SU900041A1 - Face-adjoining slime collector - Google Patents

Description

The invention relates to the mining industry and can be used in the development of strata of mineral deposits with long columns, along strike.

Known bottom-hole sump for 5 clarification of waste water when developing mineral strata with long columns along the strike with a water seal, including a filter jumper made in the form of an organ row of lining sewn with burlap, installed at each step of the bookmark in the worked out space parallel to the face, and rows of bottom holes [1].

The disadvantage of such a sludge collector is the large removal of fine fractions, backfill material with waste water, flooding and siltation of the bottom of the working face and adjacent recoil mining.

In addition, a bottomhole sludge collector is known for clarifying waste water ²⁰ when mining mineral strata with long columns along a strike with a hydraulic filling of the worked out space, including a filtering bridge on the side of the filling array and an airtight waterproof bridge on the side that are erected by falling of the formation parallel to the working bottom at each step of the laying face, rows of mounting racks, perforated water intake pipe and drainage sectional pipe e is between [2].

A disadvantage of the known sludge collector is the removal of small fractions with waste water and high costs for the construction of a sealed waterproof jumper.

The purpose of the invention is to reduce the removal of small fractions of the filling material with waste water and reduce the cost of the construction of a sealed waterproof jumper.

The goal is achieved by the fact that the sealed waterproof jumper is made in the form of a portable inflatable shell installed between two adjacent rows of mounting posts, which are equipped with additional mounting posts.

In FIG. 1 shows a bottomhole sludge collector, general view; in FIG. 2 — section A — A in FIG. 1.

The bottom-hole sludge collector includes a filter jumper 1 _s built at the same time as the cleaning tab at each step of the bookmark and a sealed water-resistant jumper made in the form of a portable inflatable shell 2 installed between two adjacent reinforced rows of mounting posts 3, a perforated water inlet pipe 4 and a water outlet 5 .

The proposed sludge collector works as follows.

After the lava face has drifted to the laying step along it, the filter lintel 1, for example, ^{1s, is} made of metal nets with mesh sizes 3X3 mm or boards covered with burlap along the entire inclined height. The lower recess is constructed stope jumper sealed water-resistant, for example, from polymeric shells materialistic _g of vodovozduhonepronitsaemogo la or soft material, filled with compressed air or liquid filled.

The filling material is supplied from the ventilation drift through the slurry pipeline 6. The last ^{25 is} also mounted along the working face at the top of the formation (layer). Moreover, a tee with a valve 7 is built in every 8–10 m in the bottom hole piping pipe. A pipe 8 up to 2 m long is connected to each tee ₃₀ , the end of which is led through a jumper into the worked out and backfill space. This allows the supply of filling pulp throughout the lava to be carried out continuously, ensuring that it is filled with sections of oblique sz with a height of 8-10 m along the uprising of the formation. To do this, it is enough to open the valve of the tee at the pipe of the newly laid section and so on.

Wastewater, filtered through a jumper 1, enters the cavity (sludge- ⁴⁰ nickname) 10 bottom-hole sludge collector, which is the bottom-hole space of the lava and collects in its lower niche, which essentially acts as a bottom-hole sump, since Partial precipitation of fine fractions is observed. Waste water from the sump 10 with the help of a perforated water intake pipe 4 enters the drainage section of the line 5, and then into the mine shaft sump, from where it is pumped to the surface after the final sludge.

In order to increase the deposition rate of fine fractions in the bottomhole sump 10, polyacrylamite is added to the filling pulp in an amount of 2-5 g per 1 m ^{3 of} pulp.

The proposed design of the bottomhole sludge collector (sump) will dramatically reduce the removal of small fractions with waste water, trapping them in the bottomhole space, prevent siltation of the conveyor (delivery) drift and the recoil horizon, significantly improve the main technical and economic performance of mining seams (layers) with long faces along strike with full hydraulic laying of the worked out space.

Claims (3)

(54) SPARE PLANT ELECTRIC SUBSTANCE The invention relates to the mining industry and can be used in the development of mineral deposits in long pillars along the strike. Known bottomhole sludge collector for clarification of waste water in the development of mineral formations with long columns along the flow with hydraulic folding, including a filter jumper, made in the form of an organ row of lining, made by sacking, installed at each step of laying in the developed space parallel to the clearing face, and downhole rack dyes 1. The disadvantage of such a collector is the large removal of fines, backfilling material with waste water, watering and silting the bottom of clean and adjacent pit excavation workings. In addition, there is a well-known bottomhole sludge collector for clarifying waste water when mining mineral deposits with long columns along the stretch with a hydraulic laying of the developed space, including a filter jumper erected by a dip parallel to the cleaning face at each step of laying the filter and an impermeable impermeable jumper on the side of the clearing the bottom, rows of fixing racks, perforated water intake pipeline and drainage precinct pipeline, reported among themselves 2. A disadvantage of the known sludge collector is the removal of fine fractions with waste water and the high costs of building a sealed waterproof bridge. The purpose of the invention is to reduce the removal of fine fractions of the backfill material with waste water and reduce the cost of building a sealed impermeable lintel. The goal is achieved by the fact that the hermetic watertight web is made in the form of a portable inflatable casing that is installed between two adjacent rows of fastening racks, which are equipped with additional fastening racks. FIG. 1 shows the bottomhole sewer; general view; in fig. 2 shows section A-A in FIG. 1. Bottom-hole sludge collector, includes filtering lintel 1 erected parallel to the treatment plant at each step, and a hermetic watertight jumper, made in the form of a portable inflatable casing 2, installed between two adjacent reinforced rows of fastening racks 3, perforated water receiving pipe 4 and drainage pipe section The proposed sludge collector works as follows. After the departure of the foot, a filter jumper 1 is erected along the entire inclined height of the laying step along it, for example, from metal grids with cell sizes of 3X3 mm or sackcloth-covered boards. In the bottom niche of the clearing intake, a sealed water-proof bridge is constructed, for example, from shells of a polymeric material or a soft water-air-tight material filled with compressed air or filled with liquid. The filling material is fed from the ventilation drift along the slurry pipeline 6. The latter is also mounted along the cleaning face at the roof of the formation (layer). Moreover, in the filling pipeline, a tee with a gate 7 is inserted every 8–10 meters into each tee. A nozzle 8 with a length of up to 2 meters is connected to each tee, the end of which is connected to the developed and filling space via a jumper. This allows the supply of stockpile pulp throughout the lava to be carried out continuously, ensuring that it is filled with sections of an inclined height of 8-10 m during the rising of the formation. To do this, it is enough to open the tee valve at the nozzle of the newly laid area, and so on. Waste water, filtering through jumper 1, enters the cavity (settling tank) 10 of the bottomhole disposal tank, which is the bottomhole space of lava and is collected in its lower poop, which essentially acts as a bottomhole sedimentation tank, as it carries a partial sedimentation of small fractions. The waste water from the sedimentation tank 10 through the perforated water intake pipe 4 enters the sewer pipe 5, and then into the common sedimentation tank, from where it is pumped to the surface after the final sediment. In order to increase the intensity of the precipitation of fine fractions in the downhole sump 10, polyacrylamite is added to the filling pulp in the amount of 2-5 g per 1 m of pulp. The proposed design of the bottomhole sludge collector (settling tank) will dramatically reduce the removal of small fractions with waste water, catch them in the bottomhole space, prevent silt in the conveyor (delivery) drift And haul horizon, significantly improve the basic technical and economic indicators of work during the mining of layers (layers) with long tailings along the strike with full hydraulic laying of the goaf. Claims of the Invention Borehole sludge collector for clarification of waste water during mining of mineral deposits with long columns along the strike with a hydraulic laying of the developed space, including a filter jumper erected by a dip along the cleaning face at each step of laying a filter jumper from the backfill array side and a sealed jumper jumper at each step of laying the filter jumper from the backfill array side and a sealed jumper jumper at each step of laying the filter jumper from the backfill array side and a sealed jumper jumper at each step of laying a filter jumper from the backfill array side, and a sealed jumper jumper at each step of laying a filter jumper from the backfill array side, and a sealed jumper jumper at each step of laying a filter jumper from the backfill array side and a sealed jumper jumper at each step of laying a filter jumper from the backfill array side, and a sealed jumper jumper at each step of laying a filter jumper on the side of the backfill array and a sealed jumper jumper at each step of laying a filter jumper on the side of the backfill array and a hermetic waterproof lintel rows of mounting posts, perforated water intake pipeline and drainage precinct pipeline, each other, characterized in that, in order to reduce the removal of fine fractions of the backfill material with waste water and reduce the cost of erecting a sealed waterproofed jumper, the latter is made in the form of a portable inflatable shell that is installed between two adjacent rows of fastening racks, which are equipped with additional fastening racks. Sources of information taken into account during the examination 1. Krylov V. F. and others. Complexes of equipment for pressure hydrotransport. M., “Central Research and Design Institute of Iron, 1975, 24-25. 3. Chanishvili, V.F., et al. Sloeva, Development of coal-bearing coal seams with a lavas system with a layered sump with a hydraulic laying of a goaf. “Hydraulic mining coal. M., “Subsurface Resources 1965, No. 7 (29), p. (prototype). G: y / 5x yo // vx / x4xyxsyx s y: 6y // x . -v-v A-yy: . 1 4, I t -,. . I .. j .. t. - / t, .) J1 W 2