SU1427075A1 - Method of setting supports in mine working - Google Patents

Abstract

The invention relates to the mining industry. The goal is to increase the stability of the support due to a more even distribution of stresses in it. As the fence moves in, the fencing 1 is installed, By means of blasting camouflage charges, zones of fracture 3 are formed. Camouflage charges are located around the perimeter of generation inversely proportional to the coefficient of fracture k, which is accepted by variables on segment d (/ 2 Q and determined by the formula given in the invention, where + o (/ 2 is the central angle, limiting zone 3 and defined according to the formula given in the invention; b - the angular coordinate of the section under consideration on the surface of the support. In the previously measured spools 4, the bonding expanding material hardening, for example cement, is injected into zone 3 to form a rock ETOH lining. 3. yl. slab

Description

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The invention relates to the mining industry and can be used to secure and protect the mine workings under difficult mining and geological conditions.

The purpose of the invention is to increase the stability of the support due to a more uniform distribution of stresses in it.

FIG. Figure 1 shows the lining design obtained when performing the proposed method; in fig. 2 - lining loading scheme; in fig. 3 is a design diagram for determining stresses in a rock concrete shell.

Mine support includes enclosing support 1, accommodates

Production rock mass 2, variable fracture zone 3, boreholes 4 for injecting hardening expanding material.

The method is carried out as follows.

As far as the excavation progresses, the fencing support 1 is installed (Fig. 1). After the installation of the fencing support, unloading of the contour array 2 from the stresses is performed by camouflet blasting. The blasting is performed in such a way as to ensure the change of the cracking coefficient

innovation k on the segment of the perimeter of production by the formula

-r-.e.-f

k

2Y J hell 0 2 + N (b2-2a2) -ciolx (.)

(fFJCb -a)

k

e

fracture coefficient; the angular coordinate of the considered section on the surface of the support;

i + - arccus

N

3b-4a2b2 + a

 -3a2ba (b2-a2)

a, b are respectively internal and

outer radii lining; Constant and variable components of the external load on the lining. For this purpose, camouflage charges around the perimeter of production are inversely proportional to the found values of the fracture coefficient. Blasting is performed. A curvilinear region 3 with variable fracture is formed around the excavation. Then, the injection of the fastening solution through the drilled drill bits 4 is used. For pumping, an expanding hardening material is used, for example, expanding cement, which has the property of hardening to increase in volume.

k

 2Q 2 + N (bi-2a2) 7 -) j.- ..

f - central angles limiting the zone of variable fracturing and are determined by the formula

q 2 + N (b -2a2) 3

Claims (1)

Invention Formula A method of securing mine workings, including the erection of fencing lining, drilling holes and the formation of a fracture zone around the mine by blasting camouflage charges and then forcing a fastening material that expands during hardening and the formation of rock concrete lining in this zone, characterized in that, in order to increase stability due to a more uniform distribution of stresses in it, camouflet charges along the perimeter of production have inversely proportional to the coefficient of fractured accepted by variables on the segment - --- 4 Q -j- and defined by the formuch e 1427075 k is the coefficient of fracture; ± Q - the angular coordinate of the considered 2 section on the surface of the support; ± --- ± - | - arccos --------- 2 - .. j; Zb - + N (a, b - respectively, internal outer radii lining; - central angles limiting the zone of variable fracture and are determined by the formula Cho chr - constant and variable components of the external load on the lining. sLn2B Phie.g Fig.Z