RU2678171C1 - Sectional ventilation shaft ventilating and heating plant - Google Patents

Abstract

FIELD: mining.SUBSTANCE: present invention relates to the mining industry and can be used for the oil boreholes sectional ventilation through the located on one site ventilation shafts. Invention provides for the site arrangement with air supply and ventilation shafts with the shaft ventilating and heating plant for the sectional ventilation, including connected to the suction channel operational and standby fans, auxiliary channels and switching flaps, changing the plant operating mode from direct to reverse. At that, the flaps are crosswise placed in the switching unit, installed at the intersection point of the suction channel, connected to the ventilation shafts auxiliary channels, and vertical air supply channel equipped with the air heater heat exchangers.EFFECT: technical result consists in provision of the heated in the air heater air supply both in the forward and reverse modes, reduction of air pressure losses in the plant ducts and the capital costs reduction during the plant construction.3 cl, 6 dwg

Description

The present invention relates to the mining industry and can be used for sectional ventilation of oil mines through ventilation wells located on one site.

Known mine fan installation of the main ventilation for mines, adopted as a prototype, in which the ventilation and air supply shafts are located on the same site, including the working and backup fans connected to the suction channels and the diffuser, the supply channel connected to the ventilation shaft, switching lads and auxiliary channels in which the inlet channel is connected to the air supply barrel by an auxiliary channel having a cross section smaller than the cross section of the inlet channel and at the junction of the supply channel with the auxiliary channel, a switching lade is placed (Copyright certificate SU 1425346, IPC E21F 1/08, publ. 23.09.88).

The disadvantages of the prototype are the lack of supply to the shaft of heated outside air in the heater during reverse operation, increased air pressure losses in the auxiliary channel of a reduced cross-section during the reverse mode of operation of the installation, high capital costs associated with the passage of the auxiliary channel and the construction of separate fan and air-conditioning units.

The objective of the invention is to ensure the supply of heated external air in the heater both in direct and in reverse operation, reducing air pressure losses in the installation channels and reducing capital costs during installation.

The problem is solved using the signs specified in the 1st claim that are common with the prototype, such as a mine fan-heater for sectional ventilation of oil mines, with air supply and ventilation wells located within the same area, including working and backup fans, connected to the suction channel, auxiliary channels, switching steps and with a heater installed near the air supply channel, and distinctive essential features, Lyady as the modifying mode setting from forward to reverse, arranged crosswise in the switching unit installed in the suction duct crossing point, auxiliary channels connected with ventilation boreholes and air supply duct.

According to paragraph 2 of the claims, the heat exchangers of the air heater installation are equipped with louver valves at the inlet, placed in pairs on four sides in the upper part of the vertical air supply channel, which has an opening and attachment points to the switching unit in the lower part, and an opening for supplying air to the shaft at the upper end without heating, closed by louvre valves, while a protective cap is installed on the vertical air supply channel with removable cassettes placed around the perimeter in the lower part, covered with polymer mended that prevents ingress of precipitation and foreign matter into the channel.

According to paragraph 3 of the claims that switching ladders are made in the form of fire-resistant cylindrical covers with conical sealing surfaces, equipped with linear linear actuators, carried outside the channels and placed in compartments on the roofs of the blocks.

The mine fan-heater for sectional ventilation of oil mines, with air supply and ventilation wells located within the same area, includes a working and backup fan connected to the suction channel, auxiliary channels, switching lads and a heater installed near the air supply channel, that frets changing the operating mode of the installation from direct to reverse are placed crosswise in the switching unit installed at the intersection point of the sun ik- channel subsidiary channels connected with ventilation boreholes and air supply duct.

The installation according to claim 1 is characterized in that the heat exchangers of the air heater installation are equipped with louvre valves at the inlet, placed in pairs on four sides in the upper part of the vertical air supply channel, which has an opening and attachment points to the switching unit in the lower part, and an air supply opening in the upper end a shaft without heating, closed by louvre valves, while a protective cap is installed on the vertical air supply channel with removable cassettes fitted around the perimeter at the bottom mesh, preventing precipitation and foreign objects from entering the channel.

The installation according to claim 1 is characterized in that the switching ladders are made in the form of fire-resistant cylindrical covers with conical sealing surfaces, equipped with linear linear actuators, carried outside the channels and placed in compartments on the roofs of the blocks.

The above set of essential features makes it possible to obtain the following technical result - ensuring the supply of outdoor air heated in the air heater in both direct and reverse operation, reducing air pressure losses in the installation channels and reducing capital costs during installation.

The invention is illustrated by drawings, which depict:

in FIG. 1 - general view of the installation;

in FIG. 2 - block switching with air flow diagram;

in FIG. 3 - fan block with exhaust channel;

in FIG. 4 - a protective cap and a block of the air supply channel;

in FIG. 5 - block heat point;

in FIG. 6 - drive compartment.

The installation consists of a main fan unit 1, a backup fan unit 2, two exhaust channels 3, a suction channel unit 4, a switching unit 5, an air supply channel unit 6, a protective cap 7, a heating unit 8, two auxiliary channels 9 (Fig. 1) .

The main fan unit 1 and the backup fan unit 2 are of the same design and are an all-metal heat-insulated container 10 in which an axial fan 11 is installed, with silencers 12 at the inlet and outlet of the fan 11, a manifold 13 and an output diffuser 14. To facilitate maintenance, the fan 11 is installed on the draw-out frame 15, and the container 10 is equipped with doors 16, providing for rolling out the frame 15 and doors 17 for personnel access to the unit. The output diffuser 14 in the area that extends beyond the container 10 is equipped with thermal insulation 18 (Fig. 3).

The exhaust channels 3, connected by flexible inserts 19 with the output diffusers 14, are steel pipes 20 of large diameter mounted on the supports 21, with smooth bends of the stream 22 at the end of the channel 3.

The exhaust channels 3 are coated with a sprayed polyurethane foam insulation 23. At the ends of the outlets 22 protective double-leaf valves 24 with electric actuators 25 are installed, the edges of the valves 24 are heated in the cold season by heating cables 25.

The block of the suction channel 4 is an all-metal thermally insulated container 26 of a five-pointed shape. The ends of the container 26 having cylindrical openings 27 and 28 are connected to the main fan blocks 1 and the back-up fan unit 2. The openings 27 and 28 are equipped with cords 29, 30 in the form of fire-resistant cylindrical covers with conical sealing surfaces. Loads 29.30 are mounted on vertical axes 31, which are rotated by linear linear actuators 32, which are removed from the interior of the container 26 to the roof in a special drive compartment 33. A window for supplying air 34 from the switching unit is provided on the opposite side of the openings 27, 28 5. For servicing the attachment points for aids 29, 30, doors 35 are provided in the container 26.

The switching unit 5 is an all-metal heat-insulated container 36, diagonally divided by partitions 37 into sections 38, 39, 40, 41. In each of the partitions 37 there is a cylindrical opening 42 equipped with lads 43, 44, 45, 46 in the form of fire-resistant cylindrical caps with conical sealing surfaces, all frets are installed on the vertical axes 47, which are driven by electric linear actuators 32, removed from the interior of the container 36 to the roof in a special drive compartment s 48.

The insulated adapters 49 of the auxiliary channels 9 are connected to the windows of sections 39 and 41 of the container 36 of the switching unit 5. The auxiliary channels 9 are steel pipes 20 of large diameter mounted on the supports 21, with smooth branches of the flow 22 at the end of the channel 9. The auxiliary channels 9 are spray-coated polyurethane foam insulation 23. The bends of the stream 22 of the auxiliary channels 9 are connected to the mouths of the air supply well 50 and the ventilation well 51.

Air is supplied to the window of section 38 of the container 36 of the switching unit 5 through a vertical channel in the block of the air supply channel 6. The air supply channel block 6 is a vertical all-metal container 52, in the upper part of which along the perimeter are placed heat exchangers 54 connected in series to the air heater 53 with pipelines 55 (Fig. 4). On the outside, the heat exchangers 54 are closed by louvre valves 56. At the upper end of the container 52, a rectangular opening 57 is made, closed by louvre valves 56.

The container 52 of the block of the air supply channel 6 is covered with a protective cap 7, which prevents the ingress of atmospheric precipitation and foreign objects into the block of the air supply channel 6, with removable cassettes 57 placed around the perimeter at the bottom and fitted with a polymer mesh 58 through which air is taken from the atmosphere.

The block of the heat point 8 is an all-metal insulated container 59 designed to accommodate the air heater 53 and self-propelled guns 60. Doors 61 are provided for servicing the equipment of the air heater 53 and self-propelled guns 60.

The installation is as follows. At an outside temperature of at least 5 ° C, the louver valves 56 open at the command of self-propelled guns 60, closing the opening 57 of the container 52 of the block of the air supply channel 6 and the external air enters through cassettes 57 with a mesh 58 in the lower part of the protective cap 7 into the vertical channel of the block of the air supply channel 6 . Simultaneously, the linear linear actuators 32 are triggered and the tines 43 and 45 are opened in the switching unit 5, the linear linear actuator 32 opens the line 29 in the suction channel block 4, and the electric drive 25 opens two a flap valve 24 at the end face of the exhaust 22 of the exhaust channel 3 connected to the main fan unit 1, and the fan 11 is started in the main fan unit 1. The air passes through sections 38 and 39 of the switching unit and through the auxiliary channel 9 enters the air supply hole 50, passes through the mine and through the ventilation well 51 enters the auxiliary channel 9 and section 41 of the container 36 of the switching unit 5, then passes through section 40 to the block of the suction channel 4 and, passing through the main fan unit 1, you driven through exhaust channel 3 into the atmosphere.

If it is necessary to carry out the reverse mode of airing the mine, the ACS 60 command triggers electric linear actuators 32 and the previously closed lads 44 and 46 in the switching unit 5 open, and the lads 43 and 45 are closed. In this case, air passes through sections 38 and 41 of the switching unit and through the auxiliary channel 9 enters the ventilation well 51, passes through the mine and through the air supply 50 enters the auxiliary channel 9 and section 39 of the container 36 of the switching unit 5, then passes through the section 40 into the block of the suction channel 4 and, passing through the block of the main fan 1, is discharged through the exhaust channel 3 into the atmosphere.

In the event of a failure of fan 11 in the main fan unit 1 by the command of self-propelled guns 60, linear linear actuators 32 close lada 29 and open lada 30, electric drives 25 open the double-leaf valve 24 at the end of exhaust duct 22 of exhaust channel 3 connected to the reserve fan block 2, close the bicuspid valve 24 at the end face of the exhaust 22 of the exhaust channel 3 connected to the main fan unit 1, and the fan 11 in the backup fan unit 2 is started.

When the outdoor temperature is below 5 ° C, depending on the air temperature, the louver valves 56, which close the opening 57 of the container 52 of the block of the air supply channel 6, are closed or completely closed by the command of self-propelled guns 60 and the louvered valves 56 are opened, which close the heat exchangers 54 of the air heater 53, and starts the operation of the heater 53 and heated to the required temperature, the external air enters the vertical channel of the block of the air supply channel 6.

Claims (3)

1. Mine fan-air heater for sectional ventilation of oil mines, with air supply and ventilation wells located within the same area, including a working and backup fans connected to the suction channel, auxiliary channels, switching steps and a heat exchanger located near the air supply channel, characterized in that frets changing the operating mode of the installation from direct to reverse are placed crosswise in the switching unit installed at the intersection the suction channel, auxiliary channels connected to the ventilation wells, and the air supply channel. 2. Installation according to claim 1, characterized in that the heat exchangers of the air heater installation are equipped with louver valves at the inlet, are placed in pairs on four sides in the upper part of the vertical air supply channel, which has an opening and attachment points to the switching unit in the lower part, and an opening at the upper end for supplying air to the shaft without heating, closed by louvre valves, while a protective cap is installed on the vertical air supply channel with removable cassettes fitted around the perimeter at the bottom a net to prevent atmospheric precipitation and foreign objects from entering the channel. 3. Installation according to claim 1, characterized in that the switching ladders are made in the form of fire-resistant cylindrical covers with conical sealing surfaces, equipped with linear linear actuators, carried outside the channels and placed in compartments on the roofs of the blocks.

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