SU840358A1 - Method of protecting mine working from rock pressure - Google Patents

Description

(54) METHOD FOR PROTECTING FOR MINING PRESSURE I

I

The invention relates to mining, in particular, to methods for protecting field and group inclined workings and drifts of the main direction (main) when developing flat seams on deep horizons (over 600-700 m).

The method is known from the rock pressure of the main field development workings by locating them in the previously unloaded soil rocks of the formation as a result of coal mining 1.

The well-known method of protecting workings from rock pressure implies a great deal of laboriousness in carrying out cleaning work in discharge lavas of small length (10-40 m), since the distance from field development to the formation is between 5-20 m; a large amount of excavation drifts (traversals), the arrival of the consumption per ton of recoverable reserves when developing discharge lava of small length; conducted field workings with a delay of 5–20 m or more from the discharge discharge lava are adversely affected by cleaning works, because at great depths the process of stabilization of stresses in the rocks of the discharge zone (in the formation soil) ends

at a much greater distance from the bottom unloading lava. In addition, during the development of sewage treatment works in the wing of the panel block, on the horizon, i.e., during the development of stocks by the lavas that are adjacent to the developed space of the discharge lava, there is an increase in stresses in the previously formed rock discharge zone of the reservoir soil, which leads to to the deformation of rocks on the contour of the field workings and an increase in the cost of maintaining them.

There is also known a method of protecting the excavation from rock pressure, which includes excavation of coal with unloading lava with a complete collapse of the roof of the reservoir and carrying out a field development in the unloaded zone of soil rocks.

This method is inherently inadequate.

5, the lag of the carried out field development from the moving bottom discharge lava, which leads to the need for repair work to be performed in connection with finding it in the zone of active influence of the cleaning works of the discharge lava. The preservation of the discharge zone during the development of sewage works is accompanied by the need to leave the coal between the

developed by lavas of large pillars or protective coal strips (their width is about 150-250 m, i.e. equal to the optimal length of the lava). This sharply increases the loss of coal in the pillars or during their subsequent mining, complicates the technology of cleaning the excavation and increases the complexity of the work. In the presence of coal protective bands, there are also a number of technological difficulties and ensuring the stability of excavation drifts or marches within the reserved coal protective band.

The purpose of the invention is to reduce the cost of maintaining workings.

The goal is achieved by the fact that under the discharge lava along its axis, workings are made with a lag from the hole, while during coal mining with adjacent lava adjacent to the developed space of the discharge lava, a section of its reserves is worked for an amount not less than the length of the lava with laying the worked out space, as well as the fact that the magnitude of the backlog of excavations from the bottom is assumed to be 01 H-20, where H is the depth of operation, m.

At a depth of H-900 m, the development of a gently sloping seam 1.2-1.4 m thick, the angle of incidence of which 10 °. The lateral rocks of the reservoir shale average and below average stability. Within the mine shaft wing or block of the completed flat-site preparation of the formation by field drifts of the main direction (main), one of which is haulage, the second one is ventilation. The development of stocks in the wing of the floor or the block is made by the lavas of the uprising. The optimal length of the lava for the conditions under consideration is 200 m. To ensure good stability of the field drifts, their main direction passes and is supported in the previously unloaded soil rocks of the formation.

The preliminary unloading of the soil rocks is achieved due to the extraction of UGM with a discharge lava length of 200 m, which is worked along the strike of the formation. In the unloading lava, a method of controlling the roof by full collapse is applied, excavation drifts occur after the movement of the unloading lava is maintained in the developed space and they are periodically increased as they are produced by collapsed iM and compacted uiac joints of intermediate roofs.

The cleaning technology of lava discharge is no different from () the well-known technology of working flat n.iacTOB using a continuous lavashtrek system. The field drifts of the main direction to the field are traversed in the unloaded rocks of the model mode paste, developed by the unloading 3 (: ;;): the ground spread and its center, at a distance of 75-80m excavation drifts. The lagging of the face of the field drifts of the main direction from the bottom of the discharge lava is 70 m, which completely eliminates the harmful effects

cleaning works unloading lava on the stability of zero drifts. The gentle drifts of the main direction are connected to intermediate walkings by holding intermediate slopes or Gesenics.

During the reverse course of the lava rebellion

its length is 200 m (standed system), the length of its task is 200 m in the fall and 200 m in prostration, it is worked out with laying the worked out space instead of the method adopted during the development

roof management full m collapse. For the erection of a backfill array, rock is used from conducting field and reservoir workings within the niaxTHoro nol or b / w wing.

The delivery of rock to the lava is carried out through the pipeline with the help of the pneumatic filling machines. If it is not technologically and economically profitable to make a laying of the developed space with a rock from making workings, then it is advisable to switch to using the method of controlling the roof by partial laying, i.e. on the strong combination of rubble beds and rubble drifts. To reduce the percentage of shrinkage of the rubble strips and increase their

hardness in the rubble strips can be fed fast-hardening. Into the burial of the substance, papimer synthetic resins, natural anhydride, etc.

When mining lava with a length of 200 m at a forward stroke (complete system), at the beginning, when lava moves away from its own split furnace, a backfill is erected with a length of 200 m in the fall and 200 m in strike. Further, as the lava of this lava is under control, a method of controlling the roof by complete collapse is applied to the uprising.

In the case of the use of panel or block preparation of the reservoir with field workloads of 1pp.1x in the pre-unloaded zones and mining of the panel or block with lavas along the strike, all the same conditions of protection of field inclined mine workings from mining are maintained; The only difference is that in the preliminarily unloaded zone, three field inclined workings usually occur and are maintained.

Claims (2)

Invention Formula A method of protecting the excavation from rock pressure, including digging coal from the discharge lava with complete collapse of the nlast roof and conducting a field excavation in the unloaded zone of the soil, in order to reduce the cost of maintaining the workings, under the discharge lava along its axis, the workings are lagging behind the bottom, while during coal mining with adjacent lava adjacent to the developed space of the discharge lava, a section of its reserves is worked for the value not less than the length of the lava with the laying of the developed space. 2. The method according to p. I, characterized in that the magnitude of the excavations from the bottom of the pit is irrims (.11 II 2i.L where H is the depth; 15de 1111 works, m. Sources I1I)) of Armenia, taken by R. Attention in the examination 1. Lipkovim S.M. and others. Prom1.1P1lennye tests of preliminary overwork of field drifts of the main direction. - “Coal, 1969, .Vo 12, p. 15-19. 2. The collector .1. P. Peculiarities of the development of refining works in the development of shallow seams on deep horizons. - “Coal of Ukraine, 1979, .NO 6, p. 11 - 13.