The present invention relates to a release device for releasably connecting a downhole object, such as a running tool or a plug, to a setting tool. Further, the invention relates to a downhole setting tool for setting an object in a wellbore and to a method for disconnecting a downhole object.
Setting tools are used for setting, i.e. anchoring, plugs or other objects downhole. To set a plug, a setting tool may be connected to a running tool coupled to the plug to be set. When the plug has been positioned in the desired position downhole, an axial force is applied via the running tool to the plug, whereby the plug is set downhole and the running tool and/or the setting tool are/is released from the plug.
However, if the setting process fails, e.g. due to malfunction of the mechanical system of the plug or setting tool, the plug may not be appropriately set, whereby the setting tool is not released from the plug. In case of connection to a partly set plug, it may be very difficult, or simply impossible, to extract the setting tool from the well, and then special tools are required. In order to retrieve a stuck tool, more heavy equipment having more power is necessary to pull the tool out, or if the stuck setting tool remains stuck, the tool has to be drilled out, resulting in costly production time being lost.
It is an object of the present invention to wholly or partly overcome the above disadvantages and drawbacks of the prior art. More specifically, it is an object to provide an improved setting tool that may be released from a downhole object, such as a running tool or a plug in case of a malfunction in the mechanical- and/or hydraulic system of the plug or setting tool, so that the setting tool does not get stuck downhole.
The above objects, together with numerous other objects, advantages, and features, which will become evident from the below description, are accomplished by a solution in accordance with the present invention by a release device for releasably connecting a downhole object, such as a running tool or a plug, to a setting tool, the release device extending between a proximal end adapted to be coupled to the setting tool and a distal end adapted to be coupled to the downhole object, the release device comprising:
In one embodiment, the activatable release mechanism may comprise an activatable locking sleeve slidable in the longitudinal direction and a key element having a plurality of key fingers flexible in an inwards radial direction and adapted to latch onto the connecting element, the inwards flexibility of the key fingers being controlled by the position of the locking sleeve.
In another embodiment, the release mechanism may further comprise a release spring forcing the locking sleeve and the key element in mutually opposite directions, whereby upon activation of the locking sleeve, the release spring is adapted to force the locking sleeve into a release position, thereby activating the release mechanism and allowing separation of the connecting element from the base element.
Hereby, a downhole object connected with the connecting element may be separated from the remainder of the release device by activating the release mechanism, thereby disengaging the key fingers from the connecting element.
In one embodiment, the release mechanism may be a hydraulically activated mechanical release mechanism.
Also, the activatable locking sleeve may be hydraulically activated.
In another embodiment, the activatable locking sleeve may be hydraulically activated by injection of a hydraulic fluid into an expandable space, defined, at least partly, by a piston face of the locking sleeve, whereby hydraulic fluid supplied under pressure to the expandable space will force the locking sleeve in a direction towards the distal end of the release device, thereby compressing the release spring.
Furthermore, the base element may comprise a fluid channel for supplying the hydraulic fluid to the expandable space.
Moreover, the activatable locking sleeve may be slidably arranged around at least a part of the base element, and wherein the expandable space is at least partly defined by the base element and the piston face of the locking sleeve.
Further, the base element may comprise an annular bore encircling a protruding centre part of the base element extending in the longitudinal direction, and the activatable locking sleeve may be slidably arranged around the protruding centre part and slidably arranged between a locking position, wherein the locking sleeve may prevent inwards radial movement of the key fingers, and a release position, wherein the key fingers may be inwardly flexible.
Also, the key element may encircle the activatable locking sleeve.
Moreover, part of the activatable locking sleeve may enclose part of the annular bore, thereby providing the expandable space adapted to be expanded by supply of the hydraulic fluid via the fluid channel provided in the base element, whereby the locking sleeve may be forced in the longitudinal direction towards the distal end of the release device and thereby activated, and wherein a release spring may be adapted to force the activated locking sleeve in an opposite direction into the release position when the supply of hydraulic fluid is terminated.
Hereby, a downhole object connected with the connecting element may be separated from the release device by disengaging the key fingers from the connecting element when the supply of hydraulic fluid is terminated.
In one embodiment, the base element may comprise a radial protruding pin preventing the release spring from forcing the locking sleeve in the direction away from the distal end of the release device and into the release position before the activatable locking sleeve has been activated.
In another embodiment, the pin may be a shear pin adapted to break when a hydraulic fluid is supplied to the annular chamber, and the locking sleeve may be forced in the longitudinal direction towards the distal end of the release device.
Furthermore, the locking sleeve may comprise a guide slot cooperating with the pin, whereby the locking sleeve may be rotated when the locking sleeve is forced towards the distal end of the release device by supply of a hydraulic fluid to the expandable chamber.
Said guide slot may be a j-slot.
In an embodiment, the connecting element may comprise a first recess provided in an outer surface thereof for providing a fishing neck.
In another embodiment, the connecting element may comprise a second inwards facing recess arranged internally in the connection element, thereby constituting a fishing neck.
In yet another embodiment, an end of the locking sleeve defining the expandable chamber may comprise a flange providing a piston face facing the expandable chamber.
Also, the release spring may abut the flange of the locking sleeve and an end of the key element, thereby forcing the locking sleeve and the key element in mutually opposite directions.
Further, key fingers may comprise protrusions at a distal end for engaging a recess of the connection element.
Moreover, the expandable chamber may be fluidly connected with the wellbore via an inflow control valve and the pressure in the wellbore may be used to supply hydraulic fluid to the expandable chamber.
Furthermore, the connecting element may have an outer thread adapted to be connected to a downhole object, such as a running tool or plug.
Also, the outer thread of the connecting element may be in accordance with the standard Baker E4-20 or Baker E4-10.
Moreover, the key fingers may engage a recess in the connecting element.
The invention also relates to a downhole setting tool for setting an object, such as a plug, in a wellbore, the downhole setting tool extending between a proximal end adapted to be coupled to a tool string and a distal end facing the object to be set, the downhole setting tool comprising:
Said downhole setting tool may comprise a hydraulic system comprising a pump unit driven by an electrical motor for supplying a hydraulic fluid to the piston chamber.
Also, the downhole setting tool may further comprise a hydraulic system comprising a pump unit driven by an electrical motor, and the pump unit may be adapted to supply a hydraulic fluid to the piston chamber and to the expandable space of the release device, whereby supply of the hydraulic fluid to the expandable space activates the locking sleeve.
Also, the hydraulic piston may travel up to 400 mm in the axial direction in the stroke cylinder.
In one embodiment, the stroke cylinder may comprise a second chamber and a second piston rod extending from the hydraulic piston opposite the first piston rod and into the second chamber.
Said second chamber of the stroke cylinder may have an internal pressure substantially equal to a pressure in the well, whereby the forces exerted on the first piston rod by the pressure in the well may be substantially balanced by the force exerted on the second piston rod by the pressure in the second chamber.
Hereby, the force required to move the hydraulic piston may be reduced as the force exerted on the piston rod pointing in the direction of movement of the hydraulic piston by the pressure in the well may be substantially compensated by the force exerted on the opposite piston rod by the pressure in the well.
Furthermore, the downhole setting tool may comprise a first longitudinal fluid channel provided in the wall of the stroke cylinder for supplying a hydraulic fluid to the piston chamber in order to push the hydraulic piston in a direction towards the proximal end of the downhole setting tool.
The downhole setting tool may also comprise a second longitudinal fluid channel provided in the wall of the stroke cylinder for supplying a hydraulic fluid to the piston chamber in order to push the hydraulic piston in a direction towards the distal end of the downhole setting tool.
In one embodiment, the first piston rod may comprise a fluid channel for supplying the hydraulic fluid to the release device.
Said fluid channel of the first piston rod may be in fluid communication with the piston chamber and the fluid channel of the base element, whereby hydraulic fluid may be supplied to the release device via the fluid channel of the first piston rod.
Also, the fluid channel may be a central bore extending in the longitudinal direction of the piston rod.
The downhole setting tool according to the invention may further comprise a locking element comprising a plurality of locking fingers flexible in a radial direction and adapted to latch onto the recess in the outer surface of the connecting element of the release device when the hydraulic piston is pushed all the way towards the proximal end of the downhole setting tool.
Furthermore, the locking fingers may latch onto a recess in an outer surface of the connecting element when the hydraulic piston is in the fully upstroke position.
In one embodiment, the downhole setting tool may further comprise a spacer element extending from the stroke cylinder towards the distal end of the downhole setting tool.
In another embodiment, the downhole setting tool according to the invention may comprise a driving unit for driving the entire downhole setting tool forward in a wellbore.
Finally, the present invention relates to a method for disconnecting a downhole object, such as a running tool or plug, from a downhole setting tool according to the invention, the method comprising the steps of:
25
In one embodiment, the pulling force required to force the key fingers out of engagement with the connecting element may be 100 kg-300 kg, preferably approximately 250 kg.
Hereby, unintentional disconnection between the key element and the connecting element may be avoided.
The invention and its many advantages will be described in more detail below with reference to the accompanying schematic drawings, which for the purpose of illustration show some non-limiting embodiments and in which
a shows a release device for releasably coupling a downhole object to a setting tool,
b shows the release device with the locking sleeve in a locking position,
c shows the release device with the locking sleeve having been moved into a release position,
a shows the position of the pin in the guide slot before the locking sleeve is activated,
b shows the position of the pin in the guide slot when the locking sleeve is activated and in a locking position,
c shows the position of the pin in the guide slot when the locking sleeve is in the release position,
All the figures are highly schematic and not necessarily to scale, and they show only those parts which are necessary in order to elucidate the invention, other parts being omitted or merely suggested.
In the following, the side of the hydraulic piston facing the distal end of the downhole setting tool of
The release device 10 is adapted to couple the setting tool to the downhole object to be set as described in the following. The release device 10 of
To be able to release the connecting element, the release device comprises an activatable release mechanism 60 comprising an activatable locking sleeve 14, a key element 13 encircling the activatable locking sleeve 14, and a release spring 15 forcing the locking sleeve 14 and the key element 13 in mutually opposite directions. The release mechanism 60 is retained in an annular bore 161 encircling a protruding centre part 12 of the base element 16, whereby in particular the locking sleeve 14 is movable in the longitudinal direction of the release device 10 along the centre part 12. As shown in the
Towards the distal end 10b of the release device 10, the centre part 12 comprises a flange 125 providing a stop, thereby restricting further longitudinal movement of the locking sleeve 14 and the key element 13. The key element 13 comprises a plurality of key fingers 131 comprising protrusions 132. The key fingers 131 are flexible in a radial inwards direction, and the protrusions 132 are adapted to latch onto a recess 111 in the connecting element 11. Further, when the locking sleeve 14 is in the position shown in
To release the connecting element 11 from the base element 16, the locking sleeve has to be moved into a release position, as shown in
In
It is known by the skilled person that objects to be set in a well, such as a plug, may be of varying designs applying numerous different anchoring mechanisms. However, common to most objects to be set is that following the setting of the object, a part of the object is separated from the part of the object comprising the actual anchoring mechanism. The separated part of the object may thus be retrieved from the well.
When setting the object in the well, the release device 10 shown in
As shown in
If setting the object does not separate the running tool and/or a part of the object from the part of the object comprising the anchoring mechanism, and the anchoring mechanism is partly activated obstructing retrieval of the downhole setting tool, the release device may be activated to disengage the downhole setting tool from the running tool and/or object, thus leaving a part of the release device, i.e. the connecting element, in the well.
To activate the release device shown in
In a similar manner, the supply of hydraulic fluid to the release device may be terminated when the locking element 17 engages the connecting element and thereby fixates the release device 10. As the locking element 17 secures the connecting element 11, it is not necessary to keep the locking sleeve 14 in the locking position to prevent disengagement of the connecting element 11 from the base element 16. As described above, termination of the supply of hydraulic fluid results in the locking sleeve being forced into the release position by the release spring 15, whereby the release mechanism 60 no longer retains the connecting element 11.
In
By fluid or well fluid is meant any kind of fluid that may be present in oil or gas wells downhole, such as natural gas, oil, oil mud, crude oil, water, etc. By gas is meant any kind of gas composition present in a well, completion, or open hole, and by oil is meant any kind of oil composition, such as crude oil, an oil-containing fluid, etc. Gas, oil, and water fluids may thus all comprise other elements or substances than gas, oil, and/or water, respectively.
By a casing is meant any kind of pipe, tubing, tubular, liner, string etc. used downhole in relation to oil or natural gas production.
In the event that the tools are not submergible all the way into the casing, a downhole tractor can be used to push the tools all the way into position in the well. A downhole tractor is any kind of driving tool capable of pushing or pulling tools in a well downhole, such as a Well Tractor®.
Although the invention has been described in the above in connection with preferred embodiments of the invention, it will be evident for a person skilled in the art that several modifications are conceivable without departing from the invention as defined by the following claims.
Number | Date | Country | Kind |
---|---|---|---|
11195035.8 | Dec 2011 | EP | regional |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/EP2012/076283 | 12/20/2012 | WO | 00 | 6/5/2014 |