SU1104274A1 - Method of working ore reserves behind controur in quarry near-edge areas - Google Patents

Abstract

A METHOD FOR DEVELOPING OCCRONTABLE ORE RESERVES IN THE APPLIANCE ZONES OF CAREER, including holding a ledge from the working pit of the transport pit, removing the ore with chambers with drilling and blasting blasting, releasing it into the center and setting the space for the chambers. in order to reduce the loss of ore in the outer marginal zone of the open pit while maintaining the marginal contour, the open pit, working platform for tunneling the adit deep into the massif is formed after leaving covered mining at the marginal contour of the pit down from the upper boundary of the boundary deposit at a depth of 2-4 ledges, then in the ore massif above the adit create an open chamber with access to the berm of the upper ore ledge, thus forming a pillar on the side of the escarpment , then the ore is removed from the chamber, and after the filling mass is solidified, an adjacent open chamber is created in the formed pillar, and the retaining pillar is re-formed from the slope of the underlying ledge and after solidification filling mass in the adjacent Ka // least prigruzhajut You are a vertical slope schelezhaschego filling mass vskrysh- t «GOVERNMENTAL rocks, and refinement are chambers until the entire height of the ledge, and the remainder of the pillar vyni-, mayutsya underlying the development of ore deposits. /

Description

The invention relates to the mining industry and can be used in the extraction of minerals.

A known method for the combined development of ore in the marginal areas of the open pit side includes carrying a pit gallery from the ledges, excavating minerals with drilling and blasting chambers with ore mining systems, while mining works in the chamber in ascending order from the mine to the quarry space. ore ones are rebuilt near the rebels, or concrete support pillars are erected, the ore is discharged in the schtolnoe, and the pillar is left on the side of the slope, which is worked out simultaneously with working out the chambers of the underlying ledges 1.

The disadvantages of this method are the inevitable loss of ore in the abandoned ore pillar and the non-preservation of the stable pit contour as a result of the collapse of the board and surface of the quarry, which may be a protected area.

The closest to the invention to the technical essence and the achieved result is the method of developing marginal ore reserves in the near-side zones of the open pit, including holding a leddle from the working platform of the transport gallery, excavating the ore with chambers with drilling and blasting blasting, and setting the spent space of the chambers with a hardening mixture with the formation of backfill array 2.

The disadvantage of this method is significant loss of ore in the barrier pillar.

The purpose of the invention is to reduce the loss of ore in the outer marginal zone of the open pit while maintaining the marginal contour of the open pit.

The goal is achieved in that according to the method of developing marginal ore reserves in the near-side zones of the open pit, including holding a working adit from the working platform, excavating the ore with drilling and blasting chambers, releasing it into the tunnel and laying the developed space of the cameras with a hardening mixture to form a backfill, After the open-pit mining, the working area for penetration of the mine into the massif is formed down to the marginal contour of the pit down from the upper boundary of the boundary deposit at a depth of 2–4 ledges, then an open chamber is created in the ore mass above the schtolny, with an exit to the berm of the upper ore ledge, forming a retaining pillar on the side of the slope of the ledge, then the ore is dredged from the chamber, and after hardening array in the formed pillar create adjacent /

the open chamber, while from the OTkoca side of the underlying ledge, the retaining pillar is re-formed and, after solidification of the filling mass, in the adjacent chamber, the vertical slope of the upper filling mass is loaded with overburden, and the chambers are worked out until the entire height of the ledge is reached; the underlying ore deposit.

FIG. 1 shows a diagram of the mining of ore reserves of the first chamber; on .fig. 2 - a scheme of mining stocks of subsequent cameras.

5 The method is carried out as follows.

After the release of open pit mining near the reservoir near the boundary contour 1 at a depth of 2-4 ledges from the upper boundary 2 deposits on the horizontal

The berms form a working platform 3, from which the transport tunnel 4 and ort-races 5 pass by the small-bolt method. The mouth of the gallery 4 is fixed with a mobile mechanized support 6. Then in the ore field

An array lying above the tunnels creates a chamber 7 extending onto the berm 8 of the upper ore ledge, forming a retaining pillar 10 on the side of the slope 9 to prevent scattering of the blasted ore and holding the filling mixture. After

In this way, wells 11c are drilled by the surface of the slope by the drilling machines for open-pit mining and in the hard-to-reach places of wells 12 from the underground workings by drilling carriages to the design contour of the chambers. By blasting the charges of wells 11 and 12, a cutting array is formed, expanding into a cutting slot, and the main stock of chamber 7 is broken into the compensation space formed. The ore is released and loaded in ort-races it is transported by means of self-propelled and loading-shipping 4 cars, and in a career overload on a career transport. After the ore is discharged from chamber 7, the spent space of the last solidification mixture 13 is laid through a pipeline laid along the board of the quarry. At the same time, work is carried out in each odd chamber of the upper ore scarp, and after acquiring the required durability by a filling array of these chambers of the required strength

0 cameras of this ledge in a similar way. After hardening in the last backfill array in the left pillar, an adjacent chamber 14 is created, the upper boundary of which is berm 8, slope 9 of the upper scarp and berm 15 of the underlying scarp, lower gallery - 4, and lateral - bulking array 14 and holding pillar 16, which form side of the slope 17 of the underlying ledge (Fig. 1), after the ore is discharged from chamber 14, filled with a hardening mixture and filled with an array of the required strength, the vertical slope of the overlying stuffing array 13 of the chamber 7 is loaded with stripping pores s 18. If left pillar height greater than the height 16 shoulder 19 lying over galleries creates a parked adjacent the rear sight chamber and its work out similarly. If the height of the left pillar 16 is equal to the height of the ledge 19 lying above the adit, in the underlying ore massif at a depth of 2-4, the steps on the horizontal berm form a working platform and the cycle of ore mining in the left pillar 1 and the underlying ore mass is repeated. The height at the same time from the working layer should be a multiple of the height of the step and equal to the height of 2-4 steps, since the height of the layer is equal to the height of the step, it is not economically feasible due to the unreasonably high rate of preparation per ton of ore mined Adverse conditions are created in terms of the stability of the retaining pillar and the stability of the bead during the processing of the layer, as well as an increased concentration of stresses in the corners of the chamber being worked out. The advantage of the proposed method is the reduction of ore losses in the outer marginal zone of the open pit while maintaining the stable marginal contour of the open pit, which is achieved due to the continuous excavation of the barrier pillar with a system with a hardening tab. The proposed development method also allows the creation of an artificial pit wall, which repeats the profile of its marginal contour, prevents the collapse of the earth's surface and the protected buildings and structures located on it, and simultaneously allows open mining in other open pit sides and. on the lower horizons, and the loading of the vertical slope of the filling mass with overburden ensures that the local stability of the bead is maintained near individual ledges.

2.

Claims (1)

METHOD FOR THE DEVELOPMENT OF OVERLOAD RESOURCES OF ORE IN THE OUTBOARD ZONES OF THE QUARRY, including carrying out a transport adit from the working platform of the ledge quarry, excavating ore with chambers with drilling and blasting blasting, putting it into the adit and filling up the worked out space of the chambers with a hardening mixture with the aim of forming a filling mass that reduction of ore losses in the outer marginal zone of the quarry while maintaining the limiting contour, the quarry, the working platform for tunneling deep into the massif form after open mountains work on the limiting contour of the quarry down from the upper boundary of the contour deposit at a depth of 2–4 ledges, after which an open chamber is created in the ore mass lying above the adit with access to the berm of the upper ore ledge, forming a retaining pillar from the slope side of the ledge then ore is excavated from the chamber, and after hardening of the filling mass in the formed pillar, an adjacent open chamber is created, while the retaining pillar is again formed on the _β side of the scarp of the underlying ledge and after hardening of the filling array adjacent Ka K // least prigruzhajut vertical slope overlying filling mass vskrysh- iVm · GOVERNMENTAL rocks, the refinement camera- E ¹ are entirely up to the height of the step, and the remaining part vyni- pillar, in developing the underlying mayutsya ore deposit. \8 15 9 10 <1 4 ^ .3