RU2039261C1 - Method for mining of contiguous gently dipping beds - Google Patents

Abstract

FIELD: mining. SUBSTANCE: method for mining of contiguous gently dipping beds includes sealing of floor of upper bed in airway and strengthening of side mass on the strike ahead of longwall of underlying bed in conveyer drift. Established on the basis of investigation and calculation are depth of floor sealing and strengthening of side mass depending on thickness of interbeds. EFFECT: higher efficiency. 3 cl, 7 dwg

Description

 The invention relates to the mining industry, namely to underground mining of a suite consisting of two shallow formations of medium power, which are removed simultaneously with direct-flow ventilation and reuse of workings.

 There is a method of simultaneous mining of two layers of a powerful hollow layer, long columns along strike. The method consists in the following: layer workings are carried out by strata, group workings can be field, layer workings behind the lava are not left, ventilation is carried out according to a reciprocal-accurate scheme. The disadvantage of this method is not the effectiveness of ventilation, difficulties in providing air on high-gas-bearing strata, as well as the lack of reuse of layer workings.

 There is a method of increasing the stability of preparatory workings, fixing one side with the help of the construction of a strip of hardening materials. It is being built after coal mining in this place. The disadvantages of the method are the weakening of the roof at the side surface of the mine and the unreliability of protection.

 The closest technical solution to the method of mining the adjacent shallow formations is a two-layer simultaneous excavation, leaving behind the development of lava only in the lower layer. With this method, the pillars are cut during preparation, then during excavation the drifts of the upper layer are canceled, and in the lower layer one drift is left and reused [1] The disadvantages of the method are the incomplete use of all layer workings and difficulties with airing in the upper layer.

 The aim of the invention is to increase the stability of the workings, their reuse, safety and reliability of mining.

 This is achieved by the fact that the ventilation workings behind the lava are left on each layer, while behind the lavas of the upper layer in the ventilation work, the soil is sealed to a depth equal to 0.02 inter-layer power divided by the coefficient of rock thickness deviation between the layers from the level of 20 m, and ahead of the lava the lower layer, in the conveyor excavation reinforce the lateral array from the side of the fall to a width equal to 0.3-0.4 interstitial power.

In FIG. 1 shows combined site plans for the lower (m ₁ ) and upper (m ₂ ) formations; in FIG. 2 is a section along AA in FIG. 1 (sections along strike); in FIG. 3 is a section through the fall of BB in FIG. 1 (at the level of lava of the lower layer); in FIG. 4 a section along BB in FIG. 1 (by falling in front of the lava of the lower layer); in FIG. 5 is a section along G-D in FIG. 1 (ventilation of the upper layer) left behind the lava; in FIG. 6 section along B'-B '(at the level of the lava of the lower layer when using a group transport field drift); in FIG. 7 section along B'-B '(in front of the lava of the lower layer when using a group drift).

 This is achieved by the fact that the lateral coal mass in the conveyor mine in front of the lava of the lower seam is strengthened by the supply of mortar without excavating coal and exposing the roof at this point.

The method is as follows. Coal mining in the working faces 1 and 2 is carried out with the lag of the lower seam m ₁ by 2f, where f is the distance between the seams. The air to the upper seam section m ₂ enters through two workings: the supply (re-used) 3 and conveyor 4, the lower seam, respectively 5 and 6. The outgoing jets from the lavas enter the ventilation left behind the lavas of the excavations 7 and 8, respectively, for the upper and lower layer. The reused workings behind the lavas are extinguished, and the left workings 7 and 8 are enclosed by walls 9 and 10 on the side of the mined space. Soil 11 is sealed with a solution of 11 in the ventilation development of the upper layer immediately after the lava at a length of N. a solution of lateral massif 12. The depth of sealing, according to the research, is 0.02 interstitial thickness divided by the coefficient of rock thickness deviation between the layers from the level of 20 m. captivity lateral array is 0.3-0.4 mezhduplastya power. During field preparation, the development of the strata is knocked together by the gozens 13 and 14. Group drifts 15 and 16 are connected to the extensions 17 and 18 of the gozens. Gesenki are located at a distance equal to 1 / 3-1 / 4 of the excavation field.

 The invention arose due to the fact that both layers are gas-bearing and require effective ventilation. In addition, the gas mobility of the workings of the upper layer increases as a result of the overwork of the lower layer. The ventilation efficiency is decided by leaving the ventilation openings behind the lava and using direct-flow ventilation. Developments 8 and 9 can be reused; for this, issues of increasing their stability must be resolved.

 However, in the joint development of adjacent formations, the stability of these workings is greatly influenced by the reference pressure, the moments of which are I and I ', respectively, in the upper and lower parts of the excavation field. The decrease in the action of the reference pressure and increase the stability of the workings is achieved in the invention by strengthening the lateral mass M, in the development in front of the lava of the lower layer.

The reinforcement results are as follows:
the stability of the workings 8 and 7 increases (Fig. 3), since the moment I 'is neutralized by the reinforcement 12, at the same time, the stability of the interface between the lava of the lower layer increases;
the stability of the reused workings 5 and 3 increases (until they are paid off 19 and 20) due to the neutralization of the moment of the reference pressure by strengthening the 21 massifs produced during the initial use of the workings; at the same time, the stability of conjugation of lavas increases here.

 Similar conclusions can be made on the stability of the workings, including gozenki and group drifts, during field training.

The results of sealing the soil development 7 are as follows:
reduced air leakage with methane in mine 7 from the worked out space of the lower layer due to a decrease in the number of cracks; its stability increases due to a decrease in the action of the reference pressure I 'and I through the soil of the workings.

 The proposed method is intended for the simultaneous mining of more layers in the formation. For this, it is possible to increase the number of workings in which reinforcement and sealing will be carried out.

Research and testing of the method was carried out at the mining department of the RUDN University. They confirmed the conclusions of the invention on the stability of the workings and allowed to finally formulate its advantages:
the proposed method has a feasibility both social and economic, however, the calculation of the economic effect in the application is not performed according to p.130 "Instructions" in connection with the filing of an application from the organization;
with the proposed method for working out adjacent shallow beds, the costs of carrying out and maintaining the workings and mates of lavas are significantly reduced;
dynamic loads on the workings are reduced;
ventilation is significantly improved, work safety is increased;
in general, the cost of coal is reduced by 1.9 times.

 Examples of the method for the boundary conditions given in the claims are based on the above studies of the method in the rock pressure laboratory of the department.

When the depth of soil sealing in the ventilation development of the upper layer to a depth greater than specified in the invention, the effect of sealing does not increase, and the cost of sealing will increase significantly;
when the depth of soil sealing in the ventilation excavation of the upper layer to a depth less than that specified in the invention, the sealing deteriorates, the number of cracks does not decrease and the intake of air with gas from the worked space of the lower layer into the ventilation development of the upper layer increases;
when the width of the reinforcement of the lateral massif of the conveyor mining of the lower layer in front of the lava is more than 0.3-0.4 interdimensional power, the effectiveness of reducing the reference pressure will not increase, however, the cost of strengthening will increase significantly;
when the width of the reinforcement of the lateral massif of the conveyor mining of the lower layer in front of the lava is less than 0.3-0.4 interstitial power, the stability of the ventilation production of the lower layer is reduced, which is unacceptable according to the conditions of the invention.

 In preparing the invention for implementation, the following work was done: the patterns of rock pressure manifestations were revealed while simultaneously working together seams on a volumetric bench, technology parameters were determined, requirements were drawn up, and working drawings were developed together with him. Kostenko of the Karaganda basin.

Sources of information taken into account during the examination:
1. A.P. Kilyachkov. Autopsy and coal mining systems. M. Gosud. scientific those. ed. lit. in the city. 1960.354-365 s.

 2. I. L. Mashkovtsev. Underground coal mining technology. Tutorial. Part I. Opening, preparation and development systems for coal deposits. M. Publishing house. 1982. 76 p.

 3. Temporary technological schemes for the protection of preparatory workings by strips of hardening mixtures for aimless mining of coal seams. M. IHD them. A.A. Skochinsky. 1987.17 s.

 4. Temporary technological schemes of aimless excavation of coal seams, prone to spontaneous combustion with the movement of the working faces in the fall, stretching in the mines of the Karaganda basin. Karaganda KNIUI. 1982. 29 p.

Claims (3)

 1. METHOD OF PROCESSING APPROXIMATED GANFLOW PLATFACES, including preliminary preparation of ventilation, conveyor workings and cutting of lavas on both strata, location of workings of the lower stratum, including gesenki and group drifts during field preparation, in the unloading zone and subsequent simultaneous excavation of pillars ahead of treatment work on the upper stratum at a double distance between them, characterized in that, with the aim of safety and reliability of mining, increase the stability of the workings, their reuse The use of the ventilation workings behind the lavas on each layer is supported by the creation of saturated spaces in the soil and sides, while behind the lavas of the upper layer in the ventilation workout, the soil is sealed to a depth equal to 0.02 inter-layer power divided by the coefficient of rock thickness deviation between the layers from level 20 m, and in front of the lava of the lower layer in the conveyor excavation, the lateral massif is strengthened from the side of the fall to a width equal to 0.3 0.4 of the interdomain thickness.  2. The method according to claim 1, characterized in that the lateral array of the corner in the conveyor excavation is strengthened by the supply of a solution without coal excavation and exposure in this place of the roof.  3. The method according to claim 1, characterized in that the group drift during field preparation is connected with the continuation of the gozenka between the layers.

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