RU39957U1 - DEVICE FOR MONITORING THE TECHNICAL CONDITION OF UTILED WELLS - Google Patents

Abstract

1. A device for monitoring the technical condition of cased wells, containing a casing, plug guides with spring-loaded centralizers of a hinged lever type, inside the casing of the device there are measuring probes of a density meter and a thickness gauge, and a rod with a gamma radiation source and a lead screen with collimation sensors are installed in the lower plug-guide windows for the source and receiver transducer of the probe of the thickness gauge, and on the upper plug-guide - measuring unit, which includes an electronic unit, mutually shielded, evenly located and equidistant from the axis of the device receiving transducers of the probe of the densitometer and located along the axis of the device, the receiving transducer of the probe of the thickness gauge, characterized in that the device is equipped with supporting, shock-absorbing tips, the supports of which are made in the form of two half rings mounted on rubber rings placed in the ring a groove located on the outside of the handpiece and tightened by the circlip. 2. The device according to claim 1, characterized in that the centralizers are made in the form of bushings with ribs evenly located on the outer surface, a circular groove is made from the end, along the inner diameter of the bushings, the bushings being installed on the instrument housing at its ends with grooves to the ends of the instrument housing and secured by circlips. 3. The device according to claim 1, characterized in that on the plug-guides installed spring centralizers of the lantern type.

Description

The utility model relates to the field of geophysical research of wells and can be used to control the quality of cementing of casing strings of wells using the method of scattered gamma radiation.

The closest in technical essence is the device for monitoring the technical condition of cased wells SGDT-3, widely used in field geophysics for cementing quality control of directional wells, which contains a casing, plugs - guides with spring-loaded centralizers of articulated lever type, are located inside the casing of the device measuring probes of the densitometer and thickness gauge, moreover, a rod with a gamma radiation source and a lead screen with a by limitation windows for the source and receiver transducer of the probe of the thickness gauge, and on the top cap - the guide - the measuring unit, which includes an electronic unit, receiver transducers of the densitometer probe that are evenly spaced, evenly spaced and equidistant from the axis of the device, and receiver transducer of the thickness gauge located along the axis of the device. (Geophysical equipment, issue 74,

p.139 ... 143, L., "Nedra", 1981).

A disadvantage of the known device is the presence in the device of a cantilever mounted massive lead screen and a measuring unit, which in small diameter devices, where the length of these nodes is many times greater than their diameter, affects the mechanical characteristics of the device and, therefore, the reliability of the device.

The technical task of the utility model is to increase the reliability of the device and expand its scope.

This task is achieved by the fact that the device for monitoring the technical condition of cased wells, containing a casing, plug guides with spring-loaded centralizers of a hinged lever type, measuring probes of a density meter and thickness gauge located inside the casing, where a rod with a gamma radiation source and lead are installed in the lower plug a screen with collimation windows for the source and receiver transducer of the probe of the thickness gauge, and on the upper plug-guide - measuring unit, including electronic ok, mutually shielded, uniformly located and equidistant from the axis of the device receiving transducers of the densitometer probe, and the receiving transducer of the thickness gauge probe located along the axis of the device, is equipped with supporting, shock-absorbing tips, the supports of which are made in the form of two half rings mounted on rubber rings placed in an annular groove, located on the outer surface of the tip, and

tightened by a lock ring.

New features of the device is that:

- the blocks mounted cantilever inside the casing of the device are equipped with additional supports, the role of which is performed by tips with supports - shock absorbers, which redistributes the load from gravity between the attachment point of the assembly and the introduced support;

- the shock absorbers are made in the form of two half rings mounted on rubber rings placed in the annular groove of the tip and tightened by the retaining ring, which allows them not only to play the role of supports, but also to absorb the measuring unit and the lead shield fixed inside the device.

From the analysis of patent and scientific and technical literature, such a solution is not known, which allows us to conclude that the proposal is new.

Figure 1 shows a design variant of the device for monitoring the technical condition of casing strings in directional wells.

The device in figure 1 contains a casing 1 with plugs-guides 2 and 3, on which spring-loaded centralizers 4 of articulated lever type are installed, and inside the casing J, measuring probes of a density meter and a thickness gauge are installed, and a lead screen 5 with circular collimation windows for the source and receiver transducer of the probe

a thickness gauge, and a rod with a gamma radiation source 6 is installed along the axis of the device, a measuring unit including an electronic unit 7, receiving transducers 8 of the densitometer probe uniformly spaced and equidistant from the device axis and interleaved by a lead screen 9, and a receiving transducer are cantilevered on the top plug 3 10 probe thickness gauge located along the axis of the device;

the lead screen 5 and the measuring unit are equipped with supporting tips 11 and 12, on the outer surface of which an annular groove is made, where shock absorbers are placed, the role of which is played by rubber rings 13 and 14, on which supports are made, made in the form of two supporting half rings 15 and 16, tightened circlip 17;

the installation location of the rod with a gamma radiation source 6 on the bottom plug 2 is protected by an easily removable spring-loaded tip 18 with a bayonet lock, and the upper guide 3 ends with an adapter 19 for the cable end.

The device operates as follows.

The device on the cable is lowered into the well to the depth of the studied interval and, upon subsequent rise, record logs. In this case, the gamma radiation source 6, installed in the guide plug 2, emits gamma quanta into space, and the receiving transducers of the probes of the thickness gauge 10 and densitometer 8 receive and transform the gamma radiation scattered from the space under investigation and transmit it through the electronic unit 7 and the cable

information to the ground recorder. The device is centered on the axis of the casing by centralizers 4 mounted on the plugs-guides 2 and 3. Supporting tips 11 and 12 allow you to redistribute the forces from the gravity of the cantilevered lead shield 5 and the measuring unit, including the electronic unit 7, receiving transducers 8 and 10 and lead screen 9, between the place of attachment of the blocks and the support half rings 15 and 16 mounted on the rubber rings 13 and 14, placed in the annular groove of the support tips 11 and 12. When changing the angle of inclination of the well, the load on The supporting surfaces and the attachment points of the cantilever-fixed blocks increase, and when passing through the pipe junction - coupling joints of the column, the load from shocks and vibrations, partially extinguished in the centralizers, but arriving at these blocks through the supporting half rings 15 and 16, increases, but further spread the load is damped on shock absorbers, the role of which is performed by the rubber rings 13 and 14.

When using the proposed device in horizontal wells, characterized by a large radius of curvature of the wellbore at the points of transition to the horizontal section and by changing the position of the device during operation, which changes the distribution of forces in the inert masses of individual nodes and the entire device as a whole, and hence the loads on the support of centralizers , it is necessary to reduce the total length of the device and introduce more durable supports - centralizers.

This task is achieved by the fact that, in the device described above, the centralizers are made in the form of bushings with ribs evenly located on the outer surface, from the end face, a circular groove is made along the inner diameter of the bushings, the bushings are installed on the instrument casing along its ends with grooves to the ends of the instrument casing and secured by circlips.

New features of the device are:

replacement of articulated lever centralizers installed on plugs - guides, on bushings with support ribs that are installed on the instrument cover, which reduces the length of the device and increases the strength of the centralizers;

the introduction of a circular groove along the inner diameter of the bushings, which allows you to protect the retainer ring installed in the groove from displacement during the movement of the device along the casing of the well.

A device with centralizers made in the form of bushings with support ribs is shown in FIG. 2.

The device contains a casing 1, lower and upper plugs 2 and 3, a lead shield 5, a rod with a gamma radiation source 6, a measuring unit including an electronic unit 7, receiving transducers 8 of the densitometer probe, a lead shield 9, receiving transducer 10 of a thickness gauge probe, support tips 11 and 12, with half rings 15 and 16, rubber rings 13 and 14 and a retaining ring 17,

lower tip 18 and upper tip 19, two bushings 20 with supporting ribs and retaining rings 21 and 22.

The device works similarly to the device described above, only centering the device in the well and sliding the device along the casing occurs along the ribbed supporting surface of the bushings 20, while the length of the supporting surface of the bushings is selected with overlapping clearance in the coupling joints - the joints of the casing pipes.

Complying with economic feasibility when monitoring the technical condition of cased vertical wells with the device, simplification of the design of centralizers is possible.

This task is achieved by the fact that in the above-described device, spring-type centralizers of a lantern type are installed on the plugs - guides.

New features of the device are the replacement of spring-loaded centralizers of articulated lever type with spring centralizers of a lantern type, which are simpler to manufacture but less rigid compared to existing ones, since in vertical wells the load on centralizers is much less compared to loads in directional and horizontal wells .

The device with the centralizers of the lantern type is presented in figure 3.

The device contains a casing I, lower and upper plugs 2 and 3, a lead screen 5 with circular collimation windows, a rod with a gamma radiation source 6, a measuring unit, including

electronic unit 7, receiving transducers 8 of the densitometer probe, lead screen 9, receiving transducer 10 of the thickness gauge probe, supporting tips 11 and 12, with half rings 15 and 16, rubber rings 13 and 14 and retaining ring 17, lower tip 18 and upper tip 19, two spring centralizers of a lantern type 23.

The device works similarly to the device described above, only the centering of the device and its sliding along the well string occurs along the supporting surface of the springs of centralizers of the lantern type.

The proposed device is implemented in two versions with spring centralizers of a lantern type and with support sleeves during the development and production of the cement meter TsM-4, it has been tested in wells and has proven its operability, which allows us to conclude that it is industrially applicable.

Thus, the device allows to increase the reliability in the study of vertical, directional and horizontal cased wells, which results in a technical effect consisting in the identification of cementing defects in casing strings, which ultimately leads to increased environmental safety of oil and gas field development.

Claims (3)

1. A device for monitoring the technical condition of cased wells, containing a casing, plug guides with spring-loaded centralizers of a hinged lever type, inside the casing of the device there are measuring probes of a density meter and a thickness gauge, and a rod with a gamma radiation source and a lead screen with collimation sensors are installed in the lower plug-guide windows for the source and receiver transducer of the probe of the thickness gauge, and on the upper plug-guide - measuring unit, which includes an electronic unit, mutually shielded, evenly located and equidistant from the axis of the device receiving transducers of the probe of the densitometer and located along the axis of the device, the receiving transducer of the probe of the thickness gauge, characterized in that the device is equipped with supporting, shock-absorbing tips, the supports of which are made in the form of two half rings mounted on rubber rings placed in the ring a groove located on the outside of the handpiece and tightened by a snap ring. 2. The device according to claim 1, characterized in that the centralizers are made in the form of bushings with ribs uniformly located on the outer surface, a circular groove is made from the end, along the inner diameter of the bushings, and the bushings are mounted on the device casing at its ends with grooves to the ends of the casing instrument and secured by circlips. 3. The device according to claim 1, characterized in that on the plugs-guides installed spring centralizers of the lantern type.