SU708055A1 - Apparatus for hydraulic mining - Google Patents

Description

(54) DEVICE FOR BOTTOM HYDROCARNING

The invention relates to mining and can be used in the underground mining of minerals using the method of downhole hydraulic mining.

A device for borehole hydraulic mining is known, comprising hydraulic, air supplying and pulping pipe stacks, one inside the other, and a jetting device with a nozzle, the opening of which is communicated with the cavity of the hydraulic pipe stacking 1.

A disadvantage of the known device is its high metal intensity.

A well-known device for borehole hydraulic mining includes a casing string, air supply and hydraulic stands located in it, a hydraulic extraction plate with a jetting machine and a hydraulic elevator with nozzles and slurry pipe placed in the downhole part of its body, and a packer located between by the mouth of the casing string and the downhole part of the body of the mining rig and dividing the cavity between the body of the hydropower shell and the column

casing on the wellhead and downhole parts, with the latter communicated with the air supply 2.

A disadvantage of the known device is its high intensity and complexity of manipulation techniques during its operation.

The aim of the invention is to eliminate these drawbacks.

The goal is achieved by the fact that the packer is rigidly fixed on the casing string, and the hydrofoil projectile is mounted for rotation and axial movement relative to the packer, while the hydraulic elevator slurry pipe is in communication with the mouth of the packer-divided cavity.

The drawing shows a device for downhole hydraulic mining, vertical section.

The device consists of a column 1 of casing pipes, located in it of an air supply rod 2 and a hydraulic rod 3, a hydrodynamic projectile 4 with a hydromonitor 5 with nozzle 6 placed in the downhole part of its body, a hydraulic elevator 7 with nozzles 8 and a slurry pipe 9 connected to the cavity of the hydraulic rod 3, a packer 10 rigidly fixed on the packer ring 11 of the casing string 1 and dividing the cavity between the casing of the hydropower shell 4 and the casing string 1 to the wellhead part 12 communicated with the slurry pipeline 9 ora 7, and the downhole part 13, communicated with the air supply rod 2 through the cavity 14.

The device works as follows.

The device is located in the production well 15 and the manipulation of the hydrophobic projectile 4 in the vertical direction and axial rotation due to the internal slip of the latter in the packer 10 orient the nozzle 6 of the jetting device 5 to the bottom 16 of the cavity 17 formed within the mineral deposit 18. Hydraulic stav 3 under pressure delivers the working fluid to the nozzle 6 of the jetting machine 5 and nozzles 8 of the hydraulic elevator 7. Compressed air is supplied to the air supplying staple 2 to push the working fluid out of the cavity 17. The working fluid stream formed in the nozzle 6 destroys the mineral deposit 18. Repulsed minerals in the form of pulp enters the hydraulic elevator 7 and under the influence of a jet of working fluid flowing from the nozzle 8, is directed along the pulpline 9 first to the mouth part 12 of the cavity between the hull About 4 and casing 1 and casing 1, and then to the surface.

When using the proposed device, manipulation techniques are simplified, the borehole cross section is used to the maximum, which allows the use of boreholes of smaller diameter, and also reduces the metal consumption for its manufacture.

Claims (2)

1. USSR Author's Certificate No. 58591, Ll. E 21 B 43/00, 1936. 2. US patent number 3155177, JJ class. 175-67, 1964 (prototype).