Nested lock screw

Abstract

A wellhead assembly includes a wellhead housing, the wellhead housing including a lock screw receptacle. The wellhead assembly includes an outer nested wellhead component positioned within the wellhead housing, the outer nested wellhead component including a lock screw aperture. The wellhead assembly includes an inner nested wellhead component, the inner nested wellhead component including an inner receptacle. The wellhead assembly includes a nested lock screw. The nested lock screw includes an outer sleeve, the outer sleeve having external threads formed on an outer surface thereof, the outer sleeve threadedly coupled to the lock screw receptacle of the wellhead housing. The nested lock screw includes an inner lock screw, the inner lock screw positioned within and threadedly coupled to the outer sleeve, the inner lock screw passing through the lock screw aperture and engaging the inner receptacle.

Claims

1. A wellhead assembly, comprising: a wellhead housing, wherein the wellhead housing comprises a first lock screw aperture; an outer nested wellhead component configured to be disposed within the wellhead housing, wherein the outer nested wellhead component comprises a second lock screw aperture configured to align with the first lock screw aperture in the wellhead housing; an inner nested wellhead component configured to be disposed within the outer nested wellhead component sequentially after the outer nested wellhead component is disposed within the wellhead housing, wherein the inner nested wellhead component comprises a lock screw receptacle configured to align with the first lock screw aperture in the wellhead housing and the second lock screw aperture in the outer nested wellhead component; and a nested lock screw, wherein the nested lock screw comprises: an outer sleeve, wherein the outer sleeve is configured to extend through the first lock screw aperture in the wellhead housing into the second lock screw aperture in the outer nested wellhead component to facilitate securing the outer nested wellhead component within the wellhead housing; and an inner screw disposed within the outer sleeve, wherein the inner screw is configured to extend through the outer sleeve into the lock screw receptacle in the inner nested wellhead component to facilitate securing the inner nested wellhead component within the outer nested wellhead component and the wellhead housing.

2. The wellhead assembly of claim 1, wherein: the outer nested wellhead component comprises a packoff; and the inner nested wellhead component comprises a tubing hanger.

3. The wellhead assembly of claim 1, wherein the inner screw of the nested lock screw comprises: a rotating outer screw portion configured to threadingly engage the outer sleeve of the nested lock screw; and a non-rotating inner screw portion configured to be disposed within the lock screw receptacle in the inner nested wellhead component.

4. The wellhead assembly of claim 3, wherein: an inner end of the rotating outer screw portion of the inner screw comprises a dovetail; and an outer end of the non-rotating inner screw portion of the inner screw is configured to interlock with the dovetail on the rotating outer screw portion to mechanically secure the rotating outer screw portion and the non-rotating inner screw portion to one another while enabling the rotating outer screw portion to rotate relative to the non-rotating inner screw portion.

5. The wellhead assembly of claim 1, wherein the outer sleeve of the nested lock screw comprises: a rotating outer sleeve portion configured to threadingly engage the first lock screw aperture in the wellhead housing; and a non-rotating inner sleeve portion configured to extend from the first lock screw aperture in the wellhead housing into the second lock screw aperture in the outer nested wellhead component.

6. The wellhead assembly of claim 5, wherein the outer sleeve of the nested lock screw comprises a sleeve coupler secured at an inner end of the rotating outer sleeve portion of the outer sleeve and an outer end of the non-rotating inner sleeve portion of the outer sleeve to mechanically secure the rotating outer sleeve portion and the non-rotating inner sleeve portion to one another while enabling the rotating outer sleeve portion to rotate relative to the non-rotating inner sleeve portion.

7. The wellhead assembly of claim 1, wherein the outer sleeve is configured to directly abut the inner nested wellhead component.

8. The wellhead assembly of claim 1 further comprising a seal between the outer sleeve and the lock screw receptacle.

9. The wellhead assembly of claim 1, wherein the outer sleeve comprises a non-rotating outer lock sleeve and a rotating outer lock sleeve with an external seal positioned on the non-rotating outer lock sleeve.

10. The wellhead assembly of claim 1 further comprising a seal between an outer circumference of an inner lock screw and the outer sleeve.

11. The wellhead assembly of claim 1, wherein the outer sleeve extends past the lock screw receptacle of the wellhead housing toward the outer wellhead component into the engaging contact with the lock screw aperture of the outer wellhead component.

12. The wellhead assembly of claim 1, wherein the inner lock screw extends past the lock screw aperture in the outer wellhead component toward the inner wellhead component into the engaging contact with the inner receptacle of the inner wellhead component.

13. A method of installing a wellhead assembly, comprising: securing an outer sleeve of a nested lock screw within a first lock screw aperture in a wellhead housing and a second lock screw aperture in an outer nested wellhead component that is disposed within the wellhead housing to facilitate securing the outer nested wellhead component within the wellhead housing, wherein the outer nested wellhead component comprises a packoff; and extending an inner screw of the nested lock screw though the outer sleeve of the nested lock screw into a lock screw receptacle in an inner nested wellhead component that is disposed within the outer nested wellhead component to facilitate securing the inner nested wellhead component within the outer nested wellhead component.

14. The method of claim 13, wherein the inner nested wellhead component comprises a tubing hanger.

15. The method of claim 13, wherein the inner screw of the nested lock screw comprises: a rotating outer screw portion configured to threadingly engage the outer sleeve of the nested lock screw; and a non-rotating inner screw portion configured to be disposed within the lock screw receptacle in the inner nested wellhead component.

16. The method of claim 13, wherein: an inner end of the rotating outer screw portion of the inner screw comprises a dovetail; and an outer end of the non-rotating inner screw portion of the inner screw is configured to interlock with the dovetail on the rotating outer screw portion to mechanically secure the rotating outer screw portion and the non-rotating inner screw portion to one another while enabling the rotating outer screw portion to rotate relative to the non-rotating inner screw portion.

17. A wellhead assembly comprising a nested lock screw, wherein the nested lock screw comprises: an outer sleeve configured to: threadingly engage a first lock screw aperture in a wellhead housing; and extend through the first lock screw aperture in the wellhead housing into a second lock screw aperture in an outer nested wellhead component that is disposed within the wellhead housing to facilitate securing the outer nested wellhead component within the wellhead housing, wherein the outer nested wellhead component comprises a packoff; and an inner screw disposed within the outer sleeve, wherein the inner screw is configured to: threadingly engage the outer sleeve; and extend through the outer sleeve into a lock screw receptable in an inner nested wellhead component that is disposed within the outer nested wellhead component to facilitate securing the inner nested wellhead component within the outer nested wellhead component.

18. The wellhead assembly of claim 17, wherein the inner screw of the nested lock screw comprises: a rotating outer screw portion; and a non-rotating inner screw portion.

19. The wellhead assembly of claim 17, wherein the inner nested wellhead component comprises a tubing hanger.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The present disclosure is best understood from the following detailed description when read with the accompanying figures. It is emphasized that, in accordance with the standard practice in the industry, various features are not drawn to scale. In fact, the dimensions of the various features may be arbitrarily increased or reduced for clarity of discussion.

(2) FIG. 1 depicts a cross section of a wellhead assembly including a nested lock screw consistent with at least one embodiment of the present disclosure.

(3) FIG. 2 depicts a cross section of a nested lock screw consistent with at least one embodiment of the present disclosure.

(4) FIG. 3 depicts a cross section of a nested lock screw consistent with at least one embodiment of the present disclosure.

(5) FIG. 4 depicts a cross section of a nested hanger assembly of a wellhead having a lock screw receptacle for a nested lock screw consistent with at least one embodiment of the present disclosure.

(6) FIG. 5 depicts a cross section view of the nested hanger assembly of FIG. 4 with an outer pin of the nested lock screw engaged.

(7) FIG. 6 depicts a cross section view of the nested hanger assembly of FIG. 5, with an inner pin of the nested lock screw engaged.

DETAILED DESCRIPTION

(8) It is to be understood that the following disclosure provides many different embodiments, or examples, for implementing different features of various embodiments. Specific examples of components and arrangements are described below to simplify the present disclosure. These are, of course, merely examples and are not intended to be limiting. In addition, the present disclosure may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed.

(9) FIG. 1 depicts a cross section view of wellhead assembly 10. Wellhead assembly 10 may include wellhead housing 12. Wellhead housing 12 may be mechanically coupled to a wellbore via casing 13 and may be used to house and support multiple components used within the wellbore including, for example and without limitation, outer nested wellhead component 14, depicted as a packoff, and inner nested wellhead component 16, depicted as a tubing hanger. Although discussed herein with respect to a packoff and tubing hanger, one of ordinary skill in the art with benefit of this disclosure will understand that these are mere examples of components that can be used with a nested lock screw as discussed herein below. For example, other equipment may include one or more of wear bushings, bit guides, seal packoffs, temporary abandonment plugs, tieback hangers, and drilling adapters. In some embodiments, as shown in FIG. 1, wellhead assembly 10 may be a nested hanger, wherein inner nested wellhead component 16 is positioned radially within outer nested wellhead component 14. In some embodiments, outer nested wellhead component 14 may be secured in place to wellhead housing 12 by one or more traditional lock screws 18.

(10) In some embodiments, one or more components of wellhead assembly 10 may be secured together using one or more nested lock screws 100. For example, in some embodiments, as shown in FIG. 1, outer nested wellhead component 14 may be positioned within wellhead housing 12, and inner nested wellhead component 16 is positioned within outer nested wellhead component 14. Inner nested wellhead component 16 may be secured within outer nested wellhead component 14 and wellhead housing 12 by nested lock screw 100. Nested lock screw 100 may be secured to and extend through lock screw receptacle 20 formed in wellhead housing 12 and lock screw aperture 22 formed in outer nested wellhead component 14 to engage with inner receptacle 24 as further described below.

(11) In some embodiments, as shown in FIG. 2, nested lock screw 100 may include outer sleeve 101 and inner lock screw 103. In some embodiments, outer sleeve 101 may include external threads 105 formed on an outer surface thereof. External threads 105 may be adapted to engage with threads formed in lock screw receptacle 20 of wellhead housing 12 to allow nested lock screw 100 to secure to wellhead housing 12 by threadedly connecting outer sleeve 101 to wellhead housing 12. Rotation of outer sleeve 101 may thereby allow outer sleeve 101 to extend or retract relative to wellhead housing 12 as further discussed below. For example, outer sleeve 101 may, when extended into the interior of wellhead housing 12, engage lock screw aperture 22 of outer nested wellhead component 14. In some embodiments, outer sleeve 101 may be used to secure or orient outer nested wellhead component 14 to wellhead housing 12.

(12) In some embodiments, inner lock screw 103 may be threadedly coupled to outer sleeve 101 such that rotation of inner lock screw 103 relative to outer sleeve 101 may extend or retract inner lock screw 103 relative to outer sleeve 101. The position of outer sleeve 101 relative to wellhead housing 12 may therefore be adjustable independently from the position of inner lock screw 103 relative to outer sleeve 101. In some embodiments, the clearance between outer sleeve 101 and inner lock screw 103 may be of generally tight tolerance such that, for example and without limitation, inner lock screw 103 engages outer sleeve 101 at a distal end thereof, thereby supporting inner lock screw 103 against bending stresses incurred while nested lock screw 100 is used to secure components of wellhead assembly 10.

(13) In some embodiments, nested lock screw 100 may include one or more internal seals 107 positioned to form a fluid seal between outer sleeve 101 and inner lock screw 103. In some embodiments, nested lock screw may include one or more external seals 109 positioned to form a fluid seal between outer sleeve 101 and wellhead housing 12. Internal seals 107 and external seals 109 may reduce or prevent fluid egress from within wellhead assembly 10.

(14) In some embodiments, as shown in FIG. 3, nested lock screw 100 may include two-part outer sleeve 101. Two-part outer sleeve 101 may include rotating outer sleeve 101a and non-rotating outer sleeve 101b. Rotating outer sleeve 101a and non-rotating outer sleeve 101b may be mechanically coupled together by outer sleeve coupler 101c such that rotating outer sleeve 101a and non-rotating outer sleeve 101b may rotate relative to each other while remaining axially aligned and substantially in abutment. In some such embodiments, external threads 105 may be formed in rotating outer sleeve 101a such that as nested lock screw 100 is installed to wellhead housing 12, rotating outer sleeve 101a is able to rotate and threadedly couple thereto while non-rotating outer sleeve 101b may move only axially without rotation relative to wellhead housing 12. Such non-rotation may, for example and without limitation, reduce wear on components of wellhead assembly 10, non-rotating outer sleeve 101b, and external seals 109 positioned between non-rotating outer sleeve 101b and wellhead housing 12.

(15) In some embodiments, nested lock screw 100 may include two-part inner lock screw 103. Two-part inner lock screw 103 may include rotating inner lock screw 103a and non-rotating inner lock screw 103b. Rotating inner lock screw 103a and non-rotating inner lock screw 103b may be mechanically coupled together by a coupler or, as shown in FIG. 3, by dovetail 103c such that rotating inner lock screw 103a and non-rotating inner lock screw 103b may rotate relative to each other while remaining axially aligned and substantially in abutment. In some such embodiments, the threaded engagement between two-part inner lock screw 103 and two-part outer sleeve 101 may be formed between rotating outer sleeve 101a and rotating inner lock screw 103a such that rotating inner lock screw 103a is able to rotate and threadedly extend into wellhead housing 12, non-rotating inner lock screw 103b may move only axially without rotation relative to non-rotating outer sleeve 101b and wellhead housing 12. Such non-rotation may, for example and without limitation, reduce wear on components of wellhead assembly 10, non-rotating outer sleeve 101b, non-rotating inner lock screw 103b, and internal seals 107 positioned between non-rotating inner lock screw 103b and non-rotating outer sleeve 101b.

(16) FIGS. 4-6 depict the stages of installation of nested lock screw 100 to wellhead assembly 10. Although nested lock screw 100 having two-part outer sleeve 101 and two-part inner lock screw 103 is shown, the operations described are substantially identical for nested lock screw 100 having outer sleeve 101 and inner lock screw 103.

(17) As shown in FIG. 4, wellhead assembly 10 may first be made up such that components of wellhead assembly 10 are in place and ready for assembly or components may be installed sequentially during the securing operations described below. For example, outer nested wellhead component 14 and inner nested wellhead component 16 may be positioned within wellhead housing 12 such that lock screw aperture 22 and inner receptacle 24 are aligned with lock screw receptacle 20.

(18) Nested lock screw 100 may then be installed to wellhead housing 12 by inserting nested lock screw 100 into lock screw receptacle 20 and rotating two-part outer sleeve 101 of nested lock screw 100 as shown in FIG. 5. In other embodiments, nested lock screw 100 may be installed to wellhead housing 12 before outer nested wellhead component 14 and inner nested wellhead component 16 are positioned within wellhead housing 12. In some embodiments, once outer nested wellhead component 14 is installed into wellhead housing 12, two-part outer sleeve 101 may be rotated until two-part outer sleeve 101 engages lock screw aperture 22 and is fully seated thereto.

(19) In some embodiments, two-part inner lock screw 103 may then be rotated until two-part inner lock screw 103 engages inner receptacle 24 and is fully seated thereto as shown in FIG. 6. By engaging inner receptacle 24, two-part inner lock screw 103 may secure inner nested wellhead component 16 or other inner nested wellhead component both axially and rotationally within wellhead housing 12. In some embodiments, because two-part outer sleeve 101 is extended to abut or nearly abut inner nested wellhead component 16, the cantilever distance of two-part inner lock screw 103 may be reduced as compared to a single-piece lock screw, thereby reducing bending moments imparted on two-part inner lock screw 103.

(20) The foregoing outlines features of several embodiments so that a person of ordinary skill in the art may better understand the aspects of the present disclosure. Such features may be replaced by any one of numerous equivalent alternatives, only some of which are disclosed herein. One of ordinary skill in the art should appreciate that they may readily use the present disclosure as a basis for designing or modifying other processes and structures for carrying out the same purposes and/or achieving the same advantages of the embodiments introduced herein. One of ordinary skill in the art should also realize that such equivalent constructions do not depart from the spirit and scope of the present disclosure and that they may make various changes, substitutions, and alterations herein without departing from the spirit and scope of the present disclosure.