RU40808U1 - DEVICE FOR MONITORING THE TECHNICAL CONDITION OF UTILED WELLS - Google Patents

Abstract

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 receiving transducer of the probe of the thickness gauge, and on the upper plug-guide there is an electronic unit, inter-screened with a lead screen, equal to receiving transducers of the densitometer probe evenly located and equidistant from the axis of the device and a receiving transducer of the thickness gauge probe located along the axis of the device, characterized in that the shape of the centralizer levers on the side of the support rollers is changed, which allows restricting the opening of centralizers when passing coupling joints, and the device is equipped with a chassis on which a removable lead screen of the densitometer probe mounted on the frame, receiving transducers of the probes of the thickness gauge and densitometer and the components of the electronic unit, are placed Installed between the receiving transducers of the densitometer probes along the generatrix of the device.

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 adopted 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, containing a casing, plug guides with spring-loaded centralizers of articulated lever type, inside the casing of the device the measuring probes of the densitometer and thickness gauge are placed, and a rod with a gamma radiation source and a lead screen with a call are installed in the lower plug-guide mation windows for the source and the receiving transducer probe thickness gauge, and on the upper cap rail - an electronic unit vzaimoekranirovannye lead screen, uniformly spaced and equidistant from the axis of the tool receiving transducers and probe densitometer,

located along the axis of the device, the receiving transducer probe thickness gauge. (Geophysical equipment, issue 74, p. 139 ... 143, L., "Subsoil", 1981).

A disadvantage of the known device is the inability to study cased wells with a diameter of more than 8 inches.

The technical task of the utility model is to ensure the performance of the device in cased wells with a diameter of up to 12 inches.

This task is achieved by the fact that in the device for monitoring the technical condition of cased wells containing a casing, plug guides with spring-loaded centralizers of articulated lever type, and inside the casing of the device are placed measuring probes of a density meter and a thickness gauge, and a rod with a gamma source is installed in the lower plug-guide radiation and a lead screen with collimation windows for the source and receiver transducer of the probe of the thickness gauge, and on the upper plug-guide rail there is an electronic unit, inter-screen bathtubs with a lead screen, receiving transducers of the densitometer probe evenly located and equidistant from the axis of the device, and a receiving transducer of the thickness gauge located along the axis of the device, the shape of the centralizer levers on the side of the support rollers is changed, which allows restricting the opening of centralizers when passing coupling joints, and the device is equipped with a chassis, on which a removable lead shield of the probe is placed

densitometer mounted on the frame, the receiving transducers of the probes of the thickness gauge and the densitometer and the nodes of the electronic unit installed between the receiving transducers of the probes of the densitometer along the generatrix of the device.

New features of the device are:

- changing the shape of the levers of the centralizers from the side of the support rollers, which allows to limit the opening of the centralizers during the passage of the coupling joints, which protects the support rollers from impacts, since in the places of the coupling joints the support from the rollers smoothly passes to the levers and back to the rollers;

- execution of the lead screen of the probe of the densitometer is removable, which ensures ease of assembly and reduces the weight of the unit, and, therefore, reduces the weight of the entire device, which is ultimately essential for a large-sized device made in a single casing;

- installation of electronic unit nodes between the receiving transducers of the densitometer probe, which significantly reduces the total length of the device, which means its weight.

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 presents a General view of the device for monitoring the technical condition of cased wells.

The device of figure 1 contains a casing 1, plug guides 2 and 3 with

spring-loaded centralizers 4 of the articulated lever type, rod 5 with a gamma radiation source, lead screen 6 with collimation windows for the source and receiver transducer of the thickness gauge probe, chassis 7, on which the electronic unit 8 is mounted, mounted between the receiving transducers 9 of the densitometer probe, which are evenly spaced and equidistant from the axis of the device, the lead screen 10 (figure 2), previously fixed in the frame 11, and the receiving transducer 12 of the probe of the thickness gauge located along the axis of the device. Centralizers 4 contain bushings 13 mounted on guides 2, 3 and spring-loaded with spring 14, levers 15 mounted on bushings 13 and connected in the axes of the support rollers 16.

The shape of the lever 15 of the centralizers 4 from the side of the support rollers 16 is changed and reinforced by the influx of 17 (figure 3), limiting the disclosure of the centralizers during the passage of the coupling joints.

The implementation of the lead screen 10, pre-mounted on the frame 11, simplifies the process of assembly and disassembly of the device and reduces the weight of the lead screen due to the optimization of its size.

The installation of nodes of the electronic unit 8 between the receiving transducers 9 of the probe of the densitometer allows to reduce the length of the device and make the device design more compact.

Strengthening the levers 15, by changing their shape on the side of the support rollers, allows you to limit the disclosure of the centralizers 4 when passing through the places of the coupling due to the fact that the levers 15 will

touch the surface of both pipes at their joints, protecting the support rollers from impacts, since in places of coupling joints the support from the rollers smoothly passes to the levers and back to the rollers.

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, installed in the guide plug 2, emits gamma quanta into space, and the receiving transducers of the probes of the thickness gauge 12 and densitometer 9 receive and transform the gamma radiation scattered from the space under investigation and transmit information to the ground recorder through the electronic unit 8 and cable . During the passage of the coupling joints, the support roller 16, the diameter of which is limited by the design possibilities, fell into the gap between the pipes of the column, the size of which varies from 27 to 56 mm, forming a groove with a depth equal to the thickness of the pipes of the column and the recess of the coupling, and therefore, falling into the groove, the support the roller 16 receives a blow from the ends of the pipes and collapses, however, changing the shape of the levers 15 prevents the failure of the roller due to the fact that the new form of the lever - influx 17 restricts the opening of the centralizers, as it is supported by levers about enku pipe couplings in places well string, as the support surface levers - the size "a" (Figure 3) is chosen greater clearance between the pipes in the well column field couplings that

provides a smooth transition support centralizers 4 from the support roller 16 to the levers 15 and vice versa and prevents the support rollers 16 from destruction.

The proposed device was implemented during the development and production of the cement meter TsM (8-12), tested in wells and proved its operability, which allows us to conclude that it is industrially applicable.

Thus, the device allows to increase the reliability of the study of cased-hole wells of large diameter, as a result of which a technical effect is achieved consisting in the identification of cementing defects in casing strings of wells, which ultimately leads to increased environmental safety in the development of oil and gas fields.

Claims (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 receiving transducer of the probe of the thickness gauge, and on the upper plug-guide there is an electronic unit, inter-screened with a lead screen, equal to receiving transducers of the densitometer probe evenly located and equidistant from the axis of the device and a receiving transducer of the thickness gauge probe located along the axis of the device, characterized in that the shape of the centralizer levers on the side of the support rollers is changed, which allows restricting the opening of centralizers when passing coupling joints, and the device is equipped with a chassis on which a removable lead screen of the densitometer probe mounted on the frame, receiving transducers of the probes of the thickness gauge and densitometer and the components of the electronic unit, are placed Installed between the receiving transducers of the densitometer probes along the generatrix of the device.