RU53720U1 - TEMPLATE - Google Patents

Abstract

The proposal relates to the oil industry and is intended to control production wells in order to determine the patency of their bore when lowering long units, such as submersible electric centrifugal pumps. The template contains a housing with connecting couplings, a calibrating element made in the form of bushings with longitudinal grooves and protrusions on the outer surface. The housing is prefabricated and consists of alternating nozzles and pipes. The bushings of the calibrating element are located on the nozzles with the possibility of axial movement along the entire length of the nozzle until they interact with the end stops, which are used on both sides of the coupling, respectively, from above and below. The bushings are interchangeable with the possibility of selecting their appropriate size for the outer diameter - D and thickness - b. The proposed template has a simple design, cheap to manufacture and easy to assemble, which can significantly reduce material and financial costs.

Description

The proposal relates to the oil industry and is intended to control production wells in order to determine the patency of their bore when lowering long units, such as submersible electric centrifugal pumps.

A well-known template (Lavrushko PN Underground well repair. - M .: Nedra, 1968, p.272-273) for testing production casing, including the housing and calibrating rings rigidly fixed to it.

The disadvantage of this template is the indistinguishability of the design and the complexity of its release in case of sticking in the inspected column.

The closest in technical essence to the proposed one is the template, (RF patent No. 2114302, IPC 7 E 21 B 47/08, published in Bulletin No. 18 dated 06/27/1998), containing a housing with connecting couplings and calibrating elements and stops with clamps from axial movement, and the template is equipped with, fixed on the housing between the stops, guide keys for calibrating elements, made with mating grooves on the inner surface and installed with the possibility of axial movement until contact with the stops, and as end stops for calibrating elements, connecting couplings were used, while guides were used as stoppers for stops, the ends of which are installed to interact with the ends of the stops, and the calibrating elements are made in the form of bushings with longitudinal grooves and protrusions on the outer surface, and the protrusions of one sleeve are displaced in terms of protrusions of other bushings with overlapping column barrel along the entire circumference.

The disadvantage of this design template are:

- firstly, the complexity of the design, due to the large number of nodes and parts, while the couplings used as end stops limit the axial movement of the calibrating sleeves only on one side, and on the other, the stop of the calibrating element serves as an end stop.

- secondly, the complexity of manufacturing and assembly, due to the large number of technologically difficult to manufacture components and parts, which leads to an increase in the cost of the template.

The technical task of the utility model is to simplify the design of the template and reduce the cost of its manufacture without loss of operational efficiency.

The technical task is solved by a template containing a housing with connecting couplings, a calibrating element made in the form of bushings with longitudinal grooves and protrusions on the outer surface.

What is new is that the housing is prefabricated and consists of alternating nozzles and pipes, while the sleeves of the calibrating elements are located on the nozzles with the possibility of axial movement along the entire length of the nozzle before interacting with the end stops, which are couplers on both sides, wherein the bushings are interchangeable with the possibility of selecting their size appropriate for the descent equipment.

The figure 1 shows the proposed template in longitudinal section

The figure 2 shows a section aa of the sleeve.

The template contains a housing 1 with connecting couplings 2 and 3, a calibrating element made in the form of bushings 4 with longitudinal grooves 5 and protrusions 6 on the outer surface.

The housing 1 is prefabricated and consists of alternating nozzles 7 and pipes 8. The sleeves 4 of the calibrating element are located on the nozzles 7 with the possibility of axial movement along the entire length of the nozzle 7 until they interact with end stops, which are used on both sides of the coupling sleeve 2 and 3, respectively, above and below. The bushings 4 are interchangeable with the possibility of selecting their appropriate size for the outer diameter - D and thickness - b.

The template works as follows.

At the wellhead, sleeves 3 are installed on the nozzles 7, the corresponding size for the outer diameter - D and thickness - b for the patterned equipment (not shown in Figs. 1 and 2), which will subsequently be lowered into the well.

Then make the assembly of the layout of the required length, which corresponds to the length of the equipment subsequently lowered into the well. After this, the assembly of the housing 1 is carried out, alternating nozzles 7 and pipes 8 connecting them together using connecting couplings 2 and 3.

Having assembled its template on a rope or tubing string (tubing), attaching it to the upper connecting sleeve 2 (see figure 1) is lowered into the well and the production string (trunk) is template to a predetermined depth, while the fluid in the well during descent template freely flows from bottom to top through the housing 1 and the longitudinal grooves 5, made on the outer surface

sleeves 3. During the descent of the template, the sleeves 4 of the gauge element, depending on the state of the production string (barrel), occupy a different position: when the sleeves 4 interact with the outer diameter D and the inner walls of the production string, the top, in the absence of interaction, is lower. In the case of jamming of the sleeves 4 of the calibrating element by pulling the rope up or lifting the tubing string up, the sleeves 4 are released, which is facilitated by the implementation of the sleeves 3 with longitudinal grooves 5 and protrusions 6 on the outer surface.

The proposed template has a simple design, cheap to manufacture and easy to assemble, which can significantly reduce material and financial costs.

Claims (1)

A template containing a housing with connecting couplings, a calibrating element made in the form of bushings with longitudinal grooves and protrusions on the outer surface, characterized in that the housing is prefabricated and consists of alternating nozzles and pipes, while the sleeves of the calibrating elements are located on the nozzles with the possibility of axial movement along the entire length of the pipe before interacting with end stops, in which quality couplings are used on both sides, while the bushings are interchangeable with the possibility of selecting their appropriate lander size.