METHODS

CROSS-REFERENCE TO RELATED APPLICATION

[0001] This application claims priority to U.S. Provisional Patent Application No. 62/408,527, filed October 14, 2016, which is incorporated herein by reference in its entirety.

BACKGROUND

1. Field of Invention

[0002] The present invention relates generally to connector assemblies for connecting tubulars (e.g., tubes, pipes, lines, conduits, hoses, and/or the like), and more specifically, but not by way of limitation, to connector assemblies for connecting oil and/or gas well-related tubulars, such as, for example, risers, pipes (e.g., drill, casing, pipeline, and/or the like pipes), lines (e.g., choke, kill, and/or the like lines), and/or the like, to other oil and/or gas well- related tubulars and/or to oil and/or gas well-related structures.

2. Description of Related Art

[0003] Tubular connectors, which are used in a variety of industries, allow for the connection of tubulars to other tubulars and/or to structures. As one example, in the oil and gas industry, tubular connectors are often used to connect sections of a tubular (e.g., a riser, drill pipe, and/or the like) when lowering the tubular toward a well.

[0004] Some tubular connectors, such as traditional drill pipe connectors and casing connectors, are threaded. To connect a tubular to such a threaded connector, a thread of the connector is engaged with a corresponding thread of the tubular, and the tubular is rotated relative to the connector. Connecting tubulars using such threaded connectors may be problematic and/or time consuming, as such a threaded connector may be unforgiving of misalignment between a tubular and the connector, require multiple rotations of the tubular relative to the connector, and/or the like. [0005] Some tubular connectors, such as traditional riser connectors, include flanges through which fasteners (e.g., bolts) can be disposed in order to connect tubulars to other tubulars and/or to structures. In addition to such flange-based connectors being unforgiving of tubular/connector misalignment, connecting tubulars using such flange-based connectors may— at least by involving the use of separate fasteners— be undesirably complex and/or time consuming.

SUMMARY

[0006] Some embodiments of the present connector assemblies for connecting a first tubular to a second tubular comprise: a female connector having a sidewall extending between a first end and a second end to define an interior channel, the sidewall having a cylindrical inner surface, the second end configured to be coupled to the first tubular, and a plurality of lugs extending from and disposed circumferentially along the inner surface, and a male connector having a sidewall extending between a first end and a second end to define an interior channel, the sidewall having a cylindrical outer surface, the second end configured to be coupled to the second tubular, and a plurality of lugs extending from and disposed circumferentially along the outer surface, wherein the male connector is configured to be coupled to the female connector such that the sidewall of the male connector is at least partially received within the interior channel of the female connector, and at least one of the lugs of the male connector is disposed between at least one of the lugs of the female connector and the second end of the female connector and in contact with the at least one lug of the female connector.

[0007] In some connector assemblies, the male connector is configured to be coupled to the female connector such that each of the lugs of the male connector is disposed between at least one of the lugs of the female connector and the second end of the female connector and in contact with the at least one lug of the female connector. In some connector assemblies, the male connector is configured to be coupled to the female connector such that each of the lugs of the female connector is disposed between at least one of the lugs of the male connector and the second end of the male connector and in contact with the at least one lug of the male connector.

[0008] In some connector assemblies, the male connector is configured to be coupled to the female connector at least by inserting the first end of the male connector through the first end of the female connector and into the interior channel of the female connector such that at least one of the lugs of the male connector extends longitudinally beyond at least one of the lugs of the female connector, and rotating the male connector relative to the female connector such that the at least one lug of the male connector is disposed between the at least one lug of the female connector and the second end of the female connector and in contact with the at least one lug of the female connector.

[0009] In some connector assemblies, for the female connector, the lugs extend along the inner surface of the sidewall a collective circumferential distance that is approximately 75% of a circumference of the inner surface. In some connector assemblies, for the male connector, the lugs extend along the outer surface of the sidewall a collective circumferential distance that is approximately 75% of a circumference of the outer surface. In some connector assemblies, circumferentially adjacent ones of the lugs of at least one of the female connector and the male connector are longitudinally offset relative to one another.

[0010] In some connector assemblies, for at least one of the female connector and the male connector, a thickness of at least one of the lugs decreases along the lug in a direction from the second end and toward the first end. In some connector assemblies, at least one of the lugs of the female connector has a width, measured along a circumference of the inner surface, and a length, measured in a direction aligned with a longitudinal axis of the female connector, that is smaller than the width. In some connector assemblies, at least one of the lugs of the male connector has a width, measured along a circumference of the outer surface, and a length, measured in a direction aligned with a longitudinal axis of the male connector, that is smaller than the width.

[0011] In some connector assemblies, at least one of the lugs of the female connector includes a mating surface configured to contact at least one of the lugs of the male connector when the male connector is coupled to the female connector, and the mating surface is angularly disposed at a non-perpendicular angle relative to a plane that is perpendicular to a longitudinal axis of the female connector. In some connector assemblies, at least one of the lugs of the male connector includes a mating surface configured to contact at least one of the lugs of the female connector when the male connector is coupled to the female connector, and the mating surface is angularly disposed at a non-perpendicular angle relative to a plane that is perpendicular to a longitudinal axis of the male connector.

[0012] In some connector assemblies, the sidewall of the female connector tapers in thickness at the first end. In some connector assemblies, the sidewall of the male connector tapers in thickness at the first end. In some connector assemblies, the female connector includes a ramp extending from the inner surface of the sidewall, the ramp configured to contact the first end of the male connector when the male connector is coupled to the female connector.

[0013] Some connector assemblies comprise a locking member having one or more tabs, wherein the locking member is configured to be coupled to the female connector or the male connector such that, when the male connector is coupled to the female connector, each of the one or more tabs contacts at least one of the lugs of the female connector and/or at least one of the lugs of the male connector. In some connector assemblies, the female connector or the male connector defines one or more openings configured to receive the one or more tabs of the locking member. [0014] In some connector assemblies, the female connector is coupled to the first tubular and/or the male connector is coupled to the second tubular. In some connector assemblies, the first tubular and the second tubular each comprise a riser or a drill pipe.

[0015] Some embodiments of the present methods for connecting a first tubular to a second tubular comprise coupling a male connector to a female connector, wherein the female connector comprises a sidewall extending between a first end and a second end to define an interior channel, the sidewall having a cylindrical inner surface, the second end coupled to a first tubular, and a plurality of first lugs extending from and disposed circumferentially along the inner surface, wherein the male connector comprises a sidewall extending between a first end and a second end to define an interior channel, the sidewall having a cylindrical outer surface, the second end coupled to a first tubular, and a plurality of first lugs extending from and disposed circumferentially along the outer surface, and wherein the coupling the male connector to the female connector comprises inserting the first end of the male connector through the first end of the female connector and at least partially into the interior channel of the female connector such that at least one of the first lugs of the male connector extends longitudinally beyond at least one of the first lugs of the female connector, and rotating the male connector relative to the female connector such that the at least one first lug of the male connector is disposed between the at least one first lug of the female connector and the second end of the female connector and in contact with the at least one first lug of the female connector.

[0016] In some methods, the male connector comprises a plurality of second lugs extending from and disposed circumferentially along the outer surface, the second lugs being circumferentially and longitudinally offset relative to the first lugs of the male connector, and the coupling the male connector to the female connector comprises further inserting the male connector into the female connector such that at least one of the second lugs of the male connector extends longitudinally beyond at least one of the first lugs of the female connector, and further rotating the male connector relative to the female connector such that the at least one second lug of the male connector is disposed between the at least one first lug of the female connector and the second end of the female connector and in contact with the at least one first lug of the female connector. In some methods, the female connector comprises a plurality of second lugs extending from and disposed circumferentially along the inner surface, the second lugs being circumferentially and longitudinally offset relative to the first lugs of the female connector, the further inserting is performed such that at least one of the first lugs of the male connector extends longitudinally beyond at least one of the second lugs of the female connector, and the further rotating is performed such that the at least one first lug of the male connector is disposed between the at least one second lug of the female connector and the second end of the female connector and in contact with the at least on second lug of the female connector.

[0017] The term "coupled" is defined as connected, although not necessarily directly, and not necessarily mechanically; two items that are "coupled" may be unitary with each other. The terms "a" and "an" are defined as one or more unless this disclosure explicitly requires otherwise. The term "substantially" is defined as largely but not necessarily wholly what is specified (and includes what is specified; e.g., substantially 90 degrees includes 90 degrees and substantially parallel includes parallel), as understood by a person of ordinary skill in the art. In any disclosed embodiment, the terms "substantially" and "approximately" may be substituted with "within [a percentage] of what is specified, where the percentage includes .1, 1, 5, and 10 percent.

[0018] The phrase "and/or" means and or or. To illustrate, A, B, and/or C includes: A alone, B alone, C alone, a combination of A and B, a combination of A and C, a combination of B and C, or a combination of A, B, and C. In other words, "and/or" operates as an inclusive or.

[0019] Further, a device or system that is configured in a certain way is configured in at least that way, but it can also be configured in other ways than those specifically described.

[0020] The terms "comprise" (and any form of comprise, such as "comprises" and "comprising"), "have" (and any form of have, such as "has" and "having"), and "include" (and any form of include, such as "includes" and "including") are open-ended linking verbs. As a result, an apparatus that "comprises," "has," or "includes" one or more elements possesses those one or more elements, but is not limited to possessing only those one or more elements. Likewise, a method that "comprises," "has," or "includes" one or more steps possesses those one or more steps, but is not limited to possessing only those one or more steps.

[0021] Any embodiment of any of the apparatuses, systems, and methods can consist of or consist essentially of - rather than comprise/have/include - any of the described steps, elements, and/or features. Thus, in any of the claims, the term "consisting of or "consisting essentially of can be substituted for any of the open-ended linking verbs recited above, in order to change the scope of a given claim from what it would otherwise be using the open- ended linking verb.

[0022] The feature or features of one embodiment may be applied to other embodiments, even though not described or illustrated, unless expressly prohibited by this disclosure or the nature of the embodiments.

[0023] Some details associated with the embodiments are described above, and others are described below. BRIEF DESCRIPTION OF THE DRAWINGS

[0024] The following drawings illustrate by way of example and not limitation. For the sake of brevity and clarity, every feature of a given structure is not always labeled in every figure in which that structure appears. Identical reference numbers do not necessarily indicate an identical structure. Rather, the same reference number may be used to indicate a similar feature or a feature with similar functionality, as may non-identical reference numbers. The figures are drawn to scale (unless otherwise noted), meaning the sizes of the depicted elements are accurate relative to each other for at least the embodiment depicted in the figures.

[0025] FIG. 1 is a perspective view of one embodiment of the present connector assemblies.

[0026] FIGs. 2A and 2B are perspective views of a female connector of the connector assembly of FIG. 1.

[0027] FIGs. 2C and 2D are front and back views, respectively, of the female connector of FIGs. 2A and 2B.

[0028] FIGs. 2E and 2F are opposing side views of the female connector of FIGs. 2A and 2B.

[0029] FIG. 2G is a cross-sectional side view of the female connector of FIGs. 2A and 2B, taken along line 2G-2G of FIG. 2D.

[0030] FIGs. 3A and 3B are perspective views of a male connector of the connector assembly of FIG. 1.

[0031] FIGs. 3C and 3D are front and back views, respectively, of the male connector of FIGs. 3 A and 3B.

[0032] FIG. 3E is a side view of the male connector of FIGs. 3 A and 3B. [0033] FIG. 3F is a cross-sectional side view of the male connector of FIGs. 3 A and 3B, taken along line 3F-3F of FIG. 3E.

[0034] FIGs. 5A and 5B are schematic views of one embodiment of the present connector assemblies, illustrating a decoupled state and a coupled state, respectively, for a male connector and a female connector.

[0035] FIGs. 6A-6E are schematic views of one embodiment of the present connector assemblies, illustrating coupling of a male connector and a female connector.

[0036] FIGs. 7A and 7B are perspective views of a locking member that may be suitable for use in some embodiments of the present connector assemblies.

[0037] FIG. 7C is a side view of the locking member of FIGs. 7 A and 7B.

[0038] FIG. 8 is a schematic view of one embodiment of the present connector assemblies, illustrating use of a locking member to resist decoupling of a male connector and a female connector.

DETAILED DESCRIPTION [0039] Referring to FIG. 1, shown is a first embodiment 10 of the present connector assemblies. As described below, connector assembly 10 can include a female connector 14 configured to be coupled to a first tubular (e.g., 22) and a male connector 18 configured to be coupled to a second tubular (e.g., 26), where the male connector can be coupled to the female connector to couple the second tubular to the first tubular. Such tubulars can include any suitable tubular, such as, for example, a tube, conduit, hose, riser, pipe (e.g., a drill, casing, pipeline, and/or the like pipe), a line (e.g., a choke, kill, and/or the like line), and/or the like, whether rigid and/or flexible. In some embodiments, a connector assembly (e.g., 10) can be configured to couple a tubular (e.g., 22, 26) to a structure; for example, one of a female connector (e.g., 14) and a male connector (e.g., 18) of the connector assembly can be coupled to the structure, and the other of the female connector and the male connector can be coupled to the tubular. Such a structure can include any suitable structure, such as, for example, a blowout preventer, blowout preventer stack, lower marine riser package, diverter, a component thereof, and/or the like. Female connector 14 and male connector 18 can comprise any suitable material, such as, for example, steel, aluminum, and/or the like.

[0040] Referring additionally to FIGs. 2A-2G, shown is female connector 14. Female connector 14 can include a sidewall 38a that extends between a first end 42a and a second end 46a to define an interior channel 50a. As described in more detail below, first end 42a of female connector 14 can be coupled to male connector 18. Second end 46a of female connector 14 can be coupled to a tubular (e.g., 22). For example, in this embodiment, second end 46a of female connector 14 can be received by the tubular. At second end 46a, an outer surface 54a of sidewall 38a can have a shape and dimensions that correspond to a shape and dimensions of an inner surface of the tubular. To illustrate, outer surface 54a of sidewall 38a at second end 46a and an inner surface of the tubular can each be cylindrical, with the outer surface of the sidewall having a diameter that is substantially equal to (e.g., but slightly smaller than) a diameter of the inner surface of the tubular. Sidewall 38a can taper in thickness at second end 46a to, for example, facilitate coupling of the tubular to the female connector. In some instances, the tubular can be secured to female connector 14 via, for example, one or more welds (e.g., along ledge 102a, described below), one or more fasteners (e.g., disposed through the tubular and into the female connector), one or more clamps (e.g., disposed around at least a portion of the tubular), and/or the like. In other embodiments, a female connector (e.g., 14) can have a second end (e.g., 46a) that is configured to be coupled to a tubular (e.g., 22) by receiving the tubular such that, for example, a portion of the tubular is at least partially surrounded by a sidewall (e.g., 38a) of the female connector, is disposed within an interior channel (e.g., 50a) of the female connector, and/or the like. In such embodiments, an inner surface (e.g., 58a) of the sidewall at the second end can have a shape and dimensions that correspond to a shape and dimensions of an outer surface of the tubular.

[0041] Sidewall 38a of female connector 14 can include a first portion 70 that is disposed closer to first end 42a than to second end 46a and a second portion 74 that is disposed closer to the second end than to the first end. First portion 70 can have a first maximum exterior transverse dimension 78, and second portion 74 can have a second maximum exterior transverse dimension 82 that is smaller than the first maximum exterior transverse dimension (FIG. 2G) (e.g., transverse dimension 82 can be 90% or less of transverse dimension 78). Similarly, first portion 70 can have a first maximum interior transverse dimension 86, and second portion 74 can have a second maximum interior transverse dimension 90 that is smaller than the first maximum interior transverse dimension (e.g., transverse dimension 90 can be 90% or less of transverse dimension 86).

[0042] Outer surface 54a of sidewall 38a (e.g., first portion 70 and/or second portion 74) can include cylindrical portion(s); for example, at least a portion of the sidewall can include an outer cross-sectional perimeter that is circular (FIGs. 2C and 2D). In some embodiments, a female connector (e.g., 14) can have a sidewall (e.g., 38a), at least a portion of which (e.g., a first portion 70 and/or a second portion 74) can include an outer cross-sectional perimeter that is elliptical, otherwise rounded, triangular, square, rectangular, and/or otherwise polygonal, whether having sharp or rounded vertices.

[0043] Female connector 14 can include a ledge 102a extending from outer surface 54a of sidewall 38a (e.g., between first portion 70 and second portion 74) that can extend at least partially around a circumference of the outer surface. Ledge 102a can facilitate coupling of a tubular (e.g., 22) to female connector 14 by, for example, abutting the tubular when second end 46a of sidewall 38a is received within the tubular. Female connector 14 can include one or more recesses 94 that are defined into and/or one or more protrusions that extend from outer surface 54a of sidewall 38a (e.g., keyway(s), key(s), spline(s), and/or the like), and the recess(es) and/or protrusion(s) can engage corresponding recess(es) and/or protrusion(s) defined into and/or extending from an inner surface of the tubular (e.g., to restrict rotation of the tubular relative to the female connector when the tubular is coupled to the female connector).

[0044] An inner surface 58a of sidewall 38a (e.g., first portion 70 and/or second portion 74) can include cylindrical portion(s); for example, at least a portion of the sidewall can include an inner cross-sectional perimeter that is circular (FIGs. 2C and 2D). In some embodiments, a female connector (e.g., 14) can have a sidewall (e.g., 38a), at least a portion of which (e.g., a first portion 70 and/or a second portion 74) can include an inner cross- sectional perimeter that is elliptical, otherwise rounded, triangular, square, rectangular, and/or otherwise polygonal, whether having sharp or round vertices.

[0045] Female connector 14 can include a ramp 114 extending from inner surface 58a of sidewall 38a (e.g., between first portion 70 and second portion 74) that can extend at least partially around a circumference of interior volume 50a. Ramp 114 can include a surface 118 that is inclined along a direction from first end 42a toward second end 46a and relative to a longitudinal axis 34a of female connector 14. For example, surface 118 can be conical. At least a portion of surface 118 can be angularly disposed relative to longitudinal axis 34a at an angle 122 that is greater than or substantially equal to any one of, or between any two of: 7.5, 10.0, 12.5, 15.0, 17.5, 20.0, 22.5, 25.0, 27.5, 30.0, 32.5, 35.0, 37.5, 40.0, 42.5, 45.0, 50.0, 55.0, 60.0, or more degrees (e.g., approximately 10 degrees). Ramp 114 (e.g., surface 118 thereof) can be configured to contact first end 42b of male connector 18 when the male connector is coupled to female connector 14 to, for example, facilitate a seal between the male connector and the female connector (e.g., surface 118 can be characterized as a tapered sealing surface). [0046] Female connector 14 can include a plurality of lugs 130a (e.g., 2, 3, 4, 5, 6, 7, 8, 9, 10, or more lugs) extending from and disposed circumferentially along inner surface 58a. Lugs 130a of female connector 14 can be configured to engage a plurality of lugs 130b of male connector 18 (described below) when the male connector is coupled to the female connector. For example, each of lugs 130a of female connector 14 can include a mating surface 134a configured to contact at least one of lugs 130b of male connector 18 when the male connector is coupled to the female connector. Mating surface 134a of at least one of lugs 130a can be inclined relative to a plane that is perpendicular to longitudinal axis 34a such that, for example, when the mating surface is in contact with one of lugs 130b of male connector 18, rotation of the male connector relative to the female connector can urge the male connector further into interior channel 50a of female connector 14. For example, at least a portion of mating surface 134a of at least one of lugs 130a can be angularly disposed relative to a plane that is perpendicular to longitudinal axis 34a at an angle 138a that is less than or substantially equal to any one of, or between any two of: 2, 3, 4, 5, 6, 7, 8, 9, 10, 12, 14, 18, 20, 25, 30, 35, 40, 45, or more degrees (e.g., approximately 5 degrees).

[0047] Lugs 130a of female connector 14 can extend along inner surface 58a a collective circumferential distance 142a that is approximately equal to any one of, or between any two of: 50, 55, 60, 65, 70, 75, 80, or more % (e.g., approximately 75%) of a circumference of the inner surface (e.g., when viewed from first end 42a) (FIG. 2C). In at least this way, depending on the configuration of lugs 130b of male connector 18, lugs 130a of female connector 14 can support the male connector relative to the female connector along a majority of a circumference of the female connector, provide an increased surface area through which loads can be transferred between the male and female connectors, and/or the like. Circumferentially adjacent ones of lugs 130a can be circumferentially spaced from one another along inner surface 58a to, for example, allow one of lugs 130b of male connector 18 to pass between the adjacent ones of the lugs during coupling of the male connector to the female connector. For example, a circumferential distance 144a between circumferentially adjacent ones of lugs 130a can be greater than or substantially equal to a width 146b of one of lugs 130b of male connector 18 (FIG. 2C). Circumferentially adjacent ones of lugs 130a can be longitudinally offset (e.g., in a direction aligned with longitudinal axis 34a) from one another. Such longitudinally offset lugs 130a can, via interaction with lugs 130b of male connector 18, restrict rotation of the male connector relative to female connector 14.

[0048] At least one of lugs 130a can have a width 146a (e.g., measured along a circumference of inner surface 58a) and a length 150a (e.g., measured in a direction that is aligned with longitudinal axis 34a) that is smaller than the width. For example, for at least one of lugs 130a, length 150a can be less than or substantially equal to any one of, or between any two of: 15, 20, 25, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, or more % of width 146a (e.g., approximately 40% of the width). Lugs 130a can be configured to allow for a degree of misalignment between male connector 18 and female connector 14 when coupling the male connector to the female connector, whether such misalignment is longitudinal (e.g., in which longitudinal axis 34a of female connector 14 is angularly disposed and/or offset relative to longitudinal axis 34b of male connector 18), rotational (e.g., in which lugs 130a of the female connector would otherwise interfere with lugs 130b of the male connector to prevent or frustrate coupling of the male connector to the female connector), and/or the like. For example, length 150a of at least one of lugs 130a can decrease in a direction along a circumference of inner surface 58a, the lug can taper in length along the circumference of the inner surface, the lug can include chamfered, beveled, and/or the like edge(s), and/or the like. For further example, at least one of lugs 130a can include a thickness 154a that decreases along the lug in a direction along a circumference of inner surface 58a and/or in a direction aligned with longitudinal axis 34a. [0049] Referring additionally to FIGs. 3A-3F, shown is male connector 18. Male connector 18 can include a sidewall 38b that extends between a first end 42b and a second end 46b to define an interior channel 50b. First end 42b of male connector 18 can be coupled to female connector 14. More particularly, first end 42b of male connector 18 can be received by female connector 14 such that, for example, the first end of the male connector is at least partially surrounded by sidewall 38a of the female connector, is disposed within interior channel 50a of the female connector, and/or the like. To illustrate, an outer surface 54b of male connector 18 at first end 42b and inner surface 58a of female connector 14 at first end 42a can each be cylindrical, with the outer surface of the male connector having a diameter that is substantially equal to (e.g., but slightly smaller than) a diameter of the inner surface of the female connector. Sidewall 38b of male connector 18 can taper in thickness at first end 42b to, for example, facilitate coupling of the male connector to female connector 14, define a (e.g., conical) sealing surface 158 configured to contact surface 118 of ramp 114, and/or the like. Similarly, sidewall 38a of female connector 14 can taper in thickness at first end 42a to, for example, facilitate coupling of male connector 18 to the female connector.

[0050] Second end 46b of male connector 18 can be coupled to a tubular (e.g., 26). For example, in this embodiment, second end 46b of male connector 18 can be received by the tubular. At second end 46b, outer surface 54b of sidewall 38b can have a shape and dimensions that correspond to a shape and dimensions of an inner surface of the tubular; to illustrate, the outer surface of the sidewall and the inner surface of the tubular can each be cylindrical, with the outer surface of the sidewall having a diameter that is substantially equal to (e.g., but slightly smaller than) a diameter of the inner surface of the tubular. Sidewall 38b can taper in thickness at second end 46b to, for example, facilitate coupling of the tubular to the male connector. In some instances, the tubular can be secured to male connector 18 via, for example, one or more welds (e.g., along ledge 102b, described below), one or more fasteners (e.g., disposed through the tubular and into the male connector), one or more clamps (e.g., disposed around at least a portion of the tubular), and/or the like. In other embodiments, a male connector (e.g., 18) can have a second end (e.g., 46b) that is configured to be coupled to a tubular (e.g., 26) by receiving the tubular such that, for example, a portion of the tubular is at least partially surrounded by a sidewall (e.g., 38b) of the male connector, is disposed within an interior channel (e.g., 50b) of the male connector, and/or the like. In such embodiments, an inner surface (e.g., 58b) of the sidewall at the second end can have a shape and dimensions that correspond to a shape and dimensions of an outer surface of the tubular.

[0051] Outer surface 54b of sidewall 38b can include cylindrical portion(s); for example, at least a portion of the sidewall can include an outer cross-sectional perimeter that is circular (FIGs. 3C and 3D). In some embodiments, a male connector (e.g., 18) can have a sidewall (e.g., 38b), at least a portion of which can include an outer cross-sectional perimeter that is elliptical, otherwise rounded, triangular, square, rectangular, and/or otherwise polygonal, whether having sharp or rounded vertices.

[0052] Male connector 18 can include a ledge 102b extending from outer surface 54b of sidewall 38b that can extend at least partially around a circumference of the outer surface. Ledge 102b can facilitate coupling of a tubular (e.g., 26) to male connector 18 by, for example, abutting the tubular when second end 46b of sidewall 38b is received within the tubular. Similarly to female connector 14, male connector 18 can include one or more recesses that are defined into and/or one or more protrusions that extend from outer surface 54b of sidewall 38b that can restrict rotation of the tubular relative to the male connector when the tubular is coupled to the male connector.

[0053] Inner surface 58b of sidewall 38b can include cylindrical portion(s); for example, at least a portion of the sidewall can include an inner cross-sectional perimeter that is circular (FIGs. 3C and 3D). In some embodiments, a male connector (e.g., 18) can have a sidewall (e.g., 38b), at least a portion of which can include an inner cross-sectional perimeter that is elliptical, otherwise rounded, triangular, square, rectangular, and/or otherwise polygonal, whether having sharp or round vertices.

[0054] Male connector 18 can include a plurality of lugs 130b (e.g., 2, 3, 4, 5, 6, 7, 8, 9, 10, or more lugs) extending from and disposed circumferentially along outer surface 54b. Lugs 130b of male connector 18 can be configured to engage lugs 130a of female connector 14 when the male connector is coupled to the female connector. For example, each of lugs 130b of male connector 18 can include a mating surface 134b configured to contact at least one of lugs 130a of female connector 14 when the male connector is coupled to the female connector (FIG. 3E). Mating surface 134b of at least one of lugs 130b can be inclined relative to a plane that is perpendicular to longitudinal axis 34b such that, for example, when the mating surface is in contact with one of lugs 130a of female connector 14, rotation of male connector 18 relative to the female connector can urge the male connector further into interior channel 50a of the female connector. For example, at least a portion of mating surface 134b of at least one of lugs 130b can be angularly disposed relative to a plane that is perpendicular to longitudinal axis 34b at an angle 138b that is less than or substantially equal to any one of, or between any two of: 2, 3, 4, 5, 6, 7, 8, 9, 10, 12, 14, 16, 18, 20, 25, 30, 35, 40, 45, or more degrees (e.g., approximately 5 degrees).

[0055] Lugs 130b of male connector 18 can extend along outer surface 54b a collective circumferential distance 142b that is approximately equal to any one of, or between any two of: 50, 55, 60, 65, 70, 75, 80, or more % (e.g., approximately 75%) of a circumference of the outer surface (e.g., when viewed from first end 42b) (FIG. 3C). In at least this way, depending on the configuration of lugs 130a of female connector 14, lugs 130b of male connector 18 can support the female connector relative to the male connector along a majority of a circumference of the male connector, provide an increased surface area through which loads can be transferred between the male and female connectors, and/or the like. Circumferentially adjacent ones of lugs 130b can be circumferentially spaced from one another along outer surface 54b to, for example, allow one of lugs 130a of female connector 14 to pass between the adjacent ones of the lugs during coupling of the male connector to the female connector. For example, a circumferential distance 144b between circumferentially adjacent ones of lugs 130b can be greater than or substantially equal to a width 146a of one of lugs 130a of female connector 14 (FIG. 3C). Circumferentially adjacent ones of lugs 130b can be longitudinally offset (e.g., in a direction aligned with longitudinal axis 34b) from one another. Such longitudinally offset lugs 130b can, via interaction with lugs 130a of female connector 14, restrict rotation of male connector 18 relative to female connector 14.

[0056] At least one of lugs 130b can have a width 146b (e.g., measured along a circumference of outer surface 54b) and a length 150b (e.g., measured in a direction that is aligned with longitudinal axis 34b) that is smaller than the width. For example, for at least one of lugs 130b, length 150b can be less than or substantially equal to any one of, or between any two of: 15, 20, 25, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, or more % of width 146b (e.g., approximately 40% of the width). Similarly to lugs 130a, lugs 130b can be configured to allow for a degree of misalignment between male connector 18 and female connector 14 when coupling the male connector to the female connector. For example, length 150b of at least one of lugs 130b can decrease in a direction along a circumference of outer surface 54b, the lug can taper in length along the circumference of the outer surface, the lug can include chamfered, beveled, and/or the like edge(s), and/or the like. For further example, at least one of lugs 130b can include a thickness 154b that decreases along the lug in a direction along a circumference of outer surface 54b and/or in a direction aligned with longitudinal axis 34b. [0057] Referring additionally to FIGs. 5 A and 5B, male connector 18 (represented in dashed lines and as if viewed from inside of the male connector) can be coupled to female connector 14 (represented in solid lines) such that sidewall 38b of the male connector is at least partially received within interior channel 50a of the female connector. When male connector 18 is coupled to female connector 14 (FIG. 5B), at least one of (e.g., each of) lugs 130b of the male connector can be: (1) disposed between at least one of lugs 130a of the female connector and second end 46a of the female connector (longitudinally between, meaning a distance measured along longitudinal axis 34a between: (1) a plane that is perpendicular to the longitudinal axis and intersects the at least one lug of the male connector; and (2) a plane that is perpendicular to the longitudinal axis and intersects the second end of the female connector is less than a distance measured along the longitudinal axis between: (1) a plane that is perpendicular to the longitudinal axis and intersects the at least one lug of the female connector; and (2) the plane that is perpendicular to the longitudinal axis and intersects the second end of the female connector); and (2) in contact with the at least one lug of the female connector. Similarly, when male connector 18 is coupled to female connector 14, at least one of (e.g., each of) lugs 130a of the female connector can be: (1) disposed between at least one of lugs 130b of the male connector and second end 46b of the male connector (longitudinally between, meaning a distance measured along longitudinal axis 34b between: (1) a plane that is perpendicular to the longitudinal axis and intersects the at least one lug of the female connector; and (2) a plane that is perpendicular to the longitudinal axis and intersects the second end of the male connector is less than a distance measured along the longitudinal axis between: (1) a plane that is perpendicular to the longitudinal axis and intersects the at least one lug of the male connector; and (2) the plane that is perpendicular to the longitudinal axis and intersects the second end of the male connector); and (2) in contact with the at least one lug of the male connector. Thus, lugs 130a and 130b can cooperate to physically resist separation of male connector 14 and female connector 18 when the male connector is coupled to the female connector.

[0058] FIGs. 6A-6E depict an exemplary method for coupling a male connector (e.g., 18, represented in dashed lines and as if viewed from inside of the male connector) to a female connector (e.g., 14, represented in solid lines). The female connector can include a sidewall (e.g., 38a) extending between a first end (e.g., 42a) and a second end (e.g., 46a) to define an interior channel (e.g., 50a), the sidewall having a cylindrical inner surface (e.g., 58a), and a plurality of first lugs (e.g., 130al) extending from and disposed circumferentially along the inner surface. The male connector can include a sidewall (e.g., 38b) extending between a first end (e.g., 42b) and a second end (e.g., 46b) to define an interior channel (e.g., 50b), the sidewall having a cylindrical outer surface (e.g., 54a), and a plurality of first lugs (e.g., 130b 1 ) extending from and disposed circumferentially along the outer surface.

[0059] As shown in FIG. 6B, the first end of the male connector can be inserted through the first end of the female connector and at least partially into the interior channel of the female connector such that at least one of the first lugs of the male connector extends longitudinally beyond at least one of the first lugs of the female connector (e.g., such that a surface of the at least one first lug of the male connector that faces the second end of the male connector is disposed closer to the second end of the female connector than is a surface of the at least one first lug of the female connector that faces the second end of the female connector). As shown in FIG. 6C, once at least one of the first lugs of the male connector extends longitudinally beyond at least one of the first lugs of the female connector, the male connector can be rotated (e.g., generally in a direction indicated by arrow 160) relative to the female connector such that the at least one first lug of the male connector is: (1) disposed between the at least one first lug of the female connector and the second end of the female connector; and (2) in contact with the at least one first lug of the female connector.

[0060] Turning to FIG. 6D, the male connector can comprise a plurality of second lugs (e.g., 130b2) extending from and disposed circumferentially along the outer surface, the second lugs being circumferentially and longitudinally offset relative to the first lugs of the male connector. The male connector can be further inserted into the female connector such that at least one of the second lugs of the male connector extends longitudinally beyond at least one of the first lugs of the female connector. As shown in FIG. 6E, once at least one of the second lugs of the male connector extends longitudinally beyond at least one of the first lugs of the female connector, the male connector can be further rotated (e.g., generally in a direction indicated by arrow 160) relative to the female connector such that the at least one second lug of the male connector is: (1) disposed between the at least one first lug of the female connector and the second end of the female connector; and (2) in contact with the at least one first lug of the female connector.

[0061] In some embodiments (e.g., 10), the female connector can include a plurality of second lugs (e.g., 130a2) extending from and disposed circumferentially along the inner surface, the second lugs being circumferentially and longitudinally offset relative to the first lugs of the female connector. As shown in FIGs. 6D and 6E, in such embodiments, the further inserting can be performed such that at least one of the first lugs of the male connector extends longitudinally beyond at least one of the second lugs of the female connector, and the further rotating can be performed such that the at least one first lug of the male connector is: (1) disposed between the at least one second lug of the female connector and the second end of the female connector; and (2) in contact with the at least one second lug of the female connector. [0062] Referring now to FIGs. 7A-7C, connector assembly 10 can include a locking member 162 configured to be coupled to connector assembly 10 to resist separation of male connector 18 and female connector 14 when the male connector is coupled to the female connector. For example, locking member 162 can include one or more tabs 166, each configured to contact at least one of lugs 130a of female connector 14 and/or at least one of lugs 130b of male connector 18. Tab(s) 166, via contact with lug(s) 130a of female connector 14 and/or lug(s) 130b of male connector 18, can restrict movement of the lugs relative to one another and thus restrict rotation and/or translation of the female connector relative to the male connector. To illustrate, and referring additionally to FIG. 8, when male connector 18 is coupled to female connector 14 and locking member 162 is coupled to connector assembly 10, at least one of tab(s) 166 (represented in dotted lines) can be disposed between adjacent ones of lugs 130b of the male connector, between one of the lugs of the male connector and one of lugs 130a of the female connector, between adjacent ones of the lugs of the female connector, and/or the like.

[0063] In this embodiment, female connector 14 can define one or more openings 178 (e.g., through ledge 102a) configured to receive one or more tabs 166 of locking member 162 such that, for example, the tab(s) can extend through the opening(s) and into interior channel 50a to contact lug(s) 130a of female connector 14 and/or lug(s) 130b of male connector 18. In some embodiments, a male connector (e.g., 18) can define one or more openings (e.g., 178) configured to receive one or more tabs (e.g., 166) of a locking member (e.g., 162). Tab(s) 166 can extend from a body 168. Body 168 of locking member 162 can at least partially surround female connector 14 (and/or a tubular 22 coupled to the female connector) and/or male connector 18 (and/or a tubular 26 coupled to the male connector) when the locking member is coupled to connector assembly 10 (e.g., the body can be annular). [0064] Tab(s) 166 can have a shape that corresponds to the relative placement of lugs 130a and/or 130b (e.g., the lugs on one of male connector 18 and female connector 14, lug(s) on the male connector and lug(s) on the female connector when the male connector is coupled to the female connector, and/or the like). For example, at least one of tab(s) 166 can have a width that varies along a length of the tab. A first portion 174 of at least one of tab(s) 166 can have a first width 170a, and a second portion 178 of the tab that is disposed between the first portion and a free end of the tab can have a second width 170b that is smaller than the first width (e.g., a portion of the tab can be L-shaped). Such a tab 166 can be configured to contact lugs (e.g., 130a and/or 130b) that are longitudinally and circumferentially offset relative to one another; for example, a longitudinal edge 182a of first portion 174 can contact a first lug (e.g., 130a or 130b), and a longitudinal edge 182b of second portion 178 can contact a second lug (e.g., 130a or 130b) that is circumferentially and longitudinally offset from the first lug. At least one of tab(s) 166 can include one or more one or more protrusions 186 (e.g., hook(s), barb(s), and/or the like) configured to resist decoupling of the tab from lug(s) (e.g., 130a and/or 130b) of male connector 14 and/or female connector 18.

[0065] The above specification and examples provide a complete description of the structure and use of illustrative embodiments. Although certain embodiments have been described above with a certain degree of particularity, or with reference to one or more individual embodiments, those skilled in the art could make numerous alterations to the disclosed embodiments without departing from the scope of this invention. As such, the various illustrative embodiments of the methods and systems are not intended to be limited to the particular forms disclosed. Rather, they include all modifications and alternatives falling within the scope of the claims, and embodiments other than the one shown may include some or all of the features of the depicted embodiment. For example, elements may be omitted or combined as a unitary structure, and/or connections may be substituted. Further, where appropriate, aspects of any of the examples described above may be combined with aspects of any of the other examples described to form further examples having comparable or different properties and/or functions, and addressing the same or different problems. Similarly, it will be understood that the benefits and advantages described above may relate to one embodiment or may relate to several embodiments.

[0066] The claims are not intended to include, and should not be interpreted to include, means-plus- or step-plus-function limitations, unless such a limitation is explicitly recited in a given claim using the phrase(s) "means for" or "step for," respectively.