RU84910U1 - COMBINED NOZZLE - Google Patents

Abstract

This utility model relates to the oil industry, namely to underground and overhaul wells and can be used to clean the bottom of wells from sludge, mud deposits, plugs from sand, gypsum, salts and foreign objects in injection, production and artesian wells.

The objective of the utility model is to increase the efficiency of work on the destruction of plugs after their formation, regulate the rate of destruction of plugs, simplify the design and increase the efficiency and speed of cleaning the bottom of the well.

This problem is solved by the proposed device - a combined nozzle designed for effective cleaning of bottom holes in wells during underground and overhaul of wells (ORS and KRS), when when cleaning the bottom there are problems with the formation of plugs from sand, gypsum, salts in injection, producing and artesian wells .

The combined nozzle includes a housing with channels connected to the pipe string by means of the adapter sleeve, spring-loaded power screw, limited by a support, and a pusher with a travel stop, and a power spring with a limiter, while the combined nozzle is equipped with external and internal mills, and a bearing support for transmitting the movement of the outer mill, and the housing of the outer mill is mounted with the possibility of extension.

The teeth of the outer mill are made of carbide inserts, and the inner mill includes a ball bearing and is configured to support the rotation of the outer mill, and the extension and rotation of the inner and outer mill is performed due to the large pitch of the screw pair, the optimal selection of the pitch of the screw and the corresponding angle of inclination turn allows you to convert the longitudinal movement of the process pipes into longitudinal motion and simultaneous rotation

internal milling cutter nozzles.

The application of the proposed combined nozzle allows you to:

- use the nozzle with process pipes when absorbing fluid by the formation;

- to exclude the shock method of loosening sand or other traffic jams, while maintaining process pipes and equipment from dynamic loads;

- reduce the complexity of the work, the number of equipment for cleaning wells and improve the safety of work;

- when used in conjunction with a hydroprotector, increase efficiency in wells where there is no circulation;

- during the operation of the combined nozzle, there is no need to rotate the entire pipe string, as the mills rotate due to the direct unloading of the process pipes, which allows the pipes to be saved from deformation and wear.

The application of the claimed utility model will provide:

- effective cleaning of the bottom of the wells from slurry deposits;

- regulation of the rate of destruction of sand plugs and as a result of the speed of cleaning the bottom of the well;

- improving the efficiency of the nozzle and, as a result, improving the quality of the preparation of well products;

- reduce the duration of repair work during routine maintenance, which will allow to more fully comply with environmental protection requirements;

The combined nozzle is technological in manufacturing and installation, reliable in operation and does not depend on other technical and technological factors, i.e. A steady positive effect is achieved.

The proposed nozzle can be manufactured industrially, which is confirmed by the tests of the prototype, ongoing.

There is a device for processing the bottom-hole zone of the well, including a housing with channels, a spring-loaded piston and a check valve concentrically installed in it, and the check valve is provided with a seat for seating the piston and is connected to it with interaction

Description

This utility model relates to the oil industry, namely to underground and overhaul wells and can be used to clean the bottom of wells from sludge, mud deposits, plugs from sand, gypsum, salts and foreign objects in injection, production and artesian wells.

Usually, during repair work in wells during standard flushing, the resulting sand and other plugs are destroyed by the shock method or by re-launching drilling equipment, which leads to an increase in the cost and duration of repair work.

From the analysis of the prior art there is known a device for cleaning wells, comprising a packer device installed on a tubing string, a check valve and a cleaning valve made in the form of a hollow plunger, the plugged end of which has radial windows and is placed in the cylinder (RF Patent No. 2083805, Cl E 21 B 37/00 "Implosion device for cleaning wells").

The disadvantages of the known device is that it does not provide complex work at one descent of the suspension of tubing, tubing, cleaning of reaction products during chemical treatments, and it does not provide the receipt of large volumes of sludge deposits.

A known method of cleaning wells and a device for its implementation, which includes a packer installed on the pipe string and a spring-loaded movable housing with holes, resting its inner protrusion on the outer protrusion of the pipe string, a knock-off valve blocking the side hole in the pipe string (RF Patent No. 2061174, Cl . ЕВВ 37/00 "Method for cleaning wells").

The disadvantages of this device:

-limited functionality due to the fact that this device is difficult to use in facilities requiring the receipt of a large amount of slurry and mud deposits in it;

- low coefficient of performance (COP), due to the limited volume of the moving housing;

- significant operating costs and the complexity of maintenance associated with the complexity of the design.

There is a device for processing the bottom-hole zone of a well, including a housing with channels, a spring-loaded piston and a check valve concentrically installed in it, and the check valve is equipped with a seat for seating the piston and connected to it with the possibility of interaction (RF Patent No. 2102577, Cl. Е21В 28 / 00 "Device for processing the bottom-hole zone of the well")

This device has the following disadvantages:

- the complexity of the design and a large number of seals of different sizes, which reduces reliability.

The closest in technical essence to the proposed device is the bailer for cleaning the wellbore or wellbore, which we selected as the closest analogue to the prototype and containing a movable hollow rod with one or more bypass channels connected to the pipe string, a housing, a spring and seals, as well as a support placed in the housing, thrust collar and adjusting nut (RF Patent No. 2288343, Cl. ЕВВ 27/00 "Well for cleaning the wellbore or reservoir").

Significant disadvantages of the known device are:

- the complexity of the design, which means low operational reliability,

- uncontrollability of the sludge collection process when cleaning the face; there is no regulation of the flow rate.

The objective of the utility model is to increase the efficiency of work on the destruction of plugs after their formation, regulate the rate of destruction of plugs, simplify the design and increase the efficiency and speed of cleaning the bottom of the well.

This problem is solved by the proposed device - a combined nozzle designed for effective cleaning of bottom holes in wells during underground and overhaul of wells (ORS and KRS), when when cleaning the bottom there are problems with the formation of plugs from sand, gypsum, salts in injection, producing and artesian wells .

The combined nozzle includes a housing with channels connected to the pipe string by means of the adapter sleeve, spring-loaded power screw, limited by a support, and a pusher with a travel stop, and a power spring with a limiter, while the combined nozzle is equipped with external and internal mills, and a bearing support for transmitting the movement of the outer mill, and the housing of the outer mill is mounted with the possibility of extension.

The teeth of the outer mill are made of carbide inserts, and the inner mill includes a ball bearing and is configured to support the rotation of the outer mill, and the extension and rotation of the inner and outer mill is performed due to the large pitch of the screw pair, the optimal selection of the pitch of the screw and the corresponding angle of inclination a turn allows you to convert the longitudinal movement of the process pipes into longitudinal motion and simultaneous rotation of the internal mill cutter.

The design of the combined nozzle is illustrated in the drawing in figure 1

The combined nozzle contains the following elements:

The adapter sleeve 1, the limiter of the power spring 2, the power spring 3, the pusher 4, the ball bearing 5 of the internal mill 11, the return spring 6, the power screw 7, the limiter of the stroke of the pusher 8, the housing of the external mill 9, the support of the power screw 10, the internal mill 11, the teeth 12 of the outer mill 9 with carbide inserts, the bearing support 13 for transmitting the movement of the outer mill 9.

Combined nozzle works as follows:

After mounting the combined nozzle with process pipes (not shown in FIG.), It is lowered into the well at the location of the plug. When unloading process pipes, the pusher 4, moving along the body of the outer mill 9, acts on the inner mill 11 through the ball bearing 5, the power screw 7 and the support of the power screw 10, causing it to rotate. After this action, the inner mill 11 rotates and extends from the body of the outer mill 9. The process of longitudinal movement and simultaneous rotation of the power screw 7 relative to the support of the screw 10 occurs due to the large pitch of the screw pair (more than 100 mm).

Ball bearing 5 serves not only to rotate the power screw 7, but also to isolate the directions of movement of the rotation of the power screw 7 from the direction against the untwisting of the threaded joints of the process pipes.

When the inner mill 11 stops due to the impossibility of further driving due to the presence of hard rock, it becomes a support for rotation and extension of the housing of the outer mill 9. In this case, a force spring 3 mounted on the bearing support 13 is used to act on the outer mill 9 On the plunger 4, the power spring 3 is compressed and, when released, drives the outer mill 9. At the same time, the springs 3 (power) and 6 (return) serve to return the mills 9 and 11 to their original position. Separate, cyclical action of cutters 9 and 11 on the cork allows efficiently and with less cost to collect liquid, loosening and destruction of the sand cork. The application of the proposed combined nozzle allows you to:

- use the nozzle with process pipes when absorbing fluid by the formation;

- to exclude the shock method of loosening sand or other traffic jams, while maintaining process pipes and equipment from dynamic loads;

- reduce the complexity of the work, the number of equipment for cleaning wells and improve the safety of work;

- when used in conjunction with a hydroprotector, increase efficiency in wells where there is no circulation;

- during the operation of the combined nozzle, there is no need to rotate the entire pipe string, as the mills rotate due to the direct unloading of the process pipes, which allows the pipes to be saved from deformation and wear.

The application of the claimed utility model will provide:

- effective cleaning of the bottom of the wells from slurry deposits;

- regulation of the rate of destruction of sand plugs and as a result of the speed of cleaning the bottom of the well;

- improving the efficiency of the nozzle and, as a result, improving the quality of the preparation of well products;

- reduce the duration of repair work during routine maintenance, which will allow to more fully comply with environmental protection requirements;

The combined nozzle is technological in manufacturing and installation, reliable in operation and does not depend on other technical and technological factors, i.e. A steady positive effect is achieved.

The proposed nozzle can be manufactured industrially, which is confirmed by the tests of the prototype, ongoing.

Claims (1)

The combined nozzle, including a housing with channels connected to the pipe string by means of the adapter sleeve, spring-loaded power screw, limited by a support, and a pusher with a travel limiter, as well as a power spring with a limiter, characterized in that the combined nozzle is equipped with external and internal mills and bearing support for transmitting the movement of the outer mill, and the housing of the outer mill is mounted with the possibility of extension, while the teeth of the outer mill are made of carbide inserts, and the inside The early milling cutter includes a ball bearing and is configured to support the rotation of the outer milling cutter, and the extension and rotation of the inner and outer milling cutters is performed due to the large pitch of the screw pair, and the optimal selection of the pitch of the screw and the corresponding angle of inclination of the coil allows the longitudinal movement of the process pipes to be converted into longitudinal movement and simultaneous rotation of the internal nozzle cutter.