RU2536522C2 - Downhole instruments centraliser - Google Patents

Abstract

FIELD: oil-and-gas industry.

SUBSTANCE: invention relates to hole surveying and is intended for centring of instruments at their displacement along the borehole. The proposed device for centring of the downhole instruments comprises the main and extra systems of convex plate springs. Ends of the said main system of springs are articulated with extreme support sliders siding on a downhole instrument support guide. The number of springs of the extra system equals that of the main system. Note here that the ends of every spring of the said extra system can slide over the guide of the appropriate spring of the main system.

EFFECT: decreased sizes of downhole instruments, expanded applications.

2 cl, 1 dwg

Description

The present invention relates to the field of geophysical research of wells and is intended for centering downhole tools in the process of moving them along the wellbore.

Known detachable centralizer having two separate bushings, each of which has a group of holes for installing a group of arcuate springs connected to the bushings without welding, articulated due to mutual engagement. At the end parts of each spring, there are inwardly directed protrusions forming curved inner longitudinal engagement surfaces. In the end bushings around the holes, curved inner longitudinal surfaces are formed for receiving and restricting the longitudinal movement of the protrusions with the possibility of rotation relative to the hole. Elements are attached to each end sleeve, partially overlapping the holes of the bushings and preventing the protrusions from moving radially outward relative to the holes (US Pat. No. 4,011907, prior. 12/19/75, publ. 03/15/1977).

A disadvantage of the known centralizer is the inconsistency of the degree of centering and patency in wells with variable diameter.

A device for centering borehole geophysical instruments is known, equipped with a system of concave leaf springs and rigid rods, the concave leaf springs of the middle part being rigidly connected to the intermediate movable support sleeve, and articulated at their ends with the ends of convex leaf springs and rigid rods, which are articulated at the other ends with extreme support bushings (ed. certificate. No. 739220, prior. 10.01.78, publ. 05.06.80).

The device allows to increase the patency of devices in wells with a variable diameter.

A disadvantage of the known device is as follows: to ensure reliable contact of the elastic springs with the walls of the borehole having a significant diameter size (more than 550 mm), it is necessary to lengthen the springs in order to increase the radius of their opening, which leads to an increase in the length of the downhole tools and complicate tripping operations.

The objective of the present invention is to reduce the size of downhole tools with spring centralizers and expand their scope, including wells with a variable diameter and large diameter.

This problem is solved in that the device for centering downhole tools containing a system (main system) of convex plate springs movably connected at their ends with extreme support sliders sliding along the support guide of the downhole tool is equipped with an additional system of convex plate springs, the number of springs of which is equal to the number the spring of the main system, while the ends of each spring of the additional system are made with the possibility of sliding along the guide of the corresponding spring hydrochloric system, which on the end portions of each main spring formed grooves, on which the ends are moved to the corresponding additional spring hinges.

The figure shows the design of the claimed device.

The device for centering downhole tools includes a support guide 1 of the downhole tool (or the body of an independent centralizer), along which the extreme support sliders 2 are moved with the ends of the springs 5 of the main system pivotally fixed therein. At the end sections 4 of the guide of each spring 5 of the main system, grooves 6 are made, along which the ends of each of the springs 7 of the additional system move, having hinges at their ends 8. In expanded form, the radius of opening of the springs is R + r, in which R is the opening radius springs of the main system, r is the radius of disclosure of the springs of the additional system.

When the device is located outside the well, the springs are in the open state and occupy the maximum opening radius R + r. When lowering the downhole tool, equipped with a centering device, with a decrease in the diameter of the well, the springs 5 and 7 will bend, while the ends of the springs 7 will move along sections L ₄ , and the movable sliders 2 springs 5 of the main system will move along sections L ₃ . With a minimum borehole diameter, the springs 5 and 7 will fold parallel to the support guide 1. With a sharp expansion of the borehole diameter, the springs 7 and then the springs 5 extend, and the device in the borehole can occupy the maximum open position R + r.

Thus, an extension of the range of well diameters is achieved with a minimum length of the centering device.

Claims (2)

1. A device for centering downhole tools, containing the main system of convex plate springs, movably connected at their ends with extreme support sliders sliding along the support guide, characterized in that it is equipped with an additional system of convex plate springs, each of which is mounted for sliding along the guides at the end sections of the corresponding spring of the main system. 2. The device for centering downhole tools according to claim 1, characterized in that at the end sections of each spring of the main system, grooves are made along which hinges move at the ends of the corresponding spring of the additional system, the number of springs of which is equal to the number of springs of the main system.

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