SU1469140A1 - Deep-well unit - Google Patents

Abstract

The invention relates to geotechnological methods for the development of solid mineral deposits. The goal is to increase the efficiency of the unit by providing preliminary perforation of casing strings. The downhole unit includes a water station becoming 1 pipe, a hydraulic elevator 2 and a well hydro monitor 3 “Inside the rod 1 and a slurry line 4 is installed coaxially with it. A cutting organ is located above the hydro monitor 3.

Description

Rie. one

The latter is located inside the hollow shaft 8 of the actuator with the possibility of rotation together with Him and independent of its longitudinal axial movement. The cavity of the shaft 8 communicates with the cavity of the rod 1 and has the cross-sectional shape of the polygon. The PO in the form of a rod 5 with a spring-loaded piston 6 at one end and a replaceable working head 7 at the other. Drive RO

It is made in the form of a hydraulic impeller 9 rigidly fixed on the shaft B. When the unit is moved upwards by means of the replaceable working head 7, a hole is formed in the casing string 10. it is washed by the jet of the jetting unit 3 of the ore formation. The mixture flows to the hydraulic elevator 2 and flows down to the surface 2 of the slurry.

t

The invention relates to geotechnological methods for the development of solid mineral deposits, in particular, to a combined method of mining borehole hydraulic mining and underground leaching, and can be used to finish sandy-clayey, phosphorite-bearing,

bituminous and carbonaceous useful IP

digging

The purpose of the invention is to increase the efficiency of the unit by providing a preliminary perforation - 1 day and casing strings.

The image shows a device for borehole hydraulic mining of solid minerals, placed in a pipe-lined borehole in Fig. 2, with a drive organ.

The device consists of a water supplying pipe 1, with a hydraulic elevator 2 and a borehole monitor 3. Inside the station 1, the slurry guide 4 is installed coaxially with it. At station 1, a cutting element is located above the hydraulic monitor 3 and consists of a rod 5 with a spring-loaded piston 6 on one end and replaceable working head 7 on the other. In this case, the cutting element is installed inside the hollow shaft 8 of the drive with the possibility of rotation along with it and independent of it of the longitudinal axial movement. The cavity of the shaft 8 is communicated with the cavity of the stand 1.

The drive of the cutting body is made in the form of a hydraulic impeller 9 (impeller with blades) rigidly mounted on the shaft 8. The replaceable working head 7 can be made, for example, in the form of a cylindrical milling cutter. This allows perforation of the casing string 10 at any depth interval, as well as eliminating sticking of the cutting working head 7.. .

 In addition, the device can be equipped with an additional jetting nozzle located at the same level along the vertical axis of the device with a cutting working head 7. The presence of an additional jetting nozzle allows, by means of a predetermined program for moving the device and, therefore, the cutting organ and the jetting nozzle. vertical and horizontal planes, carry out the excavation of special workings in a strictly specified direction, such as slots-collectors, compensation workings, - Particular filtration channels, etc. The device works as follows.

In the well cased to the full depth of the column pipe 10, the lower section of the rod 1 is mounted and guarded to the design depth of the lower section 1, equipped with a hydraulic elevator 2, hydraulic monitor 3 and a cutting body, attached to it 30 when the pipeline is lowered into the well 4 After descending into the well, the device is connected to the ground communications and supplies pressurized water, which, at a rate of 35 1, flows simultaneously to the impeller 9 and rotates it, to the hollow drive shaft 8, to the well monitor 3 and the hydraulic elevator

The piston 6 under the action of water pressure 40, moving, expands the spring

FIG. 2

Claims (1)

SUMMARY OF THE INVENTION A downhole assembly including a slurry conduit in fluid communication, the inner cavity of the shaft having a cross section in the form of a polygon and in communication with a water supply 25. by the delivery head, and the drive is made in the form of a hydraulic turbine rigidly mounted on the shaft. FIG. 2