SU1456566A1 - Level working method - Google Patents

Abstract

The invention relates to the mining industry and m. used in open field mining without explosive loosening of rocks using excavation-transporting machines (TMV). The purpose of the invention is to increase the safety of work by eliminating the location of the TMV within the collapse of the escarpment slope. In the course of its movement parallel to the edge of the escarpment of the ledge, the TMV processes each layer 2 by stopping from top to bottom. The work is carried out only before the intersection of the sole of the layer with the plane of the prism of the collapse 3 and the formation of the rear sight 4 from the rocks of the specified prism. The formed rear sight 4 is activated when excavating rocks in the underlying layers x 2. When excavating rocks in layers 2, the angle ci-o between the inner face 6 and the base 5 of the rear sight 4 is maintained equal to the natural angle of slope of the developed rocks. As the ledge is developed, its height, base width and height of the collapse prism will decrease, and the safety of work will increase. 1 il. (L

Description

The invention relates to the mining industry and can be used in open pit mining of minerals without: 5 explosive loosening of rocks using mining and conveying machines.

The aim of the invention is to increase the safety of work by 10 eliminating the presence of mining-transporting machines within the prism of the collapse of the escarpment of the ledge.

The drawing shows the worked out ledge, section. fifteen

The ledge contains a working platform 1, on which the excavating and transporting machine (VTM) excavates rocks with layers 2 of height h, a collapse prism 3, characterized by a height of ledge H, a working slope angle otp and a natural slope angle of the developed rocks ot ₀ , rear 4, base 5 of which lies on the pee 25 of the resection of the next layer 2 with the plane of the prism 3 of the collapse and forms an angle <£ _o with the inner face 6 equal to the angle of repose of the developed rocks.

The offset is worked out as follows 30 times.

VTM in the process of its movement parallel to the edge of the escarpment of the ledge fulfills each layer 2 with downward visits, and not across the entire width 35 of the working platform 1, but only until the sole of the worked out layer intersects the plane of the prism 3 collapse with the formation of a pillar 4 from the rocks of the specified prism 3. 40

The molded pillar 4 is triggered when excavating rocks in the underlying layers 2. When excavating rocks in layers 2, the angle οί. _ο between the inner face 6 and the base 5 of the pillar 4 is maintained equal to 45 natural angle of repose of the developed rocks.

The width of the base of the collapse prism at the level of the bottom of the worked out layer is less than the width of the base of the prism. collapse before working out the layer by the amount, m:

AZ = h (Ctg <£ ₀ - Ctgrfp).

Therefore, when working out each layer, the molded pillar with a width equal to 6Z and a length equal to the bottom face of the VTM is also simultaneously worked out, i.e. as the ledge is worked out, its height, the width of the base and the height of the collapse prism decrease, and the safety of work increases. The cross section of the rear pillar 4 also changes its shape from trapezoidal at the initial stage to triangular.

Testing the ledge within each excavation layer only to the plane of the collapse prism with the formation of a pillar from the rocks of the specified prism increases the bearing capacity of the ledge and thereby the safety of mining at the work site. Improving the safety of work allows you to increase the height of the worked ledge.

Claims (1)

Claim The method of developing the ledge, including layer-dredging of rocks by dredging-transporting machines from top to bottom by longitudinal stoppers, characterized in that, in order to increase the safety of work by eliminating-dredging-transporting machines within the prism of the slope of the slope, the dredging of rocks in each layer leads to the prism plane collapse with the formation of the pillar of the rocks of the specified prism, and the formed rear sight work when the rocks in the underlying layers are excavated.