SU1320458A1 - Method of filling-up mined space - Google Patents

Abstract

The invention relates to the mining industry, improves the efficiency of the laying, creates the necessary roof expansion with backfill material, eliminates the reference pressure and reduces the cost of laying. Before laying, the space developed (VP) is protected by jumpers. Then, the main volume and the upper part of the airspace are bookmarked. The upper part of the EP is deposited with a hardening thixotropic filling mixture (TCS). In the process of preparing and transporting, the TCS is subjected to mechanical action (for example, vortexing, vibrating, creating conditions for turbulent flow in the pipeline) to bring it into a state of sol with a viscosity close to Newtonian liquid. The laying of the main volume can be done in layers and each layer is filled with filling stations. The upper part of the EAP can pre-collapse the expanding TZS. A mixture consisting of more than 1% of active silica or aluminum hydroxide and alkali is used in the mixture. 3 3. Clause f-ly.Q / J SOh about N SP oo

Description

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

The aim of the invention is to increase the efficiency of the bookmark, to create the necessary roof spreading by the backfill array, to eliminate the reference pressure and reduce the cost of the bookmark.

A thixotropic filling mixture based on a finely divided inert aggregate is subjected to mechanical action during the preparation and transportation process (for example, vortexing, vibrating, creating turbulent flow conditions in the pipeline) to bring it to a state of evil with a viscosity close to Newtonian fluid. This makes it possible to transport a mixture of high density (65-85%) depending on the composition of the aggregate, which is established empirically.

Breed bookmark can be made in layers. Each layer of breed bookmark is filled with a thixotropic hardening filling mixture. The height of the bedding layer is determined experimentally depending on the particle size distribution of the rock. The upper part of the worked-out space is filled with a highly plastic tixotrop filling mixture or a thixotropic expansion filler mixture based on a finely divided inert aggregate. The use of a thixotropic filling mixture allows to obtain the normative strength at a lower cement consumption (50-150 kg / m).

To ensure the spreading of the mixture to the most distant points of the worked-out space without setting it prematurely, in some cases additives of surface-active substances are used (for example, a sulphide-yeast mash).

To obtain a thixotropic spread of the filling mixture, a tunic is selected that contains active silica or aluminum hydroxide in its composition of more than 1% and alkali is added during the preparation of the filling mixture. The amount of alkali added is dosed based on the alkali present in the cement. As a result of the reaction of interaction of alkalis with active silica or with aluminum hydroxide, the cement is converted into a soluble form.

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which, in the presence of calcium oxide hydrate, contained in the tab, forms a hydrosilicate or calcium hydroaluminate. This compound encloses the reactive particle of a filler with a shell of a gelatinous gel or a solid porcelain-like substance, the hyeloch re-entering the solution, and the hydrosilicate or calcium hydroaluminate accumulates around the reactive particle, increasing in volume. This reaction is accompanied by an expansion of the tab. In addition to the formation of the shell, the reaction products fill the pores and voids in the tab, solidified into a white mass of calcium hydrosilicate or hydroaluminate.

The compression ratio of the obtained backfill array will be 0.5-1.5%, depending on the composition of the filling mixture.

Claims (4)

1. The method of laying the worked-out space, consisting in fencing the worked-out space with jumpers, laying the main volume and dozakladka the upper part of the worked-out space, characterized in that, in order to increase the efficiency of laying, create the necessary expansion of the roof zakladnye.m. massif, eliminate the reference pressure and reduce the cost of laying, the upper part of the worked-out space is pre-packed with a hardening thixotropic filling mixture, with this mechanical effect on the mixture in the process its preparation and transporting lead it in sol state with a viscosity near Newtonian fluid. 2. A method according to claim 1, characterized in that the basic volume is produced in layers, and each layer is filled with a hardening thixotropic mixture. 3. A method according to claim I, characterized in that the upper part of the worked-out space is packed with an expanding thixotropic backfill mixture, wherein a mixture is used in a mixture containing more than 1% active silica in its composition or alumina and alkali. 4. The method according to claim 1, wherein the tab of the base volume is made thixotropic or expanding, using a tixotropic filling mixture.