SU727858A1 - Apparatus for controlling air pressure in excavation area - Google Patents

Description

(54) DEVICE FOR REGULATING AIR PRESSURE IN EXTREME PLOT

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The invention relates to the mining industry, and can be used to regulate the mine ventilation flows while eliminating air slopes between the surface and mine workings in order to prevent and extinguish endogenous fires in the developed space, their excavation fields having aerodynamic connection with the surface of the earth through zones collapse of overlying horizons OR contiguous layers.

A device for monitoring ventilation shafts is known, which includes pressure head sensors, recording devices, a ventilation unit 1.

A disadvantage of this device is its relatively low efficiency in regulating shaft ventilation flows.

Non-automatic devices are known for adjusting the air pressure in the excavation region, including a ventilation unit and a jumper made with a through-hole in its body to pass through it in the direction of the working space of the extraction section of the ventilation duct located near the jumper on the fresh jet side and installed on the section of the haul-out valve adjacent to the working space of the excavation section, as well as a jumper having an adjusting vent window, poured on the area of the ventilation drift adjacent to the working area of the excavation section 2.

A disadvantage of this device is the uncontrollability of the process of pressure equalization and the high economic costs associated with maintaining excessive pressures in the working space of the lava.

The aim of the invention is to provide automatic control of the process of pressure equalization and reduction of economic costs associated with the need to maintain excess pressure.

The goal is achieved by the fact that the device is equipped with two air pressure sensors, one of which is for measuring atmospheric pressure and the other for measuring air pressure.

in the working space of the excavation section, relay-amplifier unit, magnetic starter, power motor, worm gearbox, screw pair and damper of the adjusting vent window, the sensor for measuring atmospheric pressure through a pneumatic communication channel communicates with the atmosphere, and the sensor for measuring pressure air in the working space of the excavation section is communicated via the pneumatic communication channel with the working space of the excavation section, and both sensors are electrically The communication link is connected to a relay amplifier unit that is connected to a magnetic starter connected to a power motor, while the power motor is connected kinematically to a screw pair connected to a damper of an adjusting vent window through a worm gearbox.

The drawing shows a section of a excavation area with equipment for automatic control of air pressure.

A vent or vent door 2 with a window is constructed in the ventilation shaft 1, the cross section of which is regulated by the valve 3. In the master horizon 4, a lintel 5 is constructed, next to which a ventilator consisting of a fan is mounted on the side of the incoming air stream (or fan groups 6) with air duct 7 and starting equipment 8. After jumper 2, on the outgoing jet, an automatic pressure regulator is installed. It consists of a power engine 9, kinematically connected through a worm gearbox 10 and a screw pair 11 with a valve 3; relay-amplifier unit 12, containing two of the same type of power amplifiers on transistors and an obsh, and its power source is a semiconductor rectifier. The relay amplifier unit 12 is designed to control the magnetic starter 13 of the power motor 9. The input of the relay amplifier unit 12 receives electrical output signals from pressure sensors 14 and 15

Sensor 14 is connected by a pneumatic communication channel, for example, a rubber or metal tube, to air pressure in the working space of the high floor (on the ventilation drift 1), and sensor 15 to atmospheric pressure. It can be placed directly in the collapse zone. neither on the path of the air plume, or on the surface. In the first case, the electrical output signal from the sensor is sewed through wires laid, for example, in metal pipes, which are stepped up as the clearing hole moves, and secondly through a well drilled between the surface and ventilation output 1, or by means of telemechanics, for example, with frequency division of the signal.

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The elimination of air slopes is as follows.

The excavation of the excavation area by means of jumpers 2 and 5 are combined in a pressure-controlled chamber. Air is supplied by the fan 6, which is manually activated and operates without changing the mode. The pressure in the excavation field is automatically controlled by the valve 3, depending on the pressure difference monitored by sensors 14 and 15. In the event of overpressure, the corresponding amplifier of the relay-amplifier unit 12 is closed. This activates the magnetic starter 1 and the power motor 9 controlled by it. through the worm gear Yu and the screw pair 11, the valve 3 will be actuated, thereby increasing or decreasing the flow rate and, therefore, the pressure in the working space until it reaches the value atmospheric. As a result, the movement of air between the surface and the existing mine workings through the mined space is stopped, which helps to slow down the combustion processes in it. The limit switches 16 serve to switch off the magnetic starter 13 controlling the power motor 9, when the flap reaches 3 limit positions.

The use of a device for the automatic regulation of air pressure in planes and mines allows the excavation fields to work without fail, improves the qualitative characteristics of conditions that can prevent the occurrence of an endogenous fire, and ensure work safety.

Claims (2)

1. USSR author's certificate number 548719, cl. E 21 F 1/00, 1969. 2. Guidance on the application of the pressure equalization method for the prevention and / extinguishing of endogenous fires under the conditions of / Kuzbass, Kemerovo, ed. VostNII, 1966, p. 3-11 (prototype). . drips