RU2001248C1 - Device for gravel filter setting on blast hole - Google Patents

Abstract

Use in the construction of gravel filters in vertical, deviated and horizontal wells Provides the construction of a high-quality gravel filter having high continuity and density of gravel packing along the entire length of the filter frame. SUMMARY OF THE INVENTION: The apparatus includes a tubing string. An auxiliary column is installed in its lower part. A filter frame is connected to a column of lifting pipes. It has a damped lower part. The filter frame is placed outside the column of auxiliary pipes. It forms an annular cavity with this column. On the auxiliary column transverse annular partitions are fixed with shear elements. These partitions separate the annular cavity. Annular chambers. The lower of these chambers is hydraulically connected to the channel of the auxiliary column. Organizing stops are installed on the auxiliary column. They are installed between the transverse annular partitions. The filter frame is made of sections. They are interconnected by couplings. The transverse annular partitions form a tight contact with the couplings on the outer surface. In this limit stops can be made in the form of couplings. The lengths of the annular chambers can be made equal. The transverse annular partitions can be made with sealing elements along the outer and inner lateral surfaces of m 3 s f-s. 2 ill. about §

Description

The invention relates to mining, in particular to devices for constructing gravel filters in vertical, deviated and horizontal wells.

A device is known for constructing a gravel filter in a well, comprising successively installed production and filter columns interconnected by an adapter with inlet openings with an assembly overlapping them, a water lifting column, a distribution assembly with outlet channels between the O-rings on the outside and a support ring - a center located in the lower part of the adapter, while the overlapping unit is made in the form of a sleeve fixed inside the adapter with outlet holes, size openings against the outlets in the adapter mounted above the support ring with the possibility of axial movement and landing on the latter after fixing, the lower part on the inner surface of the said sleeve is made with a thickening, the upper end of which has a sinusoidal surface shape with cavities located opposite holes in the sleeve and the adapter, and the distribution unit is equipped with support pins located above the outlet channels, and is installed inside the sleeve with the possibility of interaction of the support pin with a sinusoidal surface of the thickening of the sleeve.

The closest analogue of the invention is a device for constructing a gravel filter in a well, including a lifting pipe string, an auxiliary string installed at the bottom of the lifting pipe string, a filter frame with a blanked bottom connected to the lifting pipe string, placed outside the supporting pipe string, and forming with the last annular cavity.

A disadvantage of the known devices is the low quality of the filter being constructed. So, during the construction of a gravel filter in an inclined or horizontal well, gravel sprinkling occurs along the entire length of the filter cage at the same time, intensive dune formation occurs in the initial section of the filter, which leads to the sanding of the annulus between the filter casing and the well walls. As a result, further washing up of sand sprinkling occurs in front of the dune, and behind the dune a void is formed through which

During operation, formation sand will penetrate the production casing.

During the construction of gravel filters in vertical wells, the gravel-liquid pulp is filtered along the entire height of the filter frame, as a result of which the lower part of the filter has a low density, and with the length of the filter frames more than 30 m, voids can form in the lower part.

The aim of the invention is to provide a device for the construction of a high-quality gravel filter having high continuity and density of gravel packing along the entire length of the filter frame, when constructing filters in both vertical and deviated and horizontal wells.

This goal is achieved in that in a device for constructing a gravel filter in a well, including a lifting pipe string, an auxiliary string installed at the bottom of the lifting pipe string, a filter frame with a blanked bottom connected to the lifting pipe string, placed outside the supporting pipe string and forming an annular cavity with the latter, it is provided with transverse annular partitions fixed by shear elements on the auxiliary column and dividing the annular cavity into annular chambers, the lower of which is hydraulically connected to the channel of the auxiliary column, and restrictive stops mounted on the auxiliary column between the transverse annular partitions, and the filter frame is made of sections interconnected by couplings, while the transverse annular partitions on the outer surface form metic contact with the couplings, and along the inner side surface are made with the possibility of their axial movement along the auxiliary column until they are seated on restrictive devices s.

In this case, the limit stops are made in the form of couplings. In addition, the length of the annular chambers are equal. As well as transverse annular partitions made with sealing elements on the outer and inner side surfaces m.

In FIG. 1 shows the proposed device in section; in FIG. 2 - the proposed device in the process.

The device is installed in the well

1, with the formation of the annulus

2. The device contains a column of lifting pipes 3, in the lower part of which the filter frame 4 is coaxially attached, made of separate sections 5 with holes 6 interconnected by couplings 7, wire 8 is wound on sections 5, the lower end of the filter frame 4 is plugged with a shoe 9 An auxiliary column 10 is installed inside the filter frame 4 with the formation of an annular cavity 11 between them, in the upper part of which a sealing element 12 is installed. The lower part of the annular space 11 (lower chamber) is hydraulically connected to the auxiliary column 10. The top of the auxiliary column 10 is connected to a tubing string 3 and is coaxial with respect thereto. In the annular space 11, transverse annular partitions 13 are mounted dividing it into annular chambers 14 having the same length. In this case, the partitions 13 are installed with gaps between their outer lateral surface and the couplings 7 and between the inner lateral surface and the auxiliary column 10. in which annular sealing elements are installed, respectively 15 and 16. The transverse annular partitions 13 are fixed relative to the auxiliary columns 10 by shear elements 17. under the partitions 13 on the auxiliary column 10, restrictive stops 18 are made rigidly in the form of couplings.

The device operates as follows.

Sand-liquid pulp is pumped into the annulus 2. The liquid from the pulp is filtered through the coils of wire 8 and enters through the holes b into the chambers 14. At the initial moment of the pulp injection into the annular space 2, the liquid in the chambers 14 is at the bottom

annular space 11 and in the annulus 2 are equal. In the process of pumping the pulp, the filtered liquid from the lower part of the annular space 11 enters the auxiliary column 10 and the deposition of sand from the sand-liquid pulp occurs in the last section 5 until it blocks section 5. The pressure in the lower part of the annular space 11 decreases because the flow of liquid to the lower part of the annular space 11 from the annulus 2 will decrease due to an increase in the hydraulic resistance of the liquid as it moves through a layer of washed sand. When the difference in fluid pressure in the chamber 14 and the lower part of the annular space T1 exceeds the force to unlock the partition 13, the element 17 is cut off, the partition 13 with sealing elements 15 and 16 moves down to the limit stop 10. The fluid from the chamber 14 through the gap between the outer side surface of the partition 13 and the filter frame 4 enters the lower part of the annular space 11 and then into the auxiliary head 10. The liquid pressure in the chamber 14 decreases and sand deposition occurs at the overlying section 5. The process successive deposition of sand at sections 5 of the filter frame 4 from the underlying section to the overlying section 5 and the release of the partitions 13 is repeated until the filter is completely built. Then, the auxiliary column 10c located on it by partitions 13 and restrictive stops 18 is removed from the well 1.

(56) Copyright certificate of the USSR 1184928, cl. E21 B 43/04, 1983

USSR copyright certificate No. 1521865, cl. E 21 B 43/04. 1987.

Claims (4)

1. DEVICE FOR CONSTRUCTION OF GRAVEL FILTER IN A WELL, including a column lifting pipes, an auxiliary column installed at the bottom of the column of lifting pipes, a filter frame with a blanked bottom frequent, connected to the column of lifting pipes, placed outside the column of auxiliary pipes and forming an annular cavity with the latter. that it is provided with transverse annular partitions fixed by shear elements on the auxiliary column and dividing the annular cavity into annular chambers, the lower of which is hydraulically connected to the channel  the column, and restrictive stops mounted rigidly on the auxiliary column between the transverse annular partitions, and the filter frame is made of sections interconnected by couplings, while the transverse annular partitions on the outer surface form a tight contact with the couplings, and are made on the inner side surface with the possibility of axial reloading along the auxiliary column until they land on the limit stops. 2. The device according to claim 1, characterized in that the limit stops are made on the form of couplings 3. The device according to claim 1, characterized in that. that the lengths of the annular chambers are equal. 4. The device according to claim 1, characterized in that the transverse annular partition 3 ki are made with sealing elements on the outer and inner lateral surface m. ®ig. 1  .. ... V-.V i / ;; ; i. v. yl: ;;;. ;;. .- .: ..,. ..:. .-....-..-.;: Fie2