RU2371578C1 - Device for definition of deformation of wellbores walls - Google Patents

Abstract

FIELD: oil-and-gas production.

SUBSTANCE: device contains casing, thrust unit and gaging unit with displacement pickup, located in casing sequentially, and controller, connected to gaging unit by conductor cable. Thrust unit consists of pivotally connected to each other measuring and thrust levers, tightened by spring. Free ends of thrust and measuring levers are connected to casing pivotally, and free end of measuring lever herewith - with ability of restricted axial movement in two longitudinal side grooves of casing. Nozzle of displacement pickup constantly interacts to free end of measuring lever.

EFFECT: reliability enhancement of its operation ensured by design simplification, removing of radial and axial clearances of thrust unit, oproviding of reliable contact of the device to the wellbore wall.

4 dwg

Description

The technical solution relates to mining and can be used to determine the transverse deformation of the walls of the wells, the mutual displacement of the geoblocks and the dynamic-kinematic characteristics of the waves of the pendulum type.

Known deformometer by ed. St. USSR No. 1344901, Е21С 39/00, publ. in BI No. 38, 1987, including a spacer assembly containing pivotally connected levers, a measuring assembly in the form of a rheostat sensor with a measuring circuit and an installation fixture made in the form of a screw with a longitudinal groove, a screw rotation drive, and a nut mounted on a screw with fixation from rotation and attached to the spacer unit, a conductor placed in the groove of the screw, and a pair of electrical contacts mounted on the nut at a distance from each other, a multiple of the pitch of the screw, and connected in parallel to the measuring circuit of the resistive sensor.

This device has a complex structure, which leads to its low reliability.

The closest in technical essence and the set of essential features is a device for determining the deformation of the walls of wells according to the patent of the Russian Federation No. 2191899, Е21С 39/00, publ. in BI No. 30, 2002, containing a central rod, coaxially elastic elements and a strain transmission element mounted thereon, a linear displacement transducer and an indication unit connected to it located in the mine working. The central rod is equipped with a head element, on which additional centering springs and elastic spacer elements are fixed at one end, and the strain transfer element is made in the form of flat springs diametrically opposed, one ends of which are also fixed on the head element, and a parabolic spring mounted coaxially with the central rod with the possibility of free movement along it, the ends of which are rigidly connected to the other ends of the flat springs.

As the well deforms, the displacement of its walls is transmitted through elastic elements and flat springs to a parabolic spring, which, when bent, acts on the strain transfer element. Rigid fastening of one end of a flat spring with a parabolic spring and rigid fastening of the second end of a flat spring with a head element reduces the measurement accuracy due to possible bending deformation of the spring elements in the places of their hard mounting, which ultimately leads to low reliability of the device.

It is difficult to dismantle the device from the well due to the possible penetration of elastic spacer elements into cracks and subsequent breakdown of the device elements, which ultimately also leads to low reliability of the device.

The technical problem solved by the proposed device is to increase the reliability of its work due to:

- simplify the design of the device;

- improving the accuracy of measuring the deformation of the walls of the wells by eliminating the deformations of the elements of the device that transmit the deformation of the walls of the wells to the linear displacement sensor;

- elimination of radial and axial clearances of the spacer unit that occur during the manufacture and assembly of the device;

- ensuring reliable contact of the device with the wall of the well even with significant deviations of the diameter of the well from the nominal.

The problem is solved in that in the device for determining the deformation of the walls of the wells, comprising a housing, a spacer unit and a measuring unit with a displacement sensor, arranged in series in the body, and a controller connected to the measuring unit by an electric cable, according to the technical solution, the expansion unit consists of pivotally interconnected measuring and spacer levers pulled together by a spring, while the free end of the spacer arm is pivotally connected to the housing, and the free end of the measuring arm with it is pivotally connected to the housing with the possibility of limited axial movement in two longitudinal side grooves of the housing and constantly interacts with the tip of the displacement sensor of the measuring unit.

The indicated connections of the measuring and spacer levers to each other, the free ends of the spacer and measuring levers with the body allow the device to combine the functions of expansion and transmission of the deformation of the borehole walls. This solution simplifies the design and improves the accuracy of measurements compared with the prototype due to the increased rigidity of the measuring arm, and therefore, the reduction of the elastic deformations of the elements of the device transmitting the deformation.

A triangular (in the plane of deformation transfer) articulation between the measuring and spacer arms pulled together by a spring when the free end of the spacer arm is pivotally connected to the housing and the free end of the measuring arm is pivotally connected to the housing with limited axial movement in two longitudinal side grooves the device’s body and constantly interacts with the tip of the displacement sensor of the measuring unit:

- eliminates gaps (radial and axial) arising from the manufacture and assembly of the device;

- provides reliable contact of the spacer unit with the wall of the well even with significant deviations of the diameter of the well from the nominal.

Sequential arrangement in the device case of the spacer unit and measuring unit:

- provides the location of displacement sensors of various designs in a strong and sealed enclosure, which increases the reliability of the device and expands the scope of its use;

- simplifies the design of the spacer unit as much as possible, which ultimately increases the reliability of the device.

It is advisable to measure and the expansion arms of the spacer unit to be interchangeable. This extends the scope of use of the device - it can be used in wells of various diameters while maintaining the basic components of the device unchanged. This simplifies the design, which ultimately increases the reliability of the device.

It is advisable to provide the swivel axis of the measuring and spacer arms of the spacer assembly with a replaceable roller, which allows:

- also use the device in wells of various diameters while maintaining the basic components of the device unchanged. This expands the scope and simplifies the design, which, ultimately, increases the reliability of the device;

- to replace during deformation of the borehole walls, the sliding friction of the spacer and measuring levers along the borehole wall by rolling friction. This increases the accuracy of measurements, which, ultimately, increases the reliability of the device.

In this case, it is advisable to expand the field of use of the device, for example, in areas with a large range of changes in ambient temperature, to place the measuring unit in a thermostated housing.

The essence of the technical solution is illustrated by an example of a specific design and drawings, which show:

figure 1 - design of a device for determining the deformation of the walls of the wells placed in the well (longitudinal section);

figure 2 is a view a in figure 1 with partial cuts;

figure 3 - section bB in figure 1;

figure 4 - cross-section BB in figure 1 when placing the device in a crack formed between the geoblocks to measure the mutual displacement of the geoblocks or the dynamic-kinematic characteristics of the waves of the pendulum type.

A device for determining the deformation of the walls of the wells (hereinafter referred to as the device) consists of a housing 1 (Fig. 1), in which a measuring unit 2 (Fig. 2) and a spacer assembly are arranged sequentially. The spacer assembly 3 consists of a spacer lever 4, pivotally connected to the measuring lever 5 by means of an axis 6 pulled together by a spring 7. The free end of the spacer lever 4 is pivotally connected to the housing 1 by means of the axis 8, and the free end of the measuring lever 5 is pivotally connected to the housing 1 by the axis 9 with the possibility of a limited axial p displacements in two longitudinal lateral grooves 10 of the housing 1. The measuring unit 2 consists of a housing 11, in which there is a movement sensor 12 with a movable tip 13, which constantly interacts with the axis 9 of the measuring arm 5. The housing 11 is fixed to the housing 1 with clamps 14. The measuring unit 2 is connected to the controller 15 by an electric cable 16. The axis 6 is equipped with a replaceable roller 17 (Figs. 3, 4). The housing 1 is equipped with a tide 18 with a threaded hole for fastening the parcel rod.

Measuring 5 and spacer 4 levers and roller 17 are interchangeable for installation in wells or fractures with various sizes.

Preliminarily, according to the given diameter of the well or the size of the crack, the lengths of the measuring 5 and the spacer 4 levers and the diameter of the interchangeable roller 17 of the spacer assembly 3 are selected so that the axis 9 occupies an average position in the longitudinal side grooves 10 of the housing 1 when measuring alternating deformations for the nominal diameter of the well or nominal crack size in cross section. To measure permanent deformation by a given bore diameter or crack size, the lengths of the measuring 5 and the spacer 4 levers and the diameter of the replaceable roller 17 of the spacer assembly 3 are selected so that the axis 9 occupies one of the extreme positions in the longitudinal side grooves 10 of the housing 1.

The preliminary deformation of the spring 7 sets the necessary force of the thrust against the wall of the well.

The device is prepared for installation in the well.

For operation of the device in areas with a wide range of changes in ambient temperature, the displacement sensor 12 can be installed in a thermostatic housing 11.

The device operates as follows.

For installation in a borehole, the device is connected to a rod, which is fixed to the tide 18 of the housing 1 through a threaded hole. Upon reaching the estimated distance from the wellhead or surface of the fracture, the delivery rod is disconnected. The measuring unit 2 is connected by an electric cable 16 to the controller 15 located outside the borehole or fracture.

When placing the device in the borehole, a direct measurement of lateral deformation is that when the borehole walls are deformed, the magnitude of the change in the distance between the supporting surface of the housing 1 and the supporting surface of the interchangeable roller 17 is measured. slides over the surface of the borehole or crack, the measuring arm 5 makes some angular movement relative to the axes 6 and 9, and the free end of the measuring arm 5 together with the axis 9 performs translational movement within the longitudinal lateral grooves 10 of the housing 1, moving the movable tip 13 of the sensor 12 displacement. The amount of displacement is recorded by the displacement sensor 12 and transmitted to the controller 15 via an electric cable 16.

When placing the device in a crack between the geoblocks, a direct measurement is that when the size of the crack is changed, the magnitude of the change in the distance between the supporting surface of the housing 1 and the supporting surface of the interchangeable roller 17 is measured. The measurement itself is carried out in the same way as the measurement of transverse strains.

When determining the dynamic-kinetic characteristics of pendulum-type waves, the device is placed in cracks between the geoblocks with a sufficient distance between the blocks or is placed in a pre-drilled well with small distance values between the geoblocks. The measurement itself is carried out in the same way as the measurement of transverse strains.

The proportional relationship between the displacement of the walls of the borehole or fracture and the translational movement of the axis 9 of the measuring arm 5 determines the magnitude of the deformation of the walls of the borehole or fracture.

Claims (4)

1. A device for determining the deformation of the walls of the wells, comprising a housing, a spacer assembly and a measuring unit with a displacement sensor located in series in the housing, and a controller connected to the measuring unit by an electric cable, characterized in that the spacing unit consists of a measuring and spacer joint levers pulled together by a spring, while the free end of the spacer lever is pivotally connected to the housing, and the free end of the measuring arm is pivotally connected to the housing axial displacement in two longitudinal side grooves of the housing, and the tip of the displacement sensor of the measuring unit constantly interacts with the free end of the measuring arm. 2. The device according to claim 1, characterized in that the measuring and spacer arms of the spacer unit are interchangeable. 3. The device according to claim 1, characterized in that the pivot axis of the measuring and spacer arms of the spacer assembly is provided with a replaceable roller. 4. The device according to any one of claims 1 to 3, characterized in that the measuring unit is placed in a thermostated housing.

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