SU1712606A1 - Method of laying flooring on stow mass in block worked-out space - Google Patents

Abstract

This invention relates to the underground mining of steeply dipping thin ore veins occurring in permafrost. The goal is to reduce the labor intensity and costs for the construction of the flooring in the development of steeply dipping thin ore veins. Form the soil of the developed space by filling it with undermined enclosing rocks. The rock in the soil is cooled by supplying air with a negative temperature from the earth's surface. They increase the cold storage capacity of the breed bookmark and form the centers of ice crystallization by applying artificial snow on the soil of the developed space with a snow generator. The formed surface is periodically treated with a dispersed aqueous surfactant solution, for example, DT-7 synthanol; The dispersion of the surfactant solution is produced by nozzles operating on compressed air. Prior to supplying the surfactant solution, the filtration capacity of snow is compacted by it and active solution of heat removal of the solution crystallization is performed by continuous airing of the developed air space with a negative temperature until a uniform ice breed is formed. 4 Cpf-ly. The invention relates to the mining industry and can be used in the development of thin thin ore veins occurring in permafrost, mainly a system with separate ore mining and laying of the developed space undermined by the surrounding rocks. the cost of the construction of the flooring in the development of steeply dipping thin ore veins. The method is carried out as follows. Form the soil of the worked-out space from the undermined host rocks. The repulsed enclosing perennially frozen rocks in the soil of the cleaning unit, which form the bedding of the developed space, are cooled by an active ventilation air stream with a negative temperature supplied from the day surface by the fan. Next to the surface of the cooled breed bookmark along the entire length of the soil of the block is deposited on О О О

Description

layer of artificial snow formed by snow cannons. Then the snow is compacted, for example, with rollers. After that, the surface of the cooled rock bookmark with compacted snow is treated with a dispersed aqueous solution of a surfactant. The solution is supplied at intervals of time before the formation of a layer of equal strength ice cover. The ice-breed flooring is created in conditions of continuous ventilation of the working space of the unit with air with a negative temperature, which ensures active removal of the heat of crystallization of the solution.

After the creation of the flooring, the cycle of cleaning operations is repeated, starting with the explosive blasting of ore and its scraping along the block.

For the reliability of scraping the ore recaptured in the block, for example 40–60 m per cycle, they form ice-sheet; native flooring 10–12 cm thick, whose strength for uniaxial compression is at least 20 kg / cm.

Artificial snow is applied to the surface of the cooled breeding bedding. Non-artificial snow is formed, for example, with the help of snow generators having a capacity of 1.5-2 kg / min with a water consumption of 1.5-2 l / min and compressed air of 2-2.5 m / min. A 0.2 m thick layer of powdered artificial snow with a density of 30-60 kg / m in a block 50-54 m long with a removable power of 1.5-2 m is created with a single snow cannon for 30-60 minutes.

The application of artificial provides an increase in the cold capacity of the solid components of the rock bookmark, and its compaction to a certain extent reduces the filtration capacity of the snow and prevents the filtration of the surfactant solution. Pellets of artificial snow, in addition, are the centers of crystallization, causing an accelerated freezing of the ice-rock flooring.

After that, the surface of the bookmark is treated with a dispersed aqueous surfactant solution, for example, a solution of DB wetting, in order to increase the wettability (hydrophilicity) of the rock and thus increase the efficiency of freezing ice breed. As surfactant, fairly common DBs can be used, for example, DT-7 synthanol. The addition of surfactant to water increases the wettability of the broken rock and reduces the rate of evaporation of solution droplets under conditions of active ventilation of the block.

The dispersion of the surfactant solution is performed using mechanical spray nozzles operating on compressed air, creating droplets of at least 300-500 µm in size to prevent them from evaporating quickly in the ventilation flow.

The surface of the cooled rocks was treated with an aqueous surfactant solution at intervals of time.

The need to supply the solution at intervals is due to the physical essence of the process of crystallization of water in the cooled crushed rock. At the interface of the cooling system, the rock is broken — an aqueous surfactant solution forms a zero curtain, preventing heat transfer from the rock to water, slowing down the crystallization process and ultimately freezing the ice floor. Therefore, in order to restore the temperature gradient, on the surface of a piece of rock that is close to the original, in the conditions of a certain layer of ice that has already formed in it, a break in treatment with surfactant solution is necessary.

With an interval supply of an aqueous surfactant solution, the amount of frostbite ice relative to a continuous supply mode increases 1.7 times.

Claims (5)

1. A method of creating a flooring on a backfill array in the developed space of a block, including the formation of the soil of the developed space by filling it with enclosing rocks and feeding the soil of the developed space of the materials forming the flooring; so that, in order to reduce the complexity and cost of erecting the nast when developing steeply thin ore veins, the rock in the soil of the worked-out space is cooled with air supply t with a negative temperature, then increases the cooling capacity of the breed bookmark and form ice crystallization centers by applying artificial snow on the soil of the mine, then the formed surface is periodically treated with a dispersed aqueous solution of a surfactant, and before the specified solution is supplied, the filtration capacity of the snow is reduced by its compaction and is actively evacuated by heating the solution space with negative temperature until a uniform ice-breed is formed assiva. 2. A method according to claim 1, characterized in that negative air is supplied from the surface of the earth. 3. A method according to claim 1, characterized in that the application of artificial snow to the soil of the worked-out space is carried out by a snow generator. 4. A method according to claim 1, characterized in that the treatment of the surface of the soil is carried out with DT-7 synanol. 5. Method pop, 1, characterized in that the dispersion of the surfactant solution is produced by nozzles operating on compressed air.