SU602125A3 - Rock contour roof support of underground working - Google Patents

Description

This invention relates to underground construction. Known lining of the rock contour of the mine working, including a metal reinforcement mesh, mounted on anchors embedded in the rock of the production contour, and a layer of gunned concrete along the reinforcement metal mesh. This support protects the rock contour of the mine from local damage 1. However, the known support is not a supporting structure due to its own insignificant rigidity and, therefore, cannot work for rock pressure. Closest to the described invention by its technical essence and the achieved result is the support of the rock contour of the mine working, including the bent along the radius of the excavation and metal fasteners with grating-shaped recesses and slots and concrete pavement connected along it, while the fastening shields are mounted on supporting metal arches 2. This lining is able to take the load from the surrounding rocks due to the presence of bearing metal arches and greater rigidity of the mounting plates themselves. However, the described lining requires considerable labor costs when installing the bearing metal arches. In addition, in this lining fixing shields have a low carrying capacity. The purpose of the invention is to reduce labor costs for a lining device and increase its carrying capacity. This is achieved by the fact that each mounting shield is made with flanges transverse to the axis of generation to connect adjacent mounting panels along the production by means of bolts, while mounting fasteners are mounted directly along the breed contour, and the concrete coating is made on mounting panels in the form of sprayed concrete to ensure connection lining with pedigree contour. The flanges of adjacent fixing plates can be connected by punching bolts, while the flanges of adjacent fixing plates can be connected across the workings with a reinforcing element mounted between the flanges. The concrete coating in the form of spray-concrete can be made with reinforcing reinforcement mesh, reinforced along the flanges. FIG. 1 shows the support of the rock contour of the mine workings, a partial longitudinal section; in fig. 2 - the same, partial cross-section; in fig. 3 is a cross-section along a mounting plate with flanges; in fig. 4 - reinforcement mesh fastening assembly to flanges.

The support of the rock contour of the mine workings includes workings bent along the radius and metal fixing boards 1 connected along it with latticed recesses 2 and slots 3 and concrete cover 4. Each fixing shield 1 is made with flanges 5 transverse to the production axis to connect adjacent fixing billboards 1 along the development by means of bolts 6. The mounting boards 1 are mounted directly along the breed contour 7, corresponding to the design outline of the development. Concrete coating 4 is made on mounting boards 1 in the form of sprayed concrete to provide a lining connection with the breed contour 8 corresponding to the actual outline of the excavation.

The flanges 5 of the adjacent mounting plates 1 can be connected by piercing bolts 9. The flanges 5 of the adjacent fixing panels 1 can be connected across the excavation with a reinforcing element 10 mounted between the flanges 5. Concrete coating 4 can be made with reinforcing reinforcement 4 grid 11, reinforced flanges 5, for example, by spot welding.

The support is installed as follows.

Immediately following the development of the rock in the mine face to the required depth along the breed contour 7, corresponding to the design outline of the excavation, mounting plates 1 with flanges 5 are mounted, connecting them by means of bolts 6 with previously supplied mounting plates 1. Instead of ordinary bolts, piercing bolts 9 can be supplied In order to increase the carrying capacity of the support, the flanges 5 of the adjacent fastening pins 1 across the excavation are connected with a reinforcing element 10, which is mounted between the flanges 5.

Then, the concrete coating 4 is applied in the form of sprayed concrete over mounted mounting boards 1. Due to the presence of slots, 3 sprayed concrete fills the entire space

between the mounting plates 1 p breed contour 8, corresponding to the actual outline of production. This ensures a reliable connection of the lining with the breed contour 8. If additional reinforcement is needed, lining the reinforcing mesh 11, for example, by means of spot welding, is fastened along the flanges 5 before applying the concrete cover 4 by fastening shields.

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Claims (4)

1. The support of the rock contour of the excavation, including curved along the radius of the excavation and metal fastening shields connected along it with lattice-shaped depressions and cuts and concrete pavement, characterized in that, in order to reduce labor costs for lining and increase its bearing capacity, each mounting plate is made with flanges transverse to the axis of production to connect 0 adjacent mounting plates along the workings by means of bolts, with mounting plates mounted directly on the breed contour, and the concrete coating is made on mounting boards in the form of sprayed concrete for 5 provide communication support with pedigree contour. 2. The bolt according to claim 1, characterized in that the connection of the flanges of adjacent fixing panels is made with penetration bolts. 3. The fastener according to claim 1, characterized in that 0 the connection of the flanges of the adjacent mounting plates across the excavation is made with a reinforcing element mounted between the flanges. 4. The support of claim 1, wherein the concrete coating in the form of sprayed concrete is made with reinforcing reinforcement mesh reinforced along the flanges. Sources of information taken into account in the examination: 1. Volkov V.P., Tunnels. M., “Transport, 1970, p. 252-253, fig. VI, 23. 2. Chesnokov S. А. The fastening system according to the method of Bernold. “Metrostroy, 1973, No. 3, p. 30--32. Rygl eleven fui.l /ABOUT Rig. ii.