SU757737A1 - Apparatus for insulating excavated area of pit minings - Google Patents

Description

The invention relates to mining, and more specifically to devices that prevent gas exchange between waste and existing production.

A well-known mine explosion-proof bulkhead, designed to overlap the mine working section, consists of the bulkhead body and a damping device installed in it to dampen the shock wave, which in turn consists of a check valve pressed to the body saddle by means of a spring-1 / to ensure a normal position when moving and pressing the seat, the valve is mounted on the guide rods, and the mounting of the damping device for extinguishing the blast 2 wave to the body of the jumper is carried out stvom flange and screw [X].

The presence of a device that damps the excess pressure arising at the time of the explosion increases the stability of the jumper, but the damping device lets gas through not only during a sharp increase in pressure, but also under normal conditions. perimeter fit of the device, 3

2

which is a drawback of such a jumper.

A device is known for isolating an open space and for discharging an explosive gas mixture, comprising a gas-tight jumper and a gas exhaust pipe with an intake port, a mixing chamber, air and gas intake channels with intake ports and control valves, and the intake port of the gas intake channel is located in the lower part of the jumper with complete 5 rons of the carbonated space, the intake port of the air intake channel is located at the upper part of the jumper on the side opposite to the inlet of the intake port

! 0 tazozabornogo channel, air and gazozornyy channels connected to the mixing chamber, which is connected to the intake opening of the gazootvoditelnogo pipe, located on the opposite side of the intake opening of the gas intake channel mixing £ 2].

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The disadvantage of such a device is unreliable isolation of the developed space, since during periods of sharp and deep barometric pressure drops, a large amount of carbon dioxide enters the existing mines through cracks in rocks and poorly insulated dead ends. The efficiency of mine ventilation is deteriorating.

The purpose of the invention is to improve the reliability of isolation of the goaf by neutralizing carbon dioxide.

This goal is achieved by the fact that the device is equipped with an inclined frame with a panel fixed on it, installed between the roof and the working soil in the carbonated space and the distributor absorbing carbon dioxide solution, which is installed on an inclined frame, while the inclined frame is installed at an acute angle to the working soil side of the gas-tight lintel, and the pipeline is placed at the roof of the excavation and passed through the inclined frame towards the carbonated space in such a way that its end is flat Above the distributor of carbon dioxide absorbing solution.

The cloth is made of easily wetting material or corrugated.

In addition, the distributor absorbing carbon dioxide solution is made in the form of a gutter, or in the form of a perforated pipe.

Ion or KOH was used as a carbon dioxide absorbing solution.

The drawing shows the device, a longitudinal section. .

The device contains a gas-tight jumper 1, an inclined frame 2 installed between the roof and working soil in the carbonated space, while the inclined frame is installed at an acute angle to the soil of production from the side of the gas-tight jumper 1 suspended from the roof of the output, pipeline 3 passed through the body of the jumper and the inclined frame from the side of generation towards the carbonated space in such a way that its end is located above the distributor 4, which absorbs the carbon dioxide of the solution, set to ^ tilt frame 2, on which plate 5 is fixed, made of an easily wetting material (not indicated in the drawing); the panel can be made corrugated in order to increase the wetting surface and more efficiently hold a carbon dioxide absorbing solution on it, which used BaOH or KOH, and also to increase the time of contact of the reagent with the incident

gas flows. Distributor 4 A solution absorbing carbon dioxide is made in the form of a gutter or perforated pipe. Inclined frame can be made in the form of a rigid frame attached between the roof and the soil generation. Rubberized cloth, burlap or some other material is pulled onto the frame, easily wetted by chemical reagent.

The device works as follows.

A solution that absorbs CO _g , for example, NaOH, KOH, etc., via pipeline 3 enters distributor 4, from which it enters panel 5 and wets it into the soil of production.

In the immediate vicinity of the surfaces moistened with solutions of the reaction of carbon dioxide

O'G + CO 2 = NSO / ξ

HE "+ C0 ₂ = so'e + H *

Binding of carbon dioxide to solutions reduces the partial pressure of CO2 in the gas mixture, as a result of which the total pressure behind the inclined frame with the cloth decreases.

An inclined frame with a panel fixed on it is necessary to increase the time of contact of the reagent with the oncoming gas flows.

The application of the proposed device to isolate the goaf, the binding of carbon dioxide with reagents increases the safety of work, reduces a simple mine with deep drops in barometric pressure.

During periods of sharp and deep barometric pressure drop, a large amount of carbon dioxide enters the existing production of cracks in rocks and poorly insulated dead ends. The efficiency of mine ventilation is deteriorating.

Binding of carbon dioxide reagents allows to avoid overload in the work of the ventilation system of the mine, ensures the delivery of fresh air to all the faces, eliminates possible accidents associated with emergency withdrawal of people.

The use of absorbing solutions in existing mines is associated with the possibility of people being poisoned by the reaction components, therefore, transferring the place of the absorption reaction to the fixed space increases the safety of maintenance of facilities and eliminates the possibility of poisoning and chemical burns ..

Reducing the overall pressure from the carbonated space, as a result of carbon dioxide binding, eliminates the release of not only carbon dioxide, but also a general gas evolution due to gas-tight bridges ·

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ki in the period of decreasing barometric pressure, which ensures the reliability of isolation of the produced

space.

The technical solution of the proposed device is simple and does not require expensive or rare materials. The simplicity of the design of the distributor, the inclined frame, the sheet and other elements significantly reduces the cost of controlling the operation of the device.

Claims (7)

Claim 1. A device for isolating the worked-out space in the mine workings, including a gas-tight jumper and a pipeline passed through the jumper body from the generation side to the aerated space, characterized in that, in order to increase the reliability of isolation of the worked-out space by neutralizing carbon dioxide, the device is equipped an inclined frame with a panel fixed on it, installed between the roof and the working soil in aerated space and the absorbing carbon distributor Sludge gas solution, which is installed on an inclined frame, while the inclined frame is installed at an acute angle to the soil generation from the side of the gas-tight jumper, and the pipeline is placed at the roof of the mine and passed through the inclined frame towards the aerated space so that its end is located under the distributor of the carbon dioxide absorbing solution. 2. The device according to claim 1, about the t l ich auschee with the fact that the panel is made of easily soaked material. 3. The device according to π.1 about tl and chauschee with the fact that the panel is made of corrugated. 4. Device pop. 1-3, characterized in that the distributor absorbing carbon dioxide solution is made in the VIP chute. 5. The device according to PP. 1-3, which is based on the fact that the distributor of the solution absorbing carbon dioxide is made in the form of a perforated pipe. 6. The device according to PP. 1-5, characterized in that MaOH is used as a solution absorbing carbon dioxide. Gas. 7. The device according to PP. 1-5, characterized in that KOH is used as a solution absorbing carbon dioxide.