan chamber for the air supply and exhaust ducts and the location of the fans under sharp angle to the longitudinal axis of the fan chamber.

Information sources

1. RF patent №2114310, class. E21F 1/08, publ. in 1998.

2. RF patent No. 229111, cl. E21F 1/08, publ. in 2005.

Claims (1)

The underground ventilating installation of the main ventilation, including the working and standby fans located in the fan chamber, connecting ducts, air supply and exhaust ducts, mounting failure connected to the fan chamber, characterized in that the fan chamber is divided into two parts by a horizontal longitudinal partition, the upper part contains fans at an acute angle to the longitudinal axis of the fan chamber, and the lower part is divided by a longitudinal vertical partition into va branch, which are used as air supply channels and Air Release.

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