Source: https://patents.google.com/patent/CN104508238A/en
Timestamp: 2020-05-29 05:32:19
Document Index: 435955060

Matched Legal Cases: ['art 21', 'art 21', 'art 21', 'art 21', 'art 40', 'art 40', 'art 40', 'art 273', 'art 273', 'art 273', 'art 273', 'art 273', 'art 273', 'art 273', 'art 273', 'art 273', 'art 273', 'art 273', 'art 273', 'art 273', 'art 273', 'art 273', 'art 273', 'art 273', 'art 273', 'art 273', 'art 273', 'art 273']

CN104508238A - A tubular connection - Google Patents
A tubular connection Download PDF
CN104508238A
CN104508238A CN201380035431.5A CN201380035431A CN104508238A CN 104508238 A CN104508238 A CN 104508238A CN 201380035431 A CN201380035431 A CN 201380035431A CN 104508238 A CN104508238 A CN 104508238A
CN201380035431.5A
CN104508238B (en
D·奥布赖恩
A·J·J·格拉拉
梅塔井下公司
2012-07-06 Priority to GB1212053.1 priority Critical
2012-07-06 Priority to GBGB1212053.1A priority patent/GB201212053D0/en
2013-01-10 Priority to GBGB1300442.9A priority patent/GB201300442D0/en
2013-01-10 Priority to GB1300442.9 priority
2013-06-27 Application filed by 梅塔井下公司 filed Critical 梅塔井下公司
2013-06-27 Priority to PCT/GB2013/051699 priority patent/WO2014006374A2/en
2015-04-08 Publication of CN104508238A publication Critical patent/CN104508238A/en
2017-06-13 Publication of CN104508238B publication Critical patent/CN104508238B/en
238000010276 construction Methods 0 claims description 71
Apparatus and method for connecting tubular members in a wellbore. A host tubular member has annular members mounted within a receiving section to provide regions of differing resistance to the radial load. When a portion of a second tubular member is expanded radially outwardly within the receiving section a joint is formed between the members. Embodiments of host tubular members are described including recesses for the portion to form protrusions within, collapsible rings, channels and valves to expel fluid from the interface between the members and gripper elements and sealing elements to improve the joint.
Pipe connects
The invention provides the equipment for tube connector component in the wellbore and method, and specifically provide in the wellbore by first (interior) seal of tube and/or be fixed to second (outward) pipe and provide equipment and the method for the ring packing between first and second pipe component thus.
When drilling and well completion, various tube elements (being usually also referred to as in the industry " pipe ") needs to be interconnected.Such as, when completion, many pipes must connect to end end, to form the tubing string of such as casing string or bushing pipe post, thus pit shaft are arrived desired depth by arranged in a straight line.In some cases, it is inner that pipe must be placed on another root pipe as follows, namely by the diameter of pipe in increasing until the inwall of its contact outer tube and with its generation interference fit.Connection between pipe must can resist axial load (namely fixing) usually.It should be also liquid-tight for connecting, and to provide the annular barrier between pipe (namely sealing), thus prevents the fluid between the outside of the endoporus of outer tube and interior pipe from passing through.
A kind of device for the prior art of tube connector component is in the wellbore described in WO2011/048426A2, and this device to comprise between first and second pipe component 1,2 in cased borehole metal to the sealing of metal, as shown in Fig. 1 and 2 of the application.Second (under) pipe component 2 comprises upper part 21, upper part 21 has than first (on) internal diameter that the external diameter of the end portion 11 of pipe component 1 is larger.Circumferential recess or groove 22 be formed on second (under) on the inner surface of the upper part 21 of pipe component 2 or hole.In order to form sealing, first, the end portion 11 of the first pipe component 1 is placed in the upper part 21 of the second pipe component 2.Secondly, hydraulic expansion tool 3 drops to the sealing station (Fig. 2 see the application) of expection from surface in the first pipe component 1 inside.Instrument 3 is annular seal space 7 between a pair axially spaced seal 8.The actuating of hydraulic expansion tool 3 causes chamber 7 to be under high pressure full of fluid, and on the inner surface that this high-pressure fluid acts on the end portion 11 of the first pipe component 1 or hole, thus first flexibly expand and expand then mouldingly, so that end portion 11 expand in the groove 22 on the endoporus of the second pipe component 2 radially outwardly along the length limited by seal 8, circumferential projection 12 or ridge are formed on the outside of the end portion 11 of the first pipe component 1.These projections 12 are received in groove 22, until sealing is formed between the first pipe component 1 and the second pipe component 2.
Similar technology is used to connect flushing device and pipe lower opening (such as sleeve pipe or bushing pipe) with fishery mode of operation, engages with the external surface of the bore area with pipe that made flushing device, thus allows vibrations and the withdrawal of pipe.
The problem relevant to said apparatus is, the FIH that the interface between pipe component exists may be captured in a groove, and this can cause the formation of hydraulically locking, and hydraulically locking may cause damage to pipe component and/or mean and not form effective sealing.In order to displacement fluids, medium (such as, synthetic foam) can be crushed and be sometimes put in groove.Put in groove to crush medium (such as synthetic foam), need to form the ring by crushing material and formed, this ring accurately must meet the shape of groove.In addition, circumferential recess or groove (can crush ring to be inserted therein) must be pre-formed or process, and arrange in the wellbore at suitable depth before carrying out any connection.The processing of the manufacture and groove that can crush ring is all difficulty and cost is high, and be less than 7 having " realize being extremely difficult in the pipeline of the internal diameter of (17.5cm); and in addition, if needed because of any reason, it is all very difficult for removing and can crushing ring.
Being connected in EP 2013445 B1 of another type solving fluid expulsion problem is described, and illustrates in Fig. 3 of the application.In EP 2013445 B1, first (interior) pipe component 4 uses the bloat tool 3 with axially spaced seal 8 annular seal space 7 identical with Fig. 1 and 2 and expand in second (outward) pipe component 5.First pipe component 4 has expandable part 40, and expandable part 40 has central section 41 and end regions 42.The wall thickness of central section 41 is relatively uniform, and is thinner than the wall thickness of end regions 42.Tapered portion 43 provide central section 41 compared with the transitional region between thin-walled and thicker end region 42.When instrument 3 activated, central section 41 expanded before end regions 42 (the thinner sidewall thickness due to the former), and any fluid ordering about the annular interface place between the external surface of the first pipe component 4 and the inner surface of the second pipe component 5 thus enters in annular space 9 axially beyond end regions 42 in opposite direction.When expandable part 40 is completely expanded, the seal 6 at end regions 42 place on the outside of the first pipe component 4 provides the other fluid barriers between pipe component 4,5.Because seal 6 only contacts with the second pipe component 5 at fluid after the interface between pipe component 4,5 is discharged, therefore avoid the generation of hydraulically locking.
The device of EP 2013445 B1 suffers to connect identical shortcoming with the pipe of WO2011/048426 A2, namely the pipe component be connected and sealed between it has the profile of relative complex, particularly first (interior) pipe component 4, due to the sidewall thickness of its change, this can cause relatively high manufacturing cost.In addition, due to the limited means of amendment chip module, the performance of this kind of connection is limited.
Therefore, the object of this invention is to provide so a kind of expandable tubular to connect, the manufacture that this expandable tubular connects is relatively cheap, simultaneously can provide reliable sealing, and/or can produce and can transmit axial force by it and therefore opposing moves to axial the firm connection of generation.In addition, the object of this invention is to provide a kind of expandable tubular that easily can be suitable for adapting to different application to connect.
According to a first aspect of the invention, provide a kind of equipment for tube connector component in the wellbore, this equipment comprises:
Supervisor's component, it is for being connected hermetically with the second pipe component, and supervisor's component comprises:
Receive section, it is suitable at least one part receiving the second pipe component wherein, to allow at least one part described to expand radially outwardly against supervisor's component, until one or more junction surface is formed between at least one part described and supervisor's component;
Wherein be responsible for component and comprise one or more annular construction member installed around reception section;
Described annular construction member or each annular construction member provide the resistance to radial load, and receiving fixed annular region radial load to different resistance of the section upper limit, make after at least one demi-inflation described, junction surface is formed between at least one part described and the annular region receiving section.
Preferably, one or more annular construction member is installed around the inner circumferential at least partially of the axial length of the reception section of supervisor's component.
Preferably, one or more junction surface produced is sealing or firmly connects, or more preferably, is sealing and firmly junction surface.Therefore the junction surface between the supervisor's component formed and the second pipe component has the ability of resisting axial load and acting on the fluid pressure be responsible between component and the second pipe component.This junction surface machinery preferably created between two pipe components is fixed and is responsible for the sealing between component and the second pipe component.In one arrangement, supervisor's reception section of component and at least one part of the second pipe component comprise metallic member, and when at least one part of the second pipe component expands against supervisor's component, metallic member forms the joint of metal to metal.Preferably, due at least one part at least described and be preferably responsible for the initial elastic deformation of material of reception section of component and then plastic deformation and form this junction surface.
Such as, by radially outer pressure or power being applied to the sidewall of at least one part described in the second pipe component in the endoporus of at least one part described, outside expansion can be realized.
Preferably, this equipment comprises device for draining fluid, for from least one part described in the second pipe component and the interface displacement fluids that receives between section, thus prevents the generation of hydraulically locking.
Therefore, in use, when described in the second pipe component during at least one part radial outward expansion, the described annular region with larger resistance or each annular region (namely stronger region) of supervisor's component more can resist expanded radially than the described region or each region (namely more weak region) with more lower resistance.Therefore, at least one part described of second pipe component expands more at described or each more weak region place, and less expand at described or each stronger region place, and therefore provide the sealing between at least one part described and reception section and/or mechanical connection.
In one embodiment, more weak region and stronger region are alternately.
In one embodiment, multiple annular construction member with can fit together by receiving unit, thus one or more groove is limited with the form of circumferential grooves between annular construction member, described or each groove provides more weak region, and annular construction member provides stronger region.Therefore, in use, at least one demi-inflation described of the second pipe component in described or each groove, thus forms junction surface with the reception section of supervisor's component.Between the phase of expansion, corresponding circumferential projection is formed on the outside of at least one part described, and this circumferential projection enters respective groove, thus forms junction surface with reception section.Therefore, the expansion of at least one part described causes at least one part described of the profile with fold.
In one embodiment, device for draining fluid comprises the device for draining fluid being arranged in one or more groove.The device for draining fluid of the loop configuration with such as loop type can be provided.Device for draining fluid can comprise fluid expulsion material, fluid expulsion material can comprise can crush medium (such as closed-cell foam, such as, metal foam or synthetic foam), can crush medium is placed in a groove, so that anti-fluid is full of groove, but can subside under the pressure of the circumferential projection of at least one part described, to allow projection to enter groove.Device for draining fluid also preferably at some fluids of the simultaneously stability subsided, can minimize the risk that hydraulically locking occurs thus further.Such fluid can be present in around device for draining fluid before device for draining fluid subsides, or can move towards device for draining fluid between the phase of expansion of at least one part described in the second pipe component.Can instead or extraly, device for draining fluid be included in the subsided ring (such as hollow ring) in described or each groove, this ring is configured to subside when this ring suffers certain pressure.The ring that can subside works in the mode being similar to fluid expulsion foam, and namely when this ring is complete, anti-fluid enters groove, and this ring subsides under the power of the circumferential projection of at least one part described in the second pipe component.The ring that can subside can play a role under the temperature and pressure higher than the temperature and pressure that can be stood by foam.And the subsided ring suitably selected can hold the fluid volume larger than foam.Extraly or alternately, device for draining fluid can comprise the valve be arranged in described or each groove, this valve be configured to when fluid suffer from least one part described expand into the pressure of the circumferential projection in groove time allow fluid expulsion groove.In one arrangement, valve is one way valve, and when the pressure in groove increases, this one way valve allows fluid effusion, and after having been formed with the junction surface receiving section, this one way valve is by the projection hermetically closing at least one part described.In a kind of variant, annular construction member limits one or more inner chamber, and valve is disposed between described or each groove and adjacent chambers, when increasing with the pressure in convenient groove, allows fluid to transfer in chamber.
Supervisor's component is preferably included in the fastener in the inner circumferential receiving section further, is mechanically connected for being formed with the second pipe component.In a kind of variant, fastener is included in one or more the circumferential Anchoring recess in the inner circumferential receiving section, it preferably provides with the form of groove, for when one or more appropriate section of the second pipe component expand in Anchoring recess, is formed be mechanically connected with the second pipe component.This mechanical connection needs not to be fluid-tight, because it does not need to produce wiper seal with the second pipe component.One or more fluid passage may be provided in and receives in section, to guide fluid away from Anchoring recess between the phase of expansion from the part at the second pipe component, to provide the described part of the second pipe component to the more Large travel range in Anchoring recess.In one arrangement, reception section is included in the annular projection in the inner circumferential of the reception section of contiguous Anchoring recess, and one or more passage is formed on (namely annular projection preferably has passage) in annular projection.In one embodiment, described or each passage edge roughly axial direction (namely relative to receiving section roughly along length ground) extension.Preferably, multiple passage is spaced apart on annular projection inner circumferential ground.In addition preferably, be limited at the inner circumferential that receive section via described or each passage from the other annular groove of the fluid of Anchoring recess in-migration for receiving and holding, other groove and Anchoring recess are axially spaced apart, and are separated by annular projection and Anchoring recess.Preferably, multiple annular projection like this with passage alternately provides with corresponding multiple other groove.In addition preferably, other groove holds above-mentioned device for draining fluid (such as crushable fluid expulsion ring), to pass through from other groove displacement fluids on the one hand, and on the other hand by be forced into a certain amount of fluid of other groove from anchoring groove via described or each passage and/or to be forced into the fluid of other groove by the dilation of the second pipe component outside other groove being absorbed during compression, the demi-inflation being minimized in the second pipe component in described or each anchoring groove during the risk of generation hydraulically locking.Annular projection can be above-mentioned the form of annular construction member be arranged in the inner circumferential receiving section provide.Such device allows the described of the second pipe component or each corresponding part than expanding into more in Anchoring recess when there is not passage.And what can maintain with the phase same level when there is not passage is outstanding, but can provide reception section pressure to more high-drag.
Will be appreciated that, similar passage may be provided in the annular construction member receiving section really, to guide fluid away from one or more annular groove be limited between annular construction member, and at least one demi-inflation described being convenient to the second pipe component is thus in described or each groove.In this case, device for draining fluid may be provided in some but in the groove of not all (such as, one is provided every a groove), for absorbing a certain amount of fluid never providing the adjacent grooves of device for draining fluid to be forced into described or each groove via described or each passage and/or the fluid being forced into the groove that device for draining fluid is housed by the dilation of the second pipe component outside other groove.As Anchoring recess, such device allows the described of the second pipe component or each corresponding part to be projected into more in Anchoring recess than when there is not passage, maybe can maintain the outstanding of phase same level, reception section pressure to more high-drag is wherein provided.
Can instead or extraly, fastener can comprise the ring-shaped clamping member be arranged in the inner circumferential receiving section, resists axis and/or the rotary motion of supervisor's component for the external surface by clamping the second pipe component.Device is below particularly advantageous, because it makes reception section even be easier to manufacture.
In one embodiment, supervisor's component comprises one or more annular seat component, the form of the joint ring that annular seat component can be such as made up of elastic body, metal, pottery or composite material is provided in the inner peripheral surface of reception section, to provide extra fluid and wiper seal, thus improve the sealing performance of equipment.Containment member can replace with annular construction member in the axial direction.In addition, containment member can have the circumferential edge of relatively sharp (i.e. non-circular or chamfering), for high contact is applied to the second pipe component.
This equipment preferably includes maintaining body, and this maintaining body is suitable for remaining on appropriate location by being assembled in the annular construction member received on section, and supports the second pipe component potentially along with the second pipe component expands.Maintaining body can comprise such as one or more retaining ring (such as, a pair retaining ring), has a retaining ring at the every one end place receiving section.Retaining ring can be welded, be threaded, shrink-fit or otherwise be fixed on receive section inner circumferential on.Can instead or extraly, described or each annular construction member can in an appropriate manner (such as but not limited to via interference fit, weld, be threaded or some additive methods) be fixed on supervisor's component.
Because the annular construction member of equipment of the present invention provides with the form of the isolated system of the reception section assembling around supervisor's component, be therefore responsible for component itself and can be weaker than (be such as thinner than or be softer than) annular construction member.Preferably, (namely when assembling with ring element) ratio the second pipe component is stronger on the whole to be at least responsible for the reception section of component, but same this situation not necessarily.
Described or each annular construction member makes supervisor's component or at least it receives section and can have roughly uniform wall thickness and/or uniform diameter (no matter being outer in being or both) with providing of following isolated system mode, described isolated system is namely after supervisor's component has manufactured, and described isolated system is installed in or otherwise is fixed to supervisor's component.Therefore, compared to supervisor's component of prior art, described supervisor's component can more easily and to manufacture more at low cost.Accordingly, in a preferred embodiment, component is responsible for or at least it receives section and has uniform wall thickness and/or uniform diameter (no matter being outer in being or both).But, it is conceivable, that supervisor's component still can be abnormity (profile).In addition, annular construction member can unbroken loop but not the mode of breaking ring manufacture, and unbroken loop is easier to manufacture and provide seal more reliably.In addition, after supervisor's component has manufactured, annular construction member can be disposed on supervisor's component as required, and what make at least one part described in changing according to concrete technical requirements thus is configured as possibility.Depend on intensity and the seal request of the second pipe component, the correct intensity of holding device can be selected as supporting the second pipe component when the second pipe component expands, and the correct intensity being responsible for component can be selected as resisting radial load.In prior art designs, two kinds of load all must be carried by same parts, and therefore must buy relatively costly large part blank before mechanical machining.
When fluid expulsion foam is used as device for draining fluid, the unbroken loop of foam can be installed, thus eliminate installing the needs of foam and the needs to use adhesive in section.Therefore, can more effectively usage space, because not cutting in foam, and very close to each other between each separate sections, and correspondingly do not need to allow to hold adhesive.In the profile of existing machining in advance, fluid expulsion assembly is installed to have be less than 7 " be very difficult in the pipe assembly of the internal diameter of (17.5cm).In addition, if wish to reuse pipe component, then foam is difficult to remove (particularly because foam is in position bent) from the groove of one, because foam must be removed by machine, and there is supervisor's component and may be scraped off or damage and the risk that is totally disrupted of foam.And, in layout of the present invention, there are not the needs to machining, because foam ring can be removed and replace simply.
One or more section that it should be understood that one or more section that supervisor's component can comprise the profile of machining in advance and assemble with annular construction member, to optimize the performance of the connection thus produced.And, arrange than existing machining be easier to manufacture because receive section, so make the reception section that described reception area segment length arranges in machining, and set up thus and stronger be connected to become possibility.The annular construction member of assembling is that annular construction member of the present invention can be made and be better than supervisor's component due to another advantage of the annular construction member be integrally formed, and makes material purchases more thus and more cheap.Annular construction member can from suitable blank (ribbon of such as plate, pipe or welding) cutting.
In one arrangement, described or each annular construction member comprises ring or band.Ring is preferably unbroken loop, but can be breaking ring.
By axially sliding at supervisor's component inside or by radially clamping around the inner peripheral surface of supervisor's component, described or each annular construction member can be installed.
Described or each annular construction member can be such as made up of metal, pottery, elastic body or composite material.Described or each annular construction member can comprise the assembling of annular sub-component.
By such as changing spacing between the radial thickness of described or each annular construction member or axial length or overall dimensions and shape, each annular construction member of change, change the material of annular construction member, other elements of the intensity of the described or each annular construction member of impact or above-mentioned combination are provided for described or each annular construction member, the resistance of the radial load to described or each stronger and more weak region can be adjusted.
Can to be expanded at least one part described in the second pipe component by proper implements, the hydraulic expansion tool of such as traditional prior art, taper shifting tool, roller maybe can increase any other instrument of the internal diameter of at least one part described.
Supervisor's component can be the pipeline needing any kind be engaged on the external surface of another more small diameter pipeline for hole, down-hole, such as, crosses flushing device or or even sleeve pipe, bushing pipe, tieback bushing pipe or produce pipeline etc. for fishery operation.Similarly, the second pipe component can comprise the pipeline of any kind for hole, down-hole, pipe, pipeline or conduit.
Can there is a kind of pipe assembly, it comprises:
Supervisor's component, it is for being connected with the second pipe component, and supervisor's component comprises:
Receive section, it is suitable at least one part receiving the second pipe component wherein, so that at least one part described expands radially outwardly against supervisor's component, until the junction surface of one or more sealing is formed between at least one part described and supervisor's component;
Described or each annular construction member provides the resistance to radial load, and receiving fixed annular region radial load to different resistance of the section upper limit, make after at least one demi-inflation described, junction surface is formed between at least one part described and the annular region receiving section;
At least one part wherein said is against reception section radial outward expansion, and one or more junction surface has been formed at least one part described and has received between section.
Can there is the kit comprised for the equipment of tube connector component in the wellbore, this equipment comprises:
Receive section, it is suitable at least one part receiving the second pipe component wherein, so that at least one part described expands radially outwardly against supervisor's component, until one or more junction surface is formed between at least one part described and supervisor's component;
Described or each annular construction member provides the resistance to radial load, and receiving fixed annular region radial load to different resistance of the section upper limit, make after at least one demi-inflation described, junction surface is formed between at least one part described and the annular region receiving section; And
Second pipe component, it is connected with supervisor's component.
Can there is the method for a kind of manufacture for the equipment of tube connector component in the wellbore, the method includes the steps of:
A () is provided for the supervisor's component be connected with the second pipe component, supervisor's component comprises:
B one or more annular construction member is arranged on and receives around section by ();
Described or each annular construction member provides the resistance to radial load, and receiving fixed annular region radial load to different resistance of the section upper limit, make after at least one demi-inflation described, junction surface is formed between at least one part described and the annular region receiving section.
Preferably, the method comprises, and receiving section and annular construction member being remained on the appropriate location received in section, being arranged on by annular construction member in the inner peripheral surface of reception section by axially being slipped into by annular construction member.
According to a second aspect of the invention, provide a kind of method of the component of tube connector in the wellbore, the method comprises the following steps:
Receive section, it is suitable at least one part receiving the second pipe component wherein and one or more annular construction member installed around reception section; Described or each annular construction member provides the resistance to radial load, and is receiving fixed annular region radial load to different resistance of the section upper limit;
B at least one part described is placed in the reception section of supervisor's component by (), make, after at least one demi-inflation described, between described part, to form junction surface; And
C () to be expanded at least one part described, until one or more junction surface is formed between the annular region of the reception section of at least one part described and supervisor's component radially outwardly against reception section.
A first aspect of the present invention be necessary, preferably or optional feature can in conjunction with of the present invention second, third, one or more in the 4th and the 5th aspect provide, and vice versa in appropriate circumstances.
Only in an illustrative manner embodiments of the invention are described now with reference to accompanying drawing, wherein:
Fig. 1 and 2 is the cross sectional side view in each stage of the method for the prior art of tube connector component, does not therefore form a part of the present invention;
Fig. 3 is the cross sectional side view of the method for another prior art of tube connector component, does not therefore form a part of the present invention;
Fig. 4 is the schematic sectional side view of the supervisor's component according to the equipment for tube connector component of the present invention;
Fig. 5 is the schematic sectional side view of supervisor's component after it is assembled with inner annular member of Fig. 4; And
Fig. 6 is the schematic partial section lateral view of the device for draining fluid according to the equipment for Fig. 4 of the present invention; And
Fig. 7 is the schematic partial section lateral view of another device for draining fluid according to the equipment for Fig. 4 of the present invention.
First with reference to Fig. 5, the equipment for tube connector component in the wellbore according to each aspect of the present invention is roughly represented by reference marker 200.Equipment 200 comprises supervisor's component 202, (the second pipe component is not shown in Figure 5 for being connected with the second pipe component for supervisor's component 202, but it is similar to the tube member 1 illustrated in fig 1 and 2, and it sees in Fig. 6 as pipe 271 between the phase of expansion or afterwards).Supervisor's component 202 comprises reception section 204, receive section 204 and be suitable for the part 273 receiving the second pipe component 271 wherein, by radially outer pressure or power being applied to the sidewall of part 273 and more particularly through the endoporus using bloat tool (instrument 3 of the prior art such as shown in Fig. 2 or Fig. 3) high-pressure fluid to be applied to part 273, making part 273 expand radially outwardly.Therefore, expandable part 273 expands against the inner peripheral surface 205 of supervisor's component 202, and the junction surface (not shown) between forming section 273 and supervisor's component 202.Between part 273 and supervisor's component 202, the junction surface that formed provides and is responsible for Fluid Sealing between component 202 and the second pipe component and mechanical connection.Although only figure 6 illustrates just against the part 273 that the inner peripheral surface 205 of supervisor's component 202 expands, in the embodiment described at present, multiple part is like this formed on the second pipe component 271.Principle can use other instruments such as such as taper shifting tool, roller maybe can increase any other instrument of the internal diameter of part 273.
As shown in Figure 4, supervisor's component 202 comprises hollow body 203, and hollow body 203 has the wall of the relative thin of uniform thickness.When mounting equipment 200, multiple annular construction members with resistance ring 206 form slip into the endoporus of reception section 204 from maximum inner diameter end (the top 199 shown in Figure 4) and slide along the endoporus receiving section 204, until they are installed around the inner peripheral surface 205 receiving section 204, and spaced apart along receiving section 204, thus limit groove 211.Ring 206 and groove 211 define annular region radial load to different resistance, to allow the expansion of various piece 273, thus form junction surface between part 273 and the annular region receiving section 204.Resistance ring 206 is preferably unbroken loop, but also can be breaking ring.
Because resistance ring 206 provides in the mode of the isolated system assembled with the reception section 204 being responsible for component 202, the main body 203 being therefore responsible for component 202 can be weaker than (be such as thinner than or be softer than) resistance ring 206.But, be at least responsible for component 202 reception section 204 on the whole (namely when assembling with resistance ring 206) be better than the second pipe component 271.Resistance ring 206 can be such as made up of metal, pottery, elastic body or composite material.Resistance ring 206 can also comprise the assembling of annular sub-component.
Equipment 200 also comprises device for draining fluid, and this device for draining fluid is used for from the interface displacement fluids between part 273 and reception section 204, thus prevents the generation of hydraulically locking.In the embodiment described at present, device for draining fluid comprises the fluid expulsion ring 208 such as, be made up of fluid expulsion material (such as, closed-cell foam, metal foam or synthetic foam).Fluid expulsion ring 208 is placed in each groove 211, so that anti-fluid enters groove 211.Fluid expulsion ring 208 can crush and maybe can subside under external pressure.Fluid expulsion ring preferably can absorb some fluids when subsiding, minimize the risk that hydraulically locking occurs thus further.Such fluid can be present in around fluid expulsion ring 208 before fluid expulsion ring 208 subsides, or can move towards fluid expulsion ring 208 between the phase of expansion of the various piece 273 of the second pipe component 271.Resistance ring 206 and fluid expulsion ring 208 are formed in be had in inner peripheral surface that is stronger and more reception section 204 region of weak resistance alternately radial load.Because resistance ring 206 can not be out of shape, and fluid expulsion ring 208 can be compressed by the part 273 of the second pipe component 271 and crush, and therefore resistance ring 206 more can resist the radial outward expansion of expandable part than fluid expulsion ring 208.Between the phase of expansion, circumferential projection 274 is formed on the outside of part 273, and circumferential projection 274 compresses and crushes fluid expulsion ring 208, and enters each groove 211 thus, thus is formed thus and the junction surface receiving section 204.Therefore, the expansion of part 273 causes the length of the second pipe component 271 to need the profile of fold (as seen in figure 6).In this way, a) sealing and b) mechanical connection produce at expandable part 273 and receive between section 204.
Therefore the junction surface between the supervisor's component 202 formed and the second pipe component 271 has the ability of resisting axial load and acting on the fluid pressure be responsible between component 202 and the second pipe component 271.This junction surface machinery created between two pipe components 202,271 is fixed and is responsible for the sealing between component 202 and the second pipe component 271.The reception section 204 of supervisor's component 202 and the second pipe component 271 can be made of metal or at least comprise metallic member, and when part 273 expands against supervisor's component 202, this metallic member forms the junction surface of metal to the sealing of metal.Junction surface is formed due to the initial elastic deformation of the material of the reception section 204 of part 273 and supervisor's component 202 and plastic deformation then.
Fluid expulsion ring 208 preferably comprises unbroken loop, but can be breaking ring.
Still with reference to Fig. 5, supervisor's component 202 comprises the fastener provided with the form of circumferential Anchoring recess, circumference Anchoring recess is provided in the inner peripheral surface 205 receiving section 204 with the form of anchoring groove 216, for when one or more corresponding part (not shown) of the second pipe component 271 expand in anchoring groove 216 and the second pipe component 271 formed and be mechanically connected.This mechanical connection needs not to be fluid-tight, because it does not need to produce wiper seal with the second pipe component 271.Alternately or extraly, although not shown in figures, but fastener can comprise the ring-shaped clamping member be arranged in the inner circumferential receiving section 204, resist axis and/or the rotary motion of supervisor's component 202 for the external surface by clamping the second pipe component 271.Device is below particularly advantageous, because it makes reception section 204 be easier to manufacture.
Supervisor's component 202 comprises the multiple annular seat component provided with the form of joint ring 212 further, annular seat component can be made by having the suitable material being beneficial to the character sealed with metal second pipe component 271, such as elastic body, metal or ceramic composite.Joint ring 212 is installed in the inner peripheral surface 205 of reception section 204, to provide extra fluid and wiper seal, thus improves the sealing performance of equipment 200.Joint ring 212 replaces with resistance ring 206 and fluid expulsion ring 208 in the axial direction.Although not shown in figures, joint ring 212 can have the circumferential edge of relatively sharp (i.e. non-circular or chamfering), for high contact is applied to the second pipe component 271.
Maintaining body is provided at and receives in section 204, for remaining on appropriate location by being arranged on resistance ring 206, fluid expulsion ring 208 and the joint ring 212 received in section 204, and expands along with the second pipe component 271 and supports the second pipe component 271.In the embodiment described at present, maintaining body is included in the retaining ring 214 at one end (the top 199 shown in Figure 5) place receiving section 204 and the flange 218 in the inner circumferential at the other end (shown in Figure 5 bottom 195) place receiving section 204.Retaining ring 214 can soldered, be threaded, shrink-fit or otherwise be fixed on receive section 204 inner circumferential on.Can instead or extraly, resistance ring 206 can via interference fit, weld, to be threaded or some other suitable methods are fixed to the inner circumferential receiving section 204.
Fig. 6 shows the alternative or other variant of device for draining fluid.In the variant of Fig. 6, the annular construction member receiving section 204 provides with the form of hollow resistance ring 260, hollow resistance ring 260 plays a role in the mode that the resistance ring 206 with Fig. 5 is identical in fact, but has extraly for receiving and holding each inner chamber 262 of the fluid from adjacent grooves 211.Each valve 220 is disposed between each chamber 262 in groove 211 and adjacent resistance ring 260, with convenient fluid suffer from part 273 expand into the pressure of the circumferential projection 274 in groove 211 time, along with the pressure in groove 211 increases, fluid is allowed to transfer in chamber 262 from groove 211.Valve 220 can be one way valve, and when the pressure in groove 211 increases, this one way valve allows fluid effusion, and after being formed with the junction surface receiving section 204, this one way valve is by projection 274 hermetically closing in part 273.
As shown in Figure 7, at an embodiment clock, fluid passage 221 is provided at and receives in section 204, to guide fluid away from anchoring groove 216 during the part (not shown in the figure 7) of the second pipe component 271 expand in anchoring groove 216, to provide the described part of the second pipe component 271 to the larger displacement in anchoring groove 216.More specifically, reception section 204 is included in the annular projection 219 in the inner circumferential 205 of the contiguous Anchoring recess 216 receiving section 204, and passage 221 is formed in annular projection 219.Passage 221 is (namely relative to reception section 204 roughly along its length) extension in a substantially axial direction, and spaced apart on each projection 219 inner circumferential ground.The other annular groove provided with the form of groove 280 is limited in the inner circumferential 205 receiving section 204, for receiving via described or each passage 221 and holding the fluid from anchoring groove 216 in-migration.Other groove 280 is axially spaced apart with anchoring groove 216, and is separated with anchoring groove 216 by annular projection 219, and annular projection 219 and other groove 280 are alternately.Other groove 280 accommodation is similar to fluid expulsion ring 208 shown in Figure 5, to pass through from other groove 280 displacement fluids on the one hand, and on the other hand by by absorb during compression via passage 221 to be forced into from anchoring groove 216 other groove 280 a certain amount of fluid and/or by the dilation of the second pipe component 271 outside other groove (annular space between the external surface and the inner surface 205 of supervisor's component 202 of the second pipe component 271) be forced into the fluid of other groove 280, the risk of hydraulically locking is there is in the demi-inflation being minimized in the second pipe component 271 to period in anchoring groove 216.Although not shown in figures, annular projection can the form of removable ring provide, and is such as arranged on the above-mentioned resistance ring 206 in the inner circumferential 205 receiving section 204.This device allows the part of the second pipe component 271 than being projected into more in anchoring groove 216 when there are not passage 221 and other groove 280.And what can maintain with phase same level when there are not passage 221 and other groove 280 is outstanding, but can provide the reception section 204 pressure to more high-drag.
Although not shown in figures, but the passage being similar to passage 221 may be provided in the resistance ring 206 receiving section 204, guide fluid to leave to be limited at one or more annular groove 211 between resistance ring 206, and the part 273 being convenient to the second pipe component 271 thus to expand in annular groove 211.Fluid expulsion ring 208 may be provided in some but in the annular groove 211 of not all (such as, one is provided in every two annular grooves 211), never provide the adjacent grooves 211 of fluid expulsion ring 206 be forced into a certain amount of fluid in annular groove 211 and/or be forced into from the annular space between the external surface of the second pipe component 271 and the inner surface 205 of supervisor's component 202 fluid be equipped with the annular groove 211 of fluid expulsion ring 206 by the dilation 273 of the second pipe component 271 for absorbing after being compressed via passage.Therefore, the part 273 of the second pipe component 271 can be projected in annular groove 211 more than when there is not passage, or can maintain the outstanding of phase same level when providing the reception section 204 pressure to more high-drag.
In another variant not shown in figures, device for draining fluid is included in the subsided ring (such as, hollow ring) in described or each groove 211.Hollow ring is configured to subside when this ring suffers certain pressure.The ring that can subside works in the mode being similar to fluid expulsion foam, and namely when hollow ring is complete, anti-fluid enters groove 211, and subsides under the power of the circumferential projection 274 of part 273.The ring that can subside can play a role under the temperature and pressure higher than the temperature and pressure can resisted by fluid expulsion foam.And the subsided ring suitably selected can hold the fluid volume larger than fluid expulsion foam.Equally, the subsided ring suitably selected can hold the fluid volume larger than fluid expulsion foam.The ring that can subside can use in conjunction with above-mentioned passage, thus replaces foam ring 208.
By from its one end 199 and particularly sliding axially one by one with the order finally expected from one end 199 (described one end 199 is the tops shown in Figure 5) relative with the end with shoulder 218 being responsible in component 202, resistance ring 206, fluid expulsion ring 208, joint ring 212 and retaining ring 214 are easy to and are responsible for component 202 and assemble, and if need, can remove easily in reverse order via described end 199 and be replaced.
Supervisor's component 202 can be the pipeline needing any kind be engaged on the external surface of another more small diameter pipeline 271 for hole, down-hole, such as, crosses flushing device or or even sleeve pipe, bushing pipe, tieback bushing pipe or produce pipeline etc. for fishery operation.Similarly, the second pipe component 271 can comprise pipeline for any kind in hole, down-hole or conduit, or or even up to the present also not for any pipe in hole, down-hole.
Although be described above specific embodiments of the invention, will be appreciated that various amendment can fall within the scope of the present invention.
1., for an equipment for tube connector component in the wellbore, described equipment comprises:
Supervisor's component, it is for being connected hermetically with the second pipe component, and described supervisor's component comprises:
Receive section, it is suitable at least one part receiving described second pipe component wherein, to allow at least one part described to expand radially outwardly against described supervisor's component, until one or more junction surface is formed in described between at least one part and described supervisor's component;
Wherein said supervisor's component comprises one or more annular construction member installed around described reception section;
Described or each annular construction member provides the resistance to radial load, and in the fixed annular region described radial load to different resistance of the described reception section upper limit, make after at least one demi-inflation described, junction surface is formed in described between at least one part and the described annular region of described reception section.
2. equipment according to claim 1, one or more annular construction member wherein said is installed around the inner circumferential at least partially of the axial length of the described reception section of described supervisor's component.
3. equipment according to claim 1 and 2, one or more junction surface described wherein produced is the connection of sealing.
4. the equipment according to aforementioned arbitrary claim, one or more junction surface described wherein produced firmly connects.
5. equipment according to claim 4, the described reception section of wherein said supervisor's component and at least one part described of described second pipe component comprise metallic member, when at least one part described in described second pipe component expands against described supervisor's component, described metallic member forms the junction surface of metal to metal.
6. the equipment according to aforementioned arbitrary claim, wherein more weak resistance area and stronger resistance area are submitted at described reception section and are replaced.
7. equipment according to claim 6, wherein multiple annular construction member with can fit together by receiving unit, thus one or more groove is limited with the form of circumferential grooves between described annular construction member, region more weak described in described or each groove provides, and described annular construction member provide described in stronger region.
8. the equipment according to aforementioned arbitrary claim, wherein said equipment comprises device for draining fluid, and it is for from the interface displacement fluids described in described second pipe component between at least one part and described reception section, to prevent the generation of hydraulically locking.
9. equipment according to claim 8, wherein said device for draining fluid comprises the device for draining fluid being arranged in one or more groove.
10. equipment according to claim 9, wherein said device for draining fluid has the loop configurations of loop type.
11. equipment according to claim 8 or claim 9, wherein said device for draining fluid comprises the fluid expulsion material be selected from the group comprising closed-cell foam, metal foam and synthetic foam.
12. equipment according to claim 10, wherein said device for draining fluid comprises hollow and can to subside ring.
13. equipment according to claim 9, wherein said device for draining fluid comprises the valve be arranged in described or each groove, and described valve is configured to allow fluid to leave described groove when described fluid suffers the pressure from the described part of described second pipe component between the phase of expansion.
14. equipment according to claim 13, described valve is one way valve, and when the pressure in described groove increases, described one way valve allows fluid effusion, and after the junction surface with described reception section is formed, described one way valve is by described part hermetically closing.
15. equipment according to claim 13 or 14, wherein said annular construction member limits one or more inner chamber, and described valve is disposed between described or each groove and adjacent chambers, when increasing with the pressure in the described groove of box lunch, described fluid is allowed to transfer in described chamber.
16. equipment according to any one of claim 2 to 15, wherein said supervisor's component is included in the fastener in the described inner circumferential of described reception section further, is mechanically connected for being formed with described second pipe component.
17. equipment according to claim 16, wherein said fastener comprises one or more circumferential Anchoring recess.
18. equipment according to claim 17, one or more circumferential Anchoring recess wherein said is the groove in the described inner circumferential of described reception section.
19. equipment according to claim 17 or 18, one of them or more a fluid passage be provided in described reception section, to guide fluid away from described Anchoring recess between the phase of expansion of the described part of described second pipe component.
20. equipment according to claim 19, wherein said reception section is included in the annular projection in the described inner circumferential of the described Anchoring recess of vicinity of described reception section, and one or more passage is formed in described annular projection.
21. equipment according to claim 19 or 20, wherein said or each passage extends in a substantially axial direction.
22. equipment according to claim 20 or 21, wherein multiple passage is spaced apart on annular projection inner circumferential ground.
23. equipment according to any one of claim 20-22, wherein be limited at the described inner circumferential of described reception section via described or each passage from the other annular groove of the fluid of described Anchoring recess in-migration for receiving and holding, described other groove and described Anchoring recess axially spaced apart and separated by described annular projection and described Anchoring recess.
24. equipment according to claim 23, wherein said other annular groove is groove.
25. equipment according to claim 23 or 24, wherein multiple there is passage annular projection and corresponding multiple other annular groove alternately provide.
26. equipment according to any one of claim 23-25, wherein said other annular groove holds the device for draining fluid according to any one of claim 9-15.
27. equipment according to any one of claim 19-26, wherein said passage is on described annular construction member.
28. equipment according to any one of claim 16-26, wherein said fastener comprises the ring-shaped clamping member in the described inner circumferential being arranged on described reception section.
29. equipment according to aforementioned arbitrary claim, wherein said supervisor's component is included in one or more annular seat component in the inner peripheral surface of described reception section.
30. equipment according to claim 29, one or more annular seat component wherein said is the joint ring be made up of the material be selected from the group comprising elastic body, metal, pottery and composite material.
31. equipment according to claim 29 or 30, wherein said containment member in the axial direction with described annular construction member alternately.
32. equipment according to any one of claim 29-31, wherein said containment member has relatively sharp circumferential edge, and this circumferential edge is for being applied to described second pipe component by high contact.
33. equipment according to aforementioned arbitrary claim, wherein said equipment comprises the maintaining body being suitable for the described annular construction member be assembled on described reception section being remained on appropriate location.
34. equipment according to claim 33, wherein said maintaining body comprises one or more retaining ring.
35. equipment according to claim 34, wherein said maintaining body comprises a pair retaining ring, has a retaining ring at every one end place of described reception section.
36. equipment according to claim 34 or 35, wherein said retaining ring is fixed in the described inner circumferential of described reception section.
37. equipment according to aforementioned arbitrary claim, wherein said or each annular construction member is fixed on described supervisor's component.
38. according to equipment according to claim 37, and wherein said or each annular construction member comprising via interference fit by being selected from, to weld and fastening devices in the group that is threaded is fixed on described supervisor's component.
39. equipment according to aforementioned arbitrary claim, the main body of wherein said supervisor's component is weaker than described annular construction member.
40. equipment according to aforementioned arbitrary claim, at least described reception section of wherein said supervisor's component and described annular construction member are better than described second pipe component.
41. equipment according to aforementioned arbitrary claim, at least described reception section of wherein said supervisor's component has roughly uniform wall thickness.
42. equipment according to aforementioned arbitrary claim, at least described reception section of wherein said supervisor's component has roughly uniform diameter.
43. equipment according to aforementioned arbitrary claim, wherein said or each annular construction member comprises ring.
44. equipment according to claim 43, wherein said ring is unbroken loop.
45. equipment according to claim 44, wherein said ring is breaking ring.
46. equipment, one or more section that wherein said supervisor's component comprises the profile of machining in advance and one or more sections assembled with described annular construction member according to aforementioned arbitrary claim.
47. equipment according to aforementioned arbitrary claim, wherein said or each annular construction member is made up of the material being selected from the group comprising metal, pottery, elastic body or composite material.
48. equipment according to aforementioned arbitrary claim, wherein said or each annular construction member comprises the assembly of annular sub-component.
49. equipment according to aforementioned arbitrary claim, wherein said supervisor's component is the pipeline for hole, down-hole, and described pipeline is selected from and comprises crossing flushing device, sleeve pipe, bushing pipe, tieback bushing pipe and producing the group of pipeline for fishery operation.
The method of 50. 1 kinds of tube connector components in the wellbore, described method comprises following steps:
A () is provided for the supervisor's component be connected with the second pipe component, described supervisor's component comprises:
Receive section, it is suitable at least one part receiving described second pipe component wherein and one or more annular construction member installed around described reception section; Described or each annular construction member provides the resistance to radial load, and in the fixed annular region described radial load to different resistance of the described reception section upper limit;
B at least one part described is placed in the described reception section of described supervisor's component by (); And
C () to be expanded at least one part described, until one or more junction surface is formed between the described annular region of the described reception section of at least one part described and described supervisor's component radially outwardly against described reception section.
51. methods according to claim 50, wherein step (c) comprises and to expand radially outwardly at least one part described against described reception section, seals with the inner surface against described reception section.
52. methods according to claim 50 or 51, wherein step (c) comprises and to expand radially outwardly at least one part described against described reception section, to form the circumferential projection of each groove entered on described reception section at least one part described, thus formation junction surface, at least one part wherein said has the fold profile thus produced.
53. methods according to any one of claim 50-52, wherein said method comprises following steps further: opposing axial load and the fluid pressure acted between described supervisor's component and described second pipe component.
54. methods according to any one of claim 50-53, wherein said method comprises the following steps: the material of at least one part described is flexibly distortion and being then plastically out of shape at first.
55. methods according to claim 54, wherein said method comprises the following steps: be out of shape with making the elastic properties of materials of described second pipe component.
56. methods according to any one of claim 50-55, wherein step (c) comprising: along with described demi-inflation, causes fluid to discharge constantly from the interface between the described part and described reception section of described second pipe component.
57. methods according to claim 56, wherein step (a) comprises the ring that can subside and is arranged in the groove that formed between annular construction member, and step (c) comprises and enters described groove by the anti-fluid of the action of described ring, and based on the pressure from projection, described ring is subsided.
58. methods according to claim 56, wherein step (a) comprises the groove being positioned at by valve and being formed between annular construction member, and step (c) comprises permission along with pressure increase by described valve displacement fluids, then, when forming described junction surface, described valve is sealed with projection.
59. methods according to any one of claim 56-58, wherein step (c) comprises and guides fluid from described interface by one or more passage described reception section.
60. methods according to claim 57, wherein step (c) comprises the fluid absorbed in described ring.
61. methods according to any one of claim 50-60, wherein step (a) comprises the following steps: one or more annular construction member described is fixed to described supervisor's component.
62. methods according to any one of claim 50-61, wherein step (a) comprises one or more annular construction member described is slipped in described supervisor's component.
63. methods according to any one of claim 50-61, the inner peripheral surface that wherein step (a) comprises around described supervisor's component radially clamps one or more annular construction member described.
64. methods according to any one of claim 50-63, wherein step (c) comprising: be clamped in by the external surface of described second pipe component in the described inner circumferential of described reception section, and resists axis and the rotary motion of described supervisor's component.
65. methods according to any one of claim 50-64, wherein step (c) comprises the following steps: radial load is applied to by using hydraulic fluid described part that described part expands.
66. methods according to any one of claim 50-64, wherein step (c) comprises the following steps: be advanced through described second pipe component and the described part that expands by making taper shifting tool.
CN201380035431.5A 2012-07-06 2013-06-27 Pipe is connected CN104508238B (en)
GB1212053.1 2012-07-06
GBGB1212053.1A GB201212053D0 (en) 2012-07-06 2012-07-06 A tubular connection
GBGB1300442.9A GB201300442D0 (en) 2013-01-10 2013-01-10 A Tubular Connection
GB1300442.9 2013-01-10
PCT/GB2013/051699 WO2014006374A2 (en) 2012-07-06 2013-06-27 A tubular connection
CN104508238A true CN104508238A (en) 2015-04-08
CN104508238B CN104508238B (en) 2017-06-13
ID=48906436
CN201380035079.5A CN104487651B (en) 2012-07-06 2013-06-27 Pipe is connected
CN201380035431.5A CN104508238B (en) 2012-07-06 2013-06-27 Pipe is connected
US (2) US9567837B2 (en)
EP (2) EP2893132B1 (en)
CN (2) CN104487651B (en)
AU (4) AU2013285208B2 (en)
BR (2) BR112014033052A2 (en)
DK (1) DK2893132T3 (en)
GB (2) GB2504845B (en)
NO (1) NO2893131T3 (en)
WO (2) WO2014006374A2 (en)
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2013-06-27 CN CN201380035079.5A patent/CN104487651B/en active IP Right Grant
2013-06-27 GB GB1311404.6A patent/GB2504845B/en active Active
2013-06-27 AU AU2013285208A patent/AU2013285208B2/en active Active
2013-06-27 EP EP13742676.3A patent/EP2893132B1/en active Active
2013-06-27 BR BR112014033052A patent/BR112014033052A2/en active Search and Examination
2013-06-27 CN CN201380035431.5A patent/CN104508238B/en active IP Right Grant
2013-06-27 DK DK13742676.3T patent/DK2893132T3/en active
2013-06-27 US US13/928,447 patent/US9567837B2/en active Active
2013-06-27 WO PCT/GB2013/051699 patent/WO2014006374A2/en active Application Filing
2013-06-27 WO PCT/GB2013/051698 patent/WO2014006373A2/en active Application Filing
2013-06-27 NO NO13742675A patent/NO2893131T3/no unknown
2013-06-27 EP EP13742675.5A patent/EP2893131B8/en active Active
2013-06-27 US US13/928,668 patent/US9926771B2/en active Active
2013-06-27 AU AU2013285209A patent/AU2013285209B2/en active Active
2013-06-27 BR BR112014033050A patent/BR112014033050A2/en active Search and Examination
2013-07-01 GB GB1311408.7A patent/GB2504847B/en active Active
2017-09-22 AU AU2017232172A patent/AU2017232172A1/en not_active Abandoned
2017-09-22 AU AU2017232171A patent/AU2017232171A1/en not_active Abandoned
AU2017232172A1 (en) 2017-10-12
EP2893131B1 (en) 2017-09-13
US20140008081A1 (en) 2014-01-09
WO2014006373A2 (en) 2014-01-09
DK2893132T3 (en) 2017-01-30
EP2893132A2 (en) 2015-07-15
GB2504845A (en) 2014-02-12
AU2013285209A1 (en) 2015-01-22
EP2893132B1 (en) 2016-10-19
US20140008082A1 (en) 2014-01-09
GB201311404D0 (en) 2013-08-14
GB2504847B (en) 2014-09-24
AU2017232171A1 (en) 2017-10-12
CN104508238B (en) 2017-06-13
EP2893131B8 (en) 2017-11-15
US9567837B2 (en) 2017-02-14
BR112014033052A2 (en) 2017-06-27
NO2893131T3 (en) 2018-02-10
GB2504845B (en) 2014-06-25
AU2013285208B2 (en) 2017-10-12
CN104487651A (en) 2015-04-01
CN104487651B (en) 2017-08-08
WO2014006374A3 (en) 2014-12-31
WO2014006374A2 (en) 2014-01-09
GB201311408D0 (en) 2013-08-14
EP2893131A2 (en) 2015-07-15
AU2013285209B2 (en) 2017-10-12
AU2013285208A1 (en) 2015-01-22
GB2504847A (en) 2014-02-12
US9926771B2 (en) 2018-03-27
BR112014033050A2 (en) 2017-06-27
WO2014006373A3 (en) 2014-12-24
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2017-10-27 TR01 Transfer of patent right
Effective date of registration: 20171009
Address after: Southern Holland Province, Holland
Patentee after: Schlumberger
Address before: Aberdeen, England
Patentee before: META DOWNHOLE LTD.