RU1781432C - Method of grouting clearance space in rock working-out - Google Patents

Abstract

Usage: the invention relates to the mining industry and can be used in the construction and repair of underground mines. The method provides an increase in the quality of tight plugging of mine workings. This goal is achieved by first hardening polymer foam being injected into the holding space. After it has hardened, holes are made in the foam layer and the cement slurry is injected into the rock contact with the foam layer. In this case, the foam layer is squeezed from the rock, compacted, and the concrete mass does not flow into the excavation. 2 ill.

Description

The invention relates to the mining industry and can be used to protect mine workings when they are secured with tubing, frame support with puff, etc.

The closest analogue in terms of technical nature and the achieved result is a method that involves injecting a hardening polymer foam and cement mortar into the fixed space.

The disadvantage of this method is that when the cement slurry is injected, the foam layer deforms and collapses, which contributes to the flow out of the cement slurry and reduces the quality of the cement slurry.

The aim of the invention is to improve the quality of plugging.

This goal is achieved by the fact that, according to the known method, including forcing into the fixed space hardening

polymer foam, and then cement mortar, the cement mortar is injected after the foam has hardened, holes are made in the layer of the hardened foam prior to contact with the rocks, and the cement mortar is injected onto the contact of the hardened foam layer with the rocks.

In FIG. Figure 1 shows a fragment of a section of a working out after plugging a holding space with a hardening polymer foam; in FIG. 2 is the same after being injected into the cement space.

During repair work or excavation, the hardening polymer foam 1 is injected into the fixed space, which has the property of hardening in minutes. In this case, behind the lining 2, a layer of hardening foam 1 is formed, which reliably covers all the cracks or gaps between the puffs 3. After hardening (L

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the vanes of the foam 1 in it push or drill a hole 4 until it contacts the rocks 5. It is advisable to open the holes 4 in the upper part of the excavation 6. In this case, the places where the thickness of the foam layer 1 is maximum, i.e. where the deviation of the contour of rocks 5 is maximum from the contour of the lining 21

Then, the nozzle of the concrete pump pipeline 7 is placed in the hole 4 and a cement mortar is injected onto the contact of the foam layer 1 and rocks 5, which seals the foam layer and presses it against the puffs 3.

At the same time, the likelihood of breakthrough of the liquid cement mass into excavation b is reduced, and behind the lining a concrete layer 8 is formed.

In order to increase the efficiency of the method, it is possible to first weaken the contact of the foam 1 with the rocks, for example, wet the surface of the rocks 5 before applying the foam or use

foam compositions with low adhesion to rocks.

This provides easy peeling of the foam 1 from the rocks 5 during injection

cement mortar.

Claims (1)

This technology can also be used to seal domes in preparatory and treatment workings. The claims A method of plugging a fixed space of mine workings, comprising injecting into the fixed space a hardening polymer foam, and then a cement mortar, characterized in that in order to improve the quality of plugging, the cement mortar is injected after the foam has hardened, and holes are made in the layer of the hardened foam before contact with the rocks. and the cement slurry is injected onto the contact of the hardened foam layer with the rocks. , FIG. 1 8 f / FIG. Z