RU46590U1 - DEVICE FOR STUDYING A CEMENT RING FOR A CASING RING - Google Patents

Abstract

Usage: for quality control of cementing casing of small diameter wells in the oil and gas industry. Objective: improving the accuracy of the installation of measuring probes and the reliability of the device, expanding the volume and quality of information received. The inventive unit is equipped with a length compensator, a support made of elastic material, a gamma-ray log transducer, an angular position sensor and elastically sandwiched between the lead screen and the top plug. Positive effect: improving the reliability of the instrument and sensitivity, expanding the volume and quality of information received, which will increase the efficiency of measures to protect the subsoil and freshwater horizons and reduce the amount spent on repairs, energy state and material resources.

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 small diameter wells using the scattered gamma radiation method.

A known device for monitoring the technical condition of cased wells SGDT-3, widely used in field geophysics to control the quality of cementing of directional wells, contains a casing, plugs - guides with spring-loaded centralizers of articulated lever type, inside the casing of the device are placed measuring probes of the density meter and thickness gauge, and , a rod with a gamma radiation source and a lead screen with collimation windows for the source and receiving transducer are installed in the bottom plug - guide a probe thickness gauge, and on the upper cap - guide - a measurement unit comprising an electronic unit vzaimoekranirovannye, uniformly spaced and equidistant from the axis of the tool receiving transducers densitometer probe and located on the instrument axis receiving transducer probe thickness gauge. (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 devices of small diameter, where the length of these nodes is many times greater than their diameter, affects the mechanical characteristics of the devices, therefore, the reliability of the device.

The closest in technical essence is, adopted for the prototype, a device for monitoring the technical condition of cased wells, containing a casing, plugs - guides with spring centralizers of a lantern type, inside the casing of the device there are measuring probes of a density meter and a thickness gauge, a measuring unit mounted on the top plug, including an electronic unit, mutually shielded, uniformly located and equidistant from the axis of the device receiving transducers of the probe of the density meter and located along the axis of the device, pr a removable probe of the thickness gauge probe, a support shock-absorbing tip, and a rod with a gamma radiation source, a lead screen with collimation windows for the source and receiver transducer of the probe of the thickness gauge, and a radial, support, shock-absorbing tip, and the tip supports are made in the form two half rings mounted on rubber rings placed in an annular groove located on the outer surface of the tip and tightened by a snap ring

(Patent No. 39957 of August 20, 2004, BI No. 23).

The main disadvantage of this device is the inaccurate installation of measuring probes, due to the presence of a significant dimensional chain, the components included in the device, mounted on opposite ends of the device body - on the upper and lower plugs, which, in conditions of use in small diameter devices, where the receiving detectors are small , leads to the installation of receiving detectors outside the collimation windows of the protective screens, reducing the sensitivity threshold of the probes and the reliability of the information received, and therefore the reliability of you instrument.

The technical task of the utility model is to increase the accuracy of the installation of measuring probes, the reliability of the device and the expansion of the volume and quality of information received.

This task is achieved by the fact that the device for the study of the cement ring behind the casing string in the well, containing plugs — guides with spring centralizers, a rod with a gamma radiation source, a casing with densitometer and thickness gauge measuring probes inside, made in the form of a guide mounted on the bottom plug a lead screen with collimation windows for a gamma radiation source and a thickness gauge detector, with a radial, support, depreciation tip, the supports of which are made in e the two half-rings mounted on the rubber rings disposed in the annular groove situated on the outside

the surface of the tip and pulled together by a retaining ring, and a measuring unit, including an electronic unit, reciprocal, uniformly located and equally spaced from the device axis receiving transducers of the densitometer probe and located along the device axis, the receiving transducer of the thickness gauge probe, the measuring unit is equipped with a length compensator and a support made of elastic material, and elastically sandwiched between a lead shield mounted on the bottom cap - the guide and the top cap - the guide.

New features of the device is that the measuring unit is equipped with: a length compensator and a support made of elastic material, thus, the measuring unit is freely installed and elastically clamped between the two supports of the “lead screen and the top plug - guide, which ensures:

- the accuracy of the installation of measuring probes, which means that the sensitivity of the probes and the reliability of the information received increases;

- ease of mounting and dismounting of the measuring unit, since the rotation of the measuring unit is excluded in the process of making up the top plug - guide, which eliminates the possibility of damage to the mounting wires, and therefore increases the reliability of the device as a whole;

- compensates for the instrumental error from the non-perpendicularity of the mating ends and the lengths of the lead shield and

measuring unit

- in the case of a length compensator in the form of a radial and axial shock absorber, the transverse displacements of the measuring unit are reduced and the transverse vibrations of the measuring unit are damped when moving the device along the pipe string of the well, thereby increasing the transverse vibration resistance of the measuring unit, and, therefore, increasing the reliability of the device generally.

From the analysis of patent and scientific and technical literature, such a solution is not known, which allows us to conclude that the proposed solutions meet the criteria of "Novelty."

Figure 1 presents a General view of a model of a device for researching a cement ring behind a casing string in a well.

The device contains plugs — guides 1.2 with spring centralizers 3, a stem 4 with a gamma radiation source 5, a casing 6 with densitometer and thickness gauge probes located inside, made in the form of a lead screen 7 mounted on the bottom plug — with collimation windows under a gamma radiation source 5 and a thickness gauge detector, with a radial, supporting, depreciation tip 8, the supports of which are made in the form of two half rings mounted on rubber rings 10 placed in an annular groove, located ennoy on the outer surface of the tip 8 and the locking ring 11 tightened, and measuring

unit 12, including an electronic unit 13, inter-screened with a lead screen 14, uniformly located and equidistant from the device axis, receiving transducers 15 of the densitometer probe, and a receiving transducer of the thickness gauge 16 located along the axis of the device. On the measuring unit 12 are installed:

- compensator length 17, made in the form of supporting axial and radial shock absorbers. The support axial shock absorber consists of a coil spring 18 sandwiched between two support sleeves 19 and 20, one of which 19 is mounted on the housing of the measuring unit, and the other 20 is on the top plug - the guide, and the support radial shock absorber 21 is mounted on the housing of the measuring unit 12 under supporting axial shock absorber and consists of supports 22 made in the form of two half rings mounted on rubber rings 23 located in an annular groove located on the outer surface of the housing of the measuring unit 12, and tightened PORN ring 24;

- a support 25 made of an elastic material, and representing, for example, a rubber o-ring or a sleeve.

The functions of the axial and radial support shock absorbers in the compensator of length 17 can be combined in one part made of elastic material.

The measuring unit 12 is freely installed and elastically clamped between the end of the lead shield 7 and the end of the upper plug - guide

2 through a compensator of length 17, which in this case is a spring 18, acting as an axial reference shock absorber for the measuring unit 32.

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 5 emits gamma quanta into space, and the secondary gamma radiation detectors installed in the receiving transducers 15 and 16 of the densitometer and thickness gauge probes receive and convert gamma radiation scattered from the studied space into electrical signals that are converted and formed in the electronic unit 13 and transmit the received information via cable to the ground-based recorder, while

- vibrations of the transverse direction that occur when the device moves along the well string in the lead screen 7, cantileverly mounted on the bottom plug - guide 1, are damped in the radial, supporting, shock-absorbing tip 8 by rubber rings 10, on which supporting half rings 9 are mounted, tightened by the locking ring 11 and the vibrations arising in the elastically mounted measuring unit 12 are damped on the radial, supporting shock absorber 21, with rubber rings 23, on which the supporting half rings 22 are mounted, tightened by the locking collar 24 th;

- vibrations of the longitudinal direction occurring on the measuring unit 12, freely installed and elastically clamped in the device between the length compensator 17 and the support 25, are damped on the length compensator 17 by a spring 18 acting as an axial reference shock absorber.

In accordance with the need to introduce corrections of the received information on the natural radioactive background and the possibility of linking information diagrams to the lithological section of the well, the device can be supplemented with a gamma-ray receiver 26, the detector 27 of which is installed along the axis of the device.

In accordance with the need to scan the selective information diagrams of the densitometer probes around the perimeter of the wells, the device can be supplemented by an angular position sensor 28, mounted coaxially with the measuring unit 12 and providing a link of the diagrams along the cross section of the wells to the plane conventionally taken as the reference.

Thus, the new features of the device are:

- the introduction of a gamma-ray log converter, which expands the functionality of the device, through the use of gamma-ray data to introduce corrections to the data of the measuring probes of the thickness gauge and density meter according to the natural radioactive background of the area; or to bind the logging data of the measuring probes of the thickness gauge and densitometer to the lithological section of the well,

or to bind logging data along the depth of the well;

- the introduction of an angular position sensor, the use of which extends the interpretation of selective diagrams from the measuring probes of the densitometer, allowing you to enter processing taking into account the binding of these diagrams to the cross section of the well, which increases the information content of the log data, expanding the volume and quality of the information received.

A device with a gamma-ray logging receiver 26 and an angular position sensor 28 installed in the measuring unit 12 works similarly to the operation of the device described above, only the number of recorded diagrams will be increased due to the information diagram of the gamma-ray logger 26 and a diagram from the angular position sensor 28, which shows the location of one of receiving transducers of the densitometer probe at the time of recording information on a plane conventionally taken as a reference.

The proposed device was implemented in the development of a borehole cementing quality control device for cementing materials (3-4), which allows us to conclude that “Industrial applicability”.

Thus, the device allows to increase the accuracy of the installation of measuring probes and the reliability of the device in the study of cased-hole wells of small diameters, to expand the volume and quality of the information received, as a result of which a technical effect is achieved, which consists in the qualitative identification

defects in casing cementing, which ultimately leads to increased environmental safety in the development of oil and gas fields.

Claims (3)

1. A device for researching a cement ring behind a casing string in a well, comprising plug guides with spring centralizers, a rod with a gamma radiation source, a casing with densitometer and thickness gauge probes inside, made in the form of a lead screen mounted on the bottom plug guide collimation windows for a gamma radiation source and a thickness gauge detector and a radial supporting shock absorption tip, the supports of which are made in the form of two half rings mounted on a rubber new rings located in an annular groove located on the outer surface of the tip and tightened by a retaining ring, and a measuring unit, including an electronic unit, mutually shielded, uniformly located and equidistant from the device axis receiving transducers of the density meter probe and located along the device axis, the receiving transducer of the thickness gauge probe characterized in that the measuring unit is equipped with a length compensator and a support made of an elastic material, and is elastically clamped between the lead Ahn, mounted on the underside of the plug-guide and the upper plug-guide. 2. The device according to claim 1, characterized in that the measuring unit is equipped with a gamma-ray logging receiving transducer. 3. The device according to claim 1, characterized in that the measuring unit is equipped with an angle sensor.