SU1555502A2 - Method of relieving a mine working from strain - Google Patents

Abstract

The invention relates to mining and can be used in the development of mineral layers with hard-to-break rocks of the main roof. It allows to increase the stability of the workings. A guarded production passes, and between it and the clearing face - a split furnace. Then, additionally, from a split furnace, drill deep wells into the rocks of the main roof. The wells are drilled towards the clearing face at an angle of 70 - 80 ° to the roof plane of the coal seam. Due to this, the rocks of the main roof are shifted relative to each other under the action of tensile stresses. Shoot explosives into them and blow them up. This creates a zone of disturbed rocks in the immediate and main roof. The discharge furnace is redeemed. A dividing strip is formed; it separates the protected excavation from the approaching lava. Together with the split furnace, this strip is a reliable barrier that prevents the spread of the effect of cleaning work on protected production. 2 Il.

Description

The invention relates to mining, can be used in the development of mineral sparks, mainly coal seams, to protect preparatory workings from increased rock pressure and the harmful effect of cleaning work on the hard-to-break rocks of the main roof and is an improvement of the method according to the author. St. No. 1239348.

The aim of the invention is to increase the sustainability of production in hard-to-crush rocks of the main roof.

FIG. 1 shows a diagram of a mountain range, a vertical section along the strike of a coal seam; in fig. 2 shows the layout of the workings of the excavation column, view in plan.

The method of unloading the excavation 1 from the stresses arising in connection with the approach of the cleaning front to the hard-breaking rocks of the main roof is carried out as follows.

At first, protected production 1 is received by an accepted technological method depending on the strength of the host rocks, around which a zone of inelastic deformations is formed, the radius of which is determined by experiment

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mainstream measurement using the electromagnetic method. After that, the excavation column is contoured by conducting the haulage 3 and ventilation 4 drifts and the split lava kiln 5. After the excavation equipment is installed in the lava kiln 5, coal 2 is removed from the clearing face 6. Then at the bottom 6, the split furnace 7 is conducted at a distance from protected output 1 not less than the total radius of the inelastic deformation zone of protected output 1 and split furnace 7. Then, in addition to the known method, wells 8 are drilled from split furnace 7 at an angle of 70-80 ° to the plane of the roof of the coal seam 9 towards the movement of the bottom 6 of the lava. The wells are spilled directly 10 and the main roof II. The wells 8 charge blasts of explosives and explode them. After this, the split furnace is redeemed. Due to the blasting of the well charges, a zone of disturbed rocks 12 is formed in the immediate 10 and main 11 roofs in the form of a separation line separating the rocks of the main roof 13 above the lava from the rocks of the main roof 14 the location of the protected mine 1 and safety pillars 15.

The blast-rock strip 12 created with the help of blasting operations together with the split furnace 7 is a reliable barrier preventing the spread of the effect of cleaning works on protected production 1.

The angle between 70-80 for drilling wells to the density of the coal seam roof is adopted so that the broken layer, the rocks of the main roof as a result of shifting relative to each other, under the action of tensile stresses Sarerast, and not under the effect of shear stresses cf ) which occur in the rocks with an increase in the angle of more than 80 ° because the tensile strength of the rocks is much less than the shear strength. Taking an angle of less than 70 is impractical because of the increase in the amount of work done in drilling wells. Calculated

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it was established that the distance between the wells should be taken depending on the strength of the rocks of the main roof, their texture, structure, such as the received explosive within 2-3 m, and the number of wells simultaneously exploded depends on their preparation at one time, t . on the number of drilling equipment in operation.

The width of the discharge development 1 is taken in such a way as to enable the placement of the adopted drilling equipment.

. The physical essence of the effect of protecting the development and increasing its stability under the influence of cleaning works is that, as compared with the main invention, the destruction zone is additionally formed in the rocks of the main roof due to the blasting of explosive charge in the wells directed towards the approaching bottom hole. Therefore, in the destroyed rocks of the main roof, that part of the horizontal deformations and stresses, spreading in the direction of the protected excavation, before the cleaning face, which is freely transmitted over the intact layers of the rocks of the main roof, is realized.

Compared with the basic method of unloading mine workings from stresses, the economic effect is achieved by reducing repair work by a factor of 3–4 and amounts to 10-15 rubles per millimeter meter.

Formula of invention

The method of unloading mining from the stresses of the bus. St. No. 1239348j characterized by the fact that, in order to increase the stability of the development of the difficult roof of the main roof, from a split furnace located between the excavation and the downhole, we drill deep wells into the main roof, charge them with explosives, which explode and form a zone of disturbed rocks of the main roof, while the wells are drilled to the face of the cleaning face at an angle of 70-80 ° to the plane of the roof of the coal seam.

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Claims (1)

For rum ula inventions Method for unloading mining from stresses according to ed. St. To ⁵ 1239348 ^ 45 characterized in that, in order to increase the stability of production with hard-to-break rocks of the main roof, deep wells are drilled from the split furnace located between the mine and the working face into the main roof, they are charged with explosive charges that explode and form a zone of disturbed rocks of the main roof, while the wells are drilled towards the face at an angle of 70-80 ° to the 55th plane of the roof of the coal seam. fi v. 1