SU891948A1 - Method of controlling deformation of undercut rock body - Google Patents

Description

(54) METHOD OF MANAGEMENT DEFORMATION. TRAINED MASSIF OF MOUNTAIN BREEDS

one

The invention relates to the mining industry and can be used in the extraction of minerals from security pillars for various surface and underground structures when mining steeply dipping deposits.

There is a known method for controlling the deformation of the rock mass produced, including the laying of cavities of the stratification of rocks formed as a result of displacement of the rocks 1.

There is also known a method of controlling the deformation of the rock mass produced during the clearing of minerals, including the creation of a weakening surface in the rocks along the perimeter of the protected area by slits created on the surface before intersecting with the surface displacement 2.

The disadvantage of this method is the relatively large loss of mineral resources when the protected area enters the zone of collapse when it leaves the surface, since in this case it is necessary to leave guarding pillars.

The purpose of the invention is to reduce the loss of mineral in protective pillars.

This goal is achieved by the fact that the surface of weakening in rocks is created from the horizon of the clearing recess by drilling wells in the direction of the displacement surface formed during the mining of the overlying horizons and blasting of these wells.

FIG. 1 shows the ore body, a vertical section across the strike; on

10 of FIG. 2 shows section A-A in FIG. one.

When mining the ore body 1 on the earth's surface and in the rock mass, a zone of cracks appears, which is fixed on the surface by the angle of fracture fi. However, in the rock mass, when mining the reservoir to horizon VII, this zone is limited by a curvilinear surface 2 emerging on the earth's surface at the protected object 3. Further development of the reservoir leads to disruption of the normal operation of the object 3. In this case, to protect the object 3, all reserves of the ore body 1 below horizon VII in the protective rear sight. As a result of creating an artificial weakening surface, starting from the clearing recess on horizon VIII and oriented in the direction of the natural displacement surface 2, during the extraction of reserves on horizon VIII, a displacement area forms in the rock massif, bounded in the upper part by surface 2 and in the lower part by surface 4. In this case, the zone of displacement on the surface does not receive its spread, i.e. does not capture protected object 3. For further excavation of the ore body 1 on horizon IX, safe for protected object 3, a new attenuation surface 5 is created, starting from the clearing recess on horizon IX and oriented in the direction of the displacement surface 2, therefore rock movement occurs on these two surfaces and does not capture the protected object 3.

The displacement surface 2 formed as a result of mining of the upper reservoir horizons is determined either by visual observations of the development of a zone of cracks on the earth’s surface and in workings 6. and 7, or on the basis of surveying instrumental observations of the development of deformations of the earth’s surface and rock mass.

The creation of the artificial weakening surface 4 is carried out as follows. If the openings 6 and 7 intersect the weakening surface, then a fan of 8 wells, the orientation of which corresponds to the orientation of the weakening surface 4 (Fig. 2), is directly from the intersection of the drill holes. Otherwise, additional development takes place in the direction of the calculated weakening surface, from which the wells are subsequently drilled. The drilled wells are charged with an explosive and explode, resulting in

which results in a natural weakening surface 4 in the rock mass. Similar operations are performed to create an artificial weakening surface 5. The number of wells drilled and the explosive consumption depend on the strength of the rocks, the area of the created weakening surface and are determined by calculations for each specific case.

The application of the invention allows partial or, in a number of cases, complete extraction of the mineral from protective pillars. Its use is limited in the case when the cost of the work of creating a surface weakening exceeds the cost of mined

minerals.

Claims (2)

1. USSR author's certificate number 594339, cl. E 21 F 15/00, 1976. 2. USSR author's certificate No. 372351, cl. E 21 D 13/02, 1971 (prototype).