GB2200388A - Retrievable well packer - Google Patents
Retrievable well packer Download PDFInfo
- Publication number
- GB2200388A GB2200388A GB08801650A GB8801650A GB2200388A GB 2200388 A GB2200388 A GB 2200388A GB 08801650 A GB08801650 A GB 08801650A GB 8801650 A GB8801650 A GB 8801650A GB 2200388 A GB2200388 A GB 2200388A
- Authority
- GB
- United Kingdom
- Prior art keywords
- tubular member
- packer
- well bore
- arrangement
- release
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
- 238000004519 manufacturing process Methods 0.000 claims abstract description 75
- 238000007789 sealing Methods 0.000 claims description 42
- 238000000034 method Methods 0.000 claims description 12
- 238000000926 separation method Methods 0.000 claims description 5
- 230000001419 dependent effect Effects 0.000 claims description 2
- 230000002401 inhibitory effect Effects 0.000 claims 2
- 230000007246 mechanism Effects 0.000 abstract description 11
- 230000006835 compression Effects 0.000 abstract description 10
- 238000007906 compression Methods 0.000 abstract description 10
- 239000012530 fluid Substances 0.000 description 7
- 238000010276 construction Methods 0.000 description 3
- 238000005553 drilling Methods 0.000 description 3
- 239000002360 explosive Substances 0.000 description 3
- 238000010008 shearing Methods 0.000 description 3
- 230000003213 activating effect Effects 0.000 description 2
- 230000008878 coupling Effects 0.000 description 2
- 238000010168 coupling process Methods 0.000 description 2
- 238000005859 coupling reaction Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 238000003801 milling Methods 0.000 description 2
- 230000002028 premature Effects 0.000 description 2
- 230000015572 biosynthetic process Effects 0.000 description 1
- 239000002131 composite material Substances 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 230000000717 retained effect Effects 0.000 description 1
- 230000002311 subsequent effect Effects 0.000 description 1
Classifications
-
- E—FIXED CONSTRUCTIONS
- E21—EARTH OR ROCK DRILLING; MINING
- E21B—EARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
- E21B33/00—Sealing or packing boreholes or wells
- E21B33/10—Sealing or packing boreholes or wells in the borehole
- E21B33/12—Packers; Plugs
- E21B33/129—Packers; Plugs with mechanical slips for hooking into the casing
- E21B33/1293—Packers; Plugs with mechanical slips for hooking into the casing with means for anchoring against downward and upward movement
-
- E—FIXED CONSTRUCTIONS
- E21—EARTH OR ROCK DRILLING; MINING
- E21B—EARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
- E21B23/00—Apparatus for displacing, setting, locking, releasing or removing tools, packers or the like in boreholes or wells
- E21B23/06—Apparatus for displacing, setting, locking, releasing or removing tools, packers or the like in boreholes or wells for setting packers
-
- E—FIXED CONSTRUCTIONS
- E21—EARTH OR ROCK DRILLING; MINING
- E21B—EARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
- E21B23/00—Apparatus for displacing, setting, locking, releasing or removing tools, packers or the like in boreholes or wells
- E21B23/06—Apparatus for displacing, setting, locking, releasing or removing tools, packers or the like in boreholes or wells for setting packers
- E21B23/065—Apparatus for displacing, setting, locking, releasing or removing tools, packers or the like in boreholes or wells for setting packers setting tool actuated by explosion or gas generating means
Landscapes
- Life Sciences & Earth Sciences (AREA)
- Engineering & Computer Science (AREA)
- Geology (AREA)
- Mining & Mineral Resources (AREA)
- Physics & Mathematics (AREA)
- Environmental & Geological Engineering (AREA)
- Fluid Mechanics (AREA)
- General Life Sciences & Earth Sciences (AREA)
- Geochemistry & Mineralogy (AREA)
- Piles And Underground Anchors (AREA)
Abstract
A retrievable packer arrangement that can be used as a permanent production packer employs a simple compression set packet P which can be either mechanically, hydraulically or wireline explosively set and retrieved by coupled or coiled pipe or wireline. The arrangement includes an adapter A supported by the setting tool ST which surrounds an external seal surface 38 on the upper end of an inner tubular member I which seal surface is exposed after the packer arrangement is set in a well bore tubular member T by release of the setting tool ST from the inner member I and removal of the adapter A therewith, so that a production string may then sealingly telescope over the inner member upper end. An outer member O includes release means adjacent its upper external end including an external grapple engaging surface means 100 so that the packer arrangement can be released without engaging the packer P or slips 76, 76' which secure the packer arrangement in the tubular member T and without inserting any mechanism in the set packer arrangement. The packer arrangement provides an unrestricted bore for well tools and flow from the well. <IMAGE>
Description
RETRIEVARLE WELL BORE TUBULAR MEMBER
PACKER ARRANGEMENT AND METHOD
This invention relates to a packer arrangement for a well bore. It may be employed as a permanent production packer or as a retrievable packer, in any size tubular member. It also has particular application in conjunction with small diameter production strings which enables production packers associated with such production string to be positioned in a well bore tubular member and then readily retrieved by a wireline, or if desired, coiled or coupled pipe.
Various types of permanent and retrievable production packers have been heretofore employed. Some of such packers and packer arrangements are shown in the 1974-75 Composite Catalog of Oil
Field Equipment and Services at pages 394, 395, 404, 405, 408, 3924, 3925, 3932 and 3933.
The packer construction employed with prior art packer arrangements has heretofore been dependent upon whether the packer was to be set by mechanical, hydraulical or wireline means. Requiring a special or different packer thus required a substantially larger inventory for satisfying all customers preferences. Some packer arrangements also were subject to premature actuation as they were lowered in the well bore since well bores may actually be helical causing the packer arrangements to actuate during lowering operations on a coupled well string (a well string formed of pipe joints connected together by couplings).
Also, permanent production packer arrangements generally had to be milled or cut out when it was desired to remove them. Further, applicant is not aware of any retrievable packer arrangement that can be set either machanically, hydraulically or explosively on a wireline and then retrieved either by coupled pipe, or continuous pipe (pipe coiled on a drum) or a wireline, or a packer arrangement which can be so actuated and retrieved that employs the same packer construction without regard to the type setting tool.
It has heretofore generally been the practice to employ nonretrievable, permanently set production packers where small internal diameter production strings are employed which require the use of milling tools to mill or cut the packers when it is desired to remove them from the tubular member in which they are positioned.
This operation is quite expensive and time consuming. While, as noted, the present invention may have application in any size diameter tubular members or production strings, it does have particular application in connection with small diameter production strings in that it is constructed and arranged to enable its release and retrieval from the well bore tubular member without attempting to introduce mechanisms internally of the packer arrangement, or adjacent the packer and slips which are expanded into sealing engagement with the tubular member. Release and retrieval of the present invention is effected by engaging the exterior of the packer arrangement adjacent the upper end above the set packer and slips.
The present invention overcomes the above and other problems. For example, the same packer may be employed in any packer arrangement, whether it is to be hydraulically, mechanically or explosively set. Explosively set mechanisms can be run into the well bore on a wireline. If the packer arrangement is hydraulically set, continuous coiled tubing (pipe coiled on a drum) nay be employed which does not require the use of a drilling nast or workover mast to lower the packer arrangement into the well bore tubular member which is required to mechanically set a packer. Regardless of how the packer arrangement of the present invention is initially set, it can be retrieved by a wireline or coiled tubing without the use of a drilling mast at the well location.If desired, it may be also retrieved with coupled pipe which requires the use of a drilling mast to enable joints of pipe or tubing to be coupled together as the well string is lowered into the well bore in a well known manner.
In addition, the packer arrangement includes inner and outer tubular members which can be manipulated either hydraulically, explosively, or by a mechanical setting tool to quickly and readily expand the packer into sealing engagement with a well bore tubular member. It is secured in sealing position by slip means which lockingly engage the tubular member. An external seal engaging surface is provided adjacent the upper end of the inner member which becomes exposed for sealing engagement with a production string lowered into the well bore to surround the inner member upper end after the packer arrangement has been set.An external grapple engaging surface means is provided adjacent the upper end of the outer tubular member above the set packer arrangement for engagement by a grapple tool on a wireline, coiled or coupled pipe for release and retrieval of the packer arrangement, thus eliminating the necessity of trying to engage any internal mechanism to release the packer arrangment.
An object of the present invention is to provide a retrievable packer arrangement which employs a relatively simple compression set packer and the same type packer can be employed with either a mechanical, hydraulic or wireline setting tool for sealingly positioning the packer in a well bore tubular member. The packer arrangement can be retrieved with either a coupled pipe string, coiled pipe string or wireline.
Another object of the present invention is to provide a retrievable packer arrangement which employs a relatively simple compression set packer and the same type packer can be employed with either a mechanical, hydraulic or wireline setting tool for sealingly positioning the packer in a well bore tubular member and wherein the packer sealingly engages the well bore tubular member below the slips that secure the packer to the well bore tubular member whereby contact by well bore fluids from below the packer which might foul the slips and make it difficult to release them is substantially lessened, if not eliminated. The packer arrangement can be retrieved with either a coupled pipe string, coiled pipe string or wireline.
A still further object of the present invention is to provide a retrievable packer arrangement which employs a relatively simple compression set packer and the same type packer can be employed with either a mechanical, hydraulic or wireline setting tool to be positioned in a well bore tubular member and which packer arrangement includes an inner-member with an external seal engaging surface that is exposed after removal of the setting tool to telescopically receive therearound a production string to communicate well fluids through the packer arrangement to the earth's surface. The packer arrangement can be retrieved with either a coupled pipe string, coiled pipe string or wireline.
An object of the present invention is to provide a retrievable packer arrangement which employs a relatively simple compression set packer and the same type packer can be employed with either a mechanical, hydraulic or wireline setting tool to be positioned in a well bore tubular member and wherein the packer sealiiigiy engages the well bore tubular member below the slips which aid in sealingly securing the packer to the well bore tubular member whereby contact by well bore fluids from below the packer which might foul the slips and make it difficult to release them is substantially lessened if not eliminated, the slips comprising at least two annular rows of segments and the packer arrangement including means to selectively set the uppermost row of slip segments prior to setting the lower row of slip segments. The packer arrangement can be retrieved with either a coupled pipe string, coiled pipe string or wireline.
An object of the present invention is to provide a retrievable packer arrangement which employs a relatively simple compression set packer and the same type packer can be employed with either a mechanical, hydraulic or wireline setting tool to be positioned in a well bore tubular member and which can be retrieved with either a coupled pipe string, coiled pipe string or wireline by engaging an external- grapple means adjacent the upper end of the packer arrangement with a grapple tool including jar means to aid in releasing the packer arrangement for retrieval.
Yet a further object of the invention is to provide a retrievable packer arrangement including inner and outer tubular members secured against movement as they are lowered into the well bore with the inner member having a seal engaging surface adjacent its upper end which is surrounded by an adapter while the packer arrangement is lowered and positioned in a well bore tubular member and then the adapter removed to expose the seal engaging surface for telescoping engagement into a production string. The outer member is provided with an external grapple engaging surface adjacent its upper end for engagement by a grapple tool to release and retrieve the packer arrangement. The packer arrangement can be set mechanically, hydraulically or explosively by wireline and retrieved by either wireline, coiled or coupled tubing as desired.
Accordingly, it is another object of the present invention to provide a retrievable packer arrangement for use particularly with small diameter production strings in which the internal bore may be restricted so that access to the packer setting arrangement for release is limited thus making retrieval difficult, if not impossible, in some situations.It also has application to any size tubular production string member, and is constructed and arranged so it may be lowered into the well bore on a well string along with a setting tool which may be explosively actuated, or hydraulically or mechanically actuated to sealably secure a packer in engagement with a well bore and tubular member, and to expose the upper end of the packer arrangement which has an external seal surface for sealably receiving the production string thereover that is lowered into the well bore and releasably engaged therewith.
The packer arrangement also includes a grapple surface means adjacent its upper outer end which may be engaged by a grapple tool lowered into the well bore when it is desired to release and retrieve the packer arrangement, after first removing the production string from engagement with the upper end of the packer arrangement.
When the grapple tool is lowered into the well bore, it engages adjacent the upper end of the outer member and is constructed and arranged so that it may selectively apply dislodging forces to the inner and outer members to dislodge the slip means from engagement with the tubular member and enable the packer and slips to unset or release so that the packer arrangement can be removed from the well bore.
Other objects and advantages of the present invention will become apparent -from consideration of the following description and drawings.
Figs. 1A, Fig. 1B and Fig. 1C are longitudinal one-quarter sectional views illustrating an embodiment of the present invention for use with a hydraulically or explosively actuated setting tool.
The views show the assembled packer arrangement in position for lowering into a well bore tubular member to set the packer and slip means in sealing and securing relationship with the well bore tubular member;
Fig. 1D is a partial sectional view of Fig. 1B illustrating in enlarged, greater detail one form of the lock means;;
Fig. 2A and Fig. 2B are longitudinal one-quarter sectional views illustrating the relive position of components of the form of the present invention shown in Figs. lA-lC after longitudinal movement of the inner and outer tubular members has been effected to expand or move the packer and slips into sealing and securing relation with the well bore tubular member, expose the external seal surface adjacent the upper end of the inner tubular member and actuate the lock means to maintain the inner and outer tubular members in longitudinally moved relation for maintaining the packer and slip means engaged with the well bore tubular member;
Fig. 3 is a one-quarter sectional view showing a production string releasably and sealably connected with the inner tubular member seal surface;;
Fig. 4 is cross-sectional view on the line 4-4 of Fig. 3 illustrating details of one form of releasable connection means between the production string and inner member;
Figs. 5A and 5B are one-quarter sectional views showing the position of the components when a grapple means has actuated the release means of the lock means and disengaged the packer and slip means of the Fig. 1B and 1C form from the well bore tubular member for retrieval;
Fig. 6 is a cross-sectional view on the line 6-6 of Fig. 5A showing the details of one form of means to enable the grapple means to selectively apply forces to the packer arrangement to disengage the packer and slips from the well bore tubular member for retrieval.
Figs. 7A, 7B and 7C are schematic elevations, partly in section of a preferred form of the invention illustrating respectively the invention with a mechanical setting tool which normally employs coupled pipe; the invention with a hydraulic setting tool with which coiled pipe may be employed; and the invention with an explosively actuated setting tool with which a wireline including an electrical conduit is employed for setting the packer arrangement;
Fig. 8 is a one-quarter sectional view showing the details of a mechanical setting tool including a portion of the adapter releasably supported on the setting tool;
Figs. 8A and 8B are one-quarter sectional views that are continuations of Fig. 8 showing in Fig. 8A the upper ends of the inner and outer tubular members, the adap surrounding the external seal surface on the inner member; the grapple engaging surface means on the outer tubular member upper end and other details, while Fig. 8B illustrates the preferred relationship of the packer and slip means; Figs.
8A and 8B also show the details of the form of the invention which are employed with the hydraulic setting tool and explosively actuated setting tool schematically shown in Figs. 7B and 7C respectively;
Figs. 9A and 9B are one-quarter sectional views showing the relationship of the components of the form invention of Figs. 8A, 8B after it has been secured in the well bore tubular member either by a mechanical, hydraulic or explosive wireline setting tool, respectively, as shown by Figs. 7A-7C;
Fig. 10 is a one-quarter sectional view showing the produc t ion string surrounding the inner member seal surface;
Figs. llA and llB are one-quarter sectional views showing the Figs. 8A, 8B form after it is released for retrieval; ;
Fig. 12 is a partial section of Fig. 8A illustrating in enlarged form and greater detail of a preferred form of the lock means;
Fig. 13 is a cross-sectional view on the line 13-13 of Fig.
10 and is similar to Fig. 4; and
Fig. 14 is a cross-sectional view on the line 14-14 of Fig.
llA and is similar to Fig. 6.
Attention is first directed to Figs. 1A, Fig. 1B, Fig. 1C,
Fig. 7A, Fig. 7B and Fig. 7C wherein a setting or well string WS including a setting tool is schematically illustrated at the upper end of Fig. 1A, 7A, 7B and 7C and represented generally by the letters ST.
The setting tool portion of the setting string is connected to an inner tubular member I and supported on an outer tubular member 0 by the adapter A as illustrated in Figs. 1A, 1B, 7A, 7B and 7C. The setting tool ST may be considered part of the inner member I as the packer arrangement is lowered into the well and actuated by the setting tool mechanism referred to generally at 17. A lock means referred to generally by the letter L in Figs. 1B and 8A is associated with the inner and outer members to maintain the packer means represented generally at P and slips S geno ily supported on the outer member 0 sealably engaged and secured, respectively, with a well bore tubular member T as will be described. The well bore tubular member T is shown in Figs. 2A, 2B, 3 through 6; Figs. 9A, 9B, 10, 11A, llB, 13 and 14.
The setting string WS with the setting tool ST thereon may be lowered along with the structure shown in Figs. 1A, 1B, 1C, 7A, 7B or 7C into the well bore and may be considered part of well string WS.
The well string WS may be either coupled pipe, that is joints of pipe connected by couplings; a continuous length of pipe, that is pipe coiled on a drum D such as represented in Fig. 7B; or it may be a wireline coiled on drum D as represented in Fig. 7C, the latter also including an electric line to operate the explosively actuated setting tool schematically represented in Fig. 7C.
An adapter A is supported in any suitable manner on the mechanical, hydraulic, or wireline setting tool of the drawings by any suitable means such as by the setting tool portion represented at 16 and 20 that is engaged with the adapter A in any suitable manner as represented at 15 and 21. The adapter is retrieved with the setting tool after the packer arrangement has been sealably secured in the well bore tubular member T.
The actuating mechanism of the setting tool represented in dotted line in Figs. 1A and schematically in Figs. 7A-7C at 17 is connected hy any suitable means such as the arrangement 18 to the portion 19 of inner member I that extends longitudinally within the surrounding adapter A. The portion 19 is connected at its lower end 20 to a shear release sleeve and/or -rotational release mechanism 21 adjacent the upper end of the inner tubular member I. The lower end 22 of adapter A rests on or is adjacent the annular shoulder 31 adjacent the upper end of outer tubular member 0.
As previously noted, the actuating mechanism 17 of the setting tool ST may be explosively actuated, hydraulically actuated or mechanically actuated whichever may be desired. Figs. 1A-1C; and
Figs. 7C, 8A, 8B, respesetively, illustrate two forms of the explosively set packer arrangement; Figs. lA-lC, 7B, and Figs. 8A, 8B illustrate two forms of the hydraulic set packer P.rrangallcllt t and Figs.
7A, 8, SA and 8B illustrate the form of the mechanical set packer arrangement. The setting tools details are generally well known to those skilled in the art and no detailed description is deemed necessary as to their detailed structure and function.
When the inner tubular member I and outer tubular member 0 are assembled for lowering into the well bore tubular member T-, they are initially releasably connected together against relative longitudinal movement as they are lowered to position in the well bore tubular member T by suitable means such as the shear pin 35 adjacent the upper end of the inner member I and outer member 0 above the lock means L, the packer means P and slips S. The inner member I is provided adjacent its upper end with an external seal surface 38 formed by any suitable means for sealably receiving therearound the lower end of the production string PS as shown in Fig. 10 for communicating fluid flow from a producing formation through the set packer arrangement as shown in Figs. 2A, 2B, 9A and 9B to the production string PS as shown in Figs. 3 and 10 for flow to the earth's surface.The production string PS is provided with internal seal means 38a for sealably engaging longitudinal seal surface 38.
The adapter A extends over and surrounds the external seal surface 38 on the inner member I as the packer arrangement is lowered into the well bore and secured with the tubular member T and thus inhibits damage to the seal surface during operations.
The lock means L includes a ratchet surface 40 on the outer periphery of the inner member I that extends longitudinally thereof.
A split or segmented ratchet ring 42 having a ratchet surface 43 on its inner periphery and outer annular tapered surface means 44 abuts a ratchet ring support 48 which is provided with an internal tapered annular surface means 50 conforming with the tapered surface means 44 on the ratchet ring 42. It will be noted that in Figs. 1B, 1D, and 2A a single taper forms the surface means 44 and 50, while a plurality of tapered surfaces form the surface means in Figs. 8A, 9A, llA and 12.
The multiple taper form is preferred as it provides less back-off movement between the inner and outer members after the packer P is compressed and thereby attains a somewhat better sealing relationship of the packer and a better securing relationship by the slirs S.
An annular groove 52 is formed in the outer circumferential surface 53 of the ratchet ring support 48 and receives therein a split spring lock ring 54 which may be formed to tend to expand out of engagement with the groove 52, but which lock ring is retained in position in the groove 52 by the release means 58 when the lock means and release means is in the position shown in Figs. 1B, 2A, 8A, and 9A. The top surface of ring 54 and the top or upper surface of groove 52 may be shaped as shown in Figs. 1D and 12 to tend to urge the ring 54 out of groove 52 when release means in the form of sleeve means 58 is shifted to a second position as shown in Figs. 5A and llA.
The release means 58 cooperate with lock means L when in the position shown in Figs. 1B, 2A, 8A and 9A to inhibit release of the lock means L. Manipulation of the outer member 0 shifts the release means to a second position to enable lock ring 54 to move out of groove 52 as will be described.
The outer member 0 includes the release sleeve means 58 which projects above and is telescopically received in the upper end of outer member 0 as shown in Figs. 1B, 2A, 5A, 8A, 9A and llA, the sleeve means 58 being releasably coupled with the remainder of the outer member 0 by the shear pin-59. The sleeve means 58 includes a longitudinally extending, annular portion 60 of reduced diameter providing or forming an annular upper shoulder 61 on the sleeve means 58. The lower end 64 of sleeve means 58 formed on portion 60a adjacent the lock means L when the lock means is engaged provides a lower annular shoulder. A counterbore 63 extends from lower end or shoulder 64 which counterbore receives the lock ring 54 when the components of the lock means' are assembled for lowering in the well bore as shown in Figs. 1B and 8A of the drawings.The lower shoulder end 64 of the sleeve means 58 rests on the lower annular shoulder 33 formed in the outer member 0 as better seen in Figs. 1D and 12. The longitudinal extent on the sleeve means 58 between the lower shoulder 64 and upper shoulder 61 is of less longitudinal extent than the distance between the lower shoulder 33 and upper annular shoulder 34 formed on the outer member 0 thereby providing a longitudinal annular space 65 between the shoulders 61 and 34 to accommodate relative longitudinal movement of the sleeve means 58 along inner member I and relative to the remainder of the outer member 0 as will be described.
The lower shoulder end 64 of the sleeve means 58 is of less width or extent than the lower shoulder 33 on outer member 0, so that the lock ring 52, overhangs the shoulder 33 to rest thereon as shown in Figs.
1B, 2A, 1D, 8A, 9A and 12.
The pin 66 positioned in the portion 67 of the outer member extends into the slot 68 formed in the sleeve means 58 and accommodates relative movement between the sleeve means 58 and the remainder of the outer member 0 when the shear pin 59 is sheared to accommodate such longitudinal movement while preventing relative rotation therebetween.
In the Figs. lA-lC form, an extension E is supported on the outer member 0 beneath the lock means L and packer P and depends from the lower end of the outer member 0. The cage means C is supported on the extension E adjacent its lower end and depends therefrom as shown in Fig. 1C.
The upper end 70 of the extension E abuts or is adjacent the lower end of packer means P and the upper end 68a of the packer P is abutted against the ledge or shoulder 69 formed on the outer tubular member. The packer means P is shown as being a single packer but it can be appreciated that. additional packers may be employed as desired.
The packers are of the compression type, which expand upon compression. The same packer is employed with all forms of the invention.
A plurality of longitudinally extending, circumferentially spaced slots 71 are provided in the extension E forming part of outer tubular member 0 and engaged therein are pins 72 secured to and projecting from the outer member which extend into slots 71 and support the extension E on the outer member 0 for relative longitudinal movement therebetween. The lower end of the extension E terminates in the downwardly facing annular conical surface 74 as shown.
The inner tubular member I is provided adjacent its lower end with the annular upwardly facing conical surface 80 and when the components of the packer arrangement are assembled, the upwardly facing conical surface 80 is adjacent, but longitudinally spaced relative to the downwardly facing conical surface 74 and receives therebetween the upper and lower annular rows of slip segments 76, 76' which may be joined together as shown, or separate, and are aligned with the openings or windows 82, 82' which extend longitudinally of and are circumferentially and longitudinally spaced in the cage C.
It will be noted that the cage C overlaps the upwardly and downwardly facing conical surfaces 80 and 74 respectively and the cage is supported on the extension E by the annular ring 85 which rests on shoulder 74a of extension E and which ring fits within the groove 86 in cage C. A similar ring 88 carried in groove 89 of cage C below lower slip 76' aids in maintaining the cage in position on the extension E when the slips are retracted as well as expanded and accommodates relative movement between the cage and inner and outer members.
In the Figs. 7A and 8 form the mechanical setting tool includes a housing represented at 110'. It is supported on the setting tool by segmented nut 111 which has resilient means 112' surrounding the nut segments so that it may expand and contract. The inner annular surface of the nut segments 111 is threaded as shown at 112 to lock with threads 113 on the setting tool when in the position shown in Fig. 8. Conforming tapers 114 on the nut 111 and 115 on the housing 110' abut and cause nut 111 to collapse inwardly and move it into the groove 116 which causes the threads 112 on the nut segments to lock with the threads 113 on the setting string and tool ST.The longitudinal distance of space 117 in housing 110' which receives nut 111 is longer than the nut so that after the string WS has been rotated to unthread from housing 110', the setting string will automatically relock with the nut 111 when the string is lowered or moved toward the segmented nut 111 since the nut 111 may move down in space 117 and expand outwardly to engage threads 112 and 113. However, if the setting string is lowered when connected to housing 110', subse quent lifting will cause the housing and nut to cooperate and prevent separation or withdrawal of the setting string from the housing.This assists in maintaining inner tubular member I and outer tubular member
O connected as the packer arrangement is lowered in the well bore to prevent separation of the setting string from the housing and accidental premature actuation and setting of the packer arrangement.
Spring loaded drag blocks 119 are carried on housing 110' and engage tubular member T (not shown in Fig 8). The housing 110' is restrained relative to setting string WS upon rotation of the setting string WS by the blocks 119 so that the setting string WS can be threadedly disconnected from housing 110' by rotation of the setting string which rotates the remainder of the packer arrangement relative to restrained housing 110'.After disconnecting the setting string from housing 110', lifting up on setting string WS relative to housing 110', which housing will then be restrained against longitudinal movement with the setting string by blocks 119, causes the entire packer arrangement to move up relative to housing 110' so that slips 120 carried by housing 110' are contacted by conical surface 121 which moves up with the packer arrangement as the setting string is lifted.
This urges slips 120 outwardly and into securing relationship with the adjacent tubular member T. Housing 110' is then secured with the tubular member T along with outer tubular member 0 since outer tubular member 0 is connected with housing 110' by the threads 15 on annular member 123. Ring 122 prevents separation of annular member 123 from the remainder of the setting tool ST therebelow while lowering in the well bore and enables the setting tool to be retrieved in its entirety after setting the packer. Conical surface 121 may be formed by a plurality of longitudinally extending, circumferentially spaced members or fingers extending from annular member 23 as shown to accommodate radial movement of conical surface 121 as will be described.
The inner tubular member I can then be pulled up by the setting string WS to shear pin 35 to release inner member I from outer member 0. Continued tension in the setting string causes upward movement of inner member I relative to outer tubular member 0 after shearing pin 35 and causes ratchet surface 40 thereon to move up relative to lock means L since the ratchet ring 48 moves to accommodate clearance of the threads on the inner member and the threads on the ratchet ring. The other components of the lock means L are held in place by ring support 48, lock ring 54 and the shoulder at the end of the recess formed in release sleeve 58 in which the lock means is positioned, as well as the other cooperating surfaces in the outer tubular member.The lock means L will act to lock the inner member in whatever elevated position results when the packer P and slips S are secured with the tubular member T.
The outer tubular member 0 extends from its upper end adjacent which the grapple engaging surface means 100 is provided and terminates in an annular downwardly facing conical surface 125. The inner tubular member extends through outer tubular member 0, the cage
C and packer P and is provided with an annular upwardly facing conical surface 126 longitudinally spaced from the lower end of inner member I and above packer means P as shown in Fig. 8B. The cage C is supported adjacent and spans the conical surfaces 125, 126 on inner and outer members as described with regard to Fig. 1C.
The slip rows 76, 76' illustrate slips that are connected; however, each row 76, 76' could be formed by separate slip segments supported in any suitable manner in the cage C. As shown a single spring tends to retain and urge the connected slips in each row toward the retracted position.
Suitable means are provided to set the top row of slip segments 76 prior to the lower row of slip segments 76'. Such means may be of any suitable form and as illustrated includes shear pin 130 which secures the lower end of cage C with the inner member I to function as will be described.
The conical surface 126 is formed on inner member sleeve portion 131 which is releasably secured to inner member I by shear pin 132 below packer P. The portion 131 is also secured by shear pin 132 to inner member sleeve portion 133 which is radially spaced from inner tubular member I by the width of portion 131 extending therebetween.
Sleeve portion 133 extends between packer P and sleeve 133f of inner member I and receives or supports packer P thereon as shown in Fig.
SB. The shoulders 131b and 133b on sleeve portions 131 and 133, respectively, interlock portions 131 and 133 together adjacent and below the packer P as shown. The lower end of sleeve portion 131 terminates in spaced relation to the shoulder 133c on end member 133d which connects portion 133 and longitudinal sleeve 133f of inner member I together. This forms longitucxinal annular space 134 extending between the portion 133 and the sleeve 133f of inner member I as shown in Fig.
8B.
The shear pin 130 which secures the lower end of cage C with the inner member I is weaker than shear pin 132 connecting sleeve portion 131 to sleeve portion 133 of inner member I so that sequentially pin 130 will shear first and then pin 132.
In the operation of the packer arrangement of the present invention shown in Figs. 1A-6, it is assembled as above described and as shown in Figs. 1A- 1C inclusive for lowering into a well bore tubular member T. When the setting tool ST has been actuated, the components move to the respective postions illustrated in Figs. 2A and 28.
As previously noted, the actuating mechanism 17 may be either explosive or hydraulic actuated and when actuated, a force is applied as respresented in Fig. 1A by the arrow 10 to the inner member
I to apply tension thereto while the setting or well string WS applies a force to the adapter housing 16 as represented by the arrows 11 to shear pin 35 connecting the inner member I and outer member 0 together and release them for relative longitudinal movement due to the forces applied by the actuating or activating mechanism 17.When relative longitudinal movement between the inner member I - and the outer member 0 caused by the setting tool ST occurs, the inner member I is moved upwardly as shown in Fig. 2A and positions the external seal surface 38 for subsequent sealing engagement with a production string PS when it is lowered into the well bore as shown in Fig. 3.
Also, the relative longitudinal movement forces the packer P to expanded and sealed engagement with the well bore tubular member T as well as moving the slips 76, 76' onto the conical surfaces 74 and 80, respectively, to engage and secure with the well bore tubular member T as shown in Fig. 2B.
The downward movement of the outer member 0 relative to inner member I not only causes slip rows 76, 76' to engage well bore tubular member T, but also shifts outer member 0 downwardly and inner member I upwardly to expand packer means P into sealing engagement with the well bore tubular member T.
The up movement of inner member I shifts ratchet surface 40 thereon from the position shown in Fig. 1B to the position shown in Plg. 2A. The ratchet surface 40 on the inner member I and ratchet surface 43 on the split ratchet ring 42 accommodates longitudinal movement of the inner member I relative thereto and to the outer member 0 on which the lock means L is supported so that the ratchet ring 42 locks with the ratchet surface 40 on the inner member I after relative longitudinal movement between the inner and outer members from the initial postion of Figs. lA-iC to the second position demonstrated in Figs. 2A and 2B to assist in retaining the packer means P expanded in sealing engagement and the slip rows 76, 76' moved to securing relationship with the tubular member T.
The shear ring 21 can be sheared by the activating mechanism 17 or by an additional tension in the well string 15 so that the portion 19 and adapter 16 is recovered with the setting string 15 and then a production string may be lowered into sealing engagement with the exposed seal surface of the packer arrangement of the present invention as illustrated in Fig. 3.In Fig. 3 the production string
PS is shown as being provided with a releasable connection referred to generally by the letters RC between the external surface of the inner member I and the internal surface of the lower end of the production string, such releasable connection being illustrated as in the form of a J-slot referred to at 98 on inner member I which engages with the pin 99 on the production string in a well known manner so that the production string PS is releasably secured to the packer arrangement on the external surface of the inner member adjacent its upper end.
This arrangement does not provide any restrictions in the flow path through the packer arrangement, which restrictions where relatively small diameter production strings are employed can present serious problems.
The operation of the hydraulic and explosively set forms of
Figs. 7B, 7C-14 is similar to that above described, except the slip means 76, 76' are sequentially set so that the upper row is set first as will be described in greater detail hereinafter.
In the operation of the mechanical form of Figs. 7A and 8-14, after the packer arrangement has been lowered in the well bore and the inner tubular member I rotated to disconnect it from housing 110', the slips 120 are set against the tubular member by pulling up on the setLing string WS to move the packer arrangement up relative to housing 110' which urges conical surface 121 against slips 120 and moves the slips outwardly to secure housing 110' and outer member 0 with the well bore tubular member T.
As inner tubular member I is moved up relative to outer tubular member 0, after shearing pin 35 as previously described, the slip cage C with slip rows 76, 76' is urged up by inner tubular member
I. Portions 131, 133 along with packer P which is between the end 131a of portion 131 and end 133a of portion 133 are moved therewith.
The packer P extends along or is supported on portion 131 as shown.
This causes the upper row 76 of slip segments to be moved outwardly by surface 125 to secure with tubular member T prior to the lower row 76'. Thereafter still additional tension shears pin 130 and the inner tubular member I with conical surface 126 is then urged up to move surface 126 against the lower row 76' of slip segments so that they move outwardly into securing relationship with tubular member T as shown in-Fig. 9B.
Still further tension shears pin 132 so that inner member I continues to move up causing packer P to be compressed between shoulders 131a and 133a, since space 134 accommodates movement of sleeve 133f and connected portion 133 relative to portion 131 of inner member 1. The lock means L will hold the inner member I in its final position against downward movement after the packer and slips are set, since, as previously noted, the ratchet 40 on the inner member I moves up through lock ring 48, but cannot move down when the lock means L is in the position shown in Figs. 2A and 9A.
The setting string and setting tool may then be released from the inner member and set packer arrangement by shearing shear ring 21 by still additional tension, or by rotating to unthread at shear ring 21. The shear and thread ring 21 provides connecting means for connecting the inner tubular member I with the setting string WS and disconnect means to disconnect the setting tool and setting string from the set packer arrangement in all forms of the invention. The setting tool is then pulled up by the setting string to abut the sholllder 140 with shoulder 141, which movement elevates annular recessed portion 142 to align with the slips 120 whereby the radially movable conical surface portion 121 may retract inwardly relative to well bore tubular member T and move into recess 142 to release the slips 120 as the setting string is pulled up.The engagement of shoulders 140, 141 removes the setting tool, housing 110' and connected adapter A from the packer arrangement and exposes the seal surface 38 projecting above the outer member for engagement by the production string PS which may be lowered into the well bore after the setting string is retrieved.
The external seal surface 38 is provided with a releasable connection RC in the form of a J-slot 98 adjacent its lower end to receive the pin 99 on production string PS as shown in Fig. 10. Also, the inner member I adjacent its upper end is provided with an internal annular groove 38' to receive a retrievable plug shown in dotted line at 145 in Fig. 10.
The external seal connection with the production string PS does not interfere with placement and removal of the plug as desired and similarly the arrangement of the external grapplesurface means 100 adjacent the upper end of the outer member -O and below the production string does not interfere with the production string connection and disconnection and also enables the packer arrangement to be released and retrieved without first removing plug 145.
The function of the hydraulic form shown in Fig. 7B and the explosively actuated form of Fig. 7C is similar to that above described except the mechanical setting tool details shown in Fig. 8 are not employed.
The setting string and setting tool of Figs. 7B and 7C and
Figs. lA-1C are connected directly to the inner tubular member I as schematically shown depending upon which form, hydraulic or explosively set is to be used. Where hydraulics are employed, the fluid is supplied through the coiled tubing CT and discharged into inner member I after the ball B has been first inserted and seated on ball seat BSto close off inner member I. The fluid is then directed through port 146 to act down on piston 147 and outer member 0 with a resultant upward force on member I to shear pin 35. Further pressure moves outer tubular member 0 down and creates an up reactive force on member I to expand upper slips into contact with the tubular member T in the Fig. 7B, 7C form.Thereafter additional pressure shears pin 130 and the lower row 76 of slips set against tubular member T. Shear pin 132 then shears upon additional pressure and enables packer P to be sealingly set as described with regard to Fig. 8. In the Figs.
lA-iC form, both slip rows are simultaneously actuated. After the packer is set, additional hydraulic pressure shears ring 21 and the setting tool ST and adapter A are retrieved from the set packer arrangement to expose external seal surface 38 on inner member I for connection with the production string as previously described. As noted above, the actuation of the explosively actuated setting tool of
Figs. 1A and 7C is as above described with regard to the hydraulic form.
In the mechanical form, the packer arrangement is set by the setting tool by up pulls or tension in the setting string to stepwise increase tension to sequentially shear member 35, 130, 132 and 21; in the hydraulic form the hydraulic pressure acts to move outer tubular member down and causes an up force on the inner member I with increased pressure increments to also stepwise shear member 35, 130, 132 and 21; the actuation of the explosively actuated form causes a similar relationship of forces to that which occurs with the hydraulic form, but the events may occur more rapidly.
Release and subsequent retrieval of all forms of the packer arrangement is effected by actuating release means 58.
Grapple surface means 100 are provided on the external upper end of the outer member as shown, which grapple surface means may assume any configuration for conformably receiving and engaging with a grapple means 100' shown in Figs. 5A and l1A. As shown1 the grapple surface is illustrated as being a ratchet surface 101 which is adapted to engage the ratchet member 103 carried by the grapple means 100'.
The member or ring 103 is split or segmented to accommodate movement of the grapple means 100' down over the surface 101, but locks therewith when a tension is applied to the well string which carries the grapple means 100'.
The grapple 100' in the embodiment illustrated is shown as including an overshot or member 105 which may be telescopically received over the upper end of tP3 inner member for engaging with the external upper end of the sleeve means 58 and when tension is applied thereto the shear pin 59 is sheared to then accommodate relative longitudinal movement between the sleeve or release means 58 and the remainder of the outer member 0.When the sleeve means 58 shifts upwardly in response to tension in the well string or operating string
OS, the lock ring 54 moves or is urged outwardly into the space in the outer member 0 beneath the lower shoulder 64 of upwardly shifted sleeve 58 as shown in Figs. 5A and 11A. movement of the lock ring 54 out of the groove 52 disconnects the lock means L from the outer member to enable a pull or tension to be applied to the outer member 0 by the grapple tool to release the slip rows 7G, 76' from securing relationship with the tubular member T and thus enable the packer P to move to retracted position as illustrated in Figs. 5B and llB. If the application of the tension force by the operating string OS as described does not completely release the slip segments from tubular member T, the pin 110 between overshot 105 and the operating string OS may be sheared by moving the operating string downwardly to release it for longitudinal movement relative to the overshot member 105. Thereupon a downward jar may be applied by the surface 14 on the lower end of the operating string to the upper end 7 of the inner member I as shown in Figs. 5A and 11A to further assist in releasing the rows of slip segments 76, 76' from the tubular member T. The shoulders 111, 112 enable an upward jar to be applied to the inner member I.Thus, selective tension and compression forces may be applied respectively to the outer member 0 and inner member I to effect release from the tubular member T for retrieval. The operating string OS remains coupled to overshot 105 by reason of the shoulders 111, 112 so that the packer arrangement on inner member I may be retrieved from the well bore along with the operating string.
It is believed that the setting and retrieval of the disclosed forms is understood from the foregoing description. As noted, the mechanical setting form of Figs. 7A and 8-8B employs the housing 110' to enable the setting string and tool to be manipulated to set the slip rows sequentially aid then the packer by stepwise increasing the tension.
Release and retrieval also involves further tension so that apart from the initial rotational release of the setting tool and inner tubular member from the housing 110', setting and retrieval is accomplished by tension sequentially applied in the setting string.
In the hydraulic and explosively actuated form of setting tool employed with the packer arrangement of Figs. lA-iC, 7B, 8A and SB pressure is sequentially applied to set the slips and packer in a manner, or sequence as desired and then set the packer. Release is accomplished as above described.
It should be noted that sequential setting of the slips in the packer arrangement of Figs. lA-lC, 2A and 2B by hydraulic and explosive setting tools is not contemplated. Where a mechanical setting tool is employed the packer should be below the slips as shown in Figs. 7A, 8A and 8B and the sequential setting of slip rows 76, 76' is preferential to assure proper setting of the packer.
Also the packer below the slips as shown in Figs. 8A and 8B seals off the slips thereabove and prevents well fluid from the well bore beneath the packer from contacting the slips and causing them to corrode or possibly bind to remove even after a substantial period of years in the well bore.
From the foregoing description, it can be seen that the present invention enables the same simple compression type packer to be sealingly set and secured in position in a tubular member by either a hydraulic, mechanical or wireline setting tool and it can be released and retrieved without milling, and without attempting to insert any tool in the packer arrangement to effect release by either coupled or coiled tubing or a wireline grapple.
The foregoing disclosure and description of the invention are illustrative and explanatory thereof, and various changes in size, shape and materials as well as in the details of the illustrated construction may be made without departing from the spirit of the invention.
Claims (35)
1. A well bore tubular member retrievable packer arrangement for connection with and actuatable by either a mechanical, hydraulic or wireline setting tool supported on a setting string to sealably secure the packer arrangement with the well bore tubular member to communicate with a production string and which packer arrangement may be retrieved by a grapple tool supported on either coupled pipe, coiled pipe or a wireline comprising::
inner and outer tubular members;
said inner and outer tubular members each having an upper end;
connecting means connecting said inner tubular member upper end with the setting tool;
securing means securing said inner and outer tubular members against relative movement as they are lowered into the well bore, said securing means releasable upoil relative movement between said inner and outer tubular members;
packer means supported on at least one of said tubular members and expandable into sealing engagement with the well bore tubular member upon relative longitudinal movement between said inner and outer tubular members;;
slip means supported on said outer tubular member for engaging the well bore tubular member upon relative longitudinal movement between said inner and outer tubular members to secure the packer arrangement in expanded, sealed engagement with the well bore tubular member;
cooperating lock means on said inner and outer tubular members to lock said inner and outer tubular members in their longitudinally moved relationship to aid in maintaining said packer means secured in expanded, sealed engagement with the well bore tubular member;
said inner tubular member having a longitudinally extending, annular external surface adjacent its upper end;
adapter means supported by the setting tool and surrounding said annular external surface on said inner tubular member;;
disconnect means responsive to manipulation of the setting string to disconnect and remove the setting tool and adapter from said inner tubular member to expose said external surface on said inner tubular member for sealably receiving the production string therearound;
external grapple surface engaging means adjacent the upper end of said outer tubular member for engagement by the grapple tool to retrieve the packer arrangement from the well bore tubular member; and
means to inhibit release of said cooperating lock means, said means responsive to manipulation of said outer tubular member when said grapple engaging surface means is engaged by the grapple tool to release said cooperating lock means for retrieval of the packer arrangement from the well bore.
2. A well bore tubular member retrievable packer arrangement for connection with and actuatable by either a mechanical, hydraulic or wireline setting tool supported on a setting string to sealably secure the packer arrangement with the well bore tubular member to communicate with a production string and which packer arrangement may be retrieved by a grapple tool supported on either coupled pipe, coiled pipe or a wireline comprising::
inner and outer tubular members;
said inner and outer tubular members each having an upper end;
connecting means connecting said inner tubular member upper end with the setting tool;
securing means securing said inner and outer tubular members against relative movement as they are lowered into the well bore, said securing means releasable upon relative movement between said inner and outer tubular members;
slip means supported on said outer tubular member for engaging the well bore tubular member upon relative longitudinal movement between said inner and outer tubular members to secure the packer arrangement in expanded, sealed engagement with the well bore tubular member;;
packer means supported on said inner tubular member below said slip means and expandable into sealing engagement with the well bore tubular member upon relative longitudinal movement between said inner and outer tubular members to seal off the well bore below said packer means from said slip means;
cooperating lock means on said inner and outer tubular members to lock said inner and outer tubular members in their longitudinally moved relationship to aid in maintaining said packer means secured in expanded, sealed engagement with the well bore tubular member;
said inner tubular member having a longitudinally extending, annular external surface adjacent its upper end;
adapter means supported by the setting tool and surrounding said annular external surface on said inner tubular member;;
disconnect means responsive to manipulation of the setting string to disconnect and remove the setting tool and adapter from said inner tubular member to expose said external surface on said inner tubular member for sealably receiving the production string therearound;
external grapple surface engaging means adjacent the upper end of said outer tubular member for engagement by the grapple tool to retrieve the packer arrangement from the well bore tubular member; and
means to inhibit release of said lock means, said means responsive to manipulation of said outer tubular member when said grapple engaging surface means is engaged by the grapple tool to release said cooperating lock means for retrieval of the packer arrangement from the well bore.
3. A well bore tubular member retrievable packer arrangement for connection with and actuatable by either a hydraulic or wireline setting tool supported on a setting string to sealably secure the packer arrangement with the well bore tubular member to communicate with a production string and which packer arrangement may be retrieved by a grapple tool supported on either coupled pipe, coiled pipe or a wireline comprising::
inner and outer tubular members;
said inner and outer tubular members each having an upper end;
connecting means connecting said inner tubular member upper end with the setting tool;
securing means securing said inner and outer tubular members against relative movement as they are lowered into the well bore, said securing means releasable upon actuation of the setting tool to accommodate relative longitudinal movement between said inner and outer tubular members;
slip means supported on said outer tubular member for engaging the well bore tubular member upon relative longitudinal movement between said inner and outer tubular members to secure the packer arrangement in expanded, sealed engagement with the well bore tubular member;;
packer means supported On said outer tubular member above said slip means and expandable into sealing engagement with the well bore tubular member upon relative longitudinal movement between said inner and outer tubular members;
cooperating lock means on said inner and outer tubular members to lock said inner and outer tubular members in their longitudinally moved relationship to aid in maintaining said packer means secured in expanded, sealed engagement with the well bore
tubular member;. said inner tubular member having a longitudinally extending, annular external surface adjacent its upper end;
adapter means supported by the setting tool and surrounding said annular external surface on said inner tubular member; ;
disconnect means responsive to manipulation of the setting string to disconnect and remove the setting tool and adapter from said inner tubular member to expose said external surface on said inner tubular member for sealably receiving the production string therearound;
external grapple surface engaging means adjacent the upper end of said outer tubular member for engagement by the grapple tool to retrieve the packer arrangement from the well bore tubular member; and
means to inhibit release of said lock means, said means responsive to manipulation of said outer tubular member when said grapple engaging surface means is engaged by the grapple tool to release said cooperating lock means for retrieval of the packer arrangement from the well bore.
4. A packer arrangement for connection with and actuatable by a hydraulic or wireline setting tool supported on a setting string to sealably secure the packer arrangement in a well bore tubular member to extend upwardly into a production string and which is retrievable by a grapple tool supported on either coupled pipe, coiled pipe or a wireline comprising::
an inner tubular member having an external seal engaging surface adjacent its upper end and an annular, upwardly facing conical surface adjacent its lower end;
an outer tubular member extending between said seal engaging surface and said conical surface;
shear means connecting said inner and outer tubular members together which is releasable upon actuation of the setting tool to accommodate relative longitudinal movement between said inner and outer tubular members;
packer means supported on said outer tubular member;
an extension adjacent the lower end of said outer tubular member;
means supporting said extension on said outer tubular member to accommodate relative longitudinal movement therebetween;;
said extension having an upper end terminating adjacent said packer means and a lower end provided with a downwardly facing, annular conical surface in spaced relation to said upwardly facing conical surface on said inner tubular member;
cage means supported on said extension and overlapping said upwardly and downwardly facing conical surfaces;
said cage means having circumferentially spaced openings;
slip means positioned in the openings of said cage means;
said conical surface on said inner tubular member and said extension engagable with said slip means to urge them into securing engagement with the well bore member and expand said packer means into sealing engagement with the well bore tubular member upon relative longitudinal movement between said inner and outer tubular members;;
cooperating lock means on said inner and outer tubular members to lock them when they are moved relatively longitudinally to aid in maintaining said packer means secured in expanded, sealed engagement with the well bore tubular member; and
release means operative in response to manipulation of said outer member adjacent the upper external end thereof by the grapple means to release said cooperating lock means for retrieval of the packer arrangement from the well bore tubular member.
5. A packer arrangement for connection with and actuatable by a mechanical setting tool supported on a setting string to sealably secure the packer arrangement in a well bore tubular member to extend upwardly into a production string and which is retrievable by a grapple tool supported on either coupled pipe, coiled pipe or a wireline comprising::
inner and outer tubular members;
said inner and outer tubular members each having an upper end and a lower end;
said inner tubular member having an external seal engaging surface adjacent its upper end and an annular upwardly facing conical surface longitudinally spaced from its lower end;
connecting means connecting said inner tubular member upper end with the setting tool;
adapter means surrounding said annular external surface on said inner tubular member;
additional connecting means releasably connecting said adapter means with the setting tool;;
said adapter means including drag block means, slip means and conical surface means whereby engagement of said drag block means with the well bore tubular member enables said additional connecting means to be actuated by manipulating the setting tool to disconnect the setting tool from said adapter means and engage said conical surface with said slip means to secure said adapter means to said well bore tubular member;
said outer tubular member upper end extending from adjacent said adapter means with its lower end terminating in an annular downwardly facing conical surface adjacent, but longitudinally spaced from said conical surface on said inner tubular member;
cage means supported on said inner and outer tubular members and overlapping said upwardly and downwardly facing conical surfaces;;
slip means supported by said cage means for moving-outwardly therefrom to engage and secure with the well bore tubular member;
packer means supported on the inner tubular member between said cage means and said lower end of inner tubular member;
shear means connecting said inner and outer tubular members together which is releasable upon longitudinal movement of the setting tool after its release from said adapter means to urge said conical surfaces into engagement with said slip means to move said slip means into securing position with the well bore tubular member;
said slip means acting upon further longitudinal movement of said setting tool to exert a compressive force for sealably engaging said packer means with the well bore tubular member;;
cooperating lock means on said inner and outer tubular members to lock said inner and outer tubular members when said packer is in sealed engagement with the well bore tubular member and to maintain said packer means secured in expanded, sealed engagement with the well bore tubular member;
disconnect means responsive to additional longitudinal movement of the setting tool to disconnect and remove the setting tool and adapter means from said inner tubular member to expose said external surface on said inner tubular member for sealably receiving the production string therearound;
external grapple engaging surface means adjacent the upper end of said outer tubular member for engagement by the grapple tool to retrieve the packer arrangement from the well bore tubular member; and
means to inhibit release of said cooperating lock means, said means responsive to manipulation of said outer tubular member when said grapple engaging surface means is engaged by the grapple tool to release said cooperating lock means for retrieval of the packer arrangement from the well bore.
6. The packer arrangement of claims 1, or 2, or 3, or 4, or 5 wherein said er^perating lock means includes;
a ratchet surface on said inner tubular member;
a ratchet ring between said inner and outer tubular.members, said ratchet ring having at least
one tapered outer surface;
a ratchet ring support between said inner and
outer tubular members, said support ring having an
outer surface with a groove therein and at least
one inner tapered surface abutting said ratchet
ring outer tapered surface; and
a lock ring in the groove to aid in retaining
said support and ratchet ring engaged with said
ratchet surface; and wherein said release means includes;
sleeve means forming part of, projecting above
and telescopically received in said outer tubular
member;
said sleeve means and outer tubular member
having upper and lower annular, longitudinally
spaced shoulders with the longitudinal space
between said shoulders of said outer member being
of greater extent than the extent of the
longitudinal space between said shoulders on said
sleeve means to accommodate relative longitudinal
movement between said sleeve means and outer
tubular member while preventing separation
thereof;
sleeve shear means securing said sleeve means
and outer tubular member together when said sleeve
means lower shoulder abuts said outer tubular
member lower shoulder;;
said sleeve means having an internal recess
adjacent its lower shoulder for receiving and
positioning said lock ring on said outer tubular
member lower shoulder whereby said release means
when ir. this position inhibits release of said
lock means;
and wherein said grapple engaging surface means is formed on said sleeve means whereby said sleeve means may be engaged and actuated by the grapple tool to break said sleeve shear means and move said sleeve means of said outer tubular member to the second position which releases said lock ring from said outer tubular member lower shoulder and said ratchet support ring whereby relative longitudinal movement between said inner and outer tubular members may be effected to disengage said slip means and packer means from the well bore tubular member for retrieval of the packer arrangement.
7. The packer arrangement of claims 1, or 2, or 3, or 4, or 5 including connection means on said external surface of said inner tubular member engagable with the production string to releasably connect the production string to the packer arrangement.
8. The arrangement of claim 4 wherein said means supporting said extension on said outer tubular member includes pin means mounted on said outer tubular member engaged in longitudinal, circumferentially spaced slot means in said extension to accommodate relative movement between said extension and outer tubular member upon relative longitudinal movement between said inner and outer tubular members to assist in engaging said packer means and slip means into sealing and securing engagement, respectively, with the well bore tubular member.
9. A method of positioning a retrievable packer arrangement in a well bore tubular member by a setting tool supporting an adapter and wherein the arrangement includes an inner tubular member with an external seal surface adjacent its upper end within the adapter for sealably receiving thereover a production string when the seal surface is exposed, an outer tubular member with release means adjacent its upper end and operable to release the set packer arrangement, packer means and slip means for sealably securing with the well bore tubular member, lock means to lock the ar~,ngement in sealing relation with the well bore tubular member and which can be unlocked by the release means comprising the steps of::
releasably securing the inner and outer members against relative longitudinal movement;
manipulating the inner and outer members to release them for relative longitudinal movement which moves the packer means and slip means into sealing and securing relationship with the well bore tubular member, exposes the external upper end of the inner member for sealably receiving the production string therearound, and actuates the lock means to maintain the packer means and slip means in sealed and secured relationship with the well bore tubular member; and
releasing the setting tool from the inner member and removing the adapter from the inner member to expose the external seal surface on the inner member upper end for sealing engagement with the production string.
10. A method of positioning a retrievable packer arrangement in a well bore tubular member by a setting tool supporting an adapter and wherein the arrangement includes an inner tubular member with an external seal surface adjacent its upper end within the adapter for sealably receiving thereover a production string when the seal surface is exposed, an ollter tubular member with release means adjacent its upper end and operable to release the set packer arrangement, packer means and slip means for sealably securing with the well bore tubular member, lock means to lock the arrangement in sealing relation with the well bore tubular member and which can be unlocked by the release means comprising the steps of::
releasably securing the inner and outer members against relative longitudinal movement;
manipulating the inner and outer members to release them for relative longitudinal movement which moves the packer means and slip means into sealing and securing relationship with the well bore tubular member, exposes the external upper end of the inner member for sealably receiving the production string therearound, and actuates the lock means to maintain the packer me & s and slip means in sealed and secured relationship with the well bore tubular member;
releasing the setting tool from the inner member and removing the adapter from the inner member to expose the external seal surface on the inner member upper end for sealing engagement with the production string; and
applying a force adjacent the external upper end of the outer member to actuate the release means and lock means to release the packer arrangement for retrieval from the tubular member.
11. A method of positioning a retrievable packer arrangement in a well bore tubular member by a setting tool supporting an adapter and wherein the arrangement includes an inner tubular member with an external seal surface adjacent its upper end within the adapter for sealably receiving thereover a production string when the seal surface is exposed, an outer tubular member with release means adjacent its upper end and operable to release the set packer arrangement, packer means and slip means for sealably securing with the well bore tubular member, lock means to lock the arrangement in sealing relation with the well bore tubular member and which can be unlocked by the release means comprising the steps of::
releasably securing the inner and outer members against relative longitudinal movement;
manipulating the inner and outer members to release them for relative longitudinal movement which moves the packer means and slip means into sealing and securing relationship with the well bore tubular member, exposes the external upper end of the inner member for sealahly receiving the production string therearound, and actuates the lock means to maintain the packer means and slip means in sealed and secured relationship with the well bore tubular member;
releasing the tool from the inner member and removing the adapter from the inner member to expose the external seal surface on the inner member upper end for sealing engagement with the production string; and
selectively applying compressive and tension forces adjacent the upper end of the inner and outer members to actuate the release means and slip means to disengage the packer means from the well bore tubular member for retrieval.
12. A method of positioning a retrievable packer arrangement in a well bore tubular member by a setting tool supporting an adapter and wherein the arrangement includes an inner tubular member with an external seal surface adjacent its upper end within the adapter for sealably receiving thereover a production string when the seal surface is exposed, an outer tubular member with release means adjacent its upper end and operable to release the set packer arrangement, packer means and slip means wherein the slip means includes upper and lower rows of slips for sealably securing with the well bore tubular member, lock mens to lock the arrangement in sealing relation with the well bore tubular member and which can be unlocked by the release means comprising the steps of:
manipulating the setting tool to sequentially: :
release from the outer member and secure the outer
member to the well bore tubular member;
secure the upper row of slips to the well bore
tubular member;
secure the lower row of slips to the well bore
tubular member;
compress the packer means to expand it into
sealing engagement with the well bore tubular
member;
actuate the lock means to lock the slips and
packer means in sealed, secured relation with the
well bore tubular member; and
release the setting tool from the inner member
and the adapter from the inner tubular member for
removal with the setting tool whereby the
production string may be telescoped over the inner
member upper end.
13. A method of positioning a retrievable packer arrangeme in a well bore tubular member for sealably receiving over its upper end a production string, wherein the arrangement includes inner and outer members with packer means and slip means for sealably securing with the tubular member, lock means to lock the arrangement in sealing relation with the tubular member and release means to release the lock means comprising the steps of::
releasably securing the inner and outer members against relative longitudinal movement;
manipulating the inner and outer members to release them for relative longitudinal movement which moves the packer means and slip means into sealing and securing relationship with the tubular member, exposes the upper end of the inner member for sealably receiving a production string, and actuates the lock means to maintain the packer means and slip means in sealed and secured relationship with the tubular member; and
selectively applying compressive and tension forces adjacent the upper end of the inner and outer members to actuate the release means and slip means to disengage the packer means from the tubular member for retrieval.
14. The packer arrangement of claim 5 wherein said slip means comprises upper and lower rows of slips and wherein said lower row of slips and cage means is secured to said inner tubular member by shear means whereby longitudinal movement of said inner tubular means causes said upper row of slips to secure with the well bore tubular member prior to said lower row of slips.
15. The packer arrangement of claim 14 wherein said packer means is supported on said inner member includes a slip connection that is secured to said inner member by shear means to retain said packer means in retracted position until both rows of said slips are secured with the well bore tubular member, said shear means releasing after said slip rows have secured with the well bore tubular member to enable said slip connection to function so that longitudinal movement of said inner member compresses and expands said packer means inco sealing relation with the well bore tubular member.
16. The packer arrangement of claim 5 wherein said slip means comprises:
upper and lower rows of slips;
means to sequentially secure said rows of slips to the well bore tubular member in a predetermined manner; and
means to retain said packer means in retracted position until said slip rows have been secured to the well bore tubular member.
17. The packer arrangement of claims 1, or 2, or 3, or 4, or 5 further comprising means for selectively applying compressive and tension forces adjacent the upper end of the inner and outer tubular members to actuate the release means and slip means to disengage the packer means from the well bore tubular member for retrieval.
18. A well bore tubular member retrievable packer arrangement for connection with and actuatable by either mechanical, hydraulic or wireline setting tool means supported on a setting string to sealably secure the packer arrangement with the well bore tubular member to communicate with a production string, and which packer arrangement may be retrieved by a grapple tool supported on either coupled pipe, coiled pipe or a wireline, the packer arrangement comprising::
retrievable setting tool means for connection with the setting string;
inner and outer tubular members;
said inner and outer tubular members each having an upper end;
connecting means adjacent the upper end of said inner tubular member for connecting said inner tubular member with said setting tool means;
means adjacent the upper end of said outer tubular member for supporting said setting tool means thereon;
securing means securing said inner and outer tubular members against relative movement as they are lowered into the well bore, said securing means releasable upon relative movement between said inner and outer tubular members;
packer means supported on at least one of said tubular members and expandable into sealing engagement with the well bore tubular member upon relative longitudinal movement between said inner and outer tubular members;;
slip means for engaging the well bore tubular member upon relative longitudinal movement between said inner and outer tubular members to secure the packer arrangement in expanded, sealed engagement with the well bore tubular member;
cooperating lock means on said inner and outer tubular members to lock said inner and outer tubular members in their longitudinally moved relationship to aid in maintaining said packer means secured in expanded, sealed engagement with the well bore tubular member;
disconnect means responsive to manipulation of the setting string for disconnecting said retrievable setting tool means and adaptor from said inner tubular member whereby said setting tool means may be withdrawn by the setting string to expose said external surface on said inner tubular member for sealably receiving the production string therearound;;
and external grapple surface engaging means on the external surface of and adjacent the upper end of said outer tubular member for engagement by the grapple tool to retrieve the packer arrangement from the well bore tubular member.
19. A packer arrangement as claimed in Claim 18, wherein the inner tubular member has a longitudinally extending, annular external surface adjacent its upper end, in which the means for supporting the setting tool means comprises adaptor means supported by the setting tool means, surrounding said annular external surface and itself supported by the outer tubular member adjacent the upper end thereof.
20. A packer arrangement as claimed in Claim 18 or 19, in which the packer means is supported on the inner tubular member below the slip means.
21. A packer arrangement as claimed in Claim 19 or 20, in which the securing means is releasable upon actuation of the setting tool to accommodate relative longitudinal movement between the inner and outer tubular members.
22. A packer arrangement as claimed in Claim 21, in which the packer means is supported on the outer tubular member above the slip means.
23. A packer arrangement as claimed in any of the preceding Claims 18 to 23, comprising means to inhibit release of said lock means, said inhibiting means being responsive to manipulation of the outer tubular member when the grapple engaging surface means is engaged by the grapple tool to release said cooperating lock means for retrieval of the packer arrangement from the well bore.
24. A packer arrangement as claimed in Claim 19, or any of Claims 20 to 23 as dependent on Claim 19, comprising additional connecting means releasably connecting the adaptor means with the setting tool means, and wherein the adaptor means includes drag block means, slip means and conical surface means whereby engagement of said drag block means with the well bore tubular member enables said additional connecting means to be actuated by manipulating the setting string to disconnect said setting tool means from said adaptor means and engage said conical surface with said slip means to secure said adaptor means to the well bore tubular member.
25. A packer arrangement as claimed in any of the preceding Claims 18 to 24, in which the securing means securing the inner and outer tubular members together comprises shear means releasable upon longitudinal movement of the setting tool means after its release from the adaptor means.
26. A packer arrangement as claimed in any of the preceding Claims 18 to 25, wherein the cooperating lock means includes:
a ratchet surface on said inner tubular member;
a ratchet ring between said inner and outer tubular members, said ratchet ring having at least one tapered outer surface;
a ratchet ring support between said inner and outer tubular members, said support ring having an outer surface with a groove therein and at least one inner tapered surface abutting said ratchet ring outer tapered surface, and
a lock ring in the groove to aid in retaining said support and ratchet ring engaged with said ratchet surface.
27. A packer arrangement as claimed in Claim 26, wherein said disconnect means includes:
sleeve means forming part of, projecting above and telescopically positioned relative to said outer tubular member;
said sleeve means and outer tubular member having upper and lower annular, longitudinally spaced shoulders with the longitudinal space between said shoulders of said outer member being of greater extent than the extent of the longitudinal space between said shoulders on said sleeve means to accommodate relative longitudinal movement between said sleeve means and outer tubular member while preventing separation thereof;
sleeve shear means securing said sleeve means and outer tubular member together when said sleeve means lower shoulder abuts said outer tubular member lower shoulder;;
said sleeve means having an internal recess adjacent its lower shoulder for receiving and positioning said lock ring on said outer tubular member lower shoulder whereby said release means when in this position inhibits release of said lock means.
28. A packer arrangement as claimed in Claim 27, wherein said grapple engaging surface means is formed on said sleeve means whereby said sleeve means may be engaged and actuated by the grapple tool to break said sleeve shear means and move said sleeve means of said outer tubular member to the second position which releases said lock ring from said outer tubular member lower shoulder and said ratchet support ring whereby relative longitudinal movement between said inner and outer tubular members may be effected to disengage said slip means and packer means from the well bore tubular member for retrieval of the packer arrangement.
29. A packer arrangement as claimed in any of the preceding Claims 18 to 28, including connection means on said external surface of said inner tubular member engagable with the production string to releasably connect the production string to the packer arrangement.
30. A packer arrangement as claimed in any of the preceding Claims 18 to 29, wherein said slip means comprises:
upper and lower rows of slips;
means to sequentially secure said rows of slips to the well bore tubular member in a predetermined manner; and
means to retain said packer means in retracted position until said slip rows have been secured to the well bore tubular member.
31. A packer arrangement as claimed in Claim 28, wherein said slip means comprises upper and lower rows of slips supported in cage means and wherein said cage means adjacent said lower row of slips means is secured to said inner tubular member by shear means whereby longitudinal movement of said inner tubular member causes said cage means and lower row of slips to move together and activate said upper row of slips to secure with the well bore tubular member prior to said lower row of slips.
32. A packer arrangement as Claim 29, wherein said packer means is supported on said inner tubular member and includes a slip connection that is secured to said inner tubular member by shear means to retain said packer means in retracted position until both rows of said slips are secured with the well bore tubular member, said shear means releasing after said slip rows have secured with the well bore tubular member to enable said slip connection to function so that longitudinal upward movement of said inner member compresses and expands said packer means into sealing relation with the well bore tubular member.
33. A packer arrangement as claimed in any of the preceding Claims 18 to 32, further comprising means for selectively applying compressive and tension forces adjacent the upper ends of the inner and outer tubular members to actuate the release means and slip means to disengage the packer means from the well bore tubular member for retrieval.
34. A method of positioning a retrievable packer arrangement in a well bore tubular member by a setting tool supporting an adaptor and wherein the arrangement includes an inner tubular member with an external seal surface adjacent its upper end within the adaptor for sealably receiving thereover a production string when the seal surface is exposed, an outer tubular member with release means adjacent its upper end and operable to release the set packer arrangement, packer means and slip means for sealably securing with the well bore tubular member, lock means to lock the arrangement in sealing relation with the well bore tubular member and which can be unlocked by the release means, comprising the steps of:
releasably securing the inner and outer members against relative longitudinal movement::
manipulating the setting tool to release the inner and outer members for relative longitudinal movement which moves the packer means and slip means into sealing and securing relationship with the well bore tubular member, exposes the external upper end of the inner member for sealably receiving the production string therearound, and actuates the lock means to maintain the packer means and slip means in sealed and secured relationship with the well bore tubular member; and
releasing the setting tool from the inner member and removing it and the adaptor from the inner member for retrieval from the well bore and to expose the external seal surface adjacent the inner member upper end for sealing engagement with the production string.
35. A method of recovering a packer arrangement from a well bore tubular member wherein the packer arrangement includes an inner tubular member, an outer tubular member with external release means on the external surface thereof and adjacent its upper end and which release means is operable to release the set packer arrangement, comprising the steps of:
lowering grapple means to engage the external
35. A method of recovering a packer arrangement from a well bore tubular member wherein the packer arrangement includes an inner tubular member with an external seal surface adjacent its upper end for sealably receiving therearound a production string when the seal surface is exposed, an outer tubular member with external release means on the external surface thereof and adjacent its upper end and which release means is operable to release the set packer arrangement, comprising the steps of:
lowering grapple means to engage the external release means on the outer member; and
manipulating the -grapple member to release the packer arrangement from the well bore tubular member for retrieval.
36. A method as claimed in Claim 35, wherein the manipulation includes applying compressive or tension forces adjacent the upper end of the inner and outer tubular members.
37. A method of positioning and retrieving a packer arrangement in a well bore tubular member by a setting tool, wherein the arrangement includes an inner tubular member, an outer tubular member with release means adjacent its upper end and operable to release the set packer arrangement, packer means and slip means for sealably securing with the well bore tubular member, lock means to lock the arrangement in sealing relation with the well bore tubular member and which can be unlocked by the release means, comprisislg the steps of::
releasably securing the inner and outer members against relative longitudinal movement;
manipulating the setting tool to release the inner and outer members for relative longitudinal movement which moves the packer means and slip means into sealing and securing relationship with the well bore tubular member, and actuates the lock means to maintain the packer means and slip means in sealed and secured relationship with the well bore tubular member;
releasing the setting tool from the inner member and removing it from the well bore; and
selectively applying compressive and/or tension forces adjacent the upper end of the inner and outer members to actuate the release means and slip means to disengage the packer means from the well bore tubular member for retrieval.
38. A method of positioning a retrievable packer arrangement in a well bore as claimed in Claim 34, wherein the slip means includes upper and lower rows of slips for sealably securing with the well bore tubular member, wherein the setting tool is manipulated to sequentially:
release from the outer member and secure the outer member to the well bore tubular member;
secure the upper row of slips to the well bore tubular member;
secure the lower row of slips to the well bore tubular member;
expand the packer means into sealing engagement with the well bore tubular member;
actuate the lock means to lock the slips and packer means in sealed, secured relation with the well bore tubular member; and
release the setting tool from the inner member and the adapter from the inner tubular member for removal with the setting tool whereby the production string may be telescoped over th2 inner member upper end and positioning the external release means for engagement.
39. A retrievable packer arrangement substantially as hereinbefore described with reference to the accompanying drawings.
Amendments to the claims
have been filed as follows 18. A well bore tubular member retrievable packer arrangement for connection with either mechanically, hydraulically or explosively actuated wire line setting tool means retrievably supported on a setting string to sealably secure the packer arrangement with the well bore tubular member to communicate with a production string, and which packer arrangement may be retrieved by a grapple tool supported on either coupled pipe, coiled pipe or a wireline, the packer arrangement comprising::
inner and outer tubular members;
said inner and outer tubular members each having an upper end;
connecting means adjacent the upper end of said inner tubular member for connecting said inner tubular member with said setting tool means;
securing means securing said inner and outer tubular members against relative movement as they are lowered into the well bore, said securing means releasable upon relative movement between said inner and outer tubular members;
packer means supported on at least one of said tubular members and expandable into sealing engagement with the well bore tubular member upon relative longitudinal movement between said inner and outer tubular members;;
slip means for engaging the well bore tubular member upon relative longitudinal movement between said inner and outer tubular members to secure the packer arrangement in expanded, sealed engagement with the well bore tubular member;
cooperating lock means on said inner and outer tubular members to lock said inner and outer tubular members in their longitudinally moved relationship to aid in maintaining said packer means secured in expanded, sealed engagement with the well bore tubular member;
disconnect means responsive to manipulation of the setting string for disconnecting said retrievable setting tool means from said inner tubular member whereby said setting tool means may be withdrawn by the setting string to expose said external surface on said inner tubular member for sealably receiving the production string therearound;;
and external grapple surface engaging means on the external surface of and adjacent the upper end of said outer tubular member for engagement by the grapple tool to retrieve the packer arrangement from the well bore tubular member.
19. A packer arrangement as claimed in Claim 18, wherein the inner tubular member has a longitudinally extending, annular external surface adjacent its upper end, and adaptor means supported by the setting tool means, surrounding said annular external surface.
20. A packer arrangement as claimed in Claim 18 or 19, in which the packer means is supported on the inner tubular member below the slip means.
21. A packer arrangement as claimed in Claim 19 or 20, in which the securing means is releasable upon actuation of the setting tool means to accommodate relative longitudinal movement between the inner and outer tubular members.
22. A packer arrangement as claimed in Claim 21, in which the packer means is supported on the outer tubular member above the slip means.
23. A packer arrangement as claimed in any of the preceding Claims 18 to 23, comprising means to inhibit release of said lock means, said inhibiting means being responsive to manipulation of the outer tubular member when arrangement in a well bore tubular member by a setting tool supporting an adaptor and wherein the arrangement includes an inner tubular member with an external seal surface adjacent its upper end within the adaptor for sealably receiving thereover a production string when the seal surface is exposed, an outer tubular member with external release means adjacent its upper end and operable to be engaged with grapple tool means to release the set packer arrangement, packer means and slip means for sealably securing with the well bore tubular member, lock means to lock the arrangement in;;sealing relation with the well bore tubular member and which can be unlocked by the release means, comprising the steps of:
releasably securing the inner and outer members against relative longitudinal movement:
manipulating the setting tool to release the inner and outer members for relative longitudinal movement which moves the packer means and slip means into sealing and securing relationship with the well bore tubular member, exposes the external upper end of the inner member and outer member respectively for sealably receiving the production string around the inner member and for engagement with the grapple tool means, respectively, and actuates the lock means to maintain the packer means and slip means in sealed and secured relationship with the well bore tubular member; and
releasing the setting tool from the inner member and removing it and the adaptor from the inner member for retrieval from the well bore and to expose the external seal surface adjacent the inner member upper end for sealing engagement with the production string.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US778687A | 1987-01-28 | 1987-01-28 |
Publications (3)
Publication Number | Publication Date |
---|---|
GB8801650D0 GB8801650D0 (en) | 1988-02-24 |
GB2200388A true GB2200388A (en) | 1988-08-03 |
GB2200388B GB2200388B (en) | 1990-07-25 |
Family
ID=21728138
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
GB8801650A Expired - Lifetime GB2200388B (en) | 1987-01-28 | 1988-01-26 | Retrievable well bore tubular member packer arrangement and method |
Country Status (1)
Country | Link |
---|---|
GB (1) | GB2200388B (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2252994A (en) * | 1991-02-19 | 1992-08-26 | Otis Eng Co | Retrievable packer. |
WO1992017681A2 (en) * | 1991-04-06 | 1992-10-15 | Petroline Wireline Services | Retrievable bridge plug and a running tool therefor |
GB2272466A (en) * | 1990-01-23 | 1994-05-18 | Halliburton Co | Method and means for operating in a downhole wellbore tube |
-
1988
- 1988-01-26 GB GB8801650A patent/GB2200388B/en not_active Expired - Lifetime
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2272466A (en) * | 1990-01-23 | 1994-05-18 | Halliburton Co | Method and means for operating in a downhole wellbore tube |
GB2272466B (en) * | 1990-01-23 | 1994-08-10 | Halliburton Co | Method and means for operating in a downhole wellbore tube |
GB2252994A (en) * | 1991-02-19 | 1992-08-26 | Otis Eng Co | Retrievable packer. |
GB2252994B (en) * | 1991-02-19 | 1995-08-02 | Otis Eng Co | Retrievable packer |
WO1992017681A2 (en) * | 1991-04-06 | 1992-10-15 | Petroline Wireline Services | Retrievable bridge plug and a running tool therefor |
WO1992017681A3 (en) * | 1991-04-06 | 1993-02-18 | Petroline Wireline Services | Retrievable bridge plug and a running tool therefor |
US5366010A (en) * | 1991-04-06 | 1994-11-22 | Zwart Klaas J | Retrievable bridge plug and a running tool therefor |
Also Published As
Publication number | Publication date |
---|---|
GB8801650D0 (en) | 1988-02-24 |
GB2200388B (en) | 1990-07-25 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US4898245A (en) | Retrievable well bore tubular member packer arrangement and method | |
US5988287A (en) | Thru-tubing anchor seal assembly and/or packer release devices | |
US4830103A (en) | Setting tool for mechanical packer | |
CA2551072C (en) | Retrievable packer assembly and system with releaseable body locking ring | |
US7036602B2 (en) | Retrievable bridge plug | |
US4690220A (en) | Tubular member anchoring arrangement and method | |
US4399873A (en) | Retrievable insert landing assembly | |
US5333685A (en) | Wireline set and tubing retrievable packer | |
CA2139067C (en) | Wireline-set tubing-release packer apparatus | |
US5193620A (en) | Whipstock setting method and apparatus | |
US4848459A (en) | Apparatus for installing a liner within a well bore | |
US3976133A (en) | Retrievable well packer | |
US4660637A (en) | Packer and service tool assembly | |
US3659647A (en) | Well packer | |
US4862957A (en) | Packer and service tool assembly | |
US3990510A (en) | Releasable well anchor tool | |
EP0368515A1 (en) | Method and apparatus for supporting one tubular member within another | |
US11959352B2 (en) | Retrievable high expansion bridge plug and packer with retractable anti-extrusion backup system | |
US5040600A (en) | Geothermal wellhead repair unit | |
US4665977A (en) | Tension set seal bore packer | |
US5411099A (en) | Well tool and method | |
CA2369838C (en) | Anchoring device removal method and apparatus | |
GB2218442A (en) | Retrievable well packer | |
GB2200388A (en) | Retrievable well packer | |
US4530398A (en) | Retrievable well bore packer |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PCNP | Patent ceased through non-payment of renewal fee |
Effective date: 19990126 |
|
728V | Application for restoration filed (sect. 28/1977) | ||
728Y | Application for restoration allowed (sect. 28/1977) | ||
PE20 | Patent expired after termination of 20 years |
Effective date: 20080125 |