SU1642035A1 - Method of supporting mine workings - Google Patents

Abstract

The invention relates to mining. The goal is to increase the efficiency of hardening of rocks. To do this, drill the holes 1 and install injection in the anchors (A) 2 in them with the initial fixing in the bottom part of the hole 1 by means of the lock 3, and a gap is left between the base plate 4 of each A 2 and the working circuit 5. The value of the latter is determined by the formula a (I - b), where I is the length of hole 1; b is the length of the part A 2 attached to the bottom of the hole 1; tm is the coefficient of fracturing necessary for the creation of a rock concrete shell. Separately, for each А 2, after complete exhaustion, with the displacement of rocks of its gap, an insulating coating is applied to the surface of the excavation and the injection is carried out through A 2 into the rocks into a trench. The bottom of the prevention of the collapse of delaminated pieces of rock in the process of displacement of the production loop 5 when installing A2 is suspended metal grid. Before applying the insulating coating, it is removed. And silt

Description

The invention relates to mining, and in particular to methods of securing mine workings with anchors, followed by injection into rocks in a trenchant solution.

The aim of the invention is to increase the efficiency of hardening of rocks.

FIG. Figure 1 shows the injection anchor at the time of its fixation in the bottom of the hole, leaving a gap between the production contour and the anchor base plate; in fig. 2 - anchor after complete exhaustion when rocks displace its gap; in fig. 3 — anchor at the moment of injection through it into the slurry solution into rock cracks; in fig. 4 - anchor at the time of its tension after dialing a 100% strength in the holding solution.

The method of fastening the mine workings is as follows.

According to well-known recommendations, a grid of holes is determined, for example 2x2 m, and the length I of holes, for example 2 m. Depending on the magnitude of rock pressure and the length of holes, the required strength of rock concrete is calculated, for example, 15 MPa For example, cement samples with different coefficients of fracture (hollowness) tt. The manufactured specimens are tested for strength and the minimum value of the fracture coefficient is determined to create a concrete with a strength of 15 MPa, for example, 5% gpt.

tt exceeding 7-8% in order to prevent collapse of the production loop prior to injection hardening and to save the tested mortar tested, the cement solution is replaced with a solution with a more durable cement stone, for example, cement mortar prepared on cement with high grade, and the value of tm is again determined. If the application of a mortar with a more durable cement stone is not possible, then increase the length of the holes and repeat the calculation.

Drilling of holes 1 and the installation of injection anchors 2 in them are made following the advance of the bottom hole. Anchors are fixed at the bottom of the hole, for example, using a mechanical lock 3 with a length of b 0.1 m. A gap is left between the base plate 4 of each anchor and the working circuit 5, the value of which is predetermined by the following formula: (- b) rrv

a 100

(2.0 -0.1) - 5.0 t. (I.e., xy (y)) 0.095 m.

In the excavation areas, where the gap between the support plates 4 and the production contour 5 has been exhausted as a result of the displacement of mountainous rocks, the support plates are removed, an insulating bridge b is built between the anchor and the rock at the mouth of each hole, for example, from tow dipped in a cable that is wetted an insulating coating 7, for example, sprayed concrete, 3-5 cm thick, is applied to the surface of these areas. By a known method, injection of anchoring solution into the cracks 8 is applied through injection anchors to creating around the production of rock concrete shell. Pumping into the borehole is done separately for each anchor after it is completely exhausted when the rocks are displaced from its gap. After dialing into the remaining solution

vatost,%.

The 100% strength of the anchors is tightened by installing support plates 4 on them and tightening the nuts 9.

Claims (1)

The insulating coating 7 can be applied not around the entire perimeter of the excavation, but only in the places of intensive exit in the holding solution on its surface, which are determined by known methods. In order to prevent the collapse of delaminated rock pieces in the process of displacement of the production contour, metal grids are suspended on anchors fixed in the roof of the excavation, which is removed before applying an insulating coating. Claims method of securing mine workings, including drilling holes, fixing injection anchors with base plates in them, and after displacing the rocks on the production loop, applying an insulating coating on its surface and injecting it into rocks in a tarpaulin solution to create around the rock concrete shell, characterized in that . In order to increase the efficiency of rock reinforcement, injection anchors are initially fixed in the bottom part of the drill holes, while a gap is left between the outgoing contour and the base plate of each anchor, and the injection solution is made separately for each anchor after it has completely exhausted when its rocks are displaced the gap, the magnitude of the latter pre-determined by the formula  (I - b) gpg 100 vatost,%. m; where a is the size of the gap, I is the length of the hole, m; b - the length of the part of the anchor attached to the bottom of the hole, m; tt - coefficient of cracking, necessary for the creation of a rock concrete shell at Have Pocm6op 2 d 4 7 6 / tSlV t / .. .-. . ".. GGP-: i-L L-U.- .. Jv-iSg Yz ////// L Have FIG. 2  ///////BUT {/////// F //////; ABOUT ri : .u.cht .. LU. J-. t .v .. i- .r r ///////.  ///////,  //////.  //// L