NO328403B1 - Device by estimate tool - Google Patents

Abstract

Device with overturning tool (6) of the kind used for setting and pulling the valve spindle (10) of a gas lift valve (4) located in a side pocket (2), and where the overturning tool (6) comprises a laterally open tool body (12) with a spindle holder (20) which via at least one intermediate arm (16) is articulatedly connected to the tool body (12), the spindle holder (20) being arranged to be able to be moved/turned between a passive position where the spindle holder (20) is located in the tool body (12) , and an active position where the spindle holder (20) is pivoted from the tool body (12) and corresponds to the gas lift valve (4), and where at least part of an actuator (24) is arranged to be able to move the spindle holder (20) between its passive position and its active position, is located between the tool body (12) and the spindle holder (20).

Description

APPARATUS FOR SURFACE TOOLS

This invention relates to an estimation tool. More specifically, it concerns a roughing tool of the kind used for setting and pulling the valve stem of a gas lift valve located in a side pocket. The overturning tool comprises a laterally open tool body with a spindle holder which is articulately connected to the tool body via at least one intermediate arm, the spindle holder being arranged to be able to be moved between a passive position where the spindle holder is located in the valve body, and an active position where the spindle holder is swung out from the valve body and corresponds to the gas lift or vent ilen. At least part of an actuator which is arranged to be able to displace the spindle holder between its passive position and its active position is located between the tool body and the spindle holder.

During petroleum production, in some reservoirs it is necessary to pump in gas to achieve a so-called gas lift. The gas is pumped down the borehole and flows via one or more gas lift valves into the production pipe. It is common to place the gas lift valve in a side pocket in order to be able to change the gas lift valve's valve spindle with the help of a kickover tool (English: kickover tool) while there is free passage for other tools past the gas lift valve.

A projection tool according to the prior art is often designed as a cable tool. When a valve spindle is to be set, the valve spindle is connected to the overturning tool's spindle holder. The spindle holder is rotatably connected to the tool body of the overturning tool by means of an intermediate arm.

During the displacement of the survey tool into the well

the spindle holder with attached valve spindle is in its passive position in the tool body. The overturning tool is moved to just past the side pocket where the gas lift valve in question is located. The projection tool is then carefully retracted so that it is rotated about its longitudinal axis to the correct direction by means of an orientation device and locked in the desired axial position.

By increasing the tensile force in the cable, the intermediate arm is released and rotated by means of spring force together with the spindle holder and the valve spindle from the tool body. The valve spindle comes to rest against the wall of the side pocket and thereby causes the spindle holder to turn in a spindle joint relative to the intermediate arm.

The spindle holder and the valve spindle thereby take an active position which is parallel to the tool body and which is essentially coaxial with the gas lift valve. By moving the overturning tool into the production pipe, the valve spindle is moved into the gas lift valve.

The valve stem is then detached from the overburden tool which is withdrawn from the production pipe.

US document 4976314 describes a tool of this kind.

However, it has been found that the spindle holder, after the intermediate arm has been released, often does not take the desired, active position, but remains in an intermediate position. The direction of the valve stem thereby does not correspond to the direction of the gas lift valve, whereby the setting of the valve stem fails. It is believed that the cause can often be an inappropriate design of the spring which is designed to turn the intermediate arm outwards. The problem is significantly greater in awiks wells where the direction of the gas lift valve is not vertical. US document 6845817 describes a tool of a conventional nature where such a problem can arise.

The purpose of the invention is to remedy or reduce at least one of the disadvantages of known technology.

The purpose is achieved according to the invention by the features indicated in the description below and in the subsequent patent claims.

An overturning tool in accordance with the invention of the kind used for setting and pulling a valve spindle of a gas lift valve located in a side pocket, comprises a laterally open tool body with a spindle holder which is articulatedly connected to the tool body via at least one intermediate arm, the spindle holder being arranged to could be moved between a passive position where the spindle holder is located in the tool body, and an active position where the spindle holder is swung out from the tool body and corresponds to the<*> gas lift valve. The overturning tool according to the invention is characterized by the fact that at least part of an actuator which is designed to be able to move the spindle holder between its passive position and its active position is located between the tool body and the spindle holder, the actuator's actuator rod being articulately connected to the intermediate arm.

When the spindle holder assumes its passive position, the actuator rod has a lateral stop. Typically, the actuator rod in this position rests against the tool body. The middle arm is thereby prevented from assuming a self-locking position, for example by it being inadvertently turned over the centre.

The actuator comprises a pre-tensioned spring which is arranged to tension the intermediate arm in a direction outward from the tool body.

The actuator can be controllable, as it can be designed with the necessary components for electrical or hydraulic control.

The actuator's actuator housing can advantageously be permanently connected to the tool body, but an articulated coupling can in some cases be appropriate.

There is very limited space in an estimate tool. The device according to the invention provides a relatively simple and functionally reliable solution for displacing the tool holder where the actuator can be built into the available space in the overturning tool.

In what follows, an example of a preferred embodiment is described which is visualized in the accompanying drawings, where: Fig. 1 schematically shows an axial section through a production pipe where an overturning tool is placed; Fig. 2 schematically and on a larger scale shows a section of the estimate tool in fig. 1, with the overturning tool's spindle holder being in its passive position;

Fig. 3 schematically shows a section II-II in fig. 2; and

Fig. 4 schematically shows the projection tool, but where the spindle holder is turned to its effective position.

In the drawings, the reference number 1 denotes a production pipe which is provided with a side pocket 2 where a gas lift valve 4 is arranged. The task of the gas lift valve 4 is to regulate the gas flow between the outside and the inside of the production pipe 1.

An overturning tool 6 is moved into the production pipe 1 by means of a cable 8 and is located at the side pocket 2, the overturning tool 6 in fig. 1 is shown in a position where the overturning tool 6 is prepared to move a valve stem 10 into the gas lift valve 4.

The overturning tool 6 comprises a tool body 12 of a known design with necessary components not shown for control and for locating the overturning tool 6 in the production pipe 1.

The tool body 12 is laterally open at its middle part 14. An intermediate arm 16 is rotatably connected in its one end part to the tool body 12 by means of a rotatable intermediate arm joint 18, and in its opposite end part to a spindle holder 20 by means of a spindle joint 22.

The spindle holder 20 is releasably connected to the valve spindle 10 in its end part which faces away from the spindle joint 22.

An actuator 24 which is mainly located between the tool body 12 and the spindle holder 20 is connected between the tool body 12 and the intermediate arm 16. The actuator 24 comprises an actuator housing 26 where a guide track 28 is arranged which runs in the longitudinal direction of the tool body 12. A displaceable guide block 30 which complementarily fits in the guide groove 28 is hingedly connected to an actuator rod 32 which in its opposite end part is hingedly connected to the intermediate arm 16.

The actuator rod 32 is designed in such a way that it comes to a lateral stop when the overturning tool 6 is in its inactive, pivoted position. In this preferred embodiment, the actuator rod 32 thus rests against the tool body 12, see fig. 2.

The actuator housing 26 and the guide block 30 are respectively provided with a first bore 34 and a second bore 36 where the openings of the bore rings 34, 36 face each other.

A spring 38 located in the bores 34, 36 is arranged to bias the guide block 30 in the direction out from the actuator housing 26.

During displacement of the overturning tool 6 in the production pipe 1, the spindle holder 20 is in its pivoted, passive position. When the overturning tool 6 is positioned at the side pocket 2, the intermediate arm 16 is released as explained in the introduction of the description.

The spring 38 displaces the guide block 30 and the actuator rod 32 in a direction away from the actuator housing 26, whereby the intermediate arm 16 is brought to rotate about the intermediate arm joint 18.

The spindle holder 20 simultaneously rotates about the spindle joint 22 until a bearing surface 40 comes into contact with the intermediate arm 16, see fig. 4.

In this active position, the spindle holder 20 takes a direction as shown in fig. 1, where the spindle holder 20 and the valve spindle 10 connected to the spindle holder 20 take an essentially coaxial direction with the gas lift valve 4.

When the overturning tool 6 is to be pulled out of the production pipe 1, the force from the compression spring 38 is overcome by the fact that the intermediate arm 16 is displaced inward into the tool body 12 upon contact with the side pocket 2.

Claims (5)

1. Device for overturning tool (6) of the kind used for setting and pulling the valve spindle (10) of a gas lift valve (4) located in a side pocket (2), and where the overturning tool (6) comprises a laterally open tool body ( 12) with a spindle holder (20) which via at least one intermediate arm (16) is articulately connected to the tool body (12), the spindle holder (20) being arranged to be able to be moved/turned between a passive position where the spindle holder (20) is in the tool body (12), and an active position where the spindle holder (20) is pivoted from the tool body (12) and corresponds to the gas lift valve (4), characterized in that at least a part of an actuator (24) which is arranged to able to displace the spindle holder (20) between its passive position and its active position, is located between the tool body (12) and the spindle holder (20), as the actuator (24)'s actuator rod (.32) is hingedly connected to the intermediate arm (16). 2. Device according to claim 1, characterized in that the actuator rod (32), when the spindle holder (20) assumes its passive position, has a lateral abutment. 3. Device according to claim 2, characterized in that the actuator rod (32) rests against the tool body (12). 4. Device according to claim 1, characterized in that the actuator (24) comprises a pre-tensioned spring (38) which is arranged to tension the intermediate arm (16) in the direction out from the tool body (12). 5. Device according to claim 1, characterized in that the actuator (24) is controllable by means of electrical or hydraulic energy.