SU1270331A1 - Method of open-cast mining of sloping and steep mineral deposits - Google Patents

Abstract

The invention relates to the mining industry and allows a reduction in the length of transport communications, the number of movements of the downhole conveyors (LC) and the amount of auxiliary work. In the zone of mining operations, mining of strata is carried out in stripes. When mining, the strip crosses the mining zone at a right angle to the direction of its displacement in the plan. At its ends, the strips extend onto the boundaries of the lying and hanging sides of the deposit. In the middle part, along each strip, an ES is installed for loading the rock mass. They interact with conveyor lifts, which are then overloaded mountain mass. Within each strip, mining is conducted by medium transverse inclined bores (PNZ) and horizontal peripheral bores (GPPs) by means of excavators and material handlers. In the process of testing on the basis of the PNZ across the ZK move. In order to maintain the transport connection between the PCs, after their repetition, the engines increase the lifts. The resulting ZK shift corresponds to the shift of the work area during the transition to working out the next horizon. At the end of the development, the GPP will switch to working out the average PNL ahead of the new horizon, and the cycle will be repeated. 2 Il. ГчЭ о 00 со

Description

This invention relates to the mining industry and can be used in open pit mining.

The purpose of the invention is to reduce the length of transport communications, the number of movements of conveyors and the amount of auxiliary work.

Figure 1 shows the area of mining operations with the division of mining in strips, plan; figure 2 - section aa in figure 1 (cross-section of the strip).

In the drawings, the following notation is accepted: the boundary of zone 1 of the mining operations is transverse; conveyor lifts 2; rolling board 3 career; boundary 4 lying bed; transversely inclined entry 5; horizontal peripheral run 6; bottomhole conveyors 7; transverse boundary 8 of the mining zone; border of 9 vis of which the sides of the pool; border 10 lanes; excavator 11; loading cranes 12; horizontal peripheral gate 13; cross inclined approach 14.

Mining operations are carried out in the mining zone with transverse boundaries 1 and 8, boundary 4 with recumbency and boundary 9 with a lateral side of the deposit. The zones of mining when moving to the next horizon, besides lowering, are displaced due to the inclination of the layers also in the plan (boundary 4 is displaced along the base, and boundary 9 - along the roof of the formation), and the displacement in the plan is made at an angle to the dip (e) shifting the mining zone beyond the boundaries 4 and 9). The mining zone is divided into a series of lanes by the boundaries 10 arranged so that they cross the mining zone at a right angle to the direction of its displacement in the plan, with the strips with their ends facing the boundaries 4 and 9. In the middle part along each strip they set downhole conveyors 7 interacting with conveyor elevators 2 located on a lying side 3 and oriented in the direction of displacement of the zone of mining operations.

Within each strip, mining is carried out with average transverse inclined bores 14 and 5 and horizontal peripheral 13 and 6 with the help of excavators 11 and loading cranes 12.

The method is carried out as follows.

To the initial position of the downhole conveyor 7.1, the average approach 14, located ahead (towards the hanging board) of this conveyor, is tested. The base of the approach is inclined in the transverse direction by, for example, operating an excavator with a cross slope. In this case, the angle of inclination of the approach is within the range allowed for the operation of the equipment. Then, one peripheral stop 13 is worked out (the working out of both stops is conditionally combined) with a horizontal base, after which the conveyor 7 is moved transversely, for example, with a turn dozer, from position 7.1 to position 7.2. At the same time, the conveyor elevator 2 is increased along its axis to maintain the transport connection between the conveyors after moving the bottomhole conveyor to position 7.2 (transverse movement of the bottomhole conveyor carried out across the strip along the direction, in plan, of the conveyor elevator). From the position of the conveyor 7.2, the remaining front peripheral passages 13 of the strip are processed.

Then, the middle passage 5, located behind the conveyor (towards the recumbent board), passes the same position of the downhole conveyor; its base is also made inclined in the transverse direction and the peripheral stop 6 passes. Then the downhole conveyor is moved transversely along the base of the entry 6. in position 7.3, a partial reduction of the conveyor belt of the pick-up 2 is made to preserve the transport connection of the conveyors and the remaining rear peripheral b strip lanes pass. In this case, the resulting shift of the downhole conveyor from position 7.1 to position 7.3 corresponds to the shift of the zone of mining operations during the transition to working out the next horizon. After the completion of the development of the peripheral approaches, the transition to the development of the average approach 14 in front of the bottomhole conveyor is resumed, but the cycle is repeated at the new horizon.

The specified strip mining sequence is not the only one. For example, after moving the conveyor to position 7.2, you can immediately work out the rear middle stop 5, and then return it to work on the front peripheral catches 13. The mutual sequence of working cycles between the individual lanes, shown in Figure 1, may be different.

Thus, the proposed method allows to reduce transport communications by eliminating connecting conveyors and reducing the length of the downhole crossing of the mining area at an angle to the strike, reducing the amount of auxiliary work by eliminating reassembly of conveyors and building special split transoms, as well as reducing the volume of conveyor movements by installing them in the middle of the strips and working on both sides of them using, if necessary, reloaders.

Claims (1)

Invention Formula Open pit mining method of an inclined and steep bedding, including mining of layers in the mining zone with its displacement when passing to the next horizon at an angle in terms of the dip of the reservoir, with strips facing its ends and the recumbent side of the reservoir, loading downhole conveyors and subsequent transshipment to conveyor lifts, oriented in the direction of the mining zone shift, and downhole conveyors movement, characterized in that, in order to reduce the length of transport communications, the number of conveyor movements and the amount of auxiliary work, the lanes are worked in the direction of their intersection of the mining area at a right angle to the direction of displacement of the specified mining zone in the plan, while downhole conveyors are installed in the middle part of each strip along it and work their average transversely inclined and horizontal peripheral penetrations, with the downhole conveyors moving along the base of the transversely inclined advances. A - A ggaOer and / 77o / / 7O