US3556042A - Centering device - Google Patents

Centering device Download PDF

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US3556042A
US3556042A US572757A US3556042DA US3556042A US 3556042 A US3556042 A US 3556042A US 572757 A US572757 A US 572757A US 3556042D A US3556042D A US 3556042DA US 3556042 A US3556042 A US 3556042A
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collars
elements
strips
resilient
collar
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William N Laughlin
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MARK TOOL CO Inc
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    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21BEARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
    • E21B17/00Drilling rods or pipes; Flexible drill strings; Kellies; Drill collars; Sucker rods; Cables; Casings; Tubings
    • E21B17/10Wear protectors; Centralising devices, e.g. stabilisers
    • E21B17/1014Flexible or expansible centering means, e.g. with pistons pressing against the wall of the well
    • E21B17/1021Flexible or expansible centering means, e.g. with pistons pressing against the wall of the well with articulated arms or arcuate springs
    • E21B17/1028Flexible or expansible centering means, e.g. with pistons pressing against the wall of the well with articulated arms or arcuate springs with arcuate springs only, e.g. baskets with outwardly bowed strips for cementing operations

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  • a centering device for centering a well casing in a well or a drill string within a casing which comprises two spaced collars connected by outwardly bowed strips which act as springs to centralize the casing or drill string. Additionally, means are provided to restrict the movement of the collars apart so that the resilient strips always maintain an outwardly bowed shape and hence keep the member being centered spring resistent and restrict the movement of the collars apart so that the casing or drill string does not bear against the walls of the space in which it is desirably centered.
  • the instant invention relatesvto a novel .tool' useful sfor centering a first-member longitudinally within asecond member. More specifically, the instant invention provides a novel device'useful in centeringacasing in awe" borehole orl-within a larger casing fixedlin the borehole;
  • centering devices havebeen mountedxon the innerlcasingto maintain it at'least some distancerfromrthe outerlcasing wall:
  • Such devices have. heretofore involvedtwo spaced-apart .collarsto :be fixed on the inner casingwwith-outwardlybowed strips; resilient in nature; which-would serve. as springsand:maintainwthe inner casingspaced from" the 'outer casing wall.
  • a centering device comprising two spaced collars adapted'to be mounted'longitudinally on-the member to be centered. a setof resilientelements connecting the spaced collars abouttheperiphery of said collars. said resilient elements having awbowin-th'e direction outwardly.
  • FIG. l isa pictorial cutaway viewof 'a borehole showing an inner well casing centered within an outer well casing by means of the novel device of this invention.
  • F IG. 3 is-a half-section side view of a centering device in accordance with FIG. ltillustrating the behavior of the outer strips under conditions of severe stress.
  • FIG. 4" is a pictorial view of a portion of a centering device illustratinga furtherembodiment of this invention.
  • FIG. 1 there is shown the novel centering device of this invention in place on a casing string in a borehole.
  • inner casing lTiS runthroughouter casing 2 which in turn has been previously affixed within borehole 3 with cement 4".
  • the inner casing 1 is shown tending to bear against the left sidewall ,of outer casing. 2; A like situation could, of course, occur if the inner casing l was run directly down the borehole.
  • a centering device in accordance with this invention is in'place on inner-casing l, and serves to center the inner casing. with respect to the outer casing.
  • the device ofthis invention does not function to maintain the inner casing in the precise center of the outer casing or the borehole, butit does serve tomaintain a clearance between the inner casing and'the wall of the-outer casing or borehole around the entire periphery of the inner casing, and hence centralize the inner casing.
  • Spaced collars Sof the centering device of this invention are mounted on-inner casingl.
  • a series of centering devices may be placed at intervals along inner casing-l.
  • the hinges are longitudinallyvaligned on the upper and lower collars.
  • One arrangement illustratedin volves a pin 7 passed through holesin each portion of the collar which become axially aligned when th'ehinged collar'is closed around the casmg.
  • outer resilient strips 9 are fastened to the spaced collars 5 and serve to hold them in spaced relation with each other.
  • Outer resilient strips 9 have an outwardly bowed shape such 'that as the inner casing :1 tends to bear against the outer casing 2,.the outer. surface of the outer strips 9is first to contact the outer casing.
  • These outer strips 9 are referred'to as resilient in that they will flex and bend as the inner casing tends to bear against the outer casing thus cushioning any shock which might resultfromsudden movementof the inner casing 1 and tending to precludeithe the possiblity of damage whichmightoccur to the outercasing-if a rigid block or skid. were mounted on: the inner casing.
  • a second set of inner resilient strips 10 having an outward bow are affixed to the spaced collars inside outer strips 9.
  • the length of the inner strips is shorter than the length of outer strips and hence the inner strips do not bow outwardly to the extent that do the outer strips. If the are configuration of the strips 9 and 10 correspond essentially to or at least approximate the circumference of a circle, as in the illustrated embodiment, it may be stated that the arc of the inner strips 9 correspond to the arc of a circle of greater radius than the arc of outer strip 10.
  • outer strips 9 and inner strips 10 are referred to as resilient, in the application of the instant novel device as a well-centering tool these strips are customarily fabricated of Vato /4-inch steel, and thus are not to be considered pliably springy members. in other applications, the resilience of the outer strips may not be required to be so great, and accordingly, different materials may be used to obtain various degrees of spring resistance in the outer and inner resilient strips.
  • an inner casing l bears against outer casing 2 as shown in FIG. 1, the outer strips 9 are depressed thus tending to force the collars 5 apart.
  • the spring effect of inner strips 10 tending to hold collars 5 together serves to supplement the spring resistance offered by the outer strips.
  • pressure forcing inner casing 1 against the outer casing 2 is increased sufficiently, spaced collars 5 will be moved apart by a distance equal to the arc length of inner strips 10.
  • inner strips 10 are essentially straight and are virtually in pure tension resisting any further movement apart by the collars 5.
  • outer strips 9 increase in their rigidity and resistance to further depression since the restriction on the outward movement of collars S by the inner strips 10 prevents the outer strips from further expansion.
  • outer springs 9 still retain a resilient nature.
  • outer strips 9 are not entirely rigid but may depress further forming a double are as shown in FIG. 3. if the increased force is released, the outer strips will then restore themselves to the single arc configuration.
  • outer strips 9 continue to offer a measure of resiliency despite restriction on the outward movement of the collars.
  • inner and outer resilient strips in the construction of the novel centering devices of this invention enables the adaptability of the novel devices of this invention to produce the precise effects in centering one member within another.
  • outer strips 9 may be constructed of a lighter more flexible and more resilient material than inner strips l0.
  • the shock-absorbing ability of the outer strips will be increased while the stiffer spring resistance of the inner strips will tend to hold the collars together.
  • the comparative lengths of the inner and outer strips can also serve to produce varied effects depending on the original clearance between the member to be centered and the walls of space in which it is to be centered, and the ultimate clearance desired regardless of what may be called lateral forces tending to push the member off center.
  • the inner strips can have length varying from 60 to 95 percent of the length of the outer strips.
  • the resilient elements need not be striplike, and rods or the like may be used. in some applications, strong springs having an outward bow could be employed.
  • FIG. 4 Another embodiment of the novel centering device of this invention is shown in FIG. 4 wherein a slightly different method is employed to restrict the motion of the collars apart.
  • outer strips 9 are affixed to the spaced collars the upper of which is illustrated at 12 in the same manner as in the embodiment above discussed to function in the same manner during use.
  • inner strips 13 operate somewhat differently.
  • inner strips 13 are permanently affixed to the lower collar (not shown) as are outer strips 9. the inner strips 13, being interspaced between the outer strips around the periphery of the collars.
  • the opposite ends of the inner strips 13 are not affixed to the upper collar 12 but rather pass through sleeves 14 around the periphery of the collar.
  • the ends of the inner strips 13 onthe upper sides of the sleeves are supplied with stops 15 such that the strips may not be pulled back through the sleeves. It is pointed out that the length of inner strips 13 from the bottom collar to the stop must be shorter than the corresponding length of the outer strips 9 from lower collar 11 to upper collar 12.
  • inner strips Upon being placed on a member to be centered, such as on a casing in a well, inner strips offer no spring resistance supplemental to the spring resistance of outer strips 9 until stop 15 is slided against sleeve 14 as a result of movement apart by the collars 11 and 12. At this point, the supplemental spring action of inner strips due to the outward bow thereof will commence to take effect and tend to hold the collars 11 and 12 together. Thus, there is achieved a centering device which in use has a resistance to lateral forces which increases as the forces increase. Of course, as the collars 11 and 12 move further apart, the bow in inner strips 13 is eliminated until the strips assume an essentially linear configuration preventing further movement apart by the collars.
  • the embodiment of the invention illustrated in FIG. 4 can utilize straight rather than bowed inner strips which are affixed to the lower collar and pass through sleeves of collar 12.
  • the inner strips 13 in the embodiment shown in FIG. 4 need not be affixed to either collar, with sleeves mounted on each collar and each end of the strips having stops to prevent sliding through the sleeves.
  • stops must be provided on the unsecured end or ends of the strip or cable at such distance as to prevent the movement of the collars 11 and 12 apart by a distance greater than the arc length of outer strips 9.
  • straight inner strips or cables do not provide any supplemental spring resistance, and such inner strips will merely serve to restrict the movement of the collars apart.
  • a wire or cable it may be affixed to both collars.
  • novel device of this invention in accordance with the various embodiments disclosed and illustrated may be employed to center a length of well casing, usually at least more than one joint or length of pipe, in another casing or within the borehole itself.
  • a well casing centered within a borehole space, the space being defined by the borehole walls or by an outer casing, said casing consisting of more than one joint of pipe, and having at least one centering device in accordance with this invention as described herein, the centering device having a maximum clearance diameter generally smaller than the borehole space.
  • the borehole space is slightly larger than the maximum clearance diameter of centering device
  • the downhole portions of a borehole are irregular when compared with a casing surface and can have portions where the hole opening is severely constricted.
  • the device should have a maximum clearance diameter less than the minimum diameter of the borehole since irregularities and hole constrictions can result in the well casing being held up or possibly becoming stuck at such irregularity or constriction.
  • the diameter of the outer casing is known and thus such problems of constriction will not arise.
  • the novel devices of this invention can be modified in its structure without departing from the spirit or scope of this invention.
  • the bow in the outer strips of the novel device may have a flattened portion where the strips will contact the outer casing or borehole wall, and indeed the outward configuration of such outer strips need not approximate a circular are at all but may be adapted to have any outwardly extending shape which will suitably contact the outer casing or borehole wall.
  • the device may be equipped with springs or the like extending between the collars so as to increase the spring resistance as the collars move apart.
  • a centering device comprising:
  • a second spaced collar having sleeves about the periphery thereof adapted to be mounted on the member to be centered;
  • a set of inner elements affixed to said first collar about the periphery thereof and passing through said sleeves on said second collar, the unsecured ends of said inner elements being equipped with stops such that the ends of said inner elements cannot pass through said sleeves.
  • the length of said inner elements from said first collar to said stop being less than the length of said outer elements. such that the .maximum distance between said first spaced collar and said second spaced collar is maintained less than the length of said outer elements.
  • the centering device of claim 2 having longitudinally aligned hinges in each of the two spaced collars to permit the ready mounting of the device on a well casing.
  • a centering device comprising:
  • said resilient elements having a bow outwardly from the member to be centered; and v restricting elements affixed to one of said collars and slidably engaging the second of said collars, said restricting elements being shorter than said resilient elements and having means to restrict the movement apart of said collars to a distance less than the length of said resilient elements.

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  • Life Sciences & Earth Sciences (AREA)
  • Geology (AREA)
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  • Mechanical Engineering (AREA)
  • Physics & Mathematics (AREA)
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Abstract

A centering device is provided for centering a well casing in a well or a drill string within a casing which comprises two spaced collars connected by outwardly bowed strips which act as springs to centralize the casing or drill string. Additionally, means are provided to restrict the movement of the collars apart so that the resilient strips always maintain an outwardly bowed shape and hence keep the member being centered spring resistent and restrict the movement of the collars apart so that the casing or drill string does not bear against the walls of the space in which it is desirably centered.

Description

United States Patent [72] inventor William N. Laughlin Lafayette, La. [21] Appl. No. 572,757 [22] Filed Aug. 16, 1966 [45] Patented Jan. 19, 1971 [73] Assignee Mark Tool Co.,1nc.
Lafayette, La. a corporation of Texas [54.] CENTERING DEVICE 9 Claims, 4 Drawing Figs.
[52] U.S. Cl 166/241, 308/4 [51] Int. Cl. 1521b 17/10 [50] Field of Search 166/241, 202, 172, 173, 138, 213; 308/4A; 15/104, 19
[56] References Cited UNITED STATES PATENTS 1,412,213 4/1922 Mowers l66/202X 1,835,377 12/1931 Clarket a1. 166/241X 2,089,553 8/1937 Hartman ct al. 166/241 2,170,527 8/1939 Culbertson 1. 166/241 2,311,768 2/1943 McCray 166/213 2,605,844 8/1952 Clark 166/241 2,636,564 4/1953 Kluck 166/241 2,652,118 9/1953 Hartman et al.. 166/202 3,312,285 4/1967 Solum 166/241 Primary Examiner-David H. Brown Attorneys-Arnold and Roylance, Torn Arnold, Donald C.
Roylance, Walter Kruger, Bill Durlrce and John l L ynch ABSTRACT: A centering device is provided for centering a well casing in a well or a drill string within a casing which comprises two spaced collars connected by outwardly bowed strips which act as springs to centralize the casing or drill string. Additionally, means are provided to restrict the movement of the collars apart so that the resilient strips always maintain an outwardly bowed shape and hence keep the member being centered spring resistent and restrict the movement of the collars apart so that the casing or drill string does not bear against the walls of the space in which it is desirably centered.
CENTER'ING DEVICE CENTERlNGDEVlCE The instant invention relatesvto a novel .tool' useful sfor centering a first-member longitudinally within asecond member. More specifically, the instant invention provides a novel device'useful in centeringacasing in awe" borehole orl-within a larger casing fixedlin the borehole;
in the well-drillingarts, itiis-often necessaryand desirableto center a casingorpipe within a second casingorpipe or w-ithin theborehole. Particularly; in directional drilling, operations andnth'e like wherev theborehole.is-not vertical. and .is not intendedl'soto be, such centering must be accomplished to prevent an-inner;casingsfi'omresting; onthe wall of an outer casingbyrvirtue of th'evnonvertical nature of the hole.
Accordingly to achieve the centeringdesired; centering devices havebeen mountedxon the innerlcasingto maintain it at'least some distancerfromrthe outerlcasing wall: Such devices have. heretofore involvedtwo spaced-apart .collarsto :be fixed on the inner casingwwith-outwardlybowed strips; resilient in nature; which-would serve. as springsand:maintainwthe inner casingspaced from" the 'outer casing wall. However. in directional drilling or instances where there is .abend -in:the borehole, the cumulative weight ,of the. inner casing atthe regions downhole' issufficient-to overcome the=spring;.effect of theresilient strips. in suchcases, the resilient strips are completely compressed *andthe inner casingwill rest against the-wall of the outer casingor of the borehole and fail to maintain its central position.
in" the alternative; centralizing; of one welleasingwithin anotherhas also been effected by using: such centralizing.
devices as described above havingblocksa mounteduon the inner side-of the resilient strips such that after limited com! pression ofthe. resilient strips',.the blocks will come to rest against the wallof' the innercasingrand-hence will maintain it in a. more central position: Centralization of well casing has also been similarly accomplished" by mounting centralizing skids or blocks to thez wall of the inner casingxsuch as by weldingor'the like'. Such methodsrelying. uponrigid blocks for centralization: purposes. are disadvantageous r in several respects; Initially, it is undesirable to weld or'otherwise fix blocks 1 directly to casingxwall. because ofexpense and the limitation such'fixtures may presentintuture use-of the casing. Moreover. the rigidityofi'the blocks-tends-to cause sticking of thercasingadownhole when the'block is pulled against a burr in an outer casingcn an irregularity in'thecborehole;
in accordance'with this'invention; there-is provided a simple and'inexpensive devicei-whichrmay be mounted on well casings or the like. and-which serve to' center the: casings within another casing ora borehole.
Althoughreferenceherein'is primarily the use of the centering-device of thisinventiomfor:centeringan-inner well casing imawborehole'or within ani outer wall casing; it will be understood that'the novel device oi this'invention may be employed in'other applications wherein it isdesired'to center one member-longitudinally within another. Also; although the novel: devices-of: thisinvention': are illustrated and described with=references to their use withround wellcasings, it shall be understood: that the devices" ofthis invention can' beradapted to.-membersof nonroundcrosssectiom e.g.. square. rectangular', triangular, or the like to" center suchfmembers longitudinallywithin a holeoricasing.or'thelike;
It'isafirstobjectof thisinvention' toprovidea novel device which. may be used to center onemember longitudinally within another;
It is amongthe further objects-of thisinvention to. provide sucha a centering device which may be-removably mounted on the member'- to be centered:
it is among the further: objectsof this invention' to provide suchanovel centering device wherein the clearance between the inner centered member andtheouter member ismaintained-by use of resilient means;
lt isafurtlr'erobject:of this invention to provide'such a centering-device wherein the-resiliencyofthe-means maintaining the. clearance between theinner centered member: and the outer member is preservedfunder virtually. allconditions of stress.
in accordancewith this invention; there is accordingly provided a centering devicecomprising two spaced collars adapted'to be mounted'longitudinally on-the member to be centered. a setof resilientelements connecting the spaced collars abouttheperiphery of said collars. said resilient elements having awbowin-th'e direction outwardly. from the member being;centered: and'ra means to restrict movement of the collars'apart'; such that-the distance; between said collars is maintained :lessthan the length of i said resilientelementsbetween saidcollars; ltisto be understood'thatthe outward bows need not define the arcof acircle and may have any.suitable,- outwardlyextendingshaperas will'be hereinafter pointed out.
The. instant invention will bemore particularly understood with reference to the accompanying drawings.
FIG. lisa pictorial cutaway viewof 'a borehole showing an inner well casing centered within an outer well casing by means of the novel device of this invention.
FIG. Zis a pictorial perspective view showing a centering device in accordance: with one aspect of this invention.
F IG. 3is-a half-section side view of a centering device in accordance with FIG. ltillustrating the behavior of the outer strips under conditions of severe stress.
FIG. 4"is a pictorial view of a portion of a centering device illustratinga furtherembodiment of this invention.
Referring specifically to FIG. 1, there is shown the novel centering device of this invention in place on a casing string in a borehole. inner casing lTiS runthroughouter casing 2 which in turn has been previously affixed within borehole 3 with cement 4".-The inner casing 1 is shown tending to bear against the left sidewall ,of outer casing. 2; A like situation could, of course, occur if the inner casing l was run directly down the borehole. A centering device in accordance with this invention is in'place on inner-casing l, and serves to center the inner casing. with respect to the outer casing. As will be readily noted from the drawings and from this disclosure, the device ofthis invention does not function to maintain the inner casing in the precise center of the outer casing or the borehole, butit does serve tomaintain a clearance between the inner casing and'the wall of the-outer casing or borehole around the entire periphery of the inner casing, and hence centralize the inner casing.
Spaced collars Sof the centering device of this invention are mounted on-inner casingl. A series of centering devices may be placed at intervals along inner casing-l. Each of the spaced collars 5-are hingediat 6 to permit the. centering device to be more easily mounted on casing pipe. The hinges are longitudinallyvaligned on the upper and lower collars. On the opposite side. of each collar from the hinge, there is disposed a latching device to lock the device into the casing once mounted. One arrangement illustratedinvolves a pin 7 passed through holesin each portion of the collar which become axially aligned when th'ehinged collar'is closed around the casmg.
The ends of outer resilient strips 9- are fastened to the spaced collars 5 and serve to hold them in spaced relation with each other. Outer resilient strips 9 have an outwardly bowed shape such 'that as the inner casing :1 tends to bear against the outer casing 2,.the outer. surface of the outer strips 9is first to contact the outer casing. These outer strips 9 are referred'to as resilient in that they will flex and bend as the inner casing tends to bear against the outer casing thus cushioning any shock which might resultfromsudden movementof the inner casing 1 and tending to precludeithe the possiblity of damage whichmightoccur to the outercasing-if a rigid block or skid. were mounted on: the inner casing.
Referring specifically toFlG". 2, there is'shown in detail the particular'embodiment'of the novelcentering device of thisinvention illustratedin FIG. l.'ln this'er'nbodiment, a second set of inner resilient strips 10 having an outward bow are affixed to the spaced collars inside outer strips 9. The length of the inner strips is shorter than the length of outer strips and hence the inner strips do not bow outwardly to the extent that do the outer strips. If the are configuration of the strips 9 and 10 correspond essentially to or at least approximate the circumference of a circle, as in the illustrated embodiment, it may be stated that the arc of the inner strips 9 correspond to the arc of a circle of greater radius than the arc of outer strip 10.
Although outer strips 9 and inner strips 10 are referred to as resilient, in the application of the instant novel device as a well-centering tool these strips are customarily fabricated of Vato /4-inch steel, and thus are not to be considered pliably springy members. in other applications, the resilience of the outer strips may not be required to be so great, and accordingly, different materials may be used to obtain various degrees of spring resistance in the outer and inner resilient strips.
Thus, an inner casing l bears against outer casing 2 as shown in FIG. 1, the outer strips 9 are depressed thus tending to force the collars 5 apart. Although only outer strips 9 are under depression, the spring effect of inner strips 10 tending to hold collars 5 together serves to supplement the spring resistance offered by the outer strips. However, if pressure forcing inner casing 1 against the outer casing 2 is increased sufficiently, spaced collars 5 will be moved apart by a distance equal to the arc length of inner strips 10. When the collars become so spaced. inner strips 10 are essentially straight and are virtually in pure tension resisting any further movement apart by the collars 5. At this point, outer strips 9 increase in their rigidity and resistance to further depression since the restriction on the outward movement of collars S by the inner strips 10 prevents the outer strips from further expansion.
Despite the increased rigidity at this stage, however, outer springs 9 still retain a resilient nature. For example, if after the collars are fully spaced apart, the force pushing inner casing 1 and outer casing 2 together increases by virtue of a sudden movement or the like, outer strips 9 are not entirely rigid but may depress further forming a double are as shown in FIG. 3. if the increased force is released, the outer strips will then restore themselves to the single arc configuration. Thus, even in the state of severe depression, outer strips 9 continue to offer a measure of resiliency despite restriction on the outward movement of the collars.
it is also pointed out that the primarily inner strips, and the outer strips as well must be substantially nonextensible under the conditions of stress under which the device will be expected to perform. it is obvious that if the inner strips are extensible, their purpose in constraining outward motion of the collars would be obviated.
The use of inner and outer resilient strips in the construction of the novel centering devices of this invention enables the adaptability of the novel devices of this invention to produce the precise effects in centering one member within another. For example, outer strips 9 may be constructed of a lighter more flexible and more resilient material than inner strips l0. Thus, the shock-absorbing ability of the outer strips will be increased while the stiffer spring resistance of the inner strips will tend to hold the collars together. Also there need not be provided an equal number of inner strips and outer strips, but for example, one inner strip may be affixed under alternate outer strips. in addition, adjustment of the comparative lengths of the inner and outer strips can also serve to produce varied effects depending on the original clearance between the member to be centered and the walls of space in which it is to be centered, and the ultimate clearance desired regardless of what may be called lateral forces tending to push the member off center. lllustratively, the inner strips can have length varying from 60 to 95 percent of the length of the outer strips.
Of course, the resilient elements need not be striplike, and rods or the like may be used. in some applications, strong springs having an outward bow could be employed.
Another embodiment of the novel centering device of this invention is shown in FIG. 4 wherein a slightly different method is employed to restrict the motion of the collars apart. In FIG. 4, outer strips 9 are affixed to the spaced collars the upper of which is illustrated at 12 in the same manner as in the embodiment above discussed to function in the same manner during use. However, inner strips 13 operate somewhat differently. For example, inner strips 13 are permanently affixed to the lower collar (not shown) as are outer strips 9. the inner strips 13, being interspaced between the outer strips around the periphery of the collars. However, the opposite ends of the inner strips 13 are not affixed to the upper collar 12 but rather pass through sleeves 14 around the periphery of the collar. The ends of the inner strips 13 onthe upper sides of the sleeves are supplied with stops 15 such that the strips may not be pulled back through the sleeves. it is pointed out that the length of inner strips 13 from the bottom collar to the stop must be shorter than the corresponding length of the outer strips 9 from lower collar 11 to upper collar 12.
Upon being placed on a member to be centered, such as on a casing in a well, inner strips offer no spring resistance supplemental to the spring resistance of outer strips 9 until stop 15 is slided against sleeve 14 as a result of movement apart by the collars 11 and 12. At this point, the supplemental spring action of inner strips due to the outward bow thereof will commence to take effect and tend to hold the collars 11 and 12 together. Thus, there is achieved a centering device which in use has a resistance to lateral forces which increases as the forces increase. Of course, as the collars 11 and 12 move further apart, the bow in inner strips 13 is eliminated until the strips assume an essentially linear configuration preventing further movement apart by the collars.
if desired, the embodiment of the invention illustrated in FIG. 4 can utilize straight rather than bowed inner strips which are affixed to the lower collar and pass through sleeves of collar 12. in a further alternative, the inner strips 13 in the embodiment shown in FIG. 4 need not be affixed to either collar, with sleeves mounted on each collar and each end of the strips having stops to prevent sliding through the sleeves. indeed a cable or wire could be used. in all cases, stops must be provided on the unsecured end or ends of the strip or cable at such distance as to prevent the movement of the collars 11 and 12 apart by a distance greater than the arc length of outer strips 9. Of course, straight inner strips or cables do not provide any supplemental spring resistance, and such inner strips will merely serve to restrict the movement of the collars apart. Hence if a wire or cable is used, it may be affixed to both collars.
The novel device of this invention, in accordance with the various embodiments disclosed and illustrated may be employed to center a length of well casing, usually at least more than one joint or length of pipe, in another casing or within the borehole itself.
Thus, there is provided in accordance with the instant invention, in combination, a well casing centered within a borehole space, the space being defined by the borehole walls or by an outer casing, said casing consisting of more than one joint of pipe, and having at least one centering device in accordance with this invention as described herein, the centering device having a maximum clearance diameter generally smaller than the borehole space.
Although it is most generally the case that the borehole space is slightly larger than the maximum clearance diameter of centering device, in instances where one casing is to be centered within another, it may be desirable to center the casing more positively by using a centering device slightly larger in diameter than the outer casing. However, the downhole portions of a borehole are irregular when compared with a casing surface and can have portions where the hole opening is severely constricted. Thus, it should be kept in mind when using the novel device herein directly in a borehole. The device should have a maximum clearance diameter less than the minimum diameter of the borehole since irregularities and hole constrictions can result in the well casing being held up or possibly becoming stuck at such irregularity or constriction. Of course, when centering one casing within another the diameter of the outer casing is known and thus such problems of constriction will not arise.
As pointed out above, although the instant invention is illustrated in embodiments adapted to be fitted to round pipe and the like, it will be understood that this invention shall be adaptable to any shape member in all the embodiments shown and disclosed by providing suitablyshaped collars.
It should be noted that the inner strips in the embodiment illustrated in H0. 4 are interspaced around the periphery of the collars between the outer strips rather than lying directly under the outer stripsas in the FIG. 2 embodiment. Either method of relative positioning of the inner and outer strips may, of course. be employed in the various embodiments of the novel devices of this invention.
it shall be understood by those skilled in the art that the novel devices of this invention can be modified in its structure without departing from the spirit or scope of this invention. For example, the bow in the outer strips of the novel device may have a flattened portion where the strips will contact the outer casing or borehole wall, and indeed the outward configuration of such outer strips need not approximate a circular are at all but may be adapted to have any outwardly extending shape which will suitably contact the outer casing or borehole wall. in a further example, if desired, the device may be equipped with springs or the like extending between the collars so as to increase the spring resistance as the collars move apart.
lclaim:
l. A centering device comprising:
a. a first spaced collar adapted to be mounted on the member to be centered;
b. a second spaced collar having sleeves about the periphery thereof adapted to be mounted on the member to be centered;
c. a set of outer resilient elements affixed to and connecting said first collar and said second collar, said outer resilient elements having a bow in the direction outwardly from the member to be centered; and
d. a set of inner elements affixed to said first collar about the periphery thereof and passing through said sleeves on said second collar, the unsecured ends of said inner elements being equipped with stops such that the ends of said inner elements cannot pass through said sleeves. the length of said inner elements from said first collar to said stop being less than the length of said outer elements. such that the .maximum distance between said first spaced collar and said second spaced collar is maintained less than the length of said outer elements.
2. The centering device of claim 1 wherein said inner elements and said outer elements are resilient strips having a bow in the direction outwardly from the member to be centered.
3. The centering device of claim 2 having longitudinally aligned hinges in each of the two spaced collars to permit the ready mounting of the device on a well casing.
4. A centering device comprising:
a. two collars for mounting on the member to be centered;
b. resilient elements affixed and connecting said collars,
said resilient elements having a bow outwardly from the member to be centered; and v restricting elements affixed to one of said collars and slidably engaging the second of said collars, said restricting elements being shorter than said resilient elements and having means to restrict the movement apart of said collars to a distance less than the length of said resilient elements.
5. The centering device of claim 4 wherein said restricting elements provide supplemental spring resistance to the movement apart of said collars.
6. The centering device of claim 4 wherein said resilient elements and said restricting elements are resilient strips having a bow outwardly from the memberto be centered.
7. The centering device of claim 4 having hinges in each of

Claims (9)

1. A centering device comprising: a. a first spaced collar adapted to be mounted on the member to be centered; b. a second spaced collar having sleeves about the periphery thereof adapted to be mounted on the member to be centered; c. a set of outer resilient elements affixed to and connecting said first collar and said second collar, said outer resilient elements having a bow in the direction outwardly from the member to be centered; and d. a set of inner elements affixed to said first collar about the periphery thereof and passing through said sleeves on said second collar, the unsecured ends of said inner elements being equipped with stops such that the ends of said inner elements cannot pass through said sleeves, the length of said inner elements from said first collar to said stop being less than the length of said outer elements, such that the maximum distance between said first spaced collar and said second spaced collar is maintained less than the length of said outer elements.
2. The centering device of claim 1 wherein said inner elements and said outer elements are resilient strips having a bow in the direction outwardly from the member to be centered.
3. The centering device of claim 2 having longitudinally aligned hinges in each of the two spaced collars to permit the ready mounting of the device on a well casing.
4. A centering device comprising: a. two collars for mounting on the member to be centered; b. resilient elements affixed and connecting said collars, said resilient elements having a bow outwardly from the member to be centered; and c. restricting elements affixed to one of said collars and slidably engaging the second of said collars, said restricting elements being shorter than said resilient elements and having means to restrict the movement apart of said collars to a distance less than the length of said resilient elements.
5. The centering device of claim 4 wherein said restricting elements provide supplemental spring resistance to the movement apart of said collars.
6. The centering device of claim 4 wherein said resilient elements and said restricting elements are resilient strips having a bow outwardly from the member to be centered.
7. The centering device of claim 4 having hinges in each of the collars to permit the ready mounting of the device in a well casing.
8. The device of claim 7 wherein said first resilient strips are sufficiently longer than said second resilient strips to assume a double arc configuration under conditions of severe depression.
9. The centering device of claim 8 wherein said collars have latch means to permit ready mounting of said device on said tubular member.
US572757A 1966-08-16 1966-08-16 Centering device Expired - Lifetime US3556042A (en)

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US3828988A (en) * 1973-04-04 1974-08-13 Bervy Inc Tank for bulk transport and storage of semisolid materials
EP0196339A1 (en) * 1985-03-07 1986-10-08 Weatherford Oil Tool GmbH Centralizer for casings and drill pipes
EP0297716A1 (en) * 1987-05-29 1989-01-04 WEATHERFORD-PETCO, Inc. Spring bow, centralizer and method for its use in a borehole
US4875524A (en) * 1988-09-29 1989-10-24 Halliburton Company Casing centralizer
EP0344077A1 (en) * 1988-05-27 1989-11-29 Serdi - Societe D'etudes De Realisation Et De Diffusion Industrielles Precision machine with a rod to determine the average axis of a cylindrical hole
US5143154A (en) * 1990-03-13 1992-09-01 Baker Hughes Incorporated Inflatable packing element
US6367556B1 (en) * 2000-05-05 2002-04-09 Curt A. Moore Multiple configuration centralizer device and method for using same
US6457519B1 (en) * 2001-02-20 2002-10-01 Antelope Oil Tool And Manufacturing Company, Inc. Expandable centralizer
US6484803B1 (en) * 2000-09-06 2002-11-26 Casetech International, Inc. Dual diameter centralizer/sub and method
US20030070803A1 (en) * 2000-09-06 2003-04-17 Casetech International, Inc. Dual diameter and rotating centralizer/sub and method
US20030226248A1 (en) * 2002-06-07 2003-12-11 Mcguffin Martin H. Casing centering tool assembly
US20040112592A1 (en) * 2000-09-06 2004-06-17 Casetech International, Inc. Dual diameter and rotating centralizer/sub
US20090166027A1 (en) * 2007-12-27 2009-07-02 Ossama Ramzi Sehsah Wellbore pipe centralizer having increased restoring force and self-sealing capability
US20140008056A1 (en) * 2012-07-03 2014-01-09 Delaware Capital Formation, Inc. Tubing centralizer
US20150354291A1 (en) * 2014-06-10 2015-12-10 Top-Co Inc. Easy-start centralizer with asymetrical bow springs
WO2016030689A1 (en) * 2014-08-27 2016-03-03 Reece Innovation Centre Limited Improvements in or relating to centralisers
US10047574B2 (en) * 2014-08-29 2018-08-14 Centek Limited Centralizer and associated devices
EP3760870A1 (en) * 2019-07-01 2021-01-06 Sulzer Management AG A pump assembly with a vertical pump arranged in a canister
GB2588954A (en) * 2019-11-15 2021-05-19 Af Pipe Solutions Ivs Inner pipe centraliser for double wall pipe
US11174641B2 (en) * 2016-03-15 2021-11-16 Pieresearch1, LP Adjustable rebar centralizer for use in a drilled shaft/bore hole

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US2170527A (en) * 1936-10-23 1939-08-22 Technical Oil Tool Corp Ltd Centering device for drift recording instruments
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Cited By (38)

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Publication number Priority date Publication date Assignee Title
US3828988A (en) * 1973-04-04 1974-08-13 Bervy Inc Tank for bulk transport and storage of semisolid materials
EP0196339A1 (en) * 1985-03-07 1986-10-08 Weatherford Oil Tool GmbH Centralizer for casings and drill pipes
EP0297716A1 (en) * 1987-05-29 1989-01-04 WEATHERFORD-PETCO, Inc. Spring bow, centralizer and method for its use in a borehole
EP0344077A1 (en) * 1988-05-27 1989-11-29 Serdi - Societe D'etudes De Realisation Et De Diffusion Industrielles Precision machine with a rod to determine the average axis of a cylindrical hole
FR2631871A1 (en) * 1988-05-27 1989-12-01 Etude Realisa Diffusion Indles PRECISION MACHINING MACHINE, WITH PILOT ROD
US5001871A (en) * 1988-05-27 1991-03-26 Societe d'Etude de Realisation et de Diffusion Industrielles - SERDI Machine for precision machining, with a rod for the determination of the practical mean axis of a hole of cylindrical general contour
US4875524A (en) * 1988-09-29 1989-10-24 Halliburton Company Casing centralizer
US5143154A (en) * 1990-03-13 1992-09-01 Baker Hughes Incorporated Inflatable packing element
US6367556B1 (en) * 2000-05-05 2002-04-09 Curt A. Moore Multiple configuration centralizer device and method for using same
US7140432B2 (en) 2000-09-06 2006-11-28 Casetech International, Inc. Dual diameter and rotating centralizer/sub and method
US6484803B1 (en) * 2000-09-06 2002-11-26 Casetech International, Inc. Dual diameter centralizer/sub and method
US20030070803A1 (en) * 2000-09-06 2003-04-17 Casetech International, Inc. Dual diameter and rotating centralizer/sub and method
US7182131B2 (en) 2000-09-06 2007-02-27 Casetech International, Inc. Dual diameter and rotating centralizer/sub and method
US20040112592A1 (en) * 2000-09-06 2004-06-17 Casetech International, Inc. Dual diameter and rotating centralizer/sub
US7156171B2 (en) 2000-09-06 2007-01-02 Casetech International, Inc. Dual diameter and rotating centralizer/sub
US20050241822A1 (en) * 2000-09-06 2005-11-03 Casetech International, Inc. Dual diameter and rotating centralizer/sub and method
US6457519B1 (en) * 2001-02-20 2002-10-01 Antelope Oil Tool And Manufacturing Company, Inc. Expandable centralizer
US6827143B2 (en) 2002-06-07 2004-12-07 Mcguffin Martin H. Casing centering tool assembly
US20030226248A1 (en) * 2002-06-07 2003-12-11 Mcguffin Martin H. Casing centering tool assembly
US20090166027A1 (en) * 2007-12-27 2009-07-02 Ossama Ramzi Sehsah Wellbore pipe centralizer having increased restoring force and self-sealing capability
WO2009086442A2 (en) * 2007-12-27 2009-07-09 At Balance Americas Llc Wellbore pipe centralizer having increased restoring force and self-sealing capability
WO2009086442A3 (en) * 2007-12-27 2010-01-07 At Balance Americas Llc Wellbore pipe centralizer having increased restoring force and self-sealing capability
US7708064B2 (en) 2007-12-27 2010-05-04 At Balance Americas, Llc Wellbore pipe centralizer having increased restoring force and self-sealing capability
CN101932789B (en) * 2007-12-27 2013-06-19 普拉德研究及开发股份有限公司 Wellbore pipe centralizer having increased restoring force and self-sealing capability
US20140008056A1 (en) * 2012-07-03 2014-01-09 Delaware Capital Formation, Inc. Tubing centralizer
US9051791B2 (en) * 2012-07-03 2015-06-09 Delaware Capital Formation, Inc. Tubing centralizer
US10443323B2 (en) 2014-06-10 2019-10-15 Top-Co Inc. Easy-start centralizer with asymmetrical bow springs
EP3134602A4 (en) * 2014-06-10 2017-06-28 Top-Co Inc. Easy-start centralizer with asymetrical bow springs
US10012035B2 (en) * 2014-06-10 2018-07-03 Top-Co Inc. Easy-start centralizer with asymetrical bow springs
US20150354291A1 (en) * 2014-06-10 2015-12-10 Top-Co Inc. Easy-start centralizer with asymetrical bow springs
WO2016030689A1 (en) * 2014-08-27 2016-03-03 Reece Innovation Centre Limited Improvements in or relating to centralisers
GB2544680A (en) * 2014-08-27 2017-05-24 Reece Innovation Centre Ltd Improvements in or relating to centralisers
US10047574B2 (en) * 2014-08-29 2018-08-14 Centek Limited Centralizer and associated devices
US11174641B2 (en) * 2016-03-15 2021-11-16 Pieresearch1, LP Adjustable rebar centralizer for use in a drilled shaft/bore hole
EP3760870A1 (en) * 2019-07-01 2021-01-06 Sulzer Management AG A pump assembly with a vertical pump arranged in a canister
US11193503B2 (en) 2019-07-01 2021-12-07 Sulzer Management Ag Pump assembly with a vertical pump arranged in a canister
GB2588954A (en) * 2019-11-15 2021-05-19 Af Pipe Solutions Ivs Inner pipe centraliser for double wall pipe
WO2021094514A1 (en) * 2019-11-15 2021-05-20 Af Pipe Solutions Ivs Inner pipe centraliser for double wall pipe

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