SU1343021A1 - Method of winning from production levels - Google Patents

Abstract

The invention relates to mining, construction, and geology, and can be used in downhole hydraulic mining of mineral resources, in the extraction of building materials, and in the exploitation of mining horizons. The goal is to ensure the safe conduct of extraction work in the presence of the likelihood of rock shifting. During processing, the productive horizon is divided into blocks. Within the block, a central production well (C) and peripheral wells are conducted. The latter are drilled with the intersection of the plane of displacement of rocks from the formation of the designed excavation chamber with overburden into rocks of increased horizon soil strength. In the peripheral Cs, injection jetters are placed and support elements are formed by simultaneously introducing hardening material into the loosened rocks. On the platform, mounted on the supporting elements, place the complex of ground equipment used in hydraulic mining. Then, the horizon rocks are eroded with the equipment of the excavation chamber and the discharge of pulp to the surface. 1 hp f-ly, 2 ill. sl cr ICO with about you

Description

The invention relates to mining, construction, and geology, and can be used in well hydroproduction of mineral resources, mining of construction materials, as well as in testing of productive horizons.

The purpose of the invention is to provide

the safe conduct of work on extraction sizes begins to shift when there is a likelihood of rocks shifting.

Figure 1 is a diagram of testing the chamber and the construction of supports; Fig 2 is a set of equipment for support, a general view.

The method is illustrated by the example of extracting minerals from productive horizon 1, when mining, horizon 1 is divided into blocks in terms of, Within the block, one central production well 2 and three peripheral wells 3 are conducted. The latter are carried out with the intersection of the surface 4 displacement of rocks from the formation of the designed excavation chamber. The location of the specified plane is determined in each specific case depending on the geological conditions on the basis of the test by the Institute under natural conditions.

Then in the peripheral wells place injection jetters 5, which are a two-pipe structure. Under one column, water is supplied to the upper nozzle under high pressure, and through the other column to the lower nozzle - hardening material.

the injection jetter produces 40 ground equipment

loose rock formation on the surface with simultaneous introduction of hardening material, for example, milk of cement, synthetic resin, etc. into the loosening rocks. Due to this, high support bearing column elements 6 are formed in the rocks.

After the material of the elements 6 is solid, above the production well 2 a complex 7 of surface equipment is placed, which is used in hydraulic mining. The complex 7 is placed on a platform supported by the supporting elements 6. In the central well 2 a well-drilling assembly 8 is placed and the rocks are eroded to form a extraction chamber 9 and a thick slurry

the aggregate column 8. As the rocks of the productive horizon 1 are spread and the rock mass is discharged to the surface, the dimensions of the excavation chamber 9 increase and its ceiling collapses into the working space, where the erosion of the rocks continues. When reaching the excavation chamber, the crine of overlying rocks, as well as rocks of the productive horizon around chamber 9,

The columnar elements 6 are formed so that their lower end is located in rocks of increased strength and is in the soil of the horizon

Due to the fact that the elements 6 intersect the gas excursion of the 4 rocks, the nature of the displacement changes towards preventing the rocks from moving directly behind the elements and reducing the overall deformation of the massif and the surface.

All previously formed support elements after the block has been worked out can also be used when working on adjacent blocks. In this case, the scope of work for the construction of the said support elements is reduced.

Claims (2)

Invention Formula 1, Method for extracting materials from production horizons, including opening the horizon with a central production well and peripheral auxiliary, accommodation five 0 five surface above the central well. and the jetting unit in the well, erosion of horizon rocks with equipment for excavation chambers and pulp onto the surface, characterized in that, in order to ensure the safe conduct of the extraction work in the presence of likelihood of displacement of rocks, peripheral wells & the intersection of the plane of displacement of rocks from the formation of the excavation chamber with a rebar in the rocks of the enhanced strength of the soil horizon, form support elements in these wells and place a surface complex of equipment based on these elements. 2. The method according to claim 1, characterized in that the support 313A3021 the elements form circularly loose simultaneous injections of the loose material of the hardening material upwards from the peripheral wells of the rial into the bottom rocksline in the direction of the bottom. W V-5 2