RU2069758C1 - Method for support of extraction drifts - Google Patents

Abstract

FIELD: mining industry; applicable in support of extraction workings. SUBSTANCE: method for support of extraction drifts includes drilling of holes in drift roof and installation in them of metal anchors of expanding type, building of frame support and reinforcing it at the junction with face by props; filling of drill holes containing anchors with self-cementing compound behind the breakage face at a distance equalling caving space of main roof. Self-cementing compound is supplied with the help of mortar pump through compound, the latter penetrate into cracks parallel to bedding to strengthen the drill hole enclosing rocks and to increase the load bearing capacity of anchors. EFFECT: higher efficiency. 3 dwg

Description

 The invention relates to the mining industry and can be used for fastening excavation workings carried out with a notch of soil rocks with an aimless technology of working out flat beds and controlling the roof in the lava by the method of complete collapse.

 A known method of anchoring the mine workings, including drilling holes in the roof of the mine in the face, installing metal fittings in them, sealing the mouth of the holes and applying a hardening composition (for example, cement, sand mortar) to the holes with installed reinforcement (Rod support / Under Edited by V.N.Semevsky. M. Nedra, 1965, p. 51).

 The disadvantage of the method when it is used in excavation is the lack of flexibility of the lining, which leads to the destruction of the rocks of the lower layers of the roof around the anchors with its inevitable deflection and delamination in the zone of reference pressure of the lava.

 The closest solution to the claimed technical essence is the method of fastening excavation workings, which includes installing in the face of metal expansion type anchors in the roof of the mine and frame support with a straight top in the face at a distance from it or in conjunction with lava, as well as strengthening the frame support coupled with lava hydraulic (metal or wooden) racks (Leshchenko I.Ya. Novikov V.A. On the preparation of new excavation sites for plowing coal. Integrated mechanism the treatment plant using plows: Tr. ShakhtNIUI, 1984, pp. 4-5).

 The disadvantages of the method are the inability to quickly stabilize the displacement of the roof of the mine behind the face, since only the frame support is strengthened in conjunction with the lava, the low reliability of the fastening, since in the case of loss of load-bearing properties of the anchored plate, the frame support with a rectilinear upper does not exclude the danger of blockage of the output.

 The aim of the invention is to increase the reliability of fastening and stability of the excavation in the area supported by the lava at the border with the worked-out space.

 The goal is achieved by the fact that in the method of attaching dredging drifts, including drilling boreholes, installing metal spacer type anchors in them, erecting a frame lining with straight tops in a tunnel face, lagging behind it or in conjunction with lava, reinforcing the frame lining in conjunction with lava hydraulic (metal or wooden) racks, behind the working face at a distance equal to the pitch of the collapse of the main roof, fill holes with previously installed anchors in them with a hardening compound.

 As a result of such fastening in the area of the lava reference pressure, the contour layers of the roof of the excavation mine do not collapse around the anchors due to their certain flexibility, which contributes to the preservation of the load-bearing properties of the anchored plate, and the filling behind the lava with the hardening composition of the holes with the anchors previously installed in them increases the bearing capacity of the latter, in this case, the hardening composition penetrates into macropores and into cracks parallel to the bedding, which strengthens the rocks around the holes and prevents the process of destruction of the roof layers. This provides a quick stabilization of the displacements of the roof of the excavation mine behind the lava, increases the reliability of fastening and stability of the excavation mine, preserved for reuse.

In FIG. 1 shows a diagram of the interface of a mining drift with a lava; in FIG. 2, section AA in FIG. 1; in FIG. 3 node I in FIG. 2
In the tunneling face of the excavation drift 1, carried out over a coal seam with the undermining of soil rocks, metal anchors 2 of spacer type with support tiles 3 made in the form of a hemisphere and having fittings 4 for feeding into the boreholes of hardening composition 5 are installed in holes drilled into the roof of the mine; When installing anchor 2 between the base plate 3 and the rock contour, a sealing gasket is laid 6. The frame lining 7 is erected depending on the geological conditions in the tunnel face of the drift with a lag behind it or on the load with the lava 8. In the zone of the reference pressure of the lava 8, the frame support 7 is reinforced with struts 9 (hydraulic, metal or wooden). In the dredging drift 1 behind the working face at a distance L _ok equal to the collapse of the main roof, the holes are filled with the hardening compound 5 anchors 2 previously installed in them. The hardening compound 5 is fed using mortar pump 10 along a flexible sleeve 11 connected to the fitting 4, fixed to the base plate 3 with a special hole 12 in the hemisphere. When filling the hole, the hardening composition 5 penetrates into the cracks 13 parallel to the bedding, hardening the rocks around the holes and increasing the bearing capacity of the anchors.

 Using the proposed method of attaching excavating drifts will reduce the cost of maintaining them after the passage of the first lava, increase safety and reduce the complexity of the end work in conjunction with the second lava.

Claims (1)

 A method of attaching excavation drifts, including drilling holes and roofing drifts, installing metal spacer type anchors in them, erecting a frame support with a rectangular top in the tunnel face with a lag behind it or interfacing with lava uprights (hydraulic, metal or wooden), characterized in that the holes with the expansion type anchors installed in them are filled with a hardening compound behind the working face at a distance equal to the pitch of the collapse of the main roof.

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