RU2462596C1 - Method of isolation of emergency section of underground mine working - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: method includes well drilling between surface and roof of underground mine working, delivery of hardening material to the mine working in case of emergency situation related to coal fire breeding. Section of underground mine working is driven in the place of isolating barrier wall erection; height of mine working is increased towards the middle of the section. Well is drilled between ground surface and point of maximum height of underground mine working. Hardening material is delivered to the mine working till mine working section driven with various height is completely filled. Maximum height of mine working in the middle of this section is determined by expression h_max≥h_b+tgφ·b/2h where h_max is maximum height of underground mine working on the section of isolation barrier wall erection, m; h_b is height of underground mine working outside the section within which isolation barrier wall is erected, m; φ is angle of hardening material spreading, degrees; b is width of underground mine in the rough, m.

EFFECT: improving reliability of emergency section isolation during underground fire.

2 dwg

Description

The invention relates to mining and can be used to isolate emergency operating mine workings of coal mines during underground fires.

There is a method of isolating an emergency section during underground mining, including drilling a well and erecting an insulating bridge on the path of the fire by means of the formwork being made in the form of units of interconnected fabric shells that are fed into the mine through the well and are filled in the mine the filler sequentially one after another with their subsequent freezing in the pile with liquid nitrogen (patent RU No. 2066772, publ. 09/20/1996).

A disadvantage of the known technical solution in the complexity of the proposed method (formwork in the form of many cloth shells, a device for their transportation, the presence of cryogenic freezing crowns).

There is a method of isolating an emergency section during underground mining, which includes a casing well, through which a closed folding formwork, fixed on the final section of the pipeline, which is filled with compressed gas and a filler, is fed through a drilling rig and a material pipeline, while first fly ash (up to 2/3 volume), and then intumescent powder composition with water (patent RU No. 2052128, publ. 10.01.1996).

The disadvantage of this method is that for the implementation of the method requires a strong folding closed formwork, a capsule supplying a source of compressed inert gas, which complicates the isolation of the emergency section of the mine.

There is a method of isolating an emergency site in underground mining, adopted as a prototype. The method includes drilling a well between the surface and the roof of an underground mine and erecting an insulating barrier lintel on the path of the fire by injection into the production of an insulating filler with an intumescent component, moreover, injecting bulk material into the ejector device located at the end of the casing of the well at the end of the casing and spraying through a drill rod a finely dispersed solution of a foaming agent or liquid hardener with ejection at this mine atmosphere of the emergency section with a low oxygen content for spraying the flow of bulk material, and on one of the channels of the ejector device, an inflatable tissue rod activator of the bead laying of the body of the insulating barrier jumper is fixed (patent RU No. 2150585, publ. 10.06.2000).

The disadvantage of the known technical solution in the complexity of the proposed method: input into the upper part of the spray nozzle for supplying a foaming agent, creating calibrated channels for supplying a dry mixture, feeding an inflatable tissue rod activator into the mine working. Multioperation is performed without the presence of people, which is the reason for low reliability. In addition, a tissue rod activator made of breathable fabric can be destroyed during the erection of the jumper, which is the reason for the low reliability.

The technical result is to increase the reliability of isolation of the emergency site during underground fires and reduce the consumption of hardening material.

The technical result is achieved by the fact that in the method of isolation of the emergency section of the underground mine, including drilling wells between the earth's surface and the roof of the underground mine, feeding hardened material to the mine in the event of an emergency associated with spontaneous combustion of coal, the underground mining at the site of construction of the insulating barrier jumpers pass with different heights of development, which gradually increase when approaching from the boundaries of this section to its middle, the well is drilled ayut between the surface and the point of maximum height underground excavation, the flow in the production of hardenable material to produce a complete filling of hardening material generating portion covered with different height, and maximum height in the middle of the production area is determined from the expression

h _max ≥h _at + tgφb / 2,

where h _max - the maximum height of the underground mine in the area at the construction site of the insulating barrier lintels, m;

h _in - the height of the underground mine working outside the boundaries of the site within which an insulating barrier jumper is being erected, m;

φ is the spreading angle of the hardening material, deg;

b - draft underground mining width, m.

The method of isolation of the emergency section of the underground mine during the development of coal seams is shown in figure 1, 2. Figure 1, shows the section of the mine, walked with different heights. Figure 2 is a section of the development along the line aa. Figure 1, 2 shows: 1 - underground mining; 2 - a working section l passed with different heights; 3 - arched pliable support; 4 - tightening; 5 - anchor support; 6 - well.

The essence of this method is as follows. Isolated underground mine 1 before an emergency (fire in the proposed area) in section 2 is carried out with different heights, which are gradually increased when approaching the boundaries of this section to its middle (Fig. 1). The fastening of section 2 is carried out by arch compliant support 3 with a tightening 4 and anchor support 5. The location of section 2 is chosen according to the emergency response plan so that after the construction of an insulating bridge in the indicated place, isolate the area in which a fire can occur. The maximum height of development in the middle of this section is determined from the expression

h _max ≥h _at + tgφb / 2,

where h _max - the maximum height of the underground mine in the area at the construction site of the insulating barrier lintels, m;

h _in - the height of the underground mine working outside the boundaries of the site within which an insulating barrier jumper is being erected, m;

φ is the spreading angle of the hardening material, deg;

b - draft underground mining width, m.

In the event of a fire between the earth's surface and the point with the maximum height of the underground mine, a well 6 is drilled (Figs. 1, 2) and a hardening material is fed into the mine until the hardened material is completely filled with the mine section l passed with different heights (Fig. 1).

Fulfillment of this condition will make it possible to block the isolated production with quick-hardening concrete along the path of the fire along its entire width.

The use of this method of isolation of the emergency section during underground mining of coal seams will improve the reliability of isolation of the emergency section during underground fires, as well as reduce material and labor costs.

Claims (1)

A method of isolating an emergency section of an underground mine, including drilling wells between the earth's surface and the roof of an underground mine, supplying hardened material to the mine in the event of an emergency associated with spontaneous combustion of coal, characterized in that the underground mining at the site of construction of the insulating barrier lintel passes with different heights of development, which is gradually increasing when approaching the boundaries of this section to its middle, a well is drilled between the earth’s spine and a point with a maximum height of an underground excavation, the flow in the production of hardenable material to produce a complete filling of hardening material generating portion covered with different height, and maximum height in the middle of the production area is determined from the expression
h _max ≥h _at + tgφb / 2,
where h _max - the maximum height of the underground mine in the area at the construction site of the insulating barrier lintels, m;
h _in - the height of the underground mine working outside the boundaries of the site within which an insulating barrier jumper is being erected, m;
φ is the spreading angle of the hardening material, deg;
b - draft underground mining width, m.

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