SU870716A1 - Method of working thick gently sloping deposits - Google Patents

Description

The invention relates to the mining industry and can be used in the development of unstable ores at great depths.

A known method of developing powerful dipping deposits, including the extraction of worked strips in horizontal layers; in ascending order and layered stowing settable mixture £ 1 disadvantage of this method is the ^- necessity of conducting works in two stages and, in addition, it is unacceptable when mining of minerals, impaired by cracks and having a low natural stability.

There is also known a method of developing powerful shallow dipping deposits, including mining strips of minerals with ascending layers, filling the worked out space with a hardening mixture and leaving free technological space at the undercut ledge with the leading ahead of the undercut surface of each leading strip from the laying surface in the adjacent strip of at least the height of one layer. This method also unacceptable when developing unstable deposits at greater depths.

The purpose of the invention is to expand the scope of upward excavation by layers in the conditions of the development of unstable ores at great depths by uniformly reducing the stress concentration on all elements of the ledge.

This is achieved by the fact that the excavation of the strips is carried out with an inclination towards the array at an angle of 10-30 ° from the vertical, while the layers are beaten off in the form of a trapezoid, in which the lower base is formed by the horizontal surface of the bookmark of the lower lying layer, and the upper base is perpendicular to the slope of the strip.

The drawing shows a General technological scheme of the excavation.

A powerful dipping deposit is being worked out at its full capacity, using a lay-out recess and laying with a hardening mixture. With this mining, transport slopes 1 are located in the deposits according to its fall, uprising or diagonally and layer hordes 2 pass from them. On the soil, the unit horns are knocked together by split workings 3. Stripes 5 are cut into such deposits in the mineral array 4, the reserves of which are extracted by layers 6 in the form of trapezoids in ascending order, cut to the hardened tab 7 in adjacent bands.

The lower layer of each strip, subject to priority excavation, is practiced by expanding the split output. With its expansion, the undercut surface of the ledge gives a slope towards the array. The inclination angle, depending on the location of the subparallel natural cracks, is taken to be 10-30 ° from the horizontal.

Giving such an inclination to the lower surface of the ledge increases the stability of the cut mineral and provides the possibility of increasing the width of the strip. At the same time, this reduces the role of the wedging of the end face of the ledge at the contact with the hardened tab in the adjacent strip.

From the treatment space of the first layer, rows of ascending holes 8 of the same length are drilled, with which the reserves of the second layer are prepared for breaking, while the bulk of the holes are drilled with an inclination towards the mineral array.

At the end of the drilling of the ledge, the treatment of the production of the lower layer with a hardening mixture is laid, which is placed on the soil with a horizontal layer 9. When performing the laying operations, free technological space A is left between the horizontal surface of the hardening mixture and the lower surface of the ledge 10, which is used to charge the ascending holes with explosive charges and for ventilation.

The reserves of the second layer are beaten off after a set by laying the strength sufficient for the operation of self-propelled equipment.

Subsequent layers work out similarly to the second layer. When the front part of the inclined ledge reaches the roof level, the clearing space of the layer is laid up to the lower edge of the inclined ledge and frontal breaking of the reserves of the last layer is carried out.

After breaking off the stocks of the second layer, the strips deviate from the vertical towards the untouched massif. The angle of deviation from the vertical take 1030 °.

The development of the deposits is carried out simultaneously in several bands, while taking the leading edge of the ledge of each step of the leading strip from the surface of the bookmark in an adjacent strip of at least the height of one layer.

Giving a joint inclination to the strip and the lower edge provides a uniform decrease in the stress concentration of all the elements of the ledge, reduction of deformations of the overlying rocks and virtually eliminates the possibility of cleavage of the ledge along the planes of natural weakening, since the force line of the stress field at the mine roof is always deflected towards the mineral array at an angle of 1030 °, and the expansion of its effect on the P ^ acting normal to the band, and the power P _and acting in the direction of inclination of the strip increases the clamping ledge to the array minerals and grip on the planes of natural fractures.

Claims (2)

The invention relates to the mining industry and can be used in the development of unstable ores at great depths. There is a known method for the development of powerful flat bottom deposits, including excavation of the above-mentioned strips by horizontal layers, in ascending order and layer-by-layer laying of the developed space with a hardening mixture of 1 j. The disadvantage of this method is that it is necessary to conduct work in two stages and, moreover, it is unacceptable when mining a mineral that is broken by cracks and has a low natural resistance. There is also known a method of developing powerful gently dipping deposits, which includes working out mineral resource strips with the ascending layers, filling the worked-out space with a hardening mixture and leaving free technological space near the undercut ledge ahead of the undercut surface of the leading ledge of at least one height from the adjacent strip. Layer 2. Danish method is also unacceptable when developing unstable deposits at great depths. Target | the invention is an extension of the field of application of the upstream excavation in the conditions of developing unstable ores at great depths by uniformly reducing the concentration of stresses on all elements of the ledge. This is achieved by the fact that the notch of the strips are inclined towards the array at an angle of 10-30 ° from the vertical, at which this layer is beaten off in the form of a trapezoid, in which the lower base is formed by the horizontal surface of the underlying layer and the upper base is perpendicular to the slope stripes. 38 The drawing shows a general technological scheme of the excavation. Powerful gently dipping deposits otrabatshayut on all its power, using a layered recess and bookmark hardening mixture. During such mining, transport slopes 1 are located in the deposits by its fall, revolt or diagonally, and Orta layers 2 pass from them. Orth deposits are knocked together by split openings 3 on the soil. With such workings, in strip 4 of the mineral, strip 5 is cut, stocks of which are extracted by layers 6 in the form of a trapeze in the ascending order to the hardened tab 7 in the adjacent bands. The bottom layer of each strip, which is subject to primary excavation, is worked out, expanding the split production. When it expands, the undercut surface of the ledge is inclined towards the array. The angle of inclination, depending on the location of the subparallel natural cracks, is assumed to be equal to 10–0 from the horizontal. Giving such an inclination of the lower surface of the step increases the stability of the mined mineral and provides an opportunity to increase the width of the strip. At the same time, this reduces the role of wedging the end of the step on the contact with the hardened laying in the adjacent strip. From the cleaning space of the first layer of the drill of the ascending ribs 8 of the same length, with which the reserves of the second layer are prepared for breaking, the bulk of the holes are drilled with an inclination in the direction of the mineral massif. At the end of the cutting of the ledge, the lower layer is cleared by a hardening mixture, and the torus is placed on the soil with a horizontal layer 9. When filling works are completed, the horizontal surface of the hardening mixture and the lower surface of the ledge 10 leave a free technological space, which is used for charging upstream blast holes with explosives and for ventilation. Stocks of the second layer are fought off after being set by laying a strength sufficient for the operation of self-propelled equipment. Subsequent layers work similarly to the second slcho. When the forward part of the inclined ledge reaches the level of the roof, the cleaning space of the layer is laid to the lower edge of the inclined ledge and frontal breaking of the reserves of the last layer is carried out. After breaking off the reserves of the second layer, the strips are deflected from the vertical in the direction of the untouched array. Angle ottsonenk from the vertical take 1030 Deposit of the deposits are simultaneously in several lanes, while taking the advance of the dissected surface of the ledge of each leading strip from the surface of the bookmark in an adjacent strip of not less than the height of one layer. Giving a joint inclination to the strip and the lower edge ensures a uniform decrease in the stress concentration of all elements of the ledge, reducing deformations of the overburden, and virtually eliminates the possibility of splitting the ledge along the planes of natural attenuation, since the power line P of the stresses at the roof of the mine is always deflected towards the array of useful fossil at an angle of 1030, and its decomposition into a force P acting along the normal to the strip, and a force Pj acting in the direction of the slope of the strip increases the pressure of the step to the mass minerals and adhesion along the planes of natural cracks. The invention The method of developing powerful gently dipping deposits, including mining mineral bands with ascending layers, filling the mined-out space with hardening mixture and leaving free technological space at the jagged ledge ahead of the jagged surface of the jutting each leading strip from the surface of the bookmark in the adjacent strip not less than the height of one layer characterized in that, in order to expand the field of application of the upstream notch in layers in the design catch, it is unstable ores at great depths by uniformly reducing the concentration of stresses in all elements of the ledge, the strip is dredged with a slope in the direction of the array at an angle of 10-30 from the vertical, while the layers are fended in the form of a trapezoid, in which the lower axis is formed by the horizontal surface of the bookmark of the underlying layer, and the upper base is made perpendicular to the slope of the strip. Sources of information taken into account in the examination 1, USSR Author's Certificate No. 599075, cl. E 21 C 41/06, 1976. 2.Certificate of the USSR 706536. cl. E 21 C 41/06, 1978. 8 s