SU1312174A1 - Method of hydraulic recovery of materials from thick underground formations - Google Patents

Abstract

The invention relates to mining and geology. The goal is to reduce the cost of implementation and improve the reliability of the method while ensuring efficient material extraction during unstable formations. The formation is opened by a central well (C) and four peripheral C 2 located at an angle of a square inscribed in a circle, in the center of which C is located. A pulp-lifting column 3 is placed in it, and downhole hydromonitors 4 in peripheral C 2. of the slit-like slots 5, the C 1 and C 2 are assembled. Then, the hydromonitors 4 are raised to the upper level of the mining and from each C 2 in the top-down direction the rock is washed out by sectors 6 whose sides are located on the lines forming x square, in the corners of which C 2 is located. The erosion is carried out with the bypass of the pulp formed during erosion through C 2 and the slotted slot 5 to the inlet of the pulp-lifting column 3. A whole of 8 forms around C 1. smoldering and necessary when testing powerful horizons to support the chambers and after testing. 2 Il. 5 O) iCO

Description

1131

The invention relates to mountain spruce and geology and can be used in downhole hydraulic mining of minerals, as well as in the field of testing of powerful productive horizons.

The purpose of the invention is to reduce the cost of implementation and increase the reliability of the method while ensuring efficient material extraction during unstable formations.

Fig, 1 shows the scheme of mining of the formation, a view in plan; FIG. 2 is a section A-A of FIG. 1;

The method is illustrated by the example of testing a powerful formation composed of dense clays characterized by an unstable state at high outcrops. The formation is opened by a central well 1 and peripheral wells 2 located at the corners of a square inscribed in a circle in the center of which central well 1 is located. In the latter one is placed a pulp lifting column 3, and in peripheral wells 2 - well drilling machines 4. gi; l, romonitors 4 coax the central and peripheral wells by eroding the vertical bores 1 radially relative to the central bore 1, the width of the said cuts is taken from the calculation of the passage through them to crusty fraction during rock disintegration,

Following this, the hydraulic monitors 4 are raised to the upper level of development and proceed to the erosion of the formation array with the bypass formed during the erosion of the pulp through the boreholes 2 and the slit-like slots 5 to the suction of the slurry column 3, the end of which is provided with a rock-breaking tool with which destruction of oversized rock fractions. The lifting device can be made in the form of airlift or hydraulic elevator,

The rocks are produced in the direction from top to bottom and from each peripheral well 2 are made by sectors 6, the radii of which are located on lines 7 forming the sides of a square, the corners of which are located well 2, and around the central well 1 a whole square shape is formed. . The specified rear sight 8 prevents collapse on 4 2

of the dwelling rocks in the formed excavation chamber, and also guarantees the stable operation of the well 1 with column 3 during all the mining cycles

formations, due to the fact that the rear sight 8 is located in the center of the chamber being repaired, it is possible to significantly increase the area without causing the roof and walls to collapse.

cameras. Due to the fact that the central well 1 is connected to peripheral wells 2 by slit-like vertical connections and, due to the selected pillar shape 8, the latter is essentially

not attenuated by the indicated slots.

The presence of pillar 8 is also very important when testing powerful productive horizons due to the need to maintain the chambers and after testing,

Claims (1)

1 claims The method of hydraulic extraction of materials from powerful underground formations, including opening the formation with a central well and four peripheral, located at the corners of a square inscribed in a circle, in the center of which the central well is located, placing in the last pulp lifting column and disintegrating the rock at the peripheral wells with its issuance to the surface pulp lifting column, characterized in that, in order to reduce the cost of implementation and increase the reliability of the method while ensuring effective extracting material with unstable formation rocks, before disintegrating the rock, eroding the radial relative to the central well of the vertical slit-like slots at the lower boundary of the formation slumps the central and peripheral wells, and then places the hydromonitors in the peripheral wells and erodes the rock in the top direction down with the pulp bypass along peripheral wells through radial connections to the suction of the pulp-lifting column, while erosion of the rock from each peripheral well in the horizontal plane is carried out by sectors whose sides are located on the lines forming a square and the peripheral wells are located at the corners. Editor E. Papp Compiled N, Devil's Tehred M. Khodanich Proofreader A.Zimokosov Order 1943/28 Circulation 455Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4 FIG. 2