US2881840A

US2881840A - Tool for use in cementing well casing

Info

Publication number: US2881840A
Application number: US573909A
Authority: US
Inventors: Kenneth A Wright; James R Solum
Original assignee: B&W Inc
Current assignee: B&W Inc
Priority date: 1956-03-26
Filing date: 1956-03-26
Publication date: 1959-04-14
Anticipated expiration: 1976-04-14

Description

April 14, 1959 Fild March 26 195s K. A. WRIGHT ErAL Tool. FoR USE 1N CEMENTIYNG wELL'cAsING .lg-dja 4 Sheets-Sheet 1 5 Il I.|.

/fE/v/yfff/ A. wa/HT JAMES f?. SQLUM INVENTORS By WKK April 14, 1959 K. A. WRIGHT ET AL TOOL FOR USE IN CEMENTING WELL CSING 4' sheets-sheet 2 Filed March 26, 1956 Il'llla INVENTORS April 14,1959

Filed March 2e, 1956 KQA. WIGHT ETAL Toor. FOR usE 1N cEMENTmG WELL cAsING y 4 Sheets-Shed 3 ay I @rae/Veys April 14, 1959 K. A. WRIGHT ET AL 2,881,840

T001. FOR USE 1N CEMENTING WELL cAsING 4 Sheets-Sheet 4 Filed March 26, 1956 INVENToRs vBY United States Patent TOOL FOR USE IN 'CENIENTING WELL CASIN G Kenneth A. Wright and James R. Solum, Los Angeles, Calif., assignors to B and W, Inc., Torrance, Calif., a corporation of `California Application March 26, 1956, Serial No. 573,909

9 Claims. (Cl. 166--173) This invention relates to well drilling and completion apparatus and is particularly directed to improvements in devices for creating turbulence in the annular space between the well casing and the walls of the well formation during cementing operations.

It is highly desirable to displace substantially all of the drilling mud in the annular space in order to obtain a cement bond of optimum quality between the Well casing and the walls of the formation. In order to obtain such full displacement, however, it is essential to create turbulence in the mud column. Without turbulence, the cement slurry fails to displace the mud fully, and on the contrary forms channels or small passageways in the annular space, and the resulting cement shut-off is defective. Turbulence can be created in the annular space if suicient velocity is imparted to the cement slurry entering the lower end of the annular space. However, the required velocity is so high as to make it almost impossible to achieve with conventional cement pumping equipment located at the ground surface.

Well scratchers are commonly used in oil well completion practice and when these are mounted on the casing, they serve to create turbulence in the annular space when the casing string is rotated. However, the cost of the commercial forms of such scratcher devices has been an important factor in limiting their use to the lowermost section of the casing string. i

It is desirable that devices which are mounted on the outer surface of the casing sections be installed before the casing sections are moved into the derrick or mast and connected end-to-end and, therefore, the devices must be capable of withstanding severe handling treatment when they are attached to casing sections resting on horizontal pipe racks. The carrier strips which serve to mount the devices onthe outer surface of the casing sections must ordinarily be applied while the casing sections are on the horizontal pipe racks adjacent the mast or derrick. Handling of the casing sections entails rolling of one pipe section against another with the result that the mounted devices may be permanently damaged.

Accordingly, it is the principal object of this invention to provide a novel form of well cementing tool rfor creating turbulence in the annular space containing the mud column, and which tool is particularly adapted to withstand severe treatment when the casing sections with the devices installed thereon are placed on pipe racks in contact with each other.

Another object of this invention is to provide a turbulence generator which may be xed to the casing and which includes novel elements in the form of loops of multiple strand liexible wire cable arranged to project at an angle from the casing into the annular space Within the walls of the formation.

Another object is to provide a well tool device of this type adapted to be mounted on a carrier strip and wherein the ends of the cable loops are secured to the carrier strip in a novel manner.

.. Another object .is to provide awell vtool device of this ice 2l type in which the operation of fastening the ends of the wire loops to the carrier strip may be performed in punch press operations for economy of manufacture on a quantity production basis. A

Another object is to provide a turbulence generator which may comprise multiple strand flexible wire cables mounted on a collar free to move on the Well casing. Stops are preferably provided to limit the extent of relative axial movement of the collars on the casing.

Other and more detailed objects and advantages will appear hereinafter.

In the drawings:

Figure 1 shows a agmentary length of a well tool device constituting a preferred embodiment of my invention.

Figure 2 is an enlarged detail of a portion of Figure 1.

Figure 3 is a transverse sectional view taken substantially on the lines 3 3 as shown in Figure 2.

Figure 4 is av longitudinal sectional view taken substantially on the lines 4--4 as shown in Figure 2.

Figure 5 is a View similar to Figure 1, showing a moditication.

Figure 6 shows a second modification.

Figure 7 shows a third modification.

Figure A8 is an enlarged view of a portion of Figure 7.

Figure 9 is a sectional View taken substantially on the lines 9-9 as shown in Figure 8.

Figure 10 shows a fourth modification.

Figures 11, 12 and 13 show another modification.

Figure 12 is a sectional view taken substantially on line 12--12 as shown in Figure ll.

Figure 13 is la sectional detail on an enlarged scale and taken substantially on line 13--13 as shown in Figure 11.

Figures 14 and 15 show another modification.

Figure 15 is a sectional view taken -substantially on line 15-15 as shown in Figure 14.

Referring to the drawings, the turbulence generator device generally designated 10 includes a Icarrier strip 11 Which may be iixed to the outer surface of the Well casing 12 by any convenient means, for example, by weld metal 13. The carrier strips 11 may be of any convenient length and are preferably .mounted on each length of casing making up the casing string.

The elements which extend into the annulus outside the casing are formed of multiple strand exible wire cable in the form of loops 14 having ends 15 and 16 j fixed to the carrier strip at longitudinally spaced locations.

As shown in the drawings, the ends of the cable loops 14 are staggered so that the lower end of one loop overlaps the upper end of the next adjacent loop. The cable ends are thus secured in pairs to the carrier strip 11.

A pair of laterally spaced

bridge elements

17 and 18 are lanced from the sheet material of the carrier strip 11 and are bent to define

apertures

19 and 20, respectively, through Which the cable ends are inserted. A central undistorted land portion 21 remains between the

bridge elements

17 and 18. The cable ends 15 and 16 are inserted latenally into the

apertures

19 and 20 and across the face of the land portion 21. The

bridge elements

17 and 18 are then deformed to mash the multiple strand cable into contact with the land portion 21. A locking tab 22 is lanced from the material of the carrier strip 11 and bent to a position as best shown in Figure 3. The locking tab serves to mash and conne the multiple strand cable between the bridge 18 and the end of the tab 22. Furthermore, the position of the

parts

18 and 22 is such that the cable loop 14 is caused to extend outin the Cours@` Ofnassing thecarrier strntbroush .multiple stage stamping dies, and thecost of attaching the cable loops to the carrier strip is thereby reduced to a minimum. No welding is required-for connetingthe cable loops to the carrier strip. j

, In.the modiiiedtorm of'our invention shown in Figure 5, the cable ends 15a and 16a of thesame loop-14a are clamped in adjacent .relationship-rather than being spread apart,v as? described above. Furthermore, each cable loop 14a passes through the loop of the adjacentl cable withthe result that each loop contributes to the stiiness of the assembly. The manner of securingthecableends is :substantially thev same as that previously described.

Figure 6 shows a modified form of ouninvention which is similar to that shown in Figure 5, except that-therloops 14h are vseparateV and dov not intertwine.vi/,ith other loops.

...The form of our; inventionshown in`r Figures 71, Sand 9 is 'substantially the same as that shown in Figurex, except that ,thehridg-Climlltsalc is, substantially hat along its outer,surface,ratherthan beingdndented to separate the cable endsl 15c and 1`6c. V Figure 8 shows how the loking tabA 22o engages, the-, rnultiplehstrandl cable to cause the'loop' 14c to extend outwardly from the carrier strip at an angle.

The form of our invention shown in Figure is substantially the same as that shown in Figures 7, 8 and 9, except that the cable ends are'mounted at an angle with respect to the longitudinal axis of the carrier strip 11d. This serves to twist the` planes of the respective cable loops 14d so that they do not all lie in the same plane, This feature tends to increase the turbulence in the mud column when the casing is rotated.

In use, the turbulence generator devices are installed on the casing sections' by welding the carrier strips to the outer surface of the casing sections.` Rough handling of the casing prior to insertion into the well does not seriously damage the connection between the wire loops and the carrier'strip because the

bridge elements

17 and 18 are capable of withstanding heavy compressive forces and impacts. The casing string is lowered into the well bore and is then rotated to cause the'cable loops to create turbulence in the mud column in the annulus, which action materially assists the cement slurry in displacing the mud from the hole so that a cementing operation of optimum quality is achieved.VA

In the modified form of our invention in Figures ll-l 3 the carrier strip comprisesa hinged collar 30 having two substantially

identical halves

31 and 32. Hinges 33 serve tol connect the collar halves as well as to enable the device to be applied-laterally tothe casing." The loops 14e are applied to the collar 30 in the same manner as described in connection with Figures l, 2 and 3 and the series of loops extend longitudinally to the collar 30. Stops 34 may be welded or otherwise attached to the casing to limit the extent of axial movement of the collar 30. The collar i-s free to turn onthe casing as well as to move axially.

' In that form of our invention shown in Figures 14 and" the hinged collar 35 is constructed in substantially the same manner as described in Figures 11-13 and is free to turn on the casing as well as to move axially between the stops 36. The loops of flexible multiple strand cable 14)c are mounted on the outer surface of collar halves and the loops extend circumferentially rather than longitudinally. The cable loops are mounted and attached in a manner similar to that described in connection with Figures l,.2and 3.

The modifications ofour-invention shown in Figs. 11 through l5 create turbulence by Vreciprocating the casing string a distance greater -than .the clearance between the end ofthe device and the

stops

34 or 36.

Itshould be observed ,that although. the cable-loops are intended primarilyto createturbulence, they `also necessarily function to scrapethe side walls of the bore and 10.08611 atleast a portion otthe mud therefrom` This application is a continuation-impart of our copending application, Serial No. 548933', ledNovember 25, 1955, now abandoned.

Having fully described our invention, it is to be understood that we do not wish to be limited to the details herein Set forth but our invention is of the full scope of the appended claims.

We claim:

1. In a device of the class described, adapted to be mounted on the outer surface of a Well pipe, the comb1- nation of: a carrier strip, a longitudinal series of turbulence generator elements mounted on said carrier st rrp, each of said elements including a length of multlple strand wire cable forming a loop and having both ends of the cable length mounted, on the carrier strip, the cable ends of each loop being spaced longitudinally along the carrier strip, and in overlapping relation, with the lower cable end of one,\loo.p., positionedv below the upper cable end of the next lower. loop,fandmeans for anchoring both ends of each Ycable to the Ycarrier strip.

2. In a device of the classdescribed, adapted to be mounted on the outer surface of a well pipe, the combination of: a carrier strip, `a longitudinal series of elements mounted on said carrier strip, each of said elements including a length of multiple strand wire cable forminga loop and having both ends of the cable length mounted on the carrier strip, the cable ends of each loop being spaced` longitudinally along the carrier strip, each cable `length passing through the loop formed by an adjacent cable length, and meansl for anchoring both ends of each cable tothe carrier strip.

3. In a device of the class described, adapted to be mounted on the outer surface of a well pipe, the combination of: a carrier strip, alongitudinal series of elements mounted on said carrier strip, each of said elements including a length ofmultipler strand wire cable forming a loop and having both ends of the cable length mounted on the carrier strip, and a series of clamping means formed integrally -with the carrier strip for anchoring all of the cable ends to the carrier strip.

4. The combination set forth in claim 3 in which the cable ends are mounted at an angle on the carrier strip.

5. In a device of the class described, adapted to be mounted on the outer surface of a well pipe, the combination of: a carrier strip, a series of elements mounted on said ,carrier strip, each of said elements including a length of multiple strand wirecable forming a loop, and means for anchoring the cable ends to the carrier Strip including at least one bridge element formed integrallyv with the carirer strip and projecting outwardly from the outer surface to deine an opening receiving the cable ends, said bridge element beinggcompressed around said cable ends to clamp the same to said-carrier strip.

6. In a device of the class described, adapted tc be mounted on the outer surface of a wellv pipe, the combination of: a carrier strip, aseries of elements mounted on said carrier strip, each ofsaid elements including a length of multiplev strand wire cablevforming a loop, means for anchoring the cable ends to the carrier strip including pair of laterally spaced bridge'elements formed/integrally with the carrierstrip and projecting outwardly from the outer surface to 'detine openings receiving the cable ends, and a locking -tab formed integrally with the carrier strip and having a portion thereof serving to clamp the cable against a side edge of one of said bridge elements, the locking tab being positioned relative to said bridge element so as tol bend the'cable loop with relation tothe cable ends so that the parts forming the loopextend-at an angle from the carrier strip.

7. The combination delined in claim 6 in which the bridge element adjacent the locking-tab is centrally indented to clamp the cable ends individually.

' 8. A well tool. for generating turbulence in a mobile mixture owing in the annularspace'between a pipe string and a surrounding wall, said well tool. comprising:v a carrier .structuremountedfon a.-.-section of.saidpipe string; a

plurality of substantially nonstretchable, relatively short lengths of multiple strand wire cable; a plurality of securing devices joining each end of each cable length to said carrier structure to form each length into a loop, a rst bridge element overlying the adjacent tip end of said cable length at one side of said land, a second bridge ele ment overlying said cable length at the opposite side of said land to Ianchor said end of the cable length, and a locking tab extending outwardly from said carrier struct-ure in confronting relation with said second bridge element and positioned to engage and bend said cable length adjacent said end, whereby the securing devices at opposite ends of said cable length force the loop portions of said cable lengths between said ends to project outwardly from said pipe string for yieldable and slidable engage ment with the surrounding wall, said loop portions tending to create a turbulent flow of a mobile mixture flowing around said loop portions in the space between said pipe string and said wall.

9. A well tool for generating turbulence in a mobile mixture owing in the 4annular space between a pipe string and a surrounding wall, said well tool comprising: a carrier structure mounted on a section of said pipe string; a

plurality of substantially nonstretchable, relatively short lengths of multiple strand wire cable; a plurality of spaced securing devices, each securing device rigidly securing a pair Aof cable length ends to said carrier structure in contiguous, substantially parallel relation, whereby said cable lengths form loop portions between their secured ends, each securing device including means bearing laterally against said cable ends to cause said cable loop portions to project outwardly from said pipe string for yieldable and slidable engagement with the surrounding wall, said loop portions tending to create a turbulent flow of a n10- bile mixture flowing around said loop portions in the space between said pipe string and said wall.

References Cited in the le of this patent UNITED STATES PATENTS 2,433,955 Meynig Jan. 16, 1948 2,634,813 Wright Apr. 14, 1953 2,714,424 Atkinson Aug. 2, 1955 FOREIGN PATENTS 540,910 France July 19, 1922