US3465836A - Tool orienting system - Google Patents

Description

Sept. 9, 1969 FlELDsTOOL ORIENTING SYSTEM 2 Sheets-Sheet 1 Filed Nov. 15, 1967 -O. fle/a s I Raye, I NV/ZN'I UR. 'gwfi w Sept. 9, 1969 Q. FIELDS 3,

TOOL ORIENTING SYSTEM Filed Nov. 15, 1967 2 Sheets-Sheet 2 United States Patent 3,465,336 TOOL ORIENTING SYSTEM Roger Q. Fields, Houston, Tex., assignor to Schlumherger Technology Corporation, Houston, Tex., a corporation of Texas Filed Nov. 15, 1967, Ser. No. 683,195 Int. Cl. E2lb 43/119, 43/117 U.S. Cl. 1754.51 16 Claims ABSTRACT OF THE DISCLOSURE The present invention is embodied in a self-contained set of tools for pumping through a tubing which include a perforator, a pressure switch, an orienting and control switch, a battery and a pump-down device for use in a flow-line operation. Specifically, the orienting control device includes rotational parts which will operate only when properly seated in an orienting pocket in a well bore.

Recent oil field technology in connection wih underwater completion of wells involves the use of flow lines or pipes extending from a central platform or island to various underwater well locations. Tools developed for use in completion of such wells include jointed or flexibly connected tool sections forming an assembly which is capable of being pumped through a flow line to the remote well location. Such tool assemblies include perforating apparatus having a power source and safety control apparatus operative when the perforator is at a predetermined location in the well to produce perforations in a well bore.

Recently it has been proposed to provide dual strings of production tubing in a tubingless type of completion so that flow from more than one production level may be obtained. In such instances, as well as others which will be apparent from the reading of the specification to follow, it is desirable to provide an orienting apparatus to properly locate a well tool in a well bore. In particular, it is desirable to locate a directionally firing perforator in one string of tubing relative to an adjacent string of tubing.

Accordingly, it is the object of the present invention to provide a new and improved orienting and actuating mechanism for use in a well bore.

It is a further object of the present invention to provide new and improved apparatus for operation in remote wells where orienting and operational control of the tool are desired.

The novel features of the present invention are set forth with particularity in the appended claims. The operation together with further objects and advantages thereof, may best be undersiood by way of illustration and example of certain embodiments when taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a view in cross section through a well bore for illustrating use of the present invention;

FIG. 2 is a view in longitudinal cross section through a well conduit and tool embodying the present invention;

FIG. 3 is an electrical schematic system for the tool illustrating the present invention;

FIG. 4 is a partial longitudinal cross section of a portion of the tool illustrating the present invention;

FIG. 5 is a developed view of an orienting means of the present invention;

FIG. 6 is a partial longitudinal cross-section view of the tool of the present invention; and

FIG. 7 is a view in cross section taken along line 77 of FIG. 6.

Referring now to FIG. 1, for illustrational purposes aborehole 10 is shown containing parallel pipe strings Patented Sept. 9, 1969 11 and 12. In the more specific aspects of the present invention, it is desired to orient a tool, such as a perforating gun 13 with a desired directional characteristic illustrated by thearrow 14 in one of the strings of tubing 11 relative to theother tubing string 12.

As shown in FIG. 2, the tubing string 11 in a well bore may include a specialtubular seating nipple 15. Theseating nipple 15 typically has abore 16 sized to a sutficient diameter to permit thru-tubing operations. Nipple 15 has an upwardly facing locating seat orshoulder 17 which is adapted to cooperate with a downwardly facingseat 17a on atool assembly 18 to limit downward movement of the tool assembly within the tubing string.

Thetool assembly 18 includes asuitable head 19 carrying apacking 20 which sealingly engages the bore of the tubing string 11 and is responsive to hydraulic pressure to move thetool 18 through the tubing. Abattery section 20a, an orienting andcontrol device 21, a pressureresponsive safety device 22, and a perforatingapparatus 13 complete thetool assembly 18. Along the length of tool aresuitable joints 24 which provide a flexible or articulated connection between appropriate lengths of the tool assembly to permit its passage through the curved portions of tubing string 11. The various subsections of the assembly are connected to one another to prevent their relative rotation and theperforating apparatus 13 is typically arranged to have all of the shaped charges fire in a single direction. Theperforator 13 may, for example, be comprised of individual shaped charge capsules connected to a flexible wire carrier.

With respect to the perforating system, the primacord P for the shaped charges is connected to a blasting cap B in the usual fashion. As shown in FIG. 3, the blasting cap is grounded and has an initiating wire in series with normallyopen switches 26 and 27 to abattery power source 28.Switch 26 is associated with thepressure switch device 22 whileswitch 27 is associated with the orienting andcontrol device 21.

As shown in FIG. 4, the pressuresafety switch device 22 is comprised of ahousing 29 which contains adiaphragm 30 across aninternal bore 31, the diaphragm being open on one side to hydrostatic pressure within the tubing string via asuitable port 32 or other type of opening. On the other side of the diaphragm is a mechanism including a pin 33 supported for longitudinal movement within the housing, the pin 33 bearing upon aswitch actuator 34 of the normallyopen switch 26. Movement of thediaphragm 30 in response to a pressure differential across it, in turn, closes theswitch 26. The purpose of the pressuresafety switch device 22 is, of course, to permit safe handling of the apparatus at the surface and insure that the tool is not capable of being actuated until it reaches a position in the well bore where the hydrostatic pressure in the well bore is sufficient to condition the electrical circuitry for operation.

In FIG. 5, a developed view is shown of a portion of the inner wall of thetubing nipple 15 to illustrate the over-all configuration of an orienting and actuating slot or groove therein. It will be noted that agroove 36 in the nipple extends along its length, the groove having anintermediate offset portion 36b angularly spaced from upper and lower in-linestraight portions 36a and 360. At the upper end ofgroove portion 36a, a curved, and upwardly facingguide surface 37 is disposed on an upward spiral around the circumference of thenipple 15 to anapex 38 to provide a guiding function which will hereinafter be made more apparent.

Theorienting control device 21 as illustrated in FIGS. 6 and 7 consists of upper and lower rigidly connectedhousing portions 40, 41 and a central rotatably supportedcollar portion 42. Spring biased buttons orlateral lugs 43, 44, 45 respectively are mounted on the sides of each of the rigid housing portions as well as the central rotatingcollar 42, with the upper and lower lugs being in vertical alignment with one another.

From the apparatus thus far described, it will be appreciated that when thelower lug 44 of theorienting section 14 entersnipple 15, it engages thespiraled guide surface 37 and rotates theentire tool 18 until the lug has entered theupper groove portion 36a. Thereafter, thelower lug 44 is guided by thegroove 36 through thecentral portion portion 36b to thelower portion 360. The longitudinal spacing of thelugs 43 and 44 relative to thegroove portions 36a and 360 are such that as thelower lug 44 enters the lower groove portion 36c, thecentral lug 45 will be midway of the central curved portion 361) and theupper lug 43 will be located just above the upper end of theupper groove portion 36a. The spacing between theupper lug 43 andseat 17a on the tool are such that when thetool seat 17a engages thenipple seat 17, the upper andlower lugs 43 and 44 are in thegroove portions 36a and 360 and thecenter lug 45 is disposed in the curve of the offset portion 361;. From this, it will be appreciated that thecentral lug 45 and therotatable collar 42 on the locating tool can be angularly positioned to a selected orientation with respect to upper andlower lugs 43 and 44.

Referring now to FIGS. 6 and 7, intermediate of thehousing portions 40, 41 of theorienting device 22 is a central reduced-diameter portion 47 on which thecollar 42 is rotationally mounted by means of upper andlower bearings 48. Within the confines of thecollar 42, thelug 45 is arranged to be extended outwardly of the collar by means of aspring 49 contained within acavity 50. Thelug 45 has offset tang portions to retain it within the cavity.

The reduced portion 47 has aperipheral slot 51 extending therearound somewhat less than one-half of its circumference and receives an inwardly projectingpin 52 which is attached to the rotatingcollar 42. Thepin 52 is normally centrally positioned within theslot 51 by means ofleaf springs 54 or the like attached to thestationary housing portions 40, 41 and received withingrooves 55 in the collar. Thus, thesprings 54 tend to maintain the collar in a central angular position with respect to the upper andlower housing portions 40 and 41. A longitudinal bore 56 is arranged in the reduced housing portion 47 to receive theswitch 27 which has anactuator 58 adapted for operation when the inwardly extendingpin 52 reaches an appropriate angular position by rotation relative to theorienting device 22.

From the foregoing, it will be appreciated that thesprings 54 normally tend to maintain the button or lug 45 in a given central position. When the force of the springs is overcome by positioning of thelug 45 in thegroove 36b, theswitch 27 is actuated.

In operation, the tool assembly is inserted at the top of the flow pipe at is remote location and pump pressure applied to move the tool assembly through the flow line. While not shown, it is customary to have a fluid return conduit for the operation, this being a well-known operational feature. During motion through the flow line, thesprings 54 on the control section prevent actuation of theswitch 27. At the depths in the flow line where the hydrostatic pressure is sufficient to operate thediaphragm 30, the pressure operatedsafety switch 26 is closed. Thereafter, the tool at some point in the string reaches its positioning within theseating nipple 15. The seating nipple in the string is arranged in the tubing pipe prior to its installation in the well so that thelongitudinal groove portions 36a and 360 are in a selected orientation with respect to an adjacent tubing string so that thelugs 42, 43, 44 upon engaging the groove system, automatically orient the perforatingapparatus 13 with respect to the adjacent string and when the proper orientation is accomplished, rotation of thecollar 42 by entrance of thelug 45 into the offsetgroove portion 36b automatically actuates the perforator by closingswitch 27 which couples the battery to the blasting cap which, in turn, initiates the primacord and shaped charges.

While a particular embodiment of the present invention has been shown and described, it is apparent that changes and modifications may be made without departing from this invention in its broader aspects and, therefore, the aim in the appended claims is to cover all such changes and modifications as fall within the true spirit and scope of this invention.

What is claimed is:

1. Apparatus for use in a well bore comprising: orienting means having a passageway thercthrough and adapted for coupling in a string of well conduit, said orienting means having a programmed slot arrangement with circumferentially offset portions for receiving indexing means on a well tool, an orienting control device having indexing parts thereof arranged for relative rotation between first and second positions, said parts being arranged to cooperate with said offset portions to promote a relative rotation between said parts, and means cooperable with said parts for providing a control function in one of said positions.

2. The apparatus ofclaim 1 wherein said orienting means and orienting control device have complementary seating shoulders respectively arranged relative to said slot arrangement and said parts for limiting downward travel of said control device in said orienting means.

3. The apparatus ofclaim 1 wherein said parts include upper, intermediate, and lower lugs, said intermediate lug being rotatably supported relative to said upper and lower lugs.

4. Apparatus for use in completing wells comprising: orienting means having a passageway therethrough and adapted for coupling in a string of well conduit, said orienting means having a programmed slot arrangement with circumferentially offset portions for receiving indexing means on a well tool, an assembly adapted for passage through a well conduit and including fluid pumpdown means, an orienting control device, a perforating means, and power means for initiating operation of said perforating means, said orienting control device having indexing parts thereof arranged for relative rotation between first and second positions, said parts being arranged for cooperation with said offset portions for promoting a relative rotation between said parts, and means cooperable with said parts upon relative rotation for connecting said power means to said perforating means.

5. The apparatus ofclaim 4 wherein said orienting means and orienting control device have complementary seating shoulders respectively arranged relative to said slot arrangement and said parts for limiting downward travel of said control device in said orienting means, and wherein said parts include upper, intermediate, and lower lugs, said intermediate lug being rotatably supported relative to said upper and lower lugs.

6. A well tool subcombination for use in a well conduit comprising: an orienting control device having parts thereof arranged for relative rotation about a longitudinal axis between first and second positions, means on said parts for cooperation with an orienting means in a well conduit for causing a relative rotation between said positions, and means cooperable with said parts for providing a control function in one of said positions.

7. A well tool subcombination for use in a well conduit comprising: a fluid pump-down means, an orienting control device, a perforating means, and power means for initiating operation of said perforating means, said orienting control device having indexing parts thereof arranged for relative rotation between first and second positions, said parts being arranged for cooperation with angularly-offset portions within such a well conduit for promoting a relative rotation between said parts, and means cooperable with said parts upon relative rotation for connecting said power means to said perforating means.

8. The apparatus ofclaim 7 and further including means normally restraining relative rotation between said indexing parts, but permitting rotation for connecting said power means to said perforating means.

9. A well tool subcombination for use in a well conduit comprising: relatively rotatable housing portions each having projections for cooperation with an orienting means in a well conduit, control means on said housing portions operable in response to relative rotation between said housing portions, and means for normally restraining relative rotation between said housing portions, but permitting rotation in relation to the orienting means for operating said control means.

10. Apparatus for use in a well bore and comprising: a tubular body having a passageway therein and adapted for coupling in a well conduit, said tubular body having upper and lower orienting means arranged within said passageway in distinctive angular relationships; a well tool adapted to enter said passageway and including upper and lower indexing means thereon arranged for relative angular movement and adapted, upon engagement therewith, for cooperable movement by said upper and lower orienting means to corresponding angular positions upon entrance of said well tool into said passageway; and means on said well tool operable only upon movement of said upper and lower indexing means to a relative angular position corresponding to one of said angular relationships of said orienting means.

11. The apparatus ofclaim 10 wherein said upper and lower orienting means are angularly spaced in relation to one another to establish said one angular relationship; and further including means normally urging said upper and lower indexing means away from said corresponding angular position.

12. The apparatus of claim 11 wherein said operable means on said well tool include: switching means adapted to be actuated only upon movement of said upper and lower indexing means to said corresponding angular position; and perforating means adapted to be operated only upon actuation of said switching means.

13. Apparatus adapted for use in a well bore having a pipe string arranged therein and comprising: a tubular body having a passageway therethrough and adapted for coupling into such a pipe string, said tubular body having a plurality of angularly-offset guide surfaces spaced along said passageway in a predetermined relationship; a well tool adapted for passage through such a pipe string and having a control device adapted to enter said passageway, said control device including an angularly-fixed indexing member adapted to contact one of said guide surfaces, an angularly-movable indexing member spaced from said fixed indexing member and adapted upon contact with another of said guide surfaces to be moved to a selected angular position in relation to said fixed indexing member corresponding to the angular relation between said one of said other guide surfaces, and switching means operable only in response to movement of said movable indexing member to its said selected angular position; and perforating means on said well tool and operable only in response to operation of said switching means.

14. The apparatus ofclaim 13 further including means on said control device normally urging said movable indexing member away from its said selected angular position.

15. The apparatus ofclaim 14 further including means on said well tool adapted for pumping said well tool freely through such a pipe string to said tubular body.

16. Apparatus adapted for use in a well bore having a pipe string arranged therein and comprising: a tubular body having a passageway therethrough and adapted for coupling into such a pipe string, said tubular body having upper and lower angularly-aligned guide surfaces spaced along said passageway and an intermediate guide surface between said upper and lower guide surfaces and angularly misaligned in relation thereto; a well tool adapted for passage through such a pipe string and having a control device adapted to enter said passageway, said control device including upper and lower angularly-aligned indexing members respectively adapted to contact said upper and lower guide surfaces, an intermediate angularly-movable indexing member between said upper and lower indexing members and adapted upon contact with said intermediate guide surface to be moved to a selected angular position corresponding to the angular misalignment of said intermediate guide surface to said upper and lower guide surfaces, and switching means operable only in response to movement of said movable indexing member to its said selected angular position; and perforating means on said well tool and operable only in response to operation of said switching means.

References Cited UNITED STATES PATENTS 2,781,098 2/1957 Bielstein 4.51 3,058,522 10/1962 McElheny i 175-456 X 3,063,372 11/1962 Diebold 1754.51 3,338,317 9/1965 Shore 1754.51

DAVID H. BROWN, Primary Examiner US. Cl. X.R. 166-55.1

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