US3342268A - Well packer for use with high temperature fluids - Google Patents

Description

Sept. 19, 1967 I J. R. BROWN 3,342,268

WELL PACKBR FOR USE WITH HIGH TEMPERATURE FLUIDS Filed Sept. 7, 1965 2 Sheets-Sheet 1 JOE R BROWN \Z l j. Z INVENTOR.

Sept. 19, 1967 .1. R. BROWN 3,342,268

WELL PACKER FOR USE WITH HIGH TEMPERATURE FLUIDS Fild Sept; 7, 1965 2 Sheets-Sheet :JOE R BROWN INVENTOR.

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United States Patent 3,342,268 WELL PACKER FGR USE WITH HIGH TEMPERATURE FLUHDS Joe R. Brown, 5649 Tapper Lake, Houston, Tex. 77027 Fiied Sept. 7, 1955, Ser. No. 485,182 Claims. (Cl. 166-124) This invention relates to well packers and more particularly to well packers especially adapted for use with high temperature fluids.

In certain types of oil well production operations, production of the oil is aided by injecting hot fluids, such as steam or hot gases, into the oil-containing formations to render the oil sufiiciently fluid to flow readily from the formations into the Well bore.

Due to the temperatures of the heating fluids, conventional production equipment, particularly the well packers are subjected to severe conditions, including thermal expansion and contraction, which adversely atfect their normal functioning.

Accordingly, it is a primary object to provide an improved form of well packer adapted particularly for use in the presence of high temperature fluids.

An important object is the provision of a well packer employing a slidable connection means between the packer and the operating pipe string especially adapted to accommodate longitudinal expansion and contraction of the pipe string due to substantial changes in temperature of fluids conducted therethrough.

A more specific object is the provision of a well packer for high temperature service in which said slidable connection means includes a tubular mandrel slidably extending into the bore of the packer body and connected at its outer end to the operating pipe string and carrying on its inner end clutch elements cooperable with complementary clutch elements in the packer bore to be connected and disconnected therefrom by relative longitudinal movement of the mandrel.

A further object is the provision of slidable connection means between the packer and an operating pipe string which includes a tubular mandrel carrying two longitudinally spaced clutch elements, one of which is operable at one axial position of the mandrel to set and release the packer in response to rotation of the operating string and the other of which is operable at a second axial position of the mandrel to effect release of the operating pipe from the packer in response to rotation of the operating string Without unsetting the packer.

Other and more specific objects and advantages of this invention will become more readily apparent from the following detailed description when read in conjunction with the accompanying drawing which illustrates a useful embodiment in accordance with this invention.

In the drawing:

FIG. 1 is a longitudinal, quarter-sectional view showing the packer as run into a well bore;

FIG. 2 is a view similar to FIG. 1 showing the packer in set position in the well;

FIGS. 3 and 4 are views similar to FIGS. 1 and 2, showing the packer at different stages of operation;

FIG. 5 is a cross-sectional view taken along line 5-5 of FIG. 1; and

FIG. 6 is a cross-sectional view taken along line 66 of FIG. 4.

Referring to the drawing, the well packer comprises atubular body 10 externally threaded at 11 at its lower end to be received in afriction collar 12 havinginternal threads 13 mating withthreads 11. Collar 12 carries outwardlybent springs 14 on its exterior for frictionally engaging the wall of a well bore, such as a well casing. The friction springs 14 function in the conventional manner to holdcollar 12 stationary in the casing so as to permit relative rotation ofpacker body 10. An annular seal packing 15 of generally conventional flexible, resilient construction, adapted to be radially expansible by endwise compression, is mounted about the exterior ofbody 10 abovecollar 12. The end ofpacking 15 are enclosed by metal end rings 16-16, the seal packing having longitudinally slidable relation tobody 10. Alower abutment ring 17surrounds body 10 at a point below packing 15 and is initially supported against relative downward movement onbody 10 by engagement with anexternal shoulder 18 on the exterior of the packer body. Aspacer ring 19 is mounted betweenlower end ring 16 andabutment ring 17. A plurality of pipe-gripping wedges orslips 20 are pendently secured to the lower end ofabutment ring 17 by means of T-head connections 21 mounted in correspondinglyshaped slots 22 in the abutment ring, so as to permit radial movement of the slips relative tobody 10. The lower portions ofslips 20 overlie the upwardly taperingconical surface 23 of anexpander 24 slidably surroundingbody 10 and threadedly secured to the upper end ofcollar 12.Slips 20 are initially secured in retracted relation to expander 24 by means ofshear pins 25 which are breakable in response to relative longitudinal movement between the slips and the expander, as will appear subsequently. Downward movement of expander 24 relative tobody 10 is limited by means of anexternal shoulder 26 onbody 10 engageable by aninternal shoulder 27 in the bore of expander 24. The upper end ofbody 10 is threadedly received in the lower end of asetting sleeve 28 which extends about the exterior ofbody 10 to define a downwardly facingannular shoulder 29 overlyingupper end ring 16. Ananti-friction ring 30 is disposed betweenshoulder 29 andupper end ring 16. The bore of setting sleeve 2-8 is counterbored from its upper end to provide an enlargedbore 36 terminating in aninternal shoulder 36a near the lower end of the sleeve.

With the arrangement so far described, it will be seen that settingsleeve 28 andbody 10 constitute a unitary structure which is rotatable relative to the packing and anchoring elements arranged exteriorly ofbody 10. Thus, it will be seen that when setting sleeve is rotated in the right-hand direction,collar 12 being held stationary by frictional engagement betweenwiper springs 14 and the wall of easing C, the downward movement ofbody 10 will transmit downward pressure throughshoulder 29 of the setting sleeve against the packing and anchor slip assemblies, forcing the latter downwardly relative toex pander 24. As a result of the thus downwardly exerted pressure,shear pins 25 will be broken causing the slips to move downwardly and outwardly onconical surface 23 into gripping engagement with the wall of casing C, as seen in FIG. 2. When the slips have thus been firmly seated in casing C, further downward movement of the seal packing will be resisted, with the result that the continued rotation of settingsleeve 28 will cause packing 15 to be axially compressed and thereby expanded into sealing engagement with the wall of casing C, also as seen in Y FIG. 2.

To enable rotation of settingsleeve 28, a first clutch means is provided between the operating pipe string P and the setting sleeve. This clutch means comprises a plurality of circumferentially spacednotches 31 opening to the upper end ofsleeve 28 adapted to receive cooperating radially extendinglugs 32 mounted on the exterior of acollar 33 threadedly secured to the lower endof operating pipe string P. The lower end ofcollar 33 has an internally threadedsocket 34 which receives the upper end of atubular mandrel 35 which extends slidably through the bores of settingsleeve 28 andbody 10. The external diameter ofmandrel 35 is made substantially less than the internal diameter ofbore 36 of the setting sleeve to define therebetween a substantial annular space in which is inserted atubular connector sleeve 37 having abore 37 adapted to slidably receivemandrel 35.Connector sleeve 37 is provided with internal and external packings 38 a 39, respectively, arranged to form slidable seals, respectively, with the exterior ofmandrel 35 and the wall ofbore 36 of settingsleeve 28. The wall ofbore 36 of the setting sleeve is provided a short distance aboveshoulder 36a with a section of downwardly facingbuttress threads 40. The exterior of connector sleeve 37 below packing 38 is provided with a downwardly and outwardly slopingwedging surface 41 about which is mounted asplit wedge ring 42 carrying on itsouter face threads 43 complementary tobuttress threads 40. Wedgering 42 is held against rotation onconical surface 41 by means of apin 43a. The arrangement of the wedge ring is such that whenconnector sleeve 37 is inserted in the bore of stting leev 28 the ring will ratchet overthreads 40 and will be locked thereto and may be released therefrom by relative rotation betweenconnector sleeve 37 and settingsleeve 28.Buttress threads 40 will be left-hand threads so that righthand rotation of connectedsleeve 37 will result in the unscrewing ofring 42 from the threads.Mandrel 35, which may be of any desired length for purposes to be described more fully hereinafter, carries about its lower end a series of clutch teeth orlongitudinal splines 44 receivable incorresponding spline grooves 45 provided in the bore of the lower end ofconnector sleeve 37. These clutch elements are so arranged that whenmandrel 35 is drawn upwardly to engage splines 44- ingrooves 45, right-hand rotation of the operating pipe will drive through the clutch thus formed to correspondinglyrotate connector sleeve 37 relative to settingsleeve 28 to thereby effect the release ofring 42 fromthreads 40 and to thereby releaseconnector sleeve 37 from the setting sleeve when desired.

The lower end ofsleeve 12 carries a connector fitting 46 of any suitable design or shape adapted to effect a connection between the packer and a well liner or other well tool. The particular form of such fitting or coupling device does not form a part of this invention and may, as indicated, be of any conventional form suitable for this purpose.

In operation, the packer, mounted on operating pipe P, as illustrated in FIG. 1, will be lowered into well casing C and connected to liner L, for example, by means of thefitting 46 which, in the illustrative embodiment, is provided with anannular recess 47 at its lower end to receive the upper end of liner L and to seal therewith by means of packing 48 suitably disposed inrecess 47.

As the packer assembly is thus being lowered into the well, the resistance offered by the friction betweenwiper springs 14 and the wall of casing C will have causedlugs 32 to be engaged innotches 31 of the setting sleeve, also as seen in FIGS. 1 and 2. When the packer has attained its position on liner L, pipe P may be rotated in the righthand direction and this rotation will be transmitted through the engagement oflugs 32 innotches 31 to settingsleeve 28. Asclutch elements 44 and 45 will be dis-engaged whenlugs 32 are seated innotches 31,connector sleeve 37 will remain latched to the setting sleeve, and as rotation continuesbody 10 will be caused to move downwardly relative tocollar 12, transmitting endwise com pression ofshoulder 29 through seal packing 15 to slips 20, breakingshear pins 25 and urging the slips outwardly oversurface 23 into engagement with the wall of casing C to effect the anchoring of the packer to casing C and compression of seal packing 15, whereby to seal E the annulus between body and casing C, as seen in FIG. 2.

When the packer is thus set, then in accordance with usual practice, an upward pull is taken on the operating pipe string to place the latter in tension. As shown in FIG. 3, this upward movement will sequentially disengage the upper clutch means by pullinglugs 32 out ofnotches 31 and engageclutch elements 44 and 45. This will be the normal relation of the pipe string to the packer when the latter has been set andconnector sleeve 37 will also be eifective to maintain fluid-tight seals between the mandrel and the setting sleeve, so that fluid flow will b confined to the bore of the pipe string and packer, and thence into the liner or other tool string to which the packer may be connected in the well bore.

When used in a steam injection process or other process in which highly heated fluid will be conducted through pipe P and the interior of the packer to the liner or the well bore below the packer, the use of a connection, such as that afforded between the mandrel andconnector sleeve 37, will allow elongation of the pipe string in response to thermal expansion to take place by merely causingmam drel 35 to move downwardly through the bore of th packer in accordance with the amount of elongation which may occur in the operating pipe, since the upper end of the pipe will ordinarily be fixedly secured at the surface. The longitudinally releasable connection thus provided between the mandrel and the connector sleeve will permit this elongation to occur without causing the operating pipe to bend or kink, which would be the condition if a fixed connection, as is conventional, were provided between the lower end of the pipe string and the packer. With the pipe string in tension, as is the normal condition, the heating of the pipe will first tend to relieve the tension. Thereafter, further elongation, due to increases in temperature, will be accommodated by the downward movement of the free end ofmandrel 35 into the bore of the packer, without unsetting the packer.

When it becomes necessary to replacepackings 38 and 39, which is frequently required in the high-temperature operations in which these packers are employed, it is only necessary to pull up the operating string to engage lowerclutch elements 44 and 45. This movement will, of course, withdrawlugs 32 fromnotches 31, whereupon right-hand rotation of the pipe string will cause release ofwedge ring 42 from threads 4%, as best seen in FIG. 4, andpermit connector sleeve 37 to be withdrawn from the bore of settingsleeve 28. When the seal packing has been replaced, the mandrel carrying the connector sleeve will b slidably re-inserted into thebore 36 of the setting sleeve andwedge ring 42 will ratchet over andre-engage threads 40, restoring the sealed connection between the operating pipe and the packer. This operation can be conducted without unsetting the packer.

When release of the packer itself is required, the operating pipe will be lowered sufficiently to reengagelugs 32 andnotches 31, thereby disconnectingclutch elements 44 and 45. Thereupon rotation in the left-hand direction will retractbody 19 relative tocollar 12 andexpander 24, thereby retracting the setting sleeve relative to seal packing 15, allowing the latter to contract and, at the same time, retracting slips 20 out of engagement with the wall of casing C, thereby freeing the packer for with drawal from the well.

From the foregoing, it will be seen thatmandrel 35 may be considered as carrying a pair of longitudinally spaced clutch elements, one of which is operable at one axial position of the mandrel relative to the packer to set and release the packer by rotation of the mandrel, and the other of which is operable by movement to a second axial position of the mandrel relative to the packer to connect an operating pipe to the packer and when soconnected, to enable release of the operating string from the packer by right-hand rotation of the operating string. It will also be noted that the longitudinal spacing between the clutch elements on the mandrel is greater than that between the cooperating clutch elements on the setting sleeve and the connector sleeve. Thus, only one of the two clutches may be engaged at any axial position of the mandrel. Also, clutching engagement between the mandrel and the setting sleeve is effected by downward movement of the mandrel relative to the setting sleeve while clutching engagement between the mandrel and connector sleeve is eifected by upward movement of the mandrel relative to connector and setting sleeves.

It will be understood that various changes and modifications may be made in the details of the illustrative embodiment within the scope of the appended claims but without departing from the spirit of this invention.

What I claim and desire to secure by Letters Patent is:

1. In a well packer of the type including a tubular body carrying a radially expansible anchor-and-seal assembly and a tubular setting sleeve operable by rotation relative to said body for expanding and retracting said anchorand-seal assembly, means for releasably connecting an operating pipe string to said setting sleeve, comprising, a connector sleeve having an axial bore slidably receivable in the bore of said setting sleeve, cooperating anchor means disposed between the connector sleeve and setting sleeve engageable in response to relative longitudinal movement of said connector sleeve and releasable by relative right-hand rotation thereof, a tubular mandrel connectible to an operating pipe string and slidably extendable through the bore of said connector sleeve, fi-rs-t and second longitudinally spaced clutch elements carried by said mandrel, said clutch elements being respectively engageable with longitudinally spaced first and second complementary clutch elements on said setting sleeve and on said connector sleeve by opposite relative longi tudinal movements of said mandrel, the spacing between the clutch elements on said mandrel being greater than that between the clutch elements on said sleeves, whereby only one set of said clutch elements will be engaged at any axial position of said mandrel.

2. In a well packer according to claim 1, internal and external annular seal packings carried by said connector sleeve for sealing respectively with said mandrel and said setting sleeve.

3. In a well packer according to claim 1, wherein said anchor means comprises downwardly facing buttress threads in the bore of said set-ting sleeve, and a split wedge ring carried about the exterior of said connector sleeve, said wedge ring carrying external threads complementary to said buttress threads.

4. In a well packer according to claim 1, wherein the clutch elements on said mandrel comprise angula-rly spaced radially extending lugs, and said complementary clutch elements on said connector and setting sleeves comprise circu-mferentially spaced notches opening to the op posi-te ends of the respective sleeves.

5. A well packer, comprising, a tubular body, coll-a1 means threadedly connected to the body carrying means frictionally engageable with a well wall to permit relative rotation of said body, an anchor-and-seal assembly mounted about the body for radial expansion and contraction in response to said relative rotation, at setting sleeve secured to said body for rotating the same, a connector sleeve concentrically disposed in the bore of said setting sleeve and having an axial bore, cooperating anchor means carried by the connector and setting sleeves arranged to anchor said connector sleeve to said setting sleeve in response to axial movement of the connector sleeve relative to said setting sleeve and releasable therefrom by right-hand rotation of the connector sleeve relative to the setting sleeve, a tubular mandrel connectible to an operating pipe string for rotation thereby and extending slidably through the bore of said connector sleeve, and first and second longitudinally spaced clutch elements being engageable with said setting sleeve at one axial position of said mandrel and the other of said clutch elements being engageable with said connector sleeve at a second axial position of said mandrel.

References Cited UNITED STATES PATENTS 2,221,204 11/ 1940 Santiago 166-124 2,228,503 -1/l94l Boyd et al 166-208 2,877,850 3/1959 Burns 166124 3,158,201 11/ 1964 Springer 166208 3,171,491 3/1965 States 166-124 3,223,170 12/1965 Mott 166-15 3 CHARLES E. OCONNELL, Primary Examiner. JAMES A. LEP PINK, Examiner.

UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No. 3,342,268 September 19, 1967 Joe R. Brown It is hereby certified that error appears in the above numbered patent requiring correction and that the said Letters Patent should read as corrected below.

Column 6,line 25 after "ele ments insert carried b said mandrel, one of said clutch elements y Signed and sealed this 15th day of October 1968.

(SEAL) Attest:

EDWARD J. BRENNER Edward M. Fletcher, Jr.

Commissioner of Patents Attesting Officer

Claims (1)

1. 5. A WELL PACKER, COMPRISING, A TUBULAR BODY, COLLAR MEANS THREADEDLY CONNECTED TO THE BODY CARRYING MEANS FRICTIONALLY ENGAGEABLE WITH A WELL WALL TO PERMIT RELATIVE ROATION OF SAID BODY, AN ANCHOR-AND-SEAL ASSEMBLY MOUNTED ABOUT THE BODY FOR RADIAL EXPANSION AND CONTRACTION IN RESPONSE TO SAID RELATIVE ROTATION, A SETTING SLEEVE SECURED TO SAID BODY FOR ROTATING THE SAME, A CONNECTOR SLEEVE CONCENTRICALLY DISPOSED IN THE BORE OF SAID SETTING SLEEVE AND HAVING AN AXIAL BORE, COOPERATING ANCHOR MEANS CARRIED BY THE CONNECTOR AND SETTING SLEEVES ARRANGED TO ANCHOR SAID CONNECTOR SLEEVE TO SAID SETTING SLEEVE IN RESPONSE TO AXIAL MOVEMENT OF THE CONNECTOR SLEEVE RELATIVE TO SAID SETTING SLEEVE AND RELEASABLE THEREFROM BY RIGHT-HAND ROTATION OF THE CONNECTOR SLEEVE RELA-

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