US3166125A

US3166125A - Adjustable casing head

Info

Publication number: US3166125A
Application number: US153303A
Authority: US
Inventors: Laurence M Hubby
Original assignee: Texaco Inc
Current assignee: Texaco Inc
Priority date: 1961-11-20
Filing date: 1961-11-20
Publication date: 1965-01-19
Anticipated expiration: 1982-01-19

Description

Jan. 19, 1965 L. M. HUBBY ADJUSTABLE cAsNG HEAD 2 Sheets-Sheet 1 Filed Nov. 2O 1961 2 Sheets-Sheet 2 Filed Nov. 20, 1961 United States Patent O 3,166,125 ADJUSTABLE CASING HEAD Laurence M. Hubby, Bellaire, Tex., assigner to Texaco Ine., New York, NX., a corporation of Delaware Fiied Nov. 20, 1961, Ser. No. 153,303 3 Claims. (Cl. 166-67) This invention -is concerned with deep wells and more particularly such wells having a long string of casing therein. More specifically, the invention concerns an adjustable casing head member for providing adjustment between the upper end of a long casing string and the surface support therefor.

Heretofore in situations where deep Wells were provided with long strings of production casing, the procedure for placing each such casing in the hole required some care so as to avoid failure of the casing string by reason of buckling or otherwise failing under the high loads involved. This was particularly true following a cementing of the lower end of such casing to the formation, down in the hole. Thus the procedure heretofore followed was known as landing the casing, and it involved the adjustment of the tension which was applied at the upper end of the cas-ing string following the cementing of the lowermost end down near the bottom of the hole. Such tension adjustment would be made with the rig equipment, and at that time the desired tension would be set and remain lixed after removal of the well rig. Experience has proven, however, that there have been many casing failures following removal of the rig which were due to changes in the temperatures and pressures applied to the casing string. Such temperature changes included those created by different rates of producing a given fluid, as well as changes in the temperature itself of fluids flowing through the casing. Other changing conditions may have included mud density, etc.

Consequently it is an object of this invention to provide a casing head supporting member that is adjustable, so as to be able to make changes in the tension being applied to the upper end of a casing string as desired. In this manner adjustment of the well head casing tension may be made periodically, or continuously, to take care of conditions such that the casing string tends to expand or contract cumulatively along the free length thereof between the cemented lower end and the surface.

Yet another object of the invention is to provide an adjustable casing head employing non-hydraulic mechanical thread type supporting structure for enabling adjustment as desired.

Briefly the invention may be described as one that is applicable in combination with elements of a deep well which has surface pipe for bearing the load of a casing string in said well. The invention comprises a first collar attached to the upper end of said casing string, and a second collar attached to said surface pipe. The invention also comprises means for supportably connecting the said rst collar to said second collar and including continuously adjustable means for varying the load applied to sa-id surface pipe` The foregoing and other objects and benefits of the invention will be more fully appreciated in connection with preferred embodiments that are set forth below in greater detail and are illustrated in the drawing, Iin which:

FIGURE 1 is a schematic showing partly in cross section, illustrating a string of casing in a deep well having an adjustable casing head element according to the invention attached thereto;

FIGURE 2 is an enlarged cross sectional View of the adjustable casing head structure illustrated in FIGURE 1; and

FIGURE 3 is a schematic cross sectional illustration "ice of casing head structure according to another embodiment of the invention.

Referring to FIGURE 1, it is pointed out that therev is illustrate/.i a deep well 11 that extends down from a surface layer 12 to various subsurface formations, including a formation 13 where it is desired to cement the lower end of a production casing string 14. It will .be

observed that there is shown a quantity of cement 18 that has been applied at the lower end of the casing string 14 in order-to anchor the casing at the level of the formation 13.

It is pointed out that in accordance with the foregoing indication it is the usual practice for a casing string, e.g. string 14, to be landed in the hole after cementing at the lower end thereof. This involves application of .a predetermined amount of lifting force or tension at the upper end of the casing string, where the downward reaction t0 such lifting force is transferred to a surface pipe 19 that has been cemented in place at a shallow but solid formation, e.g. a formation Ztl, to which the surface pipe 19 is cemented, as by means of a predetermined quantity of cement 21.

Since the well under #consideration is one that has been completed, or is a so-called product-ion well, there may be tubing set in the well inside of the casing (as illustrated). However, such tubing has no connection with the subject matter of the invention.

In order to provide for adjustability of the supporting load or tension force applied to the upper end ofthe casing string 1e, there is an adjustable casing head unit 24 employed which comprises a load bearing collar 25 that is threadably attached to the upper end of the surface pipe 19 (FIGURE 2). Carried on an upper surface 23 of collar 25 there are a plurality of hydraulic cylinder and piston units 26 that extend between surface 23 of the collar 2S and a parallel rad-iai surface 27 located on another collar 29. Collar 29 is attached to the upper end of the casing string 14 in any convenient manner, such as by having a pipe threaded joint 30 (FIGURE 2).

By means of the above described arrangement, the load that is carried by collar 25 (as it supports the casing string 14 and applies tension thereto via the collar 29) may be adjusted as desired by regulating the hydraulic pressure within the cylinder and piston units 26. It is pointed out that although there appears in the illustrations only one hydraulic unit 26, it is contemplated that all of the units may be of this type. Furthermore it is expected that eight to twelve of these units V26 will be actually employed instead of the four schematically indicated.

It will be observed that in FIGURE y1 there is shown a pair of thread

type Vcoupling elements

33 and 34. These are each in the nature of a jack having as one element a threaded shaft 37 while the other element is a cylindrical member 38 that has internal threads for meshing with the threads on shaft 37. In this manner a relative rotation between Ishaft 37 and the cylindrical unit 38 will in each case provide for longitudinal adjustment of the length from the free end of shaft 37 to the opposite or closed end of cylinder 3S. Thus, the load on collar 25 or the tension applied via collar 29, by each of the elements 33 and 34 (and others, as indicated below) may be adjusted as desired.

It is to be noted that when an adjustable casing head unit is iirst set up `after removal of the well rig (following landing of the casing string) preferably there would be employed all hydraulic units, like cylinder and piston unit 26, for ease in making the iirst adjustment of the load desired. Thereafter, for a more permanent arrangement,

the hydraulic units 26 might be replaced one at a time with mechanical type jacks such as the threaded coupling elements 33v or 34. -As indicated above, there will beprovided as many as eight to twelve of the adjustable coupling units, i.e.

units

26 or 33 and 34, to provide for more even application of the load involved.

Referring to FIGURE 2, it will be observed that inV connection with .the hydraulic units, eg, Vunit 26, there is provided a hydraulic system such as that schematically indicated. Such hydraulic system is arranged so that hydraulic duid 49 may be introduced above a piston t1 and within afcylinder 42 that together make up the main elements of the cylinder and piston unit 26. Such hydraulic tfluid, e.g. uid 40, will be introduced'into the cylinder Iby anyconvenient structure, such'asv that schematically indicated -by a line 44 that leads to the uid body 4t) .through the closed end of the cylinder 42 as indicated by the dashedV line. :Fluid line 44 may have a control valve 4S included therein for use in cutting oft hydraulic iuid pressure from the source. This is necessary in each case asf individual ones of the hydraulic units 26 are removed for replace-` ment bythreaded coupling elements. There will be included also in the hydraulic uid system, a pump 46` for building the hydraulic iiuid pressure needed and a gauge 47 for determining the amount of pressure being applied. It will be understood lby anyone'skilled in the art that there will 'be additional hydraulic lines, suchas lines 50 V`shown, to carry the hydraulic tluid to each of the plurality of hydraulic units. There will :be as many as eight to twelve of such units in accordance with the foregoing indications. Y

Referring .to FIGURES it is pointed out that a modied form of the invention is illustrated. Where the casing string and surface pipe are shown, the same reference numbers, but -with prime marks, are employed. Thus, the upper end of the casing string 14 is adjustably supported in tension with the support resting on the upper end of the surface pipe 19.

In this case there is employed as thev load .bearing element a collar 53 that may have an inner ilange 54 inte-V grallyl formed therewith to actasy aV stop for one limiting adjustment involved. Inside of flange 54 there is another collar 57 that is fastened to the upper end of the casing string 414 in any convenient manner, such as by means of a pipe thread joint 58. rI`he collar. 57 kmay have a stop flange 59 thereon that will act to lrest against the flange 54 as a limiting condition. Above the ange 59 there are machine threads 63Y formed on the outer surface of the colla-r 57 and with `which there are meshing threadsV 64 that are formed on the-inner surface of a support ring 65.

Ring-65 is constructed with suicient outside diameter toV extend over the upper face of the top of collar 53. Also, ring 65 may` have included Itherewith the required structure -for including ball bearings 66 between the under side of ring 65 `and the upper -face of .the collar-53. There may be a series of bolts 70 that will pass vertically through the ring 65 and screw into threadedholes around the periphery of the collar 53 located in a flange 71 formed at the upper edge of the collar 53.

Bolts '7d are employed after adjustment has been completed for holding the casing headinfa desired position. Thus it will ybe clear that when adjustments are to be made for varying the tension applied to collar 57 andthus to the upper end of the casing string 14', rotation of Ithe andthe action of the meshing threads 63 and 64 will create an increase or a decrease in the load on the collar 53, which load is the counter force of the tension being applied via the collar 57 .to the top of the casing string 14. It `is to :be observed that a direct indication of the Weight or load of casing string 14' may be had by rotating the ring 65 in both directions while noting the difference in torque in each case. Such difference in torque is a direct indication of the load or lifting force being applied at the collar 57.

It .will be yunderstood that other adjustable structures (not shown) VforV connecting. the surface pipe with the upper end of the casing string may Ibe employed. For eX- ample, so-called expansion supports might ibe'employed in place of the rnechanicalfjacks 3334 or in place of the hydraulic cylinder and piston elements 26, with the purpose being that `of automatically compensating for changes in temperature so as to hold essentially constant the load applied to the casing string. Similarly, an automatic system (not shown) for adjusting the hydraulic pressure `applied to the hydraulic cylinder and pistonk elements 26 might be used so as to change the load as determined by the hydraulic pressure. This would be done under direct control of changing conditions, such as rate of dlow of the production uid within the casing string.

While particular embodiments .of the invention have been described in considerable detail in accordance with the applicable statutes this is not'to be taken as in any way limiting the invention but merely as being descriptive thereof.

I claim:

y1. In combination with a deep Well having surface pipe set thereinfor bearing the load of a long casing string set in said well, said casing string being cemented near Ithe lower extremity thereof into said well, first collar means attached tothe upper end `ot said casing' string,

second collar means attached Ito the upper end of saidV surfacel pipe adjacent to saidiirst collar means, and means -for adjustably supporting said rst collar means on said second collar means, said supporting means comprising screw threads on said first collar means, an annular loady bearing memberhaving complementary threads meshingV with said screw threads, and means 'for rotatably supporting ,said annular member on said second collar means.

=2. The invention according to claim V1 wherein said means for rotatably supporting said annular member comprises an anti-friction type bearing;

3. The invention according to claim 2 further including means for securing said annular member against rotation with respect to said second collar means after a given'adjustment has been made.

References Cited in the le of this patent

Claims

1. IN COMBINATION WITH A DEEP WELL HAVING SURFACE PIPE SET THEREIN FOR BEARING THE LOAD OF A LONG CASING STRING SET IN SAID WELL, SAID CASING STRING BEING CEMENTED NEAR THE LOWER EXTREMITY THEREOF INTO SAID WELL, FIRST COLLAR MEANS ATTACHED TO THE UPPER END OF SAID CASING STRING, SECOND COLLAR MEANS ATTACHED TO THE UPPER END OF SAID SURFACE PIPE ADJACENT TO SAID FIRST COLLAR MEANS, AND MEANS FOR ADJUSTABLY SUPPORTING SAID FIRST COLLAR MEANS ON SAID SECOND COLLAR MEANS, SAID SUPPORTING MEANS COMPRISING SCREW THREADS ON SAID FIRST COLLAR MEANS, AN ANNULAR LOAD BEARING MEMBER HAVING COMPLEMENTARY THREADS MESHING WITH SAID SCREW THREADS, AND MEANS FOR ROTATABLY SUPPORTING SAID ANNULAR MEMBER ON SAID SECOND COLLAR MEANS.