SU1460210A1 - Geotechnological well - Google Patents

Abstract

The invention relates to geotechnology and can be used in the construction and operation of pumping wells with direct drilling useful; fossil. The goal is to increase the well productivity due to the creation of radial channels. The geotechnological well includes pipe 1, diverter 2, filter in B1 ede of flexible hose 3, flexible high-pressure hose 4 with centralizers 5, hydraulic motor (GM) 6 and sealer 7, Filter 3 is made in the form of a perforated flexible hose that is connected to the GM body with its lower end 6, and the upper with pipe 1. Its length is equal to the length of flexible hose 4. Flexible hose 4 and flexible hose 3 communicate with the cavity of pipe i via valves 8 and 9 installed in sealer 7. With diverter 2 located in the interval of formation of radial channels 10 , mutually GM Procedure 6 and the lower end of the perforated sleeve 3, tube 1 According to a working agent is supplied, for example water, which enters the hose 4, 6 and GM, forming Referring to plow razmyuaet breed. The pumping out of the scrub is performed according to the backwash method} after the radial canal O is drawn to a predetermined depth. I zp f-ly, I sp. i (L

Description

The invention relates to geotechnology and can be used in the construction and operation of pumping wells with shaftless leaching of minerals.

The purpose of the invention 'is to increase well productivity due to the construction of radial channels.

The drawing shows a geotechnological (q well).

A geotechnological well consists of a pipe I, a diverter 2, a filter 3 in the form of a perforated flexible sleeve, a flexible high pressure 15 hose 4 with centralizers 5, a hydraulic monitor 6 and a sealant 7 with opposite valves 8 and 9.

The perforated flexible sleeve 3 20 is rigidly connected with the top 1 to the pipe 1 and the lower end with the housing of the hydro monitor 6. The perforation of the sleeve can be slotted with slots along the sleeve or punched with pro-25 longitudinal rows or with perforated holes along the spiral.

The perforated sleeve 3 is installed with the possibility of interaction with the deflecting surface of the deflector 2 when withdrawing the sleeve 3 in a radial direction.

The flexible hose 4 is also rigidly connected to the pipe and communicated with it, and the hydraulic monitor 6 is mounted on the end of the flexible hose 4, while the latter is located inside the perforated sleeve 3 and is equipped with centralizers 5 located spaced apart within the interval of perforation of the sleeve 3. These centralizers interact with the inner wall of the sleeve 3 and center the position of the hose 4 in the specified sleeve. Flexible hose. 4 and the flexible sleeve 3 are in communication with the cavity of the working column through non-return valves 8 and 9, for example a ball type. These valves are installed in the housing of the sealant 7, rigidly fixed at the end of the pipe 1.

During the descent, the hydraulic monitor 6 and the lower end of the perforated sleeve 3 interact with the diverter 2 and their deviation occurs. A working agent, for example water, is fed through the pipe under pressure, while water under pressure through the opening ball valve 8 enters the hose 4. Another ball valve 9 is locked and does not allow water to enter the cavity of the perforated sleeve 3.

Through the hose 4, water under pressure enters the nozzle of the hydraulic monitor 6, and, being formed into a stream, erodes the rock. 'As the latter is washed out, the sleeve 3 with the hose 4 and the hydraulic monitor 6 is advanced into the formed radial channel, while the fractions of the eroded rock are carried out by the direct washing method.

Thus, simultaneously with the formation of the radial channel 10, a perforated flexible sleeve 3 is placed in it along the entire length of the channel 10. After the latter has been carried out to a predetermined length, the well is pumped by the backwash method to clean the perforated sleeve 3 from sludge. When backwashing, water enters. through the perforation into the cavity of the sleeve 3, it rinses the perforations and through the opening ball valve 9 removes sludge into the working column and longer to the surface, while valve 8 closes when backwashing.

Following this, filter material is introduced into the radial channel. To do this, first it is fed through a pipe 1, a flexible hose 4 and a hydraulic monitor 6 into the bottomhole part of the radial channel 10, and then filter material is introduced according to the backwash method with the valve 8 and open valve 9 open in that part of the radial channel 10 that is adjacent to vertical wellbore.

Following this, the well is ready for operation as a pumping geotechnological well, while around the working column is placed. cork made of grouting material over filled material.

Claims (2)

Claim 1. A geotechnological well, including a filter located inside the filter, a flexible hose, a pipe with a sealant and a valve, characterized in that, in order to increase the productivity of the well due to the construction of radial channels, the flexible hose is equipped with a hydraulic monitor, two valves are installed in the sealant, and in the well, in the interval of the construction of the radial channels, a deflector is installed with the possibility. interaction with the filter, the filter is made in the form of a flexible perforated sleeve with a length equal to the length of the flexible hose and is connected with the lower end to the housing of the monitor, the upper ends of the hose and sleeve are connected to the pipe mounted above the deflector, while the pipe cavity is in communication with the cavity of the hose and sleeves by means of valves. 2. The well in π. 1, characterized in that the flexible hose is equipped with centralizers installed to interact with the inner wall of the flexible perforated sleeve.