This invention relates to an actuator. More particularly it concerns an actuator for connection to and displacing of a component in a well tubular, as the tubular comprises a driver and a working organ.
During work in a borehole such as in a petroleum well it is often necessary to be able to displace a component positioned in the well. The component may typically be a control for a valve.
Control of this type is typically constituted by a concentric sleeve in a well tubular where in the sleeve wall is arranged gripping openings for connecting control equipment, and where the control equipment is arranged to be able to displace the control. Prior art control equipment is adapted to the internal diameter of the control and provided with grippers fitting in the gripper openings.
For various well technical reasons restrictions may be arranged upstream of the valve in the well tubular. The restrictions may be formed having a considerably smaller internal diameter than the well tubular. In a well tubular of 118 mm internal diameter there may for example be a restriction having 76 mm internal diameter. The restriction prevents the valve being operated by means of known control equipment, as the access to the valve is prevented by the restriction.
The object of the invention is to remedy or reduce at least one of the prior art drawbacks.
The object is achieved according to the invention by the features stated in the below description and in the following claims.
An actuator according to the invention for connection to and displacing of a component in a well tubular comprising a driver and a working organ, is characterised in that the working organ is provided with an in the radial direction spring loaded gripping device complementary fitting in the component.
The actuator is in a per se known way connected to such as a cable, a wireline tractor or a coiled tubing.
The spring loaded gripping device has a radial displacement length making passing a restriction possible and also the following connection to and displacing of the component having a considerably larger internal diameter than the restriction.
The gripping device may be connected to a leaf spring where the leaf spring is preloaded in the radial direction outward from the well tubular central axis.
The gripping device is thus positioned closer to the well tubular central axis in its passive position than in its active position.
The gripping device may be held in its passive position by means of a releasing device where the releasing device on release allows that the gripper device is displaced spring-loaded to its active position. On return of the releasing device to its passive position the gripping device is displaced outward from its engagement with the component.
A sleeve abutting and being displaceable relative to the leaf spring may constitute the releasing device. By adapting the releasing device internal diameter, the releasing device holds the leaf spring and the gripping device in the passive position when the releasing device encircles the leaf spring.
The releasing device may be connected to the driver and the leaf spring may be connected to the working organ. When the driver displaces the working organ relative to the driver the leaf spring is first displaced out of the releasing device whereby the leaf spring displaces the gripping device radially to engagement with the component. A further displacement of the working organ relative to the driver causes the component to be displaced relative to the well tubular.
The gripping device rear portion may have an angle relative to the well tubular central axis less than 90 degrees. The actuator may thereby be withdrawn outward through the restriction even if the driver should fail.
An actuator in accordance with the invention makes operation of components in a well tubular possible even if the component is positioned further down in the well than a restriction. It is self-evident that it is technically and economically very advantageous to be able to operate the component without first having to remove the restriction.
In the following is described an example of a preferred embodiment being illustrated in the accompanying drawings wherein:
In the drawings the reference numeral 1 indicates an actuator connected to a wireline tractor 2 positioned in a well tubular 4. The well tubular 4 has a central axis 6.
The actuator 1 comprises a driver 8 for example in the form of an electric or hydraulic power unit which in a per se known way is arranged to be able to displace a working organ 10 in a direction along the well tubular 4 central axis 6.
The working organ 10 is in its free end portion provided with a steering guide 12 arranged to be able to steer the actuator 1 during displacing of the well tubular 4.
Four outwardly curved leaf springs 14 are at their first end portions 16 articulateably connected to a to the working organ 10 fixedly connected first attachment 18, see
The leaf springs 14 are at their mid portion given one each gripping device 24 in the form of a gripping bulb 26 arranged to be able to engage the gripping recesses 30 of a component 28, see
The steering bulb 12 must be placed in a steering recess 34 in the component 28 for the gripping bulb to engage the gripping recesses 30.
The rear portion 36 of the gripping device 24 has an angle 38 with the central axis 6 being less than 90 degrees and preferably less than 45 degrees.
A releasing device 40 in the form of a sleeve encircles the working organ 10. The releasing device 40 is connected to the driver 8. When the leaf springs 14 are pulled into the releasing device 40, see
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By pulling the leaf springs 14 into the releasing device 40 the gripping devices 24 are deactivated whereafter the actuator 1 may be displaced back through the restriction 42.
Should the actuator 1 driver 8 fail, the actuator may still be pulled out through the restriction 42. If the actuator 1 is pulled out through the restriction 42 without the gripping devices 24 being brought back to their passive position, then the gripping devices 24 will be resiliently displaced out from their engagement with the component 28, whereafter the leaf springs 14 abut the restriction 42. This causes the gripping devices 24 to be displaced in a direction toward the central axis 6 of the well tubular 4. Due to its shape the gripping device 24 will be displaced further in the same direction when it abuts the restriction 42.
In an alternative embodiment, see
Number | Date | Country | Kind |
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20084926 | Nov 2008 | NO | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/NO09/00393 | 11/18/2009 | WO | 00 | 5/20/2011 |