RU2504660C1 - Method for construction of stowing barricade in mine working - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: method for construction of stowing barricade in mine working involves installation of cast slag blocks on each other throughout the section of the stowed mine working. As cast slag blocks there used are rectangular prisms of similar sizes with bases in the form of sharp-cornered isosceles triangles. Stowing barricade is constructed in horizontal layers, in each layer of which there installed are two rows of cast rectangular prisms; besides, prisms of the first row are laid with their smaller side faces to the stowing mass. Equal side faces of prisms of the first and the second rows are laid tightly to each other, and to smaller side faces of prisms of the second row there installed are anchor posts excluding movement of slag blocks under action of stowing mass.

EFFECT: improving stability of stowing barricade; reducing the time spent on construction of stowing barricade.

4 dwg

Description

The invention relates to the mining industry and can be used in underground mining of mineral deposits.

A known method of erecting a lintel, including the installation of formwork in the mine and filling the interdeck space with concrete mixture, the interdeck space within the height of the box vault of the mine is filled with concrete mixture with the addition of non-explosive destructive means (NRS-1) in the following mass ratio: sand-gravel mixture 72 %; cement 18%; LDC-12%; water is 8%, and a waterproofing material is laid at the interface of concrete mixtures, and the near-edge part of the output is filled with concrete mix with the addition of NRS-1 (patent RU No. 2069766, publ. 11/27/1996).

However, this method requires significant labor costs and high consumption of concrete mix, in addition, the jumper works after the concrete mixture has completely hardened.

A known method of erecting a lintel, including creating a pedigree shaft by laying out the width and height of the stowage development of large pieces of rock, onto which a layer of finer rock or sand is poured with a drain pipe through the rock shaft (Mine bridges. Gosgortekhizdat, 1962, p. 122 / Bukhman Ya.Z., Molotkov P.G.).

However, the disadvantage of this method is the unreliability of the design with significant loads on the jumper.

A known method of erecting a jumper, including the creation of a rock shaft from pieces of rock with the passage of a drainage pipe through the rock shaft and installation of pneumatic cylinders on the rock shaft. The erection of the rock shaft is carried out in layers, and after laying each layer, the rocks of this layer are poured with a hardening concrete mixture, after which they are laid, the upper layer is laid, while the laying of pieces of rock with their pouring with hardening concrete mixture is repeated until the height of the rock shaft determined by from the expression:

H-h ₆ ^P <h <Hh ₆ ^cn -Δ,

where: h is the height of the rock shaft;

N is the height of the filling;

h ₆ ^P - air balloon height in working condition;

h ₆ ^cn - the height of the air spring when it is completely unloaded;

Δ is the gap between the pneumatic balloon when it is completely unloaded and the roof of the backfill (patent RU No. 2410544, publ. 27.01 2011).

However, this method requires considerable time for the construction of the lintel, since the jumper will work after the concrete has completely hardened.

There is a known method of erecting a lintel, taken as a prototype, including installation over the entire cross section of the pledged production of cast cinder blocks, with laying blocks similar to brick on cement mortar with dressing of seams (Mine lintels. Gosgortekhizdat, 1962, p.40-42; Bukhman Y.Z. , Molotkov P.G.).

However, this method requires considerable time for the construction of the jumper, since the jumper will work after the mortar has completely set, and the stability of such a structure with significant loads on the jumper is low, since cinder blocks can be extruded.

The technical result achieved by using the proposed method is to increase the stability of the filling jumper.

The technical result is achieved by the fact that in the method of erecting a filling jumper in a mining, including installing cast cinder blocks on top of each other over the entire cross section of the paving, characterized in that rectangular prisms of the same size with bases in the form of acute-angled isosceles triangles are used as cast cinder blocks In this case, the filling jumper is erected in horizontal layers, in each layer of which two rows of molded rectangular prisms are installed, while prisms of the first row adyvayut lesser side face to the filling mass, equal to the side faces of the prisms of the first and second series are laid close to each other and to the smaller side faces of the prisms of the second row is set thrust strut precluding movement shlakoblokov exposed filling mass.

In Fig.1 shows a diagram of the installation of jumpers in the cross section of the pledged development. Figure 2 shows a section along the line BB. Figure 3 shows a view of cast cinder block. In Fig 4. is a section along the line GG.

The method is as follows: after excavation of the mineral over the entire width b of the paved mine 1, cast cinder blocks 2 and 3 are laid out (Figs. 1, 2). Cast cinder blocks 2 and 3 are made with the same dimensions in the form of rectangular prisms, the bases of which are isosceles triangles (figure 3). Cast cinder blocks along the working width b are laid in layers, h high, over the entire working height H, alternating blocks 2 and 3, and in each layer two equal side faces of cast cinder blocks 2 and 3 are placed close to the corresponding side faces of adjacent cast cinder blocks (Fig. 2 ), and to the third lateral face of cast cinder blocks located on the side of the excavation area not filled with filling material 4, thrust posts 5 are installed to exclude the movement of cast cinder blocks under the influence of filling material. For a stable state of cinder blocks in the sides of the excavation 1 create a cut 6 in which the molten cinder blocks 3 are placed, with the third side face in the direction of the excavation section to be filled with filling material 4 (Fig. 2). With this arrangement of cast cinder blocks, the pressure of the filling material 4 on the cinder blocks 2 located by the third side face in the direction of the excavation area not filled with the filling material 4 will be minimal. The maximum pressure of the filling material 4 will affect the cinder blocks 3 located by the third side face in the direction of the excavation area filled with the filling material 4. A drain pipe 7 is passed at the bottom of the filling bridge 7. After the thrust posts 5 are installed on the filling section of the development, it is fed through the pipe (not shown) filling material 4 to the entire height H of the development (figure 4). With this arrangement of cast cinder blocks under the influence of the filling material 4, they will wedge along the width of the excavation, which will increase the stability of the lintel. After the hardening of the filling material, the construction of the filling bridge, including the erection of the cut, the installation of the width and height of the production of cast cinder blocks with the same dimensions in the form of rectangular prisms, the bases of which are isosceles triangles, the installation of thrust posts excluding the movement of cinder blocks under the influence of the filling material is repeated.

This method of erection of the filling jumper will improve the efficiency of filling operations.

Claims (1)

A method of erecting a filling jumper in a mining, including installing cast cinder blocks on top of each other over the entire cross section of the paving, characterized in that rectangular prisms of the same size are used as cast cinder blocks with bases in the form of acute-angled isosceles triangles, while the filling jumper is erected in horizontal layers, in each layer of which two rows of cast rectangular prisms are installed, while the prisms of the first row are laid with a smaller lateral face to the filling array equal to the lateral faces of the prisms of the first and second series are laid close to each other and to the smaller side faces of the prisms of the second row is set thrust strut precluding movement shlakoblokov exposed filling mass.

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