RU2498078C1 - Method of hydraulic fill - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: method includes erection of a retaining and a filtering link, erection of a pulp line, supply of the filling pulp and water drainage via drain windows in links. Before supply of the filling pump, the design number of drainage pipes are installed in the filled space towards water drainage. At the side of the filtering link, perforated pipes are laid in the filled space with length L_pipe<0.3L, where L - length of the filled space, m, connected via a tight hose to the compressor. After closure of perforated pipes along the length L_pipe, with filling pulp, air is injected into them jointly with supply of the filling pulp to the moment of full flooding of the filled space, afterwards the tight hoses are disconnected from perforated pipes, and perforated pipes are used as drainage ones.

EFFECT: reduction of the period of filling pulp dehydration.

1 dwg, 4 cl

Description

The invention relates to the mining industry and can be used in the development of deposits with hydraulic laying of the developed space.

A known method of erecting a filling array (patent for the invention of the Russian Federation No. 2024768, publ. 15.12.1994). Part of the worked out space under the ventilation drift is left unclosed, and after the movement of the mechanized roof support fencing, an additional container is formed, where the filling slurry is fed in full for one cycle, the water is held until clarification, then the water separators are opened in the powered roof support and the waste water is sent for reuse.

The disadvantage of this method is the low productivity of the filling operations associated with a long period of dehydration of the filling pulp.

A known method of hydraulic laying of chambers on dipping formations (RF patent No. 2166639, publ. 05/10/2001). The method of hydraulic laying of chambers on dipping layers includes the construction of inclined filter elements, the supply of pulp to the chambers, and the removal of filtered water. The laying of the cameras is carried out in two stages. Initially, a part of the chamber and a previously completed inter-chamber fault are laid simultaneously, leaving a gap between the stowage array and the fault roof, after which an inclined filter element is installed in the chamber at the fault, exceeding the design height of the stowage array, and the chamber is re-laid.

The disadvantage of this method is the low productivity of the filling operations associated with a long period of dehydration of the filling pulp.

A known method of hydraulic bookmarking chambers (AS USSR No. 1788299, publ. 15.01.1993). The filing material is supplied through the wells drilled in the working roof, the filling mixture is fed through the wells alternately at several points by successively opening the wells at the supply points after the array has been raised to the maximum height at the previous supply point.

The disadvantage of this method is the low productivity of the filling operations associated with a long period of dehydration of the filling pulp.

A known method of hydraulic laying of long single workings, adopted as a prototype (RF patent No. 2384711, publ. 03/20/2010). The method includes the construction of retaining and filtering jumpers, installation of slurry piping, feeding filling pulp. Water is drained through drain holes in the filter bridges installed on the side opposite to the pulp supply. The filing of the filling pulp into the laid space is carried out through a slurry pipeline with holes in the lower part, attached to the roof of the mine for its entire length. The holes in the initial part of the slurry pipeline are provided with flap valves.

The disadvantage of this method is the low productivity of the filling operations associated with a long period of dehydration of the filling pulp.

The technical result of the invention is to reduce the period of dehydration of the filling pulp.

The technical result is achieved by the fact that in the method of hydraulic laying, including the construction of a retaining and filter bridges, installation of a slurry pipeline, supplying filling pulp and draining water through drain windows in bridges installed from the opposite side to the supply of pulp according to the invention, before feeding filling pulp in the laying space, the design number of drainage pipes with a slope towards the drain of water, and from the side of the filter bridge in the laying space, a perforator is placed pipes with a length of L _Tr <0.3L, where L is the length of the laid space, m, connected through a sealed hose to the compressor, and after closing the perforated pipes along the length of L _{Tr with a} filling pulp, air is pumped into them together with the filling of the filling pulp until it is completely filled the laid space, after which the sealed hoses are disconnected from the perforated pipes and the perforated pipes are used as drainage pipes.

The method is also characterized in that the drainage pipes are attached either to the roof, or to the soil, or to the sides of the mine.

The method of hydraulic bookmark is illustrated by the scheme (figure 1), which shows the scheme of the bookmark using pre-installed drainage pipes, a longitudinal section of the laid space, where:

1 - laying space;

2 - slurry pipeline;

3 - a sealed hose connected to a device for supplying air or another gaseous working agent, for example, a compressor 8;

4 - holding jumper;

5 - filter jumper with windows;

6 - drainage pipes;

7 - filling array obtained from filling pulp by draining water from it;

8 - a device for supplying a working agent, for example a compressor;

9 - perforated pipes, for example of steel, connected through a sealed hose 3 to the compressor 8;

10 - fastening of drainage pipes to the roof.

The hydraulic laying of the worked out space is one of the cheapest in comparison with other types of laying. The main problem in the construction of filling structures is the slow discharge of process water. The rate of water discharge actually regulates the performance of bookmarking. As a rule, the filling material (filling pulp) contains small (clay) particles (with a size of less than 0.05 mm) that are carried out with water and accumulate at the filter jumper 5, forming a filling array with a low filtration coefficient. Due to the low filtration coefficient of this filling array, timely water loss becomes impossible and the process of forming the filling array is disrupted, which reduces the productivity of laying work. It is possible to eliminate this drawback by installing drainage pipes 1 in the laying space 1. Water will be drained evenly along the entire length of the laying space 1 along the inner space of the drainage pipes 6. In this case, most of the small particles remain in the constructed filling array and do not participate in the technological turnover water. In this case, the backfill array 7 will be created with higher productivity due to the rapid discharge of process water, while its strength properties will be more consistent in length and height. To accelerate the removal of process water from the filling pulp, you can use compressed air or another gaseous working agent supplied through perforated pipes 3 to perforated pipes 9. Due to the creation of ascending air flows in the filling pulp, clay particles will be in suspension, which will help create zones high permeability in the filling array 7 and on the surface of the drainage pipes 6 for their most efficient operation.

Drainage pipes 6 are corrugated pipes made of polyvinyl chloride with a smooth inner surface and with holes for water passage. Installation of drainage pipes 6 is quite simple and does not require any special knowledge and skills. The service life of the drainage pipes 6 made of polyvinyl chloride is about 50 years. The design number of drainage pipes 6 is actually and depends on the mechanical composition of the filling pulp. The inner diameter of the drainage pipes 6 is taken taking into account the cross-sectional area of the laid space 1. The design distance between the drainage pipes 6 is determined experimentally, experimentally, or experimentally, taking into account the characteristics of the filling pulp and the dimensions of the laid space 1. The diameter of the drainage pipes 6 lies in the range from 50 up to 200 mm. The most widely used drain pipes 6 with a diameter of 100 mm. The number of required holes in the drainage pipes 6 is taken in the project, taking into account the content of clay particles in the filling pulp.

The method of hydraulic bookmarks is as follows. A slurry pipe 2 is attached to the roof of the paved mine 1. A retaining 4 and filter 5 jumper with drain windows is erected. Before feeding the filling pulp in the laying space 1, they are installed and fixed with fasteners 10, for example, with anchors, with a slope towards the filter bridge, the design number of drainage pipes 6 with a calculated vertical and horizontal pitch. Fastening can be done either in the roof, or in the soil, or in the sides of the development (Fig. 1 shows the fastening in the roof). The installation method of the fasteners 10 of the drainage pipes 6 is adopted taking into account the properties of the enclosing rocks and the availability of means for mechanizing the fastening process. For example, the fastening of 10 drainage pipes 6 into the roof of the laid space 1 seems appropriate in case of good stability of the roof rocks. Anchors are fastened with the necessary vertical and horizontal steps to the roof of the space to be laid 1, leaving the ends protruding into the work to be laid for the installation length of the drainage pipes vertically 6. The installation step of the anchors along the production length is determined depending on the rigidity of the accepted drainage pipes 6 to exclude them deformation or sagging until the end of filing of the filling pulp. Serve filling pulp with a drain of water through the drain window of the filter jumper 5, blocked by filter material. The filter jumper 5 is installed on the side opposite to the inlet of the filling pulp. From the filter jumper 5, perforated pipes 9 with a length of L _Tr <0.3L, where L is the length of the laid space 1, m are placed in the laying space 1. The length of the punched pipes 9 is selected for reasons of sufficiently complete coverage of the zone with the compressed air flows of the most problematic part of the laid space - bottom. In the upper jumper 4 make windows for air exhaust (not conventionally shown in the drawing). The pipes 9 are connected through a sealed hose 3 to the compressor 8. After closing the pipes 9 along the length of the filling pulp, air is pumped into them together with the filling of the filling pulp until the filling of the filling space 1 is complete. After the filling of the filling pulp is complete, the sealed hoses 3 are disconnected from the perforated pipes 9 and use these pipes as drainage. After the filing of the filling pulp and the discharge of process water from it, the filling array 7 is obtained.

The use of this method of hydraulic laying in underground mining provides the following advantages:

- reduce the period of dehydration of the filling pulp;

- reduce the removal of clay particles from the filling pulp;

- increase the safety of laying operations.

Claims (4)

1. The method of hydraulic laying, including the construction of the retaining and filter bridges, installing the slurry pipe, feeding the filling pulp and draining water through the drain windows in the bridges installed from the opposite side to the pulp supply, characterized in that the design number is set before the filling of the filling pulp in the laying space drainage pipes with a slope towards the drain of water, and from the side of the filter bridge in the laying space, perforated pipes with a length of L _tr <0.3L are placed, where L is the length of the filling the enclosed space, m, connected through a sealed hose to the compressor, and after closing the perforated pipes along the length L _{tr with the} filling pulp, air is pumped into them together with the filling of the filling pulp until the filling space is completely filled, after which the sealed hoses are disconnected from the perforated pipes and the perforated pipes are used pipes as drainage. 2. The method according to claim 1, characterized in that the drainage pipes are attached to the roof of the mine. 3. The method according to claim 1, characterized in that the drainage pipes are attached to the working soil. 4. The method according to claim 1, characterized in that the drainage pipes are attached to the sides of the output.

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