CN101545372B

CN101545372B - Carrier for pipe conveying well measuring component

Info

Publication number: CN101545372B
Application number: CN2009101387896A
Authority: CN
Inventors: 哈罗德·S·比索内特; 托多·K·希雷托夫; 克里斯托弗·S·德尔坎波; 马修·麦科伊
Original assignee: Prad Research and Development Ltd
Current assignee: Prad Research and Development Ltd; Prad Research and Development NV
Priority date: 2008-02-14
Filing date: 2009-02-16
Publication date: 2013-07-10
Anticipated expiration: 2029-02-16
Also published as: CN101545362B; CN101545362A; CN101545375A; CN101545375B; CN101545372A

Abstract

The invention provides a pipe conveying well measuring component, comprising: a pipe column; a carrier component that is connected to the pipe column and comprises an inner shell and an outer shell; and a storage well measuring tool that is carried by the carrier component and moves from a retractable position protected in the inner shell to an extensible position at least partially extending out of the lower end of the carrier component.

Description

The delivery assembly that is used for the pipe conveying well measuring assembly

Technical field

The present invention relates generally to well logging, relates in particular to the logging operation based on the pipe delivery reservoir.

Background technology

Logging tool generally is used for underground oil gas pit shaft to obtain the geology information of relevant pit shaft.These logging tools usually utilize the armouring wirerope by gravity tool guides to be arrived pit shaft.The wire rope cable provides a kind of mode to come control tool to descend and the location, transmits data from down well placement to wellbore surface, and fetches described instrument from pit shaft.The pit shaft situation, for example pit shaft tilts greater than about 60 degree from vertical direction, and/or serious wash away or outstandingly be generally considered to be the well logging operating mode (TLC) of difficulty and generally be not suitable for carrying out the setting of gravity instrument with common armouring wirerope device.The conveying arrangement that this situation often needs other is drilling pipe for example, arrives the position that the TLC pit shaft need be logged well.In addition, perhaps interchangeable mode is, can use tractor auxiliary in transit.

The logging tool of drilling rod transportation generally includes the logging tool based on radio or memory.These instruments are battery-operated by the down-hole usually, and are equipped with the storage arrangement of the data that storage of collected arrives.At present, in order to obtain the data of collection, these wireless tools must get back to ground from pit shaft.This fetching lost time, and needs usually 15 hours or manyly just can finish.Because finish fetch before there is no telling test whether correctly implement or data collection whether correctly, therefore, increased sizable risk to logging operation.

Because this potential risks under the driving that increasing horizontal drilling is used, and under the driving of saving the well logging expense relevant with the well-regulated operation, need the logging operation of drilling rod transportation more and more.Therefore, need to improve pipe conveying well measuring instrument and/or technology.

Summary of the invention

One embodiment of the present of invention comprise the method that pipe conveying well measuring assembly and a kind of application are carried out the pit shaft logging operation with the logging tool of memory mode operation.

An alternative embodiment of the invention comprises that one is transported and place the mechanical device of memory logging tool by the pipeline assistant conveyance, keeps pump to pass through and oil well control function simultaneously.

An alternative embodiment of the invention comprises the long-range device of fetching the data that obtained by underground storage device logging tool.

Description of drawings

Consider in conjunction with following accompanying drawing, and with reference to the back detailed description, will be better understood the embodiment of example of the present invention, wherein:

Fig. 1 is the schematic diagram that is arranged on the pipe conveying well measuring assembly in the underground oil and gas pit shaft according to one embodiment of present invention;

Fig. 2 is the memory logging tool that forms the pipe conveying well measuring assembly part of Fig. 1, and for clear, the memory logging tool takes off from the remainder of assembly;

Fig. 3 is the enlarged drawing of the part among the Fig. 2 of details 3 intercepting from Fig. 2;

Fig. 4 is the schematic diagram of delivery assembly that forms the pipe conveying well measuring assembly part of Fig. 1;

Fig. 5 is the memory logging tool shown in Figure 2 that is withdrawn in the delivery assembly, forms the part of pipe transportation logging assembly shown in Figure 1;

Fig. 6 A-6B separately shown in the enlarged drawing of a part among Fig. 5 of details 6 intercepting from Fig. 5, wherein Fig. 6 A is depicted as the valve module of open mode, Fig. 6 B is depicted as the valve module of closed condition;

Fig. 6 C is the enlarged drawing of the valve module of Fig. 6 A, is depicted as the valve module of open mode;

Fig. 7 is the vertical view of external surface of the valve module of Fig. 6 A-6C;

Fig. 8 is the vertical view with the external surface of the interactional piston of valve module of Fig. 6 A-6C;

Figure 9 shows that the memory logging tool from Fig. 2 that the delivery assembly stretches out, form the part of the pipe conveying well measuring assembly of Fig. 1;

Figure 10 is the enlarged drawing of the part among the Fig. 9 of details 10 intercepting from Fig. 9;

Figure 11 shows that from the long-range fishing tool of fetching log data of pipe conveying well measuring assembly;

Figure 12 shows that the memory logging tool according to alternative embodiment of the present invention; With

Figure 13 shows that from the long-range pumpable boomerang shape thing of fetching log data of pipe conveying well measuring assembly.

The specific embodiment

Embodiments of the invention shown in Fig. 1-13 are a pipe conveying well measuring assembly 10.This assembly 10 comprises a tubing string 12, and for example coiled tubing or drilling pipe bar are connected on the delivery assembly 20 of delivery memory logging tool 24.When needs are logged well, can the ground 14 by underground oil and gas pit shaft 16 on suitable ground installation 18 drive tubing strings 12 and wish the positions of logging well in the pit shaft 16.This driving of tubing string 12 allows assembly 10 to use in the pit shaft of the well logging operating mode (TLC) of difficulty.

Yet transport assembly 10 required driving forces may be broken the memory logging tool 24 fragile relatively to external force easily into pieces.Therefore, when assembly 10 was driven into need log well regional at full tilt, memory logging tool 24 was protected in delivery assembly 20.The above-mentioned protective position of memory logging tool 24 is arranged in the delivery assembly 20, referred to herein as retracted position (for example shown in Figure 5).

As described below, when arriving the position that needs well logging, memory logging tool 24 can eject from delivery assembly 20, makes memory logging tool 24 stretch out from the bottom of delivery assembly 20.The above-mentioned ejected position of memory logging tool 24 is referred to herein as extended position (for example shown in Figure 9).At extended position, memory logging tool 24 can begin its memory well logging work.

In order to highlight the internal construction of pipe conveying well measuring assembly 10, Figure 2 shows that the memory logging tool of separating from delivery assembly 20 24.As shown in the figure, memory logging tool 24 is connected with allotment 22.In an embodiment, rotatable erecting device, for example low torque swivel coupling 26 is used for connected storage logging tool 24 and allotment 22.By above-mentioned connection, allotment 22 can be as shown in arrow 28 be rotated around longitudinal axis with respect to memory logging tool 24.Therefore, under the situation that allotment 22, delivery assembly 20 and tubing string 12 rotate together, it is static that memory logging tool 24 can keep.Torque can not be delivered on the memory logging tool 24 when in other words, turning swivel coupling 26 permission tubing strings 12 and 20 rotations of delivery assembly.

Still shown in the enlarged drawing of Fig. 2 and Fig. 3 and following further describing, allotment 22 comprises having the collet chuck 30 of radially movably locking pawl 32.These lock pawls 32 are combined with the part of delivery assembly 20, and memory logging tool 24 is fixed tightly in foregoing retracted position or foregoing extended position.Still shown in Fig. 2-3 and following further describing, seal 34 extends from the external surface of allotment 22.In addition, in an embodiment, fishing neck 25 is connected to the upper end of allotment 22, and its meaning will be in following description.

Still as shown in Figure 2, memory logging tool 24 comprises battery 21.Battery 21 can be operated in the logging operation process, for memory logging tool 24 provides power.Memory logging tool 24 can also comprise memory module 23, gathers and store the log data that is obtained by memory logging tool 24 in the logging operation process.The method of fetching the log data of being gathered by memory module will be in following description.

Figure 4 shows that the rough schematic of delivery assembly 20.As shown in the figure, delivery assembly 20 comprises inner housing 36 and shell body 38.In an embodiment, inner housing and

shell body

36,38 can be the cylindrical-shaped structure basically that arranges with one heart respectively.In an embodiment, shell body 38 tops comprise connecting the union 55 of tubing string 12; The bottom of shell body 38 comprises guide plate 65.Guide plate 65 can comprise the reamer section of trough of belt.In an embodiment, union 55 comprises that interior profile admits flap valve under the pump, and this flap valve can be installed in advance in advance, as the service valve of pre-well blowout preventing.What it should be noted that the left side dotted line of the memory logging tool 24 among Fig. 4 represents is the retracted position of memory logging tool 24, and what the right side dotted line of the memory logging tool 24 among Fig. 4 was represented is the extended position of memory logging tool 24.

As following detailed description, inner housing 36 comprises and ejects assembly 40, receiving unit 44 and transitional region 42 between them is set.Here simple the description and following detailed description ejected assembly 40 and comprised that the top latch is used for memory logging tool 24 is remained on retracted position, and receiving unit 44 comprises that the bottom latch is used for memory logging tool 24 is remained on extended position.

Eject assembly 40 and also comprise valve module (describing in detail below in conjunction with Fig. 6 A-8), being used for endoporus 48 or the annular space between the inner and

outer shell

36,38 46 by inner housing 36 of directing fluid optionally flows.If delivery assembly 20 is simple drilling rod pipes, then the latch of above-mentioned upper and lower and the above-mentioned flow path that replaces can not be realized.

Figure 5 shows that the memory logging tool 24 at retracted position.Fig. 6 A-6B is depicted as the amplification of the part of Fig. 5.Shown in Fig. 6 A-6B, eject the part that assembly 40 forms delivery assembly 20 inner housings 36.The inner surface that ejects assembly 40 comprises and an allotment profile (described herein is top latch profile 50) that 22 lock pawls, 32 outlines match.Therefore, when the lock pawl 32 of allotment 22 cooperated with the top latch profile 50 that delivers assembly 20, memory logging tool 24 was tightened securely at retracted position.

Figure 9 shows that the memory logging tool 24 at extended position.Figure 10 shows that the guide wire of alternative shape of Fig. 9.As shown in figure 10, receiving unit 44 forms the part of delivery assembly 20 inner housings 36.The inner surface of receiving unit 44 comprises the profile (referred to herein as bottom latch profile 52) that matches with the outline of allotment 22 a lock pawl 32.Therefore, when the lock pawl 32 of allotment 22 cooperated with the bottom latch profile 52 that delivers assembly 20, memory logging tool 24 was tightened securely at extended position.

Fig. 6 A-8 is depicted as according to an embodiment of the invention, and how memory logging tool 24 moves to extended position from retracted position.As shown in Figure 6A, piston 54 forms the top of ejecting assembly 40.What rotatably center on the installation of piston 54 external surfaces is valve module 56.Yet valve module 56 also comprises the projection that extends internally 58 that cooperates with the groove 60 that extends of circumference on piston 54 external surfaces 62, and like this, valve module 56 can be vertically moved (still shown in Fig. 6 C and 8) by piston 54.

Shown in Fig. 6 A was further, the external surface 66 of valve module 56 comprised " J-shaped " groove 64 (still referring to Fig. 6 C and 7) that a circumference extends.Stationary pin 68, for example the dog screw that extends radially inwardly from the shell body 38 that delivers assembly 20 matches with " J-shaped " groove 64.Therefore, will describe in detail below, piston 54 vertically moves together with the shell body pin 68 that cooperates with valve " J-shaped " groove 64 and the valve projection 58 that cooperates with piston groove 60, makes 56 of valve groups rotatablely move and lengthwise movement with respect to piston 54.These motions make valve module 56 below with conversion between the open position (Fig. 6 A) that further describes and the fastening position (Fig. 6 B).

When pipe conveying well measuring assembly 10 is transported to the down-hole when the pit shaft 16 more and more deeply, the pit shaft static pressure of pipe conveying well measuring assembly 10 outsides increases gradually, has therefore produced huge pressure reduction between the external environment condition of the internal environment of assembly 10 and assembly 10.If this pressure reduction is too big, the internal parts in the assembly 10 will misplace and/or damage, when extreme pressure reduction, and assembly 10 itself even may subside or break.

Therefore, can produce that pressure reduction increases between the inside and outside environment that internal pressures stop assembly 10 in that assembly 10 is inner.This internal pressure can produce by assembly 10 pumping circulation fluids.Above the ground installation of describing 18 can be comprised pump, be used for providing this circulation of fluid to assembly 10.

Therefore, when pipe conveying well measuring assembly 10 was transported to the position that need log well the down-hole, valve module 56 typically remained on run location in open position among Fig. 6 A or the hole, to allow circulation of fluid pumping thus.It should be noted that the open position at valve module 56, hole 72 fluids of piston 54 connect the endoporus 48 of inner housing 36 to the annular space 46 between delivery assembly 20 inner and outer shells 36,38.Therefore, when valve module 56 during at open position, circulation of fluid allows along the path flow shown in the arrow 70.As shown in Figure 6A, when circulation of fluid was passed through assembly 10 pumpings, fluid was by piston hole 72 rather than continue descending along the endoporus 48 of inner housing 36.This is because formed the fluid sealing between the external seal 34 of the inner surface 74 that ejects assembly 40 and allotment 22.

Therefore; when memory logging tool 24 at retracted position; inner housing 36 protections by delivery assembly 20; and valve module 56 is when open position; do not allow circulation of fluid to enter the endoporus 48 of inner housing 36 (memory logging assembly 24 is arranged on this); but allow via the annular space 46 between the inner and

outer shell

36,38 by assembly 10.Therefore, when circulation of fluid flows by assembly 10, do not allow its contact memory logging assembly 24.Therefore, circulation of fluid any clogged with fragments or the corrosiveness that may influence memory logging tool 24 avoided.

In addition, it should be noted that when valve module 56 is shown in an open position, allow circulation of fluid to flow with the moving path 70 of the longshore current that makes progress downwards.That is to say that when valve module 56 was shown in an open position, forward flow and the reverse flow of circulation of fluid all allowed.

With reference to piston 54 before and the interaction (shown in Fig. 6 A-8) of valve module 56, piston 54 is compressed for example fexible bias pressure of spring of parts 76 in last well direction.When the endoporus 48 of inner housing 36 and the pressure reduction between the annular space 46 between the inner and

outer shell

36,38 hour, spring 76 do not compress and piston 54 static.Yet the pressure reduction between endoporus 48 and the annular space 46 has surpassed default pressure differential limit P ₁, cause spring 76 compression, allow piston 54 vertically to move downward with respect to allotment 22.

Surmount above-mentioned pressure differential limit P ₁Can realize like this: be in when opening at valve module 56, the pump on the operate ground device 18 increases the flow of circulation of fluid, perhaps is at valve module 56 and closes and circulation of fluid when static, increases the pressure of circulation of fluid simply.By same way as, the pump on the ground installation 18 can be used for producing other pressure reduction, other actions in the assembly 10 that is used for realizing describing below.

In an embodiment, valve module 56 moves between the opening and closing position shown in Fig. 6 A-8.In this embodiment, valve module 56 comprises three open position O ₁-O ₃With three fastening position C ₁-C ₃Yet as described below, in interchangeable embodiment, valve module 56 can include as few as an open position and a fastening position.

From open position O ₁The motion of valve module 56 is described in beginning.In other words, at position O ₁, valve module 56 is opened; Shell body pin 68 valve modules 56 are in the position O in " J-shaped " groove 64 in the external surface 66 ₁ Valve projection 58 is in the position O in the circumferential groove 60 in piston 54 external surfaces 62 ₁By surpassing pressure differential limit P ₁, piston 54 vertically moves downward with respect to allotment 22 as mentioned above.Moving downward of piston 54 makes valve module 56 move downward because valve projection 58 remains in the piston groove 60.The moving downward of valve module 56 make shell body pin 68 along arrow 78 indication paths from position O ₁Move to position T ₁Though yet it is noted that " J-shaped " groove 64 allows piston 54 setover T ₁Further vertically move downward, but piston 54 extended radially inwardly from shell body 38 cut off 84 the restriction, its meaning will be described below.

Because valve module 56 rotates freely with respect to piston 54, shell body pin 68 is from position O ₁Move to position T ₁Make valve module 56 rotate, produce the relative transverse movement (1/2L) between valve module 56 and the piston 54.Shell body pin 68 is parked in position T then ₁Up to no longer surpassing limit pressure difference P default between endoporus 48 and the annular space 46 ₁Till.At this moment, spring 76 decompresses, and impels piston 54 vertically to move upward, so make shell body pin 68 along the path of arrow 80 indications from position T ₁Move to position O ₂When shell body pin 68 from position T ₁Move to position O ₂The time, valve module 56 rotations produce another the relative transverse movement (1/2L) between valve module 56 and the piston 54.Therefore, during " circulation " of valve module 56, (for example from position O ₁To position O ₂Circulation) valve module 56 moved a lateral separation L.

When each valve module 56 laterally moved, valve projection 58 was correspondingly laterally mobile in piston groove 60, and therefore, in one of valve module 56 complete " circulation ", valve projection 58 has laterally moved distance L with respect to piston 54.By alternately surpassing and being lower than limit pressure difference P default between endoporus 48 and the annular space 46 ₁, valve module 56 can be at each the valve position O shown in Fig. 7-8 ₁To O ₃And C ₁To C ₃Between the circulation.

For example, when valve module 56 from position O ₂To O ₃Circulation time, valve module 56 makes valve projection 58 laterally move distance L with respect to piston 54 with respect to piston 54 rotation, as it from position O ₁To O ₂Shi Yidong's is such.Similarly, valve module 56 is from position O ₃To C ₁Circulation time, valve module 56 makes valve projection 58 laterally move distance L with respect to piston 54 with respect to piston 54 rotation, as it in front described two circulations.Yet, because the shape of piston groove 60, when valve module 56 from position O ₃To C ₁Circulation, and valve projection 58 has been when laterally having moved distance L with respect to piston 54, and valve module 56 vertically moves forward with respect to piston 54.This relative vertically moving makes the hole 72 (shown in the X mark 45 among Fig. 6 B) on valve module 56 interlocks or the closure piston 54.Therefore, the path 70 between endoporus 48 and the annular space 46 is closed, and valve module 56 is called as and is in fastening position.

When valve module 56 is in the closed position, stop circulation of fluid to enter annular space 46 between the inner and

outer shell

36,38, change into and enter another flow path 82.Along this flow path 82, circulation of fluid mobile is arranged on 34 preventions of fluid sealing on allotment 22 external surface, and this fluid sealing 34 is in allotment 22 and eject the fluid-tight sealing of formation between the inner surface 74 of assembly 40.

Under the situation of valve module 56 C1 in the closed position, cutting off 84 (front was introduced) can be by valve module 56 from position C ₁To C ₂Circulation shear.That is to say, as the default pressure differential limit P that surmounts between endoporus 48 and the annular space 46 ₂, make piston 54 compression piston springs 78 and enough to cut off 84 the power of cutting off when vertically moving downward, cut off 84 and cut off by the end 81 of piston 54 and (to note, to cut off and cut off 84 needed pressure differential limit P ₂Than the required pressure differential limit P of compression piston spring 78 ₁Greatly).

Cut off 84 by valve module 56 from position C ₁To C ₂The shuttling movement situation of cutting off under, the omnidistance lengthwise movement of piston 54 no longer is blocked; And work as valve module 56 from position C ₂To C ₃Circulation time, the extra lengthwise movement of piston 54 allow the shoulder 86 of the down-hole part of piston 54 connect on allotment 22 collet chuck 30 lock pawl 32 and with its radially inwardly compression.This radially inwardly compression of lock pawl 32 makes lock pawl 32 break away from from the top latch profile 50 of delivery assembly 20.

Along with the disengaging of lock pawl 32, flow through frictional resistance that endoporus 48 crosses allotment 22 of circulation of fluid makes allotment 22 (and therefore memory logging tools 24) transmit with respect to delivery assembly 20 downwards.This downward motion continues to arrive and be engaged on the bottom latch profile 52 of bottom or the receiving unit 44 of delivery assembly 20 up to the lock pawl 32 of allotment 22, as shown in figure 10.

In an interchangeable embodiment, memory logging tool 24 can be discharged by the retracted position of an electronic trigger from locking, for example any embodiment of the electronic trigger of describing in the United States Patent (USP) of submitting on March 4th, 2,008 7,337,850.

Notice that when memory logging tool 24 was in retracted position, the small diameter portion 86 of assemblies 40 inner surfaces 74 was ejected in sealing 34 contacts of allotment 22.When allotment 22 begins to move downward from the retracted position to the extended position, the inner surface 74 that ejects assembly 40 be opened into larger diameter 88 make sealing 34 no longer contact eject the inner surface 74 of assembly 40.Similarly, (that is, eject the part of the inner housing 36 between assembly 40 and the receiving unit 44) in the transitional region 42 of the inner housing 36 that delivers assembly 20, sealing 34 does not contact the inner surface of transitional region 42.Also with to eject assembly 40 similar, the inner surface 89 of receiving unit 44 comprise the enlarged 90 that do not contact sealing 34 and picture lock pawl 32 mesh engages and seals 34 the latch profiles 52 of bottom than minor diameter 92.

Therefore, when memory logging assembly 24 moves from retracted position to extended position, in case lock pawl 32 unclamps from latch side, top 50, then seal 34 and break away from from ejecting assembly 40 rapidly; When allotment 22 keeps breaking away from during laterally through transitional region 42; In case 52 lockings of lock pawl 32 and bottom latch profile, then mesh receiving unit 44 than minor diameter 92.Therefore, the quantity of the dynamic friction in the moving process from the retracted position to the extended position, experienced of seal 34 and seal 34 wearing and tearing that caused by these kinetic force of frictions and tear and reduce to minimum.

As shown in figure 10, hole 94 fluids of receiving unit 44 connect endoporus 48 and the annular space 46 of receiving unit 44.Therefore, when memory logging tool 24 is locked at extended position, circulation of fluid can by flow path 96 from endoporus 48 to annular space 46 flow through assemblies 10 and flowing out outside assembly 10 lower ends.

Notice that when memory logging assembly 24 is locked at extended position (as shown in figure 10), valve module 56 can be maintained in its closed position or it can be from position C ₃To O ₁Valve module 56 is opened in circulation.In fastening position, reverse flow only ends in valve module 56, because valve module 10 stops further reverse flow, shown in X mark 98 among Fig. 6 B.Therefore, the reverse flow in whole if desired assembly 10 scopes, valve module 56 can be from position C ₃To O ₁Circulation is to open valve module 56.Under the situation that valve module 56 is opened, the reverse flow of circulation of fluid allows to pass through assembly 10 according to flow path 70 as shown in Figure 6A.

Yet no matter valve module 56 is in open position or fastening position, fluid all can not allow from lock pawl 32 disengaging bottom latch profiles 52 by the reverse flow of assembly 10.That is to say that when memory logging tool 24 during at extended position, fluid can not allow memory logging tool 24 be withdrawn in the delivery assembly 20 by the reverse flow of assembly 10.

However, allow to lock

pawl

32 and 52 designs of bottom latch profile the pre-determined compressive force that acts on the memory logging tool 24 will make lock pawl 32 from 52 disengagings of bottom latch profile and allow memory logging tool 24 to be withdrawn at least in part the delivery assembly 20.Make lock pawl 32 break away from the required numerical value that acts on the compressive force on the memory logging tool 24 from bottom latch profile 52 and calculate and be defined as such power in advance: during the compression force on the memory logging tool 24, if lock pawl 32 keeps engagement will damage memory logging tool 24 with bottom latch profile 52.Therefore, at extended position, because the possibility that acts on the pre-determined compressive force damage memory logging tool 24 on the memory logging tool 24 drops to minimum.

As mentioned above, valve module 56 embodiment comprises three open position O ₁-O ₃With three fastening position C ₁-C ₃In another embodiment, valve module can include as few as an open position and a fastening position, the perhaps combination of the different digital of any open position and fastening position.Comprise among the embodiment of a plurality of open positions at valve module 56, yet the operator of assembly 10 allows to regulate the flow by the fluid of assembly 10, and can not have the risk of careless shut-off valve assembly 56.

For example, if valve module 56 described position O in the above ₁, by the flow of assembly 10 increase because of carelessness (perhaps deliberately increase) will be not can shut-off valve assembly 56, but make it from position O ₁To O ₂Mobile.When valve module 56 at position O ₂The time, so same.In other words, the flow by assembly 10 increase because of carelessness (perhaps or even deliberately increasing) will be not can shut-off valve assembly 56, but make it from position O ₂To O ₃Mobile.

Later with reference to figure 1, in assembly 10 is arranged into pit shaft 16, need to log well regional the time, upwards draw assembly 10 (perhaps arranging in other mode) towards the ground 14 of pit shaft 16, make pit shaft 16 lower end 15 and delivery assembly 20 lower end 17 between have distance B at least, when the length of this distance B equaled memory logging tool 24 and is in extended position, memory logging tool 24 stretched out the length of delivery assembly 20 lower ends 17.

Exist under the situation of distance B between pit shaft 16 lower ends 15 and delivery assembly 20 lower ends 17, memory logging tool 24 can move to extended position from retracted position, and memory logging tool 24 can start and begin to test pit shaft 16.In one embodiment, memory logging tool 24 comprises a battery 21 that is used for actuating well logging.When pit shaft 16 is tested, can be simultaneously to the ground 14 pulling assemblies 10 of pit shaft 16.This spur simultaneously and test can last till pit shaft 16 finished the testing length that needs till.

After pipe conveying well measuring assembly 10 tested pit shaft 16, the log data that obtains in the logging operation process can one of them be fetched by several method.For example, whole pipe conveying well measuring assembly 10 can be extracted out from pit shaft 16.Yet this is time-consuming process, and is unpractical under some occasion.A kind of replacement method is to fetch allotment 22 and memory logging tool 24 from pit shaft 16, and does not fetch tubing string 12 and delivery assembly 20.This can be by with fishing tool 100, and is for example shown in Figure 11, and the fishing neck 25 that is connected to allotment 22 is realized.That is to say that when fishing tool 100 descends ground during through the fishing neck 25 of allotment 22, interior bias arm 102 is locked on fishing neck 25 shoulders 104, and fishing tool 100 is fixed tightly on the fishing neck 25.After tightening up like this, fishing tool 100 and fishing neck 25 (and allotment 22 and memory logging tool 24) can be fetched from pit shaft 16 discretely with tubing string 12 and delivery assembly 20.

In the another kind of interchangeable method, memory module can be fetched separately with pipe conveying well measuring assembly 10 remainder.Finish this task an example embodiment as shown in figure 12.The embodiment of Figure 12 fundamental sum Fig. 2 is identical.Yet among the embodiment of Figure 12, memory module 23 ' moves to the upper end of allotment 22 '.That is to say that memory module 23 ' is connected on the fishing neck 25 ' of allotment 22 ' movably, for example cuts off 104 by one or more.In addition, the external surface of memory module 23 ' comprises a typical fishing neck profile that has shoulder 106.Therefore, fishing tool 100 can drop on the shoulder 106 of memory module 23 ', and fishing tool arm 102 is locked on the memory module shoulder 106.Like this after the locking, can utilize and enough cut off memory module 23 ' 104 the power of cutting off and pull out fishing tool 100, allow fishing tool 100 and memory module 23 ' from pit shaft 16, to fetch separately with assembly 10 remainders.

Described each that relates to fishing tool 100 fetched in the operation in the above, although illustrated and described concrete fishing tool 100, yet can use any suitable fishing tool 100.In addition, although fishing tool 100 can be transported to pit shaft 16 and therefrom fetch with suitable method, an embodiment is that fishing tool 100 is connected to cable, and for example steel wire or armouring cable are to finish fishing tool 100 in the layout of pit shaft 16 and to fetch.

Another kind alternatively, plug 108 (for example as shown in figure 13) can be pumped to pit shaft 16 times and drop to that memory module 23 ' among Figure 12 goes up and remain on memory module shoulder 106 to be similar to mode that top fishing tool 100 the is connected to memory module 23 ' locking arm 110 by plug 108.Yet when plug 108 was connected to memory module 23 ', fin 112 formed fluid-tight sealing with the inner surface of delivery assembly 20 inner housings 36.Therefore, when plug 108 remains on the memory module 23 ', and valve module 56 is when being shown in an open position, and the reverse flow of circulation of fluid can be used for the power that inner surface effect as arrow 114 fin that is shown in 112 makes progress.What these power that make progress can be used for cutting off memory module 23 ' cuts off 104, allows the reverse flow of circulation of fluid plug 108 and memory module 23 ' to be transported to the ground 14 of pit shaft 16.

Another alternatively, wet coupling assembling (also being called the transfer of data plug) pumping downwards and be connected to allotment 22 and make that being stored in memory module 23 interior data can be transferred to wet connector from memory module 23; And be transferred to the ground 14 of pit shaft 16 from wet connector.In this way, log data be can fetch, and any parts or the memory logging tool 24 of allotment 22 do not fetched in the pit shaft 16.

According to another embodiment of the invention, pipe conveying well measuring assembly 10 can be used for carrying out the test data that the required part of relevant pit shaft 16 is obtained in first logging operation; Assembly 10 can be used for carrying out the test data that part identical with the part of carrying out first logging operation in the relevant pit shaft 16 is obtained in second logging operation then.This second operation can be known as the affirmation logging operation.In one embodiment, first logging operation and affirmation logging operation are carried out before test data gets back to the ground 14 of pit shaft 16.

In the above description, though element 24 is described to the memory logging tool, comprise that the whole unit of element 24 can be called as the memory logging tool.For example, the whole assembly of Fig. 2 can be thought the memory logging assembly.According to this saying, can be described as the top (perhaps allocating part) of memory logging tool above with reference to figure 2 described allotments 22; Can be described as the bottom (part of perhaps logging well) of memory logging tool above with reference to figure 2 described memory logging tools 24.

Further describing for reference certain exemplary embodiments of the present invention noted earlier.Those skilled in the art in the invention will be understood that, under the not obvious situation that deviates from principle of the present invention and scope, can realize replacement and the change of described structure and method of operating.Therefore, the description of front should not thought and only relates to accurate description and structure shown in the drawings.On the contrary, scope of the present invention is limited by subsidiary claims and equivalents thereof.

Claims

1. one kind is configured in the subterranean oil gas well to obtain the pipe conveying well measuring assembly of log data, and this assembly comprises:

Tubing string;

Be connected to the delivery assembly of tubing string, this delivery assembly comprises inner housing and shell body; With

By the memory logging tool of delivery assembly delivery, this memory logging tool moves at least part of extended position that stretches out delivery assembly lower end from the retracted position that is protected in the inner housing.

2. assembly as claimed in claim 1, wherein said delivery assembly is not drilling pipe.

3. assembly as claimed in claim 1 wherein delivers assembly and comprises the ejection assembly, and the motion of wherein ejecting assembly causes moving to described extended position from described retracted position of described memory logging tool.

4. assembly as claimed in claim 3 wherein causes the described motion of described ejection assembly by the pressure of controlling described delivery component internal.

5. assembly as claimed in claim 3 wherein ejects the described motion of assembly by causing above the endoporus of inner housing and the default pressure reduction between the annular space between the inner and outer shell.

6. assembly as claimed in claim 1, wherein said memory logging tool comprise allotment part and well logging part.

7. assembly as claimed in claim 6, the inner housing of wherein said delivery assembly comprise and eject assembly and receiving unit; Wherein at described retracted position, described ejection assembly forms locking with described allotment part and is connected; At described extended position, described receiving unit forms locking with described allotment part and is connected.

8. assembly as claimed in claim 6 also comprises the annular space between inner and outer shell, makes at described retracted position, and permission circulation of fluid flows by described annular space and do not contact described well logging part.

9. assembly as claimed in claim 6, further comprise the annular space between inner and outer shell, and wherein said allotment part comprises at least one seal, and its guiding fluid to described annular space, and prevents that circulation of fluid contacts described well logging part when retracted position from the endoporus of inner housing.

10. assembly as claimed in claim 6, further comprise between inner and outer shell annular space and at the valve module that opens and closes the position motion, make when described open position, between the endoporus of inner housing and described annular space, have flow path.

11. assembly as claimed in claim 10, wherein said allotment partly comprises at least one seal, and its boot cycle fluid prevents that to described flow path described circulation of fluid contacts described well logging part when retracted position.

12. assembly as claimed in claim 6, wherein inner housing comprises the ejection assembly, receiving unit and be arranged between the two transitional region, and wherein said allotment partly comprises at least one seal, the seal are when described retracted position and described ejection assembly sealed engagement; When described extended position and described receiving unit sealed engagement; But at described memory logging tool in the described transitional region that does not contact described inner housing between described retracted position and described extended position during motion.

13. one kind is configured in the subterranean oil gas well to obtain the pipe conveying well measuring assembly of log data, this assembly comprises:

Tubing string;

Be connected to the delivery assembly of tubing string, described delivery assembly comprises inner housing, shell body and the annular space that is arranged between the two;

Opening and closing the valve module that moves between the position, make at described open position, between the endoporus of inner housing and described annular space, there is flow path;

Memory logging tool by the delivery of delivery assembly; this memory logging tool moves at least part of extended position that stretches out delivery assembly lower end from the retracted position that is protected in the inner housing, and wherein said memory logging tool comprises allotment part and well logging part.

14. assembly as claimed in claim 13 wherein at open position shown in the described valve module, allows circulation of fluid along described flow path two-way flow.

15. assembly as claimed in claim 13, wherein said delivery assembly comprises the ejection assembly, and the motion actuated described memory logging tool of wherein said ejection assembly moves to described extended position from described retracted position.

16. assembly as claimed in claim 15, the described pressure that moves through in the described delivery assembly of control of wherein said ejection assembly causes.

17. assembly as claimed in claim 15, the described motion of wherein said ejection assembly is caused by the endoporus that surpasses described inner housing and the default pressure reduction between the described annular space.

18. assembly as claimed in claim 13, wherein when described valve module is in described open position and described memory logging tool and is in described retracted position, the moving path flow of circulation of fluid longshore current and prevent that circulation of fluid from contacting the described well logging part of described memory logging tool.

19. assembly as claimed in claim 18, the described allotment part of wherein said memory logging tool comprises at least one seal, its boot cycle fluid prevents that to described flow path described circulation of fluid contacts described well logging part when described retracted position.

20. assembly as claimed in claim 13, wherein said inner housing comprises the ejection assembly, receiving unit and be arranged between the two transitional region, and wherein said allotment partly comprises at least one seal, the seal are when described retracted position and described ejection assembly sealed engagement; When described extended position and described receiving unit sealed engagement; But when moving, described memory logging tool do not contact the described transitional region of described inner housing between described retracted position and described extended position.

21. assembly as claimed in claim 13, wherein said allotment part rotatably is installed to by turning on the well logging part.