RU2780415C1 - Method for developing seams with long pillars along the strike with the reverse order of development - Google Patents

Abstract

FIELD: mining industry.

SUBSTANCE: invention relates to the mining industry and can be used in the development of gently sloping and slightly inclined coal seams in conditions of large water inflows. Method for developing seams by long pillars along strike with reverse order of mining includes joint driving by roadheaders of a doubled conveyor roadway, which is intended for the overlying longwall, and a ventilation roadway, which is intended for the underlying longwall, with the formation of dead-end tunneling faces. One of the tunneling machines passes the breaks between them, with the help of which they carry out ventilation and connection into one cargo flow of cargo flows from the tunneling faces. The step between the breaks and their location is determined without taking into account the location of the areas of local deepening of the soil of double drifts. Identification of areas of local deepening of the soil of double drifts, for which it is required to place drainage breaks for draining water onto the ventilation drift of the underlying longwall, is carried out as the double drifts pass or in the process of mining the overlying longwall according to the actual accumulation of water. Drainage breaks pass with a smaller cross-section than the rest of the breaks. The sinking of drainage cuts is carried out during the mining of the overlying longwall with the help of a suspended tunneling rock-cutting unit of selective action, which, before the start of sinking of the drainage cut, is placed using the space of the conveyor drift of the overlying longwall above the conveyor designed to transport the mineral from the working longwall, without the need to stop it, which also used for transportation of broken rock mass from passable drainage failures.

EFFECT: reduction of time, volumes and simplification of work related to the preparation and development of the extraction column.

3 cl, 4 dwg

Description

The present invention relates to the mining industry and can be used in the development of flat and slightly inclined coal seams, mainly in conditions of large water inflows.

Known methods for the development of mineral layers (pat. for invention RU 2735274 C1, 10/29/2020, IPC E21D 23/16, bull. No. 31; patent for utility model RU 196644 U1, 03/11/2020, IPC E21D 23/16, bul. No. 8; utility model patent RU 195623 U1, 02/03/2020, IPC E21D 23/16, Bull. No. 4; utility model patent RU 184573 U1, 10/30/2018, IPC E21D 23/04. Bull. No. 31), in which a selective suspension tunneling unit is used to break the rock, which is installed on the top of the roof support section and which is located using the space above the conveyor designed to transport the mineral from the working longwall.

The disadvantage of these methods is the impossibility of using a suspended rock-cutting unit for conducting preparatory and technological mine workings due to the fact that the relative position of the direction of transportation of the chipped rock mass and the direction of advancement of the face is perpendicular.

A known method of developing coal seams with long columns along the strike (Substantiation of the parameters of the technology for intensive mining of flat coal seams in the mines of Kuzbass in conditions of increased water inflows: Dissertation for the degree of candidate of technical sciences / A. A. Cherkashin, St. Petersburg, 2014, p. 115-116), which includes joint driving by roadheaders of a doubled conveyor roadway, which is intended for the overlying longwall, and a ventilation roadway, which is intended for the underlying longwall, with the formation of dead-end tunneling faces. One of the tunneling machines carries out breaks between them, with the help of which they carry out ventilation and connection of cargo flows from tunneling faces into one cargo flow, and the step between breaks is determined taking into account the indicators of ventilation, transportation and safety of tunneling operations in dead-end sinking faces. Breakers are used for draining water onto the ventilation drift of the underlying longwall both when mining the overlying longwall and when driving dual conveyor and ventilation drifts. A conveyor is used in the conveyor drift of the overlying lava for transporting minerals from the operating overlying lava.

The disadvantage of this method is the following. With complex hypsometry of the formation, there are areas of lowering the soil level on the conveyor and ventilation drifts, in which water accumulates. Water worsens the conditions for mining operations, and when it enters the means of transport, it disrupts their normal operation. In conditions of increased water inflows and in the case of an increased step between breaks, which, as a rule, is the same, since it is determined from the conditions of ventilation, transportation and safety of tunneling operations, the use of drainage using drainage ditches, pumping units for diverting water to the nearest break and lowering on the underlying drift is insufficient or results in drainage costs.

For the prototype, the method of developing coal seams with long columns along the strike was adopted (Substantiation of the parameters of the technology for intensive mining of flat coal seams in the mines of Kuzbass in conditions of increased water inflows: Dissertation for the degree of candidate of technical sciences / A. A. Cherkashin, St. Petersburg, 2014, pp. 115-117), which includes the identification of areas of local deepening of the soil of double drifts, in which it is required to place breaks for draining water onto the ventilation drift of the underlying lava based on the forecast from the geological survey. Carry out a joint tunneling tunneling machines dual conveyor roadway, which is designed for the overlying longwall, and ventilation roadway, which is designed for the underlying longwall, with the formation of dead-end tunneling faces. One of the tunneling machines carries out the breaks between the double drifts, with the help of which they carry out ventilation and connection into one cargo flow of cargo flows from the tunneling faces. At the same time, the step between the breaks and their location are determined taking into account the indicators of ventilation, transportation, safety of tunneling operations in dead-end tunneling faces and predicted areas of local deepening of the soil of double drifts, in which water accumulation is possible. Breakers are used to drain water onto the ventilation drift of the underlying lava when mining the overlying lava. Between the doubled conveyor drift of the overlying longwall and the ventilation drift of the underlying longwall, a sinking is carried out to drain water in the places of its actual accumulation of drainage failures of a smaller cross-section than that of the other failures by drilling water outlet wells. A conveyor is used in the conveyor drift of the overlying lava for transporting minerals from the operating overlying lava.

The disadvantage of this method is the large amount of mining work on driving failures between double drifts and the difficulty of conducting drainage spillway failures, which is caused by the following reasons. This method uses a prediction of the location of areas of local deepening of the soil of double drifts, in which water accumulation is possible. But, the forecast may have errors and, especially with a long longwall, it is difficult to predict the absence or volume of water inflow in the zones of local deepening of drifts, which causes the likelihood of failures that are not in demand for drainage. The drilling of water outlets from the side of the ventilation drift must be carried out when the overlying (launched into operation) longwall is working in the zone of water accumulation, and the drilled rock mass must be loaded onto special vehicles, which makes it difficult to conduct mining operations. Carrying out drainage failures by drilling water outlet wells, which must be located at soil level to ensure drainage, occurs in conditions of watering of the space for the location of the drilling rig and when drilling from a conveyor drift, it requires stopping and disassembling the conveyor, the operation of which must be continuous to ensure the operation of the overlying lava . An increase in the volume of work on the sinking of failures leads either to a lag in the preparation of the extraction column, or to a slowdown in mining.

The technical result of the invention is to reduce the time, volume and simplification of work associated with the preparation and development of the extraction column by reducing the amount of work on sinking breaks between double drifts with determining their location by the actual accumulation of water, combining in time the mining of the overlying lava and the sinking of a part of the common the number of failures and removal from the flooded space of equipment for sinking drainage failures.

The specified technical result is achieved by the fact that in the method of developing seams with long columns along the strike with the reverse order of mining, including the joint driving of tunneling machines of a double conveyor drift, which is intended for the overlying longwall, and a ventilation drift, which is intended for the underlying longwall, with the formation of dead-end tunneling faces, carrying out breaks between them by one of the tunneling machines, with the help of which they carry out ventilation and connection into one cargo flow of cargo flows from sinking faces, identifying areas of local deepening of the soil of double drifts, in which it is required to place breaks for draining water onto the ventilation drift of the underlying lava, driving for draining water in the places of its actual accumulation of drainage failures of a smaller cross-section than the other failures, between the double conveyor drift of the overlying longwall and the ventilation drift of the underlying lava, the use of failures for draining water s on the ventilation drift of the underlying lava when mining the overlying longwall, the use of a conveyor in the conveyor drift of the overlying longwall for transporting minerals from the operating overlying longwall, according to the claimed invention, when driving the double conveyor drift of the overlying longwall and the ventilation drift of the underlying lava, the step between the failures and their location is determined without taking into account the location of the areas of local deepening of the soil of double drifts, the identification of areas of local deepening of the soil of double drifts, for which it is required to locate drainage breaks for draining water onto the ventilation drift of the underlying longwall, is carried out as the double drifts pass or in the process of mining the overlying longwall according to the actual accumulation of water, and the sinking of drainage failures for draining water in places of its actual accumulation is carried out during the mining of the overlying lava using a suspended tunneling rock-cutting unit of selective action, which before the start of sinking, the drainage break is located using the space of the conveyor drift of the overlying longwall above the conveyor designed to transport the mineral from the working longwall, without the need to stop it, and which is used to transport the crushed rock mass from the passable drainage breaks; at the beginning of the penetration of the drainage break, a shoulder is formed, the dimensions of which prevent the drainage of water into the space of the drainage break, and after the connection of the double conveyor and ventilation shaft, the shoulder is destroyed to drain water onto the ventilation shaft; the collar is formed by a rock-cutting aggregate in the form of a rock that has not been destroyed on the soil in the space of a drainage block.

The present invention is illustrated in the drawings, where in Fig. 1 shows a diagram of the method of developing seams with long columns along strike with the reverse order of mining; in fig. 2 is a section along A-A in Fig. one; in fig. 3 is a section along B-B in Fig. one; in fig. 4 is a section along B-B in FIG. one.

The method of developing seams with long pillars along strike with the reverse order of mining includes joint driving by tunneling machines of a doubled conveyor drift 1, which is intended for the overlying longwall, and a ventilation drift 2, which is intended for the underlying longwall, with the formation of dead-end tunneling faces.

One of the heading machines conducts breaks 3 between the conveyor drift 1 and the ventilation drift 2, with the help of which they carry out ventilation and connection into one cargo flow of cargo flows from the tunneling faces.

When driving double conveyor drift 1 of the overlying lava and ventilation drift 2 of the underlying lava, the step T between the breaks 3 (Fig. 1-3) and their location is determined without taking into account the location of the areas of local deepening of the soil of the double drifts. In this case, the step T between the breaks and their location can be determined in the usual way, taking into account the indicators of ventilation, transportation and safety of tunneling operations in dead-end tunneling faces. Usually the step between failures is from 300 to 400 m and, as a rule, in this case it is the same.

To drain water in places of its accumulation, drainage failures 4 are driven between the double conveyor drift 1 of the overlying lava and the ventilation drift 2 of the underlying lava during mining of the overlying lava (Fig. 3 and 4).

A conveyor 5 is used in the conveyor drift 2 of the overlying lava for transporting minerals from the working overlying lava.

Identification of areas of local deepening of the soil of double drifts 1 and 2, for which it is required to arrange drainage breaks 4 to drain water onto the ventilation drift 2 of the underlying longwall, is carried out as the passage of double drifts 1 and 2 or in the process of mining the overlying longwall by the actual accumulation of water, which, as a rule, more on the conveyor roadway 1 of the active longwall, which is located above the ventilation roadway 2.

Breaks 3 and 4 are used to drain water in places where it actually accumulates on the ventilation drift 2 of the underlying longwall when mining the overlying longwall 1.

The sinking of drainage breaks 4 for draining water in places of its actual accumulation is carried out during mining of the overlying lava using a suspended tunneling rock-cutting unit 6 of selective action, which for this may have an executive body of impact, cutting or other action, moving along the surface of the collapsible face. The rock-cutting unit 6, before the start of the sinking of the drainage block 4, is placed using the space of the conveyor roadway 1 of the overlying lava above the conveyor 5. To install the rock-cutting unit 6, if necessary, the cross-section of the conveyor roadway 1 is increased, which can be done without stopping the conveyor 5. To the roof guide beams 7 are fixed, to which a rock-cutting unit 6 is suspended, which may have an executive body of shock, cutting or other action. Due to the suspension of the rock-cutting unit 6, it is not necessary to stop the conveyor 5 for driving drainage failures 4. At the beginning of the penetration of drainage failures 4, the crushed rock mass can be loaded onto the operating conveyor 5, for example, manually with shovels, and then for this use the loading body, which can be located in part of the rock-cutting unit 6, or placed in the 4 loading vehicle (not shown in the drawing). At the same time, the use of a suspended rock-cutting unit 6 ensures that the equipment is located outside the flooded space, which improves its working conditions.

In a particular case, with the accumulation of water and the formation of a trough 8 (Fig. 3 and 4), at the beginning of the penetration of the drainage plug, a shoulder 9 is formed, the dimensions of which prevent the drainage of water into the space of the drainage plug 4 (Fig. 4), and after connecting the double conveyor drift 1 and ventilation drift 2, collar 9 is destroyed to drain water onto ventilation drift 2. Burt 9 can be made of a hardening mixture, for example, cement-based, or, in a particular case, collar 9 is formed by a rock-cutting aggregate 6 in the form of undestroyed soil rock in the space of the drainage break 4. The destruction of the collar 9 can be carried out, for example, by a rock cutting unit 6. The use of the collar 9 makes it possible to further improve the operating conditions of the rock cutting unit 9 and other equipment located in the conducted drainage cut 4, and the formation of the collar 9 from undestroyed rock breed additionally allows you to reduce the amount of work and time spent on its formation. This reduces the likelihood of water drainage through the shoulder 9 formed on the soil from the rock, since there are no surfaces of its interface with the surrounding mountain range.

Drainage failures 4 pass with a smaller cross section than the other failures 3, since this is sufficient for drainage. At the same time, drainage breaks 4, namely their soil, are located at the level of the soil of drifts 1 and 2 to ensure water drainage.

Since when carrying out double conveyor drift 1 of the overlying lava and ventilation drift 2 of the underlying lava, breaks 3 are carried out for ventilation, the step T (Fig. 2) between which is determined without taking into account the location of the local deepening of the soil of double drifts 1 and 2, breaks 3 are performed less often , which increases the speed of preparation of the extraction column. And the formation of accumulation of water occurs with less intensity than from a working lava.

Due to the fact that drainage taps 4 are carried out only when necessary, their number also turns out to be smaller and determined by the actual situation in the process of mining the lava. Since when carrying out drainage failures 4, the chipped rock mass is loaded onto a running conveyor 5, it is not required to stop the work of the lava.

Thus, there is a reduction in time, volumes and simplification of work associated with the preparation and development of the extraction column by reducing the amount of work on sinking failures 3 and 4 between double drifts 1 and 2 with determining their location according to the actual accumulation of water, combining in time the mining of the overlying lava and driving a part of the total number of failures and removal from the flooded space of equipment for driving drainage failures 4.

Claims (3)

1. A method for developing seams with long columns along strike with a reverse order of mining, including the joint driving of tunneling machines of a double conveyor roadway, which is intended for the overlying lava, and a ventilation roadway, which is intended for the underlying longwall, with the formation of dead-end tunneling faces, carrying out by one of tunneling machines of breaks between them, with the help of which they carry out ventilation and connection into one cargo flow of cargo flows from sinking faces, identifying areas of local deepening of the soil of double drifts, in which it is required to place breaks for draining water onto the ventilation drift of the underlying lava, sinking for draining water in places of its the actual accumulation of drainage breaks of a smaller cross section than the other breaks between the doubled conveyor roadway of the overlying longwall and the ventilation roadway of the underlying longwall; in the overlying lava, the use of a conveyor in the conveyor roadway of the overlying longwall for transporting minerals from the working overlying longwall, characterized in that when driving the double conveyor roadway of the overlying longwall and the ventilation roadway of the underlying longwall, the step between the breaks and their location is determined without taking into account the location of areas of local deepening of the soil of double drifts, the identification of areas of local deepening of the soil of double drifts, for which it is required to place drainage breaks for draining water onto the ventilation drift of the underlying longwall, is carried out as the double drifts pass or in the process of mining the overlying longwall according to the actual accumulation of water, and the penetration of drainage breaks to drain water in places of its actual accumulation, it is carried out during the mining of the overlying lava using a suspended tunneling rock-cutting unit of selective action, which is placed using the space of the conveyor drift of the overlying longwall above the conveyor designed to transport the mineral from the working longwall, without the need to stop it, and which is used to transport the chipped rock mass from the passable drainage failures. 2. The method of developing seams with long columns along strike with the reverse order of mining according to claim 1, characterized in that at the beginning of the penetration of the drainage block, a collar is formed, the dimensions of which prevent the drainage of water into the space of the drainage block, and after connecting the double conveyor and ventilation drift, destruction of the shoulder for draining water onto the ventilation drift. 3. The method of developing seams with long columns along the strike with the reverse order of mining according to claim 2, characterized in that the shoulder is formed by a rock-cutting aggregate in the form of rock not destroyed on the soil in the space of the drainage block.

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