RU2391509C1 - Development method of gently sloping and inclined coal beds of various configuration and hypsometry, which are complicated with mining-and-geological interruptions - Google Patents

Abstract

FIELD: mining. ^ SUBSTANCE: development method of gently sloping and inclined coal beds of various configuration and hypsometry, which are complicated with geological interruptions, including drilling and preparation of bed, extraction of coal, pillar extraction, gravity hydraulic transport of mined rock and complete roof caving, differs by the fact that bed is divided into mining blocks along boundaries of geological interruptions so that protective pillars are maintained on one and/or both sides from them. And mining blocks are prepared with mining ovens providing ventilation and gravity hydraulic transport of mined rock along the soil of workings. Coal is excavated during return movement with shortwall faces by means of mechanical-hydraulic method so that process pillars are maintained in side walls of drivings and damped throughout the length of hydraulic monitor jet with hydraulic method implemented with installation of high-pressure pump operating as per booster diagram on mechanical hydraulic combine, and hanging of hydraulic monitor on operating arrow-shaped member of the combine. And complete roof caving is reached by cutting slots in the roof of workings with hydraulic monitor jet. ^ EFFECT: reducing labour input. ^ 4 dwg

Description

The method relates to the mining industry and can be used in the development of flat and inclined coal seams, complicated by mining and geological disturbances, using hydromechanization.

A known method of excavation in the reverse order of pillars with a chamber-pillar development system and a lining section for a chamber-pillar development system with excavation of pillars in the reverse order [1], which applies to several pillars, separated from each other by transversely threaded transverse and longitudinally threaded drifts and whose face line is worked out between two external threaded transverse drifts or short lavas using a mining device that uses the principle of planing or Driving, characterized in that the mining device is moved at an angle to the longitudinal longitudinal drifts, due to which the face line when excavating in the opposite order from one of the external transverse drifts is ahead of the face line at the other drift, and that the roof is in the direction of excavation in front of the mining device support using a large number located in the threaded drifts between the pillars of the mobile sections of the lining.

The disadvantage of this method is the difficulty of moving the lining, which leads to a loss of productivity.

There is a method of developing a powerful flat bed with short faces in the diagonal layers [2], the essence of which is that when developing a powerful flat bed with short faces in the diagonal layers in each layer after field preparatory workings, the field is divided by the upper diagonal ventilation and filling furnace into the upper and lower parts. Both parts are taken out with chambers with a forward stroke and with openings with a reverse stroke in diagonal columns located in the upper part of the field along the middle diagonal ventilation and filling furnace, and in the lower one perpendicular to it. The entry width is taken equal to 2.5 m and 2/3 of the volume of coal in half of the layers near the top of the seam is excavated with gravity delivery of the beaten-off coal to the conveyor section cross section and 1/4 of the volume to the conveyor cut. In half of the layers near the soil of the formation, coal is additionally transported along boundary conveyor faults, which are located on the soil of the formation, while the driving of the roadheader into the chambers is carried out from gravity delivery furnaces and the conveyor clearing at natural obtuse angles of diagonal posts. The delivery of people and equipment to the extraction fields is carried out according to the horizontal horizontal output, and outgoing air jets in half of the layers near the top of the formation are additionally taken out along the boundary ventilation and filling faults.

The disadvantages of the method are the complex technology, the distributed transportation of rock mass in various mine workings and the instability of the roof.

There is a method for the development of shallow and inclined coal seams [3], the essence of which is to increase the efficiency of the cleaning excavation by reducing the energy intensity of the process of coal hydrocracking, for which the coal mass within the extraction block before the treatment excavation is previously softened by performing cavities of variable cross-section through an interval determined by by, and the coal mass of the weakened seam prepared for the treatment dredge is worked out by short mines with hydromonitors of known types Pov with hydrotransport chipped coal.

The disadvantages of the method are large losses of coal in the pillars and high ash content of coal.

There is a comprehensive method for the development of coal deposits, adopted as a prototype [4], including the construction of the mine, the main technological links of the opening, preparation and mining of gentle, inclined, steeply inclined and steep seams with complex mining and geological occurrence, including waterlogged, as well as auxiliary processes ventilation of mine workings and heating of air, transport of goods and delivery of people, safety of mining operations and dust and gas regime, nature protection associated with the purification of mine water, and others technological processes that ensure the life of the enterprise, characterized in that the preparatory and treatment workings with inclined and steep bedding, as well as irrigated slopes, are carried out using a mechano-hydraulic combine complex, including a KPA-3 combine with remote control, with which a combined excavation is carried out coal in the strip, and first, when the combine enters the strip, coal is mined with a short face, and then with a continuous narrow strip, when this, as a narrow strip is worked out to control the roof, supporting pillars, partially worked out pillars are left, and tape pillars are left between the pillars from the blockage side to prevent dilution of coal by collapsed rocks from adjacent previously worked strips, and the workings are fixed in continuous mode with temporary and permanent support using fiberglass racks, while the evacuation of the beaten-off mass of coal is carried out with its enrichment during transportation through the soil of production, and removal moisture from the coal mass is produced at the dewatering complex, in addition, when passing the flooded faces using a mechanohydraulic complex equipped with a pump-crusher, coal pulp is prepared and pumped to the dehydration complex, workings are accompanied by the transportation of people and goods, which is carried out using a transport-friendly complex with a multi-drum drive with a single-layer hand-wound rope winding, while the loading platforms are moved along the deck, for example from the headquarters of the scraper conveyor, in addition, using a complex method, clarify the process water, which is produced through a system of alternating transverse partitions of the sump, while the process water is forced to move along a sinusoidal path, and ventilation of the mine workings is carried out using geothermal energy, and coal dust is due to the mixing of the air.

The workings are fixed in continuous mode with the help of an executive swept body of a mountain harvester equipped with a device, by means of which the upper supports of the temporary lining with sliding telescopic fiberglass racks with ball screw transmission are installed, which are installed directly behind the working body, and are subsequently replaced by a permanent anchor support, the rod which is performed with a corrugated profile along the entire length, which is installed in the hole, pre-drilled with a portable drill ovym machine with automatic feed, and which is then quick-fix solution via the injection unit.

The breakdown is carried out by selective destruction of the coal mass of the entry with a given chip size, and the evacuation of the beaten-off coal from the input by a stream of water is combined with its enrichment in the input due to the optimized angle of inclination, the size of the chip, and the dosed volume of water supply.

Moisture removal is carried out on the dewatering complex by feeding longitudinally mounted wet sheet material portions of wet granular material to the inclined plane using scrapers reinforced with flexible rubber, thereby creating conditions for the distribution of dynamic and static loads acting on moisture in the portion mass of bulk material, which , on the one hand, act on gravitational moisture and intensify the process of its drainage through shaltovye sieves, and on the other hand, overcome the forces surface tension in the film moisture, which is in the mass of coal and in the cells of shaltovye sieves, which also intensifies the process of its separation.

The process of transporting coal, materials, equipment and people is carried out using a cargo-transport complex equipped with a winch drive, in which the drive, tension and deflection drums are set sinusoidally, while the axis of the tension drum is positioned at an angle to the axis of the drive drum so that each winding of the rope covered 2/3 of the surface of the working parts of both drums, and the directions of the streams coincided with each other and withstood the deviation angle, while the loading platforms were moved along the deck (n For example, I put a scraper conveyor), along the edges of which closed sides are made, serving as guides along which the oncoming and descending branch of the rope moves.

In the process of clarification of water supplied to the technological process or to discharge into external water bodies for settling in horizontal settling tanks, clarification of water is carried out in two stages, namely: first, water is passed through a system of alternating transverse partitions of the settler, of which one row of partitions blocks the water flow from the bottom of the sump to a height of more than half the depth of the sump, and another row of partitions installed between the partitions of the first row blocks the water flow from the upper level of the sump to a depth of b than half the depth of the settler to provide a zig-zag path of flow of water, after which it is sent to the second horizontal decanter divided longitudinal partition into two corridors with windows for water overflow outlet for clarified water dispersed in the process.

Supply atmospheric air to the mine with a negative temperature, while the atmospheric air stream is continuously introduced into the mine water through nozzles in the form of a torch in a sprayed state over the entire flow area and heat is exchanged until the air reaches a temperature of at least + 2 ° C, after which it is heated air is sent to the mine workings, and the water settled in the air supply channel is collected and sent to the shaft sump for subsequent heating through the use of deep heat transfer processes geothermal energy from surrounding sump rocks.

The neutralization of an explosive methane-dusty coal environment in mines during the ventilation of mine workings with atmospheric air is carried out in zones of intense gas emission, an aerosol-suspension mixture of air, methane, coal dust and water is formed by feeding it to the cutting crown of the executive body of a tunneling-shearer in the proportion of solid and liquid non-liquid less than 1: 1 and form a water-coal pulp for hydrotransport, and a mixture of air, water dust, methane and coal dust is mechanically mixed using ra bryzgivayuschih nozzles and rotating blades, propeller type, mounted on a cutting crown executive of heading-shearer.

The complex of surface infrastructure is located directly on the industrial site of inclined shafts, while the complex includes a control room lamp, washing complex, accounting department, garage building, fan installations with thermal heaters located in the channels of the openings, etc., and all the components of the complex are from individual modules and blocks manufactured in factories, and then located and mounted directly on the mine’s industrial site on a foundationless pillow.

The disadvantage of this method is the large loss of coal in the pillars.

The objective of the invention is to increase the efficiency of excavation, coal quality and reduce coal losses in pillars.

The solution to this problem is achieved by the fact that the seam is divided into mining blocks along the boundaries of geological disturbances with guard pillars left on one and / or both sides of them, and mining blocks are prepared by mining furnaces that provide ventilation and gravity hydrotransport of the rock mass through the mine workings, coal mining lead backward in short faces by the mechanohydraulic method with the technological pillars remaining on the sides, which repay the entire length with a hydraulic jet in the hydraulic way, p an implementable installation of a high-pressure booster pump on a mechanical-hydraulic combine and a hitch on a working swept body of a hydraulic monitor combine, and complete collapse of the roof is achieved by cutting cracks in the roof of the mine workings with a hydraulic jet.

The method is illustrated by drawings.

Figure 1 presents a diagram of the preparation of the site.

Figure 2 presents the extraction of coal mechanohydraulic way one-way calls.

Figure 3 presents a diagram of the extraction of pillars hydraulic way one-way calls.

Figure 4 presents a diagram of a hydraulic slit cutting in the roof.

The essence of the method of developing shallow and inclined coal seams of various configurations and hypsometry, complicated by geological disturbances, is as follows.

The formation 1 is divided into excavation blocks 2, 3, 4 along the boundaries of violations 5, 6 and the outlet of the formation for sediment 7, leaving the barrier pillars 8 by conducting single and paired preparing workings 9. The development of the formation is carried out in reverse by short faces 10 mechanohydraulic and hydraulic methods and unilateral approaches 11 with a complete collapse of the roof.

At the first stage, coal mining is carried out by one-way openings 11 (Fig. 1, Fig. 2, Fig. 3) by a mechanical-hydraulic method with a combine leaving 12 pillars; at the second, the combine is installed in the protected space of the preparatory mine working (Fig. 2) and the pillars of the open 12 work out and extinguish hydraulically by the full length of the jet of the hydraulic monitor (Fig. 3), which is moved by turning the working body of the combine, on which the hydraulic monitor, which is moved by the working body of the combine in the vertical and horizontal planes, is rigidly fixed. For complete collapse of the roof in the entry and the spent preparatory development, the working body of the combine is raised to the maximum height (Fig. 4) to bring the hydraulic monitor closer to the roof of the development and / or entry and cut with a jet of slit 13, which contribute to the complete collapse of the roof.

Literature

1. Application of the Russian Federation No. 2006130457/03. The method of excavation in the reverse order of pillars with a chamber-pillar development system and a support section for a chamber-pillar development system with excavation of pillars in the reverse order. IPC E21C 41/00. Will declare. DBT GMBH DE. Auth. Rainer Schuster, Peter Gross. Claim 2006.08.23. Publ. 2008.02.27. Bull. No. 6.

2. RF patent No. 2147682. A method for developing a powerful flat bed with short faces in diagonal layers. IPC E21C 41/18. Will declare. Peoples' Friendship University of Russia. Fig. Mashkovtsov I.L., Mashkovtsov B.I., Stanis E.V. Claim 1998.09.24. Publ. 04/04/20.

3. The application of the Russian Federation No. 93006355/03. A method of developing flat and inclined coal seams. IPC E21C 41/18. Will declare. Krylov B.C., Lyubogoshchev V.I., Dupin A.I. Nikitin V.V., Fryanov V.N. Fig. Krylov B.C., Lyubogoshchev V.I., Dupin A.I. Nikitin V.V., Fryanov V.N. Claim 1993.02.03. Publ. 1996.01.10.

4. Application of the Russian Federation No. 2001113332. An integrated method of developing coal deposits. IPC E21C 41/18. Will declare. Tuleev A.G., Mazikin V.P., Atrushkevich A.A., Atrushkevich O.A., Surkov A.V., Subbotin A.I., Bobinov A.I. Fig. Tuleev A.G., Mazikin V.P., Atrushkevich A.A., Atrushkevich O.A., Surkov A.V., Subbotin A.I., Bobinov A.I. Claim 05/05/14. Publ. 2003.04.20.

Claims (1)

A method of developing shallow and inclined coal seams of various configurations and hypsometry complicated by geological disturbances, including opening and preparing the seam, mining coal, paying off pillars, gravity hydraulic transport of rock mass and complete collapse of the roof, characterized in that the seam is divided into mining blocks along the boundaries of geological disturbances with the security pillars being left on one and / or both sides of them, and the extraction blocks are prepared with excavation furnaces providing ventilation and gravity hydrotransport of the mountains of the whole mass along the mine workings, coal mining is carried out in reverse by short faces by the mechanical-hydraulic method with technological pillars remaining on the sides of the fittings, which extinguish the entire length of the hydraulic jet by the hydraulic method, which is implemented by installing a high-pressure pump operating on the mechanical-hydraulic combine working according to the booster circuit and hitching on the working the swept body of the hydraulic monitor harvester, and the complete collapse of the roof is achieved by cutting cracks in the roof of the workings with a hydraulic jet.

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