SU787685A1 - Method of filling-in excavated space - Google Patents

Description

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

There is a method of laying the worked-out space when developing minerals in horizontal layers from top to bottom, including preparing the filling material and feeding it in the form of a hardening mixture

The disadvantage of this method of bookmarking is the high cost of the bookmark associated with the high consumption of expensive binder material.

There is also a method of laying the mined-out space, when developing minerals with layers of over-20 xy down, which consists in preliminarily erecting the soil in the worked-out space of each layer of concrete flooring, which serves as an artificial roof for the underlying layer 25 to be mined, and then filling the rest of the worked-out layer space filling material with a method of washing. from the side of the ventilation slope and waste water 30 through the filling array to the drain windows slope, which close and open as the drainage of waste water [2].

The disadvantage of this method is the low efficiency of the treatment of waste water drained through the filling array due to the small path of waste water passing through the filling array, which leads to the removal of small particles of filling materials into the exhaust mine workings.

The purpose of the invention is to increase the efficiency of wastewater treatment by increasing the path length of the filtration stream.

This is achieved by creating through holes in the concrete flooring during its construction, and the waste water at the beginning of the mass reclamation is diverted to the drain windows of the drainage slope located above the level of the worked-out layer space filled with filling material and then, as the worked-out layer is filled with worked-out material, the waste water direct to the next downstream drainage window of the drainage slope by sequentially opening them from top to bottom, while the size and shape of the through hole TIFA in the concrete flooring, a.takzhe their number and location take into account the characteristics of the material _ zakladochno-. ⁵

In FIG. 1 shows a diagram of the construction of the filling array during mining of the excavation field by the development system in stripes from top to bottom, vertical section; in FIG. 2 — section A — A in FIG. 1.

| The excavation section along the borders has a ventilation 1 and drainage 2 slopes, the worked out layers are located with an inclination of 3-5 towards the drainage 15 of the slope.

A tab is made in the worked out space of the layer, layer 4, 'upstream and already laid, is the artificial roof of the jq 3 layer, in which the concrete floor 5 is erected with through holes 6. Water is discharged through the windows 7 of the drainage slope 2 by filtering it through the filling array 8 . Below the spent _ th layer 3 is an array of 9 minerals. The drainage slope 2 has a drainage part 10 and a running gear 11. From the side of the ventilation slope 1, a filling pipe 12 is laid. 30

The method is as follows.

A drainage ramp, it is also, for example, carbon-run / is equipped, for example, with tubing support with carbon-run, running and drainage compartments. The _Well drainage department run Windows 7.

Work out the first, starting from the ventilation drift, layer (strip) AT an angle of 3-5 ° to the horizon In the usual way dd.

On the soil of the coal mass, concrete flooring 5 (artificial roof) with holes b. Hydro-laying of the worked-out space of the worked-out layer is carried out in the usual 45 way.

Then work out the second layer 3. On the soil of the coal mass,> concrete floor 5 with holes 6 is erected. 5Q A layer is enclosed on the side of the ventilation slope with a jumper 13. Close the windows 7 of the drainage slope 2, which exit into the array to be laid in layer 3, and the lower windows that open into the overlying “The spent layer 4 filled with the filling material 8. The filling material 8 is fed into the laying layer 3. The waste water is sent from the laying layer 3 to the previously laid layer 4 through holes b to 60 of the previously constructed artificial roof 5 and drain ruyut it through the upper window 7 previously pledged layer 4.

As the developed space of the layer is filled, the filtration path of the water is lengthened, and in this case the waste water is directed to the next downstream drain window 7 by opening them sequentially from top to bottom.

The size and shape of the through hole b, as well as their number and location, are taken into account the characteristics of the filling material.

Using the proposed method for laying out the developed space increases the degree of purification of waste water, which significantly reduces the pollution of mines; pollutants remain in the filling array and are not carried to the surface, which in turn allows to reduce the cost of operating treatment facilities and improve the quality of the filling array.

I Thus, the method allows to increase the degree of purification of waste water and to reduce the pollution of mine workings.

Small particles left in the filling array reduce the operating costs of treatment and drainage facilities and improve the quality of the filling array.

Claims (2)

1.Popov G.N. Technologists leksna mechanization of the development of ore deposits. M., Nedra, 1970 with. 258-260. 2. In the same place 260 - 262 (prototype). L R .