|Publication number||US2962096 A|
|Publication date||Nov 29, 1960|
|Filing date||Oct 22, 1957|
|Priority date||Oct 22, 1957|
|Publication number||US 2962096 A, US 2962096A, US-A-2962096, US2962096 A, US2962096A|
|Inventors||Granville S Knox|
|Original Assignee||Hydril Co|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (6), Referenced by (104), Classifications (16)|
|External Links: USPTO, USPTO Assignment, Espacenet|
Nov. 29, 1960 G, s. KNox WELL HEAD CONNECTOR 3 Sheets-Sheet 1 Filed Oct. 22. 1957 Il 78; r zal,
INVENTOR. MIM; Z
Nov. 29, 1960 G. s. KNox WELL HEAD CONNECTOR 3 Sheets-Sheet 2 Filed Oct. 22. 1957 Arro/FME/ Nov. 29, 1960 G. s. KNOX 2,962,096
w WELL HEAD CONNECTOR Filed Oct. 22, 1957 5 Sheets-Sheet 3 fl/ y E A f0- y! 14a am ff;
Y/PAA/w/ LE XK/Vox INVENTOR.
A rra/ENEL Unit States Patent WELL HEAD CONNECTOR Granville S. Knox, Glendale, Calif., assignor to Hydril Company, Los Angeles, Calif., a corporation of Ohio Filed Oct. V22, 1957, Ser. No. 691,580
20 Claims. (Cl. 166-75) This invention relates generally to specialized oil toolV equipment usable for releasably connecting and sealing a well head assembly to a projecting well head fitting. More particularly, the invention has to do with a novel well head connector which may be connected to a well head assembly, typically including one or more gate valves, blowout preventers and other equipment joined together in end-to-end relation, the connector then comprising part of the assembly and serving to releasably connect and seal the latter to a projecting fitting such as submarine stub casing terminating above the ocean floor, and the like. When locked to the fitting, the connector prevents inadvertent endwise separationv of thefwell head assembly therefrom, suitable packing in the connector serving to seal off between the fitting and connector housing to contain pressure inside the latter and also prevent entrance into the well head assembly of outside fluid.
The invention iinds useful application in olf-shore well drilling and producing operations, where well casing has already been sunk in the submarine hole with vthe free end of the casing projecting above the ocean floor. At such times it is necessary and desirable to fasten blowout prevention equipment, safety valves, and other auxiliary apparatus to the casing head, from a remote location, .e. the ocean surface, prior to further drilling to producing zones, and the problem of connecting and disconnecting such equipment to the casing is greatly simplified through the use of the novel connector to be described.
Accordingly, it is a major object of the invention to provide a novel well head connector comprising an assembly including a connector housing adapted to be fastened to an end of the auxiliary well head equipment described above, the housing having a passage extending axially upwardly therethrough and into which a projecting well head fitting is receivable as the housing is advanced relatively over the end of the fitting. Within the housing are one or more locking or latching elements that are movable relatively toward the passage axis by camming means in response to fluid pressure application thereto until the latches are brought into :locking relation with the received fitting. The latches are blocked against axial dislodgement from the housing, so that when they are in locking relation with the iitting the connector body is blocked against axial separation therefrom. The latches are preferably receivable in a groove sunk in the iitting periphery, interengageable housing and fitting shoulders limiting reception of the itting in the housing passage when the latches are opposite the pre-cut iitting groove.
For sealing off fluid pressure seeking to pass between the housing and fitting, an internally tenacious packing annulus extends about the passage in engagement with the received fitting periphery and the connector assembly. In one form of the invention, the packing annulus freely receives the fitting therethrough prior to pressurization of the annulus, causing it to move inwardlyr into pressure sealing engagement with the tting periphery. Such 2,952,096 Patented Nov. 29, 1960 ICC pressurization is preferably accomplished by the same cam carrying means movable to actuate the latching elements, and in that event the packing then seals offbetween the tting and movable means, as for example a fluidV actuated piston, which carries the cam.
Additional objects of the invention include they provision of inserts restricting lateral play of the latches in openings formed in the connector body, so that the latches remain retained therein, and cutters facing the passage opening at the bottom of the connector for milling off marine deposits on submarine casing as the well head assembly, including the connector body, is rotated and lowered downwardly over the casing. The connector may also be used to receive and attach to fittings such as tool extensions, as will be described, the connection being controllable from a remote location.
Other features and objects of the invention, as well and the details of an illustrative embodiment, will be more fully understood from the following detailed description of the drawings, in which:
s Fig. 1 is an elevation showing a complete well head assembly connected onto well casing projecting al'ove the ocean floor;
Fig. 2 is a vertical section taken through the well head connector with the casing received therein but not yet` connected;
Fig. 3' is a half section taken on line 3-3 of Fig. 2;
Fig. 4 is a vertical section through the well head connector shown in Figs. 2 and 3, and after its connection to the casing; y
Fig. 5 is a section taken on line 5-5 of Fig. 4; and
Fig. 6 is a vertical section taken through a modied type of connector into which a toolmember has been inserted and latched therein.
The connector will irst be described in connection with its application to submarine stub casing, although it will be understood that the use of the connector is not restricted to this particular application. Accordingly, in'Figi. l a drill hole 1l) sunk below the ocean oor 11 contains a string of casing 12 cemented in position for further suitable drilling operations. The drill pipe shown at 13 above the well head assembly or equipment string generally designated at 14 extends downwardly therethrough, and through the casing string and the casing shoe 15, for turning a drill bit 16 in the bottom hole 17.
The well head assembly includes the connector 18 shown fastened onto the casing stub 19, with a master gate vaiveZo, a i 2i, standdoy and blowout preventers 22 and 23, drill pipe packer 24, and guide funnel 25 connected in end-to-end sequence upwardly from the connector 18. Suitable lines generally designated at 26 extend from the equipment included in the well head assembly to the drilling platform or Vessel at the ocean surface, for conducting uid pressure for actuating the equipment. Also, a mudy return line 2'/ extends upwardly from drill pipe packer 24 to conduct drilling fluid, passing downward through drill pipe 13, back to the surface. A second mud line 27 extends from a surface pumpy to the pressure operated valve 2S connected to ythe T 21 for introducing mud to the casing in the event it becomes necessary to kill pressure in the Well after the blowout preventers have been closed.
Y It will be understood that when the well head assembly 14'is'lowered toward the casing stub 19, the well head connector 18 is guided by vertical guide fins 30 mounted on a base plate 31 in turn connected tothe casing stub 19". Thus, the downwardly and inwardly slanted edges 32 of the ns guide the connector 18 over the casing stub so that it may be detachably connected thereto as will be described.
Referring now to Figs. 2 and 3, the well head connector body 18 includes an axially elongated shell 33 having opposite open ends into which body caps 36 and 37 are respectively threaded at 34 and 35 forming charnbers 38 and 39 between the shell 33 and the cap bosses 40 and 41 which project toward one another in the shell, the shell 33 and body caps 36 and 37 together forming a housing. Partly filling a space 42 between the opposite ends of the bosses 40 and 41 is an internally tenacious packing annulus 43 preferably made of rubber, the annulus axial dimension being shorter than the distance between the boss ends so that the annulus is free to float in the space between the boss ends. The annulus extends around a continuation of the cylindrical passage or bore 44 formed by the cap bosses 40 and 41,- and into which passage the upper portion of casing stud 45 is receivable upwardly into the connector body, as shown.
Upward reception of the casing into the passage 44 as the connector 18 is lowered downwardly over the casing is limited by interengagement of annular stop shoulder 46 on the cap 36 with the end 47 of the casing, at which time an annular groove 48 sunk in the periphery of the casing extends opposite the circularly spaced series of latches or locking dogs or elements 49 carried in openings 50 in retaining plate 51 which is secured to the cap boss 41 by means of bolts 52. The latches 49 are movable toward and away from the passage axis 53, so that they may move into and out of the annular groove 48 sunk in the casing, the latches being blocked against vertical displacement from the openings 50 by the unslotted head portion of the retaining plate 51. Also, lateral play of the latches in the openings 50 is limited bv the' bolts 52 extending downwardly through openings 54 in the latches that are wider than the bolt diameters, as shown. Thus, interengagement of bolts 52 wth the latch shoulders at opposite sides of the openings 54 limits inward and outward travel of the latches in the openings 50.
Received in the chambers 38 and 39 is a piston actuator 55, including a lower annular piston 56 in sliding engagement with the inner wall of shell 33 aid the outer wall of cap 41 together forming the chamber 39, and an upper annular guide 57 in slidable engagement with the boss surface 58. The piston and guide are interconnected by suitable fasteners such as screws 59 and they therefore move up and down together in accordance with differential fluid pressure application to the opposltely facing piston surfaces 60 and 61. Suitable O- ring seals 62 and 63 carried by the lower piston 56 and the upper cap boss 40, seal off against pressure communication between the upper and lower chambers 38 and 39 and against pressure communication from these two chambers to the chamber 42 which receives pressure of well fluid escaping from the end of the casing and in between the casing and the upper bore 44. O-ring seal 170 seals off between the interengaged anged ends of guide 57 and piston skirt 168.
ln this connection, it will be understood that well fluid may pass upwardly from the casing through the connector body 18 via reduced passage 160 in the cap 36, abutment flange 161 integral with the cap being connectible with the next above item of well head equipment in the equipment string, such as the master gate 20 shown in Fig. l in abutting relation therewith.
Carried at the lower end of the connector body 18, and preferably by the lower cap 37, is a circularly arranged series of milling cutters 162, which extend downwardly and outwardly along the taper shown, and then radially outwardly at 163. When the connector body is lowered down upon the casing stub 19 and simultaneously rotated, the cutters chew off deposits on the casing' surface such as marine encrustations, including barnacles, scale or rust formed on the casing.
After the connector body 18 is fully lowered downwardly on the casing so that the shoulders 46 and 47 are inter-engaged, fluid pressure application through line 264 and into the upper chamber 38 acts against the piston actuator surface 61 to displace or move the actuator downwardly relative to the connector body, the packing 43 and the latches 49. During such downward travel the annular cam surface 64 formed on the upper guide 57 engages the cam face 164 of the packing in the path of piston downward displacement, and continued downward displacement of the actuator results in laterally inward compression of the packing annulus engaged by the cam into sealing engagement with the casing and also with the bore 65 of the guide 57, as shown in Fig. 4. Well fluid pressure is then contained against escape from the chamber 42 not only by the packing 43 but also by the O-ring 63. Y
In addition, downward travel of the cam 64 results in inward displacement of the latches 49 engaged by the cam, until the latch inner ends are received within the casing groove 48. At this time the latches block endwise separation of the connector 18 from the casing. Also, outward pressure on the latches cannot cause them inadvertently to longitudinally dispace the piston actuator, since the actuator guide blocks the latches against lateral displacement, the latches and actuator guide being in engagement at angles in axial radial planes that are less than the angle of repose.
It is important that the piston actuator 55 be sealed from exposure to, or otherwise rendered non-responsive to, fluid pressure in the central bore of the connector. It is also important that connectors designed for submarine use be so constructed that the areas of the piston atcuator 55, exposed to submergence pressure, be effectively balanced so that this pressure will not tend to cause axial `movement of the actuator. For this purpose, the diameter of boss surface 58 on cap boss 40, and the diameter of boss surface 141 of cap boss 41 are the same, and opposed cam and piston surfaces 64 and 165 have equal axially projected areas. When these measures are taken the connection between the connector 18 and casing stud upper portion 45 will become secure and stable after packing 43 has been radially compressed and latches 49 have been inwardly displaced by full downward movement of the actuator. Therefore, after the actuator has been moved all the way down, there is no further need to maintain fluid pressure in line 264 and chamber 38 and there is no danger of the connector becoming accidentally disconnected from the casing even though lines 264 and 67 should break or be torn loose from the connector body. Also, the high pressure seal established between the compressed packer 43, the outer periphery of casing 45, and the bore 65 of guide 57 not only contains well fluid pressure against escape from chamber 42, but also prevents entrance into chamber 42 of pressurized uid surrounding the exterior of the casing, as for example ocean water. Such exterior pressure exerted against the opposed cam and piston surfaces 64 and 165 does not tend to displace axially the piston actuator, since surfaces 64 and 165 thereof have equal axial projection, as explained above.
When it is desired to disconnect the body 1S from the casing stub, suitable fluid pressure is supplied to lower lines 67 communicating with the lower chamber 39, to upwardly displace the piston actuator 55 so that the bore 65 of the guide 57 no longer holds the annular` packing 43 and the latches 49 in inwardly displaced condition. In other words, as the piston actuator moves upwardly the relatively enlarged bore 68 of the piston skirt 168 moves opposite the latches and the packing annulus, relieving the latter and allowing the former to move outwardly from the casing groove 48. Such outward latch movement is eleoted when the connector body 18 is lifted off the casing stub, the latch bevels 169 camming against the tapered' cam surface 69 of the casing extending annularly and upwardly and outwardly relative` to the bottom of the grou/e 48. At this time, the connector body is free to be withdrawn upwardly off the casing stub.
It will be observed that when the connector 18V is latched to the well casing, it cannot be inadvertently unlatched by means other than application o f uid pressure to chamber 39, since the piston actuator 55 is retained in downward position by gravity and also by frictional engagement `of guide bore 65 Vwith the compressed packing. Therefore, the well head connector is assured of remaining connected to the casing under all operating conditions.
In addition, When the piston actuator is in its up or released position shown in Fig. 2, it cannot be inadvertently downwardly displaced by means other than application of fluid pressure to chamber 38 inasmuch as frictional engagement between the expanded packing 43 yand the piston skirt bore 68 holds the actuator in its up position.
Referring now to Fig. 6 showing an alternate form of connector 70, the latter includes an annular body shell 71 with body caps 72 and 73 connected into the upper and lower open ends of the shell by cap screws 74. Within the gap or opening 75 formed between the Oppou sitely facing open ends of the cap bosses 76 and 77 is a snap ring 73 opposite portions of which are free to be moved inwardly toward the axis 79 of the bores 80 and 81 formed by the caps for endwise reception of a tool extension 181.
The snap ring is movable inwardly to project into a groove 84 sunk in the periphery of the tool extension between bevels 85 and 86, by downward travel of a piston actuator 87, an annular `cam surface 88 of which is engageable with the ring to displace it as described. Such downward travel of the actuator occurs when suitable fluid pressure is supplied from line 89 to the upward facing piston surface 90 in the upper chamber 91 formed by the shell 71 and the upper cap boss 76. A concentric pair vof O-rings 92 and 93 carried by the actuator 87 seal off against the shell bore 94 and the annular outer surface 95 of the boss 76, between which the piston is slidable in its endwise travel.
Fluid pressure applicationfrom line 96 to the downwardly facing piston surface 97 in a lower chamber 98 serves to displace the piston upwardly when itis desired to release the snap ring from its inwardly displaced condition blocking endwise separation of the tool 181 from the connector 70. Once the snap ring is released, it is free to be cammed outwardly by engagement with the tool bevel 86 as the tool is lifted upwardly out of the connector body.
in this embodiment of the invention, downward reception of the tool extension into the bores 80 and 81 is limited by engagement of the tool bevel 100 with the upwardly facing countersunk annular shoulder 101 formed in the bore of the upper cap 72. Also, an internally tenacious packing annulus 102 carried in an annular cavity 103 sunk in the bore 81 of cap 73 engages the periphery 82 of the tool andalso the cavity wall to prevent escape of well fluid pressure between the tool and the bore 81, the pressure of the iiuid itself forcing packing 102 into pressure sealing engagement with these tool and bore surfaces. Finally, a suitable liange 105 integral with the lower cap 73 is adapted to be connected with another item of equipment in the Well head assembly, the connector 70 then being a part of the assembly.
1. The combination, comprising veitically projecting submarine lwell head casing having `a groove sunk in its periphery,- a housing having a' passage extendingfaxially .yertically therein and into which the-casing is upwardly received, locking means retained in the housing. and bodily movable therein toward and away from said pas-V sage, actuating means withinY the housing'and including'a cam movable vertically and relative to said' locking means from an inactive position iny response to` uid pressure application to said actuating means to an active position in which said cam holds said locking means'in said groove in locking relation with the received casing periphery whereby said locking means blocks relative vertical sep'aratio'n of said casing and housing, said `housing containing port means'through which' fluid pressureV is communicable to the actuatingv means, and an annulus of internally tenacious" packing material carried within the housing and sealing" off between the housing and the received casing periphery'ab'out the passage axis.
2. The invention as defined in'claim 1 including a guide for said housing projecting above the upper end level of said casing, and means4 connecting the guide Vto said casing in laterally spaced relation therefrom so that said housing is received 'in' said'space when the housing is advanced downwardly over the end of said casing.
3. The invention as defined in claim 1 including. interengaged casing and housing' shoulders limiting casing reception in said passage, said housing having an abutf ment at its upper end for abutting a well head equipment string and said casing terminating below'the level of said abutment.
4. A well head fitting for combination with a well head connector assembly,v said assembly lcomprising `a housing including a longitudinally and axially extending outer shell and closure members at opposite ends thereof forming a cylindrical passage extending longitudinally through at least one of said members and a longitudinally extending chamber lyingradially outwardly of said passage, lock means retained longitudinally by at least one of said members in the housing and movable laterally into and out of said passage, an actuator within said chamber and movable longitudinally relative 'to said lock means in response to operating pressure application to said actuator, said actuator blocking movement of the lock means laterally outwardly from said passage when the actuator is in one predetermined position and unblocking said lock means for outward lateral movement when the actuator is in another predetermined position, said housing containing port means through which operating pressure is communicable to said actuator and an annulus of internally tenacious packing material carried within said housing about said passage and sealing off between the housing and said fitting when the fitting is locked therein, said well head fitting ,comprising an elongated tubular well casing stub having an elongated end portion of increased radial thickness receivable within said passage, said casing stub end portion having an annular groove sunk inwardly from the stub outer surface in spaced relationY tol the stub terminal end, said groove being sized to receive said locking means when said actuator is moved to said one predetermined position, whereby said casing stub may be locked in holding relation with said Well head connector assembly.
5, A well head connector assembly, comprising a housing having a passage extending longitudinallyl and axially vertically therethrough and into which an axially vertically projecting cylindrical well fitting is receivable, locking means retained within the housing and movable out of the path of reception of said fitting in said pasf sage and openly laterally facing said passage, saidloc'king means being bodily movable laterally toward said passage, actuating means including a cam, said actuating means being movable in the housing invresponse to uid pressure application thereto to move said locking means laterally into locking relation with the receivedfitting periphery whereby said locking means blocks relative vertical separation of said fitting `and housing, said housing containing'port means through which iiuid pressure is communicable tovs'aid `actuatingmeans 'andian spaanse 7 annulus of internally tenacious packing material carried within said housing and extending about said passage in exposed,relation1thereto for sealing off between said housing and the fitting periphery, said housing having an abutment at one end thereof for abutting a well head equipment string and having a shoulder for seating the fitting to terminate in said passage in spaced relation to said abutment, said locking means comprising a plurality of locking elements circularly spaced about the passage axis and movable in a horizontal plane inwardly toward the passage axis by said cam, said cam being vertically movable to engage the outer sides of said lock-` ing elements, and inserts carried in said housing and loosely received between locking element shoulders engageable with said inserts to limit element play toward and away from said passage axis.
6. A well head connector assembly, comprising a housing having a passage extending longitudinally and axially vertically therethrough and into which an axially vertically projecting cylindrical well fitting is receivable, locking means retained within the housing and movable out of the path of reception of said fitting in said passage and openly laterally facing said passage, said locking means being bodily movable laterally toward said passage, actuating means including a cam, said actuating means being movable in the housing in response to tiuid pressure application thereto to move said locking means laterally into locking relation with the received fitting periphery whereby said locking means blocks relative vertical separation of said fitting and housing, said housing containing port means through which fluid pressure is communicable to said actuating means and an annulus of internally tenacious packing material carried within said housing and extending about said passage in exposed relation thereto for sealing off between said housing and the fitting periphery, said housing having an abutment at one end thereof for abutting a well head equipment string and having a shoulder for seating the fitting to terminate in said passage in spaced relation to said abutment, said locking means comprising a snap ring.
7. A well head connector assembly, comprising a housing having a passage extending longitudinally and axially verticallyI therethrough and into which an axially vertically projecting cylindrical well fitting is receivable, locking means retained within the housing and movable out of the path of reception of said fitting in said passage and openly laterally facing said passage, said locking means being bodily movable laterally toward said passage, actuating means including a cam, said actuating means being movable in the housing in response to fluid pressure application thereto to move said locking means laterally into locking relation with the received fitting periphery whereby said locking means blocks relative vertical separation of said fitting and housing, said housing containing port means through which fluid pressure is communicable to said actuating means and an annulus of internally tenacious packing material carried within said housing and extending about said passage in exposed relation thereto for sealing off between said housing and the fitting periphery, said housing having an abutment at one end thereof for abutting a well head equipment string and having a shoulder for seating the fitting to terminate in said passage in spaced relation to said abutment, and cutters facing the passage axis at the end of said housing opposite said one end for cutting off deposits on the fitting as said housing is rotated and advanced over the fitting.
8. A well head connector assembly having a longitudinally extending central passage into which a cylindrical well fitting' is receivable, comprising a longitudinally extending outer shell having cylindrical bore portions, closure means secured to each end of the shell and including longitudinally spaced cylindrical bosses offset radially inwardly ,fromrsaid bore portions, said closure pressure application to said actuator to bring said cam shoulder into engagement with said lock means to move the lock means laterally inwardly into a locking position engaging and holding the received fitting against relative separation from the housing, the plane of contact between the actuator and lock means in said locking position being substantially perpendicular to said lateral plane of movement of the lock means whereby pressure transmitted by the lock means to the actuator cannot inadvertently shift the actuator longitudinally to free the lock means, said housing containing port means through which fluid pressure is communicable to said actuator and internally tenacious packing material carried within said housing and extending about said passage in exposed relation thereto for sealing off between said housing and the fitting periphery.
9. A well head assembly, comprising a housing for retaining a cylindrical well fitting, said housing including a longitudinally and axiafly extending tubular outer shell and closure members at opposite ends thereof forming with the shell a cylindrical passage extending longitu;
dinally through at least one of said members and a chamber about said passage, a cylindrical well fitting receivable within said passage and having on its outer periphery an annular lock shoulder, lock means retained longitudinally by at least one of said members in the housing and movable laterally into and out of the path traversed by said lock shoulder when said fitting is moved longitudinally within said passage, an actuator within said chamber and movable longitudinally relative to said lock means in response to longitudinally acting pressure application to said actuator means first to engage and move said locking means laterally into locking relation with the fitting periphery and then to block and retain positively said locking means against lateral movement out of said locking relation, said housing containing port means through which fiud pressure is communicable to said actuator, and an annulus of internally tenacious packing material carried within said housing about said passage and sealing off between the housing and said fitting when the fitting is locked therein, said locking means being movable by said actuator independently of the exposed extent of said annulus said actuator including a blocking portion engaging said lock means in locking position at an angle in an axial radial plane that is less than the angle of repose in said plane, whereby said actuator is longitudinally immovable by said lock means.
10. A well head connector assembly, comprising a tubular housing having a longitudinally extending axis and connectible in telescopic relation with a longitudinally projecting well fitting, lock means in the housing movable toward and away from said axis and into and out of engaging relation with said fitting, actuating means in the housing having a lock camming surface and a blocking surface engageable with said lock means in the housing, means for transmitting force to displace the actuating means relative to the lock means to shift the camming and blocking surfaces in sequence into engagement with the lock means to move the lock means into engagement with said fitting and for blocking the lock means against movement out of locking relation with said fitting, and an internally tenacious packing annulus for sealing off between the housing and the fitting and having an annular exposed portion facing toward and sealingly engageable with the fitting when the housing and fitting are connected in telescopic relation, at least the major extent of said packing annulus being supported in the housing free o! attachment to the lock means so that said movement of the lock means is achieved positively and independently of sealing engagement of the annulus with said fitting.
11. A well head connector assembly, comprising a tubular housing having a longitudinally extending axis connectible in telescopic relation with a longitudinally projecting well fitting, lock means in the housing movable toward and away from said axis and into and out of engaging relation with said fitting, actuating means in the housing having a lock camming shoulder and a blocking shoulder engageable with said lock means in the housing, means for transmitting force to displace the actuating means relative to the lock means to shift the camming and blocking shoulders in sequence into engagement with the lock means to move the lock means into engagement with said fitting and for blocking the lock means against movement out of locking relation with said fitting, said blocking shoulder having a blocking position in which the blocking shoulder extends in such confining relation to said lock means as to prevent unblocking movement of the actuator in response to force transmission between the lock means and said blocking shoulder, and an internally tenacious packing annulus for sealing off between the housing and fitting and having an annular exposed portion facing toward and sealingly engageable with the fitting when the housing and fitting are connected in telescopic relation, at least the major extent of said packing annulus being supported in the housing in longitudinally spaced relation to said lock means and free of attachment thereto so that said movement of the lock means is achieved positively and independently of sealing engagement of the annulus with the fitting, the annulus being engageable with the fitting independently of cooperation with the lock means and the actuat'mg means being movable relative to the annulus.
l2. 'The invention as defined in claim 11 in which said locking means comprises a plurality of circularly spaced rigid locking elements movable laterally toward said fitting by said camming shoulder.
13. The invention as defined in claim 12 in which said actuating means is movable longitudinally to carry said camming shoulder into engagement with surface portions of said locking elements facing away from the path of reception of the fitting.
14. The invention as defined in claim l1 in which the actuating means includes an annular piston axially reciprocable in the housing in response to alternate application of actuating fiuid pressure to oppositely facing piston surfaces.
15. The invention as defined in claim 14 in which surfaces of the actuating means subject to exposure to pressure fluid other than said actuating fiuid have substantially equal axially oppositely projected areal extents.
16. The invention as defined in claim 11 in which an annular portion of said packing annulus has lateral extent in the path of movement of an annular portion of said actuating means and is laterally displaceable thereby to force an annular section of said packing annulus into pressure sealing engagement with the periphery of said fitting.
17. The invention as defined in claim 16 in which said packing annulus and locking means are vertically separated and have laterally exposed surfaces facing toward the path of reception of the fitting.
18. The invention as defined in claim l0 including an abutment on said housing engageable with the fitting to limit mutual telescopic reception of the housing and fitting.
19. The invention as defined in claim 18 in which abutment engagement with the fitting positions the fitting in predetermined relation to the lock means for engagement thereby.
20. The invention as defined in claim l0 in which said lock blocking shoulder is engageable with the lock means at an angle in an axial radial plane that is less than the angle of repose in said plane, whereby said actuating means is longitudinally immovable by said lock means.
References Cited in the file of this patent UNITED STATES PATENTS 2,233,041 Alley Feb. 25, 1941 2,609,836 Knox Sept. 9, 1952 2,731,281 Knox Jan. 17, 1956 2,808,229 Bauer et al. Oct. 1, 1957 2,808,230 McNeill et al. Oct. 1, 1957 2,846,178 Minor Aug. 5, 1958
|Cited Patent||Filing date||Publication date||Applicant||Title|
|US2233041 *||Sep 14, 1939||Feb 25, 1941||Arthur J Penick||Blowout preventer|
|US2609836 *||Aug 16, 1946||Sep 9, 1952||Hydril Corp||Control head and blow-out preventer|
|US2731281 *||Aug 19, 1950||Jan 17, 1956||Hydril Corp||Kelly packer and blowout preventer|
|US2808229 *||Nov 12, 1954||Oct 1, 1957||Continental Oil Co||Off-shore drilling|
|US2808230 *||Jan 17, 1955||Oct 1, 1957||Continental Oil Co||Off-shore drilling|
|US2846178 *||Jan 24, 1955||Aug 5, 1958||Regan Forge & Eng Co||Conical-type blowout preventer|
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US3064735 *||Aug 17, 1959||Nov 20, 1962||Shell Oil Co||Wellhead assembly lock-down apparatus|
|US3081113 *||Aug 10, 1960||Mar 12, 1963||Shell Oil Co||Well casing hanger with releasable slip means|
|US3098525 *||Apr 27, 1961||Jul 23, 1963||Shell Oil Co||Apparatus for installing and retrieving equipment from underwater wells|
|US3112795 *||Nov 14, 1960||Dec 3, 1963||Baker Oil Tools Inc||Retrievable subsurface well tool|
|US3115933 *||Aug 10, 1960||Dec 31, 1963||Shell Oil Co||Apparatus for installing and retrieving equipment from underwater wells|
|US3142337 *||Oct 24, 1960||Jul 28, 1964||Shell Oil Co||Hydraulic system for underwater wellheads|
|US3147992 *||Apr 27, 1961||Sep 8, 1964||Shell Oil Co||Wellhead connector|
|US3186486 *||Feb 24, 1959||Jun 1, 1965||Mcevoy Company||Well completion|
|US3189097 *||Apr 27, 1961||Jun 15, 1965||Shell Oil Co||Underwater dual tubing well completion|
|US3189099 *||Jun 27, 1962||Jun 15, 1965||Shell Oil Co||Wellhead closure|
|US3204991 *||Nov 7, 1963||Sep 7, 1965||Hauk Ernest D||Quick-connect joint or coupling|
|US3205948 *||Apr 5, 1962||Sep 14, 1965||Baker Oil Tools Inc||Well bore casing releasing apparatus|
|US3209829 *||May 8, 1961||Oct 5, 1965||Shell Oil Co||Wellhead assembly for under-water wells|
|US3222088 *||Oct 30, 1961||Dec 7, 1965||Shell Oil Co||Wellhead connector with diagonally directed latches|
|US3222089 *||Nov 9, 1962||Dec 7, 1965||Shell Oil Co||Secondary release mechanism for fluid actuated couplings|
|US3228715 *||Mar 11, 1963||Jan 11, 1966||Armco Steel Corp||Wellhead constructions|
|US3231297 *||Jul 31, 1961||Jan 25, 1966||Gray Tool Co||Expansible pipe joint clamp|
|US3232346 *||Sep 25, 1962||Feb 1, 1966||Richfield Oil Corp||Production apparatus and method|
|US3236302 *||Nov 5, 1962||Feb 22, 1966||Chevron Res||Apparatus for attaching and detaching a working base to an underwater well base|
|US3241864 *||Oct 29, 1962||Mar 22, 1966||Shaffer Tool Works||Automatic connector|
|US3242991 *||Aug 7, 1962||Mar 29, 1966||Shell Oil Co||Underwater wellhead with re-entry lubricator|
|US3252718 *||Feb 5, 1963||May 24, 1966||Fmc Corp||Hanger bushing|
|US3259191 *||May 5, 1958||Jul 5, 1966||Mcclintcck Ross A||Subsea blowout prevention and landing apparatus|
|US3271003 *||Oct 28, 1963||Sep 6, 1966||Bbc Brown Boveri & Cie||Blast valve structure for an electrical circuit breaker|
|US3284105 *||Aug 12, 1963||Nov 8, 1966||Baker Oil Tools Inc||Remotely controlled connections|
|US3321217 *||Aug 2, 1965||May 23, 1967||Ventura Tool Company||Coupling apparatus for well heads and the like|
|US3325190 *||Jul 15, 1963||Jun 13, 1967||Fmc Corp||Well apparatus|
|US3332484 *||Nov 29, 1963||Jul 25, 1967||Regan Forge & Eng Co||Subsea well control tube methods and apparatus|
|US3333870 *||Dec 30, 1965||Aug 1, 1967||Regan Forge & Eng Co||Marine conductor coupling with double seal construction|
|US3334923 *||Jul 9, 1963||Aug 8, 1967||Fmc Corp||Pipe handling mechanism|
|US3334924 *||Jul 9, 1963||Aug 8, 1967||Fmc Corp||Pipe hanging apparatus|
|US3347567 *||Nov 29, 1963||Oct 17, 1967||Regan Forge & Eng Co||Double tapered guidance apparatus|
|US3354951 *||Feb 24, 1964||Nov 28, 1967||Offshore Co||Marine drilling apparatus|
|US3427048 *||Jan 3, 1966||Feb 11, 1969||Brown Oil Tools||Powered coupling device|
|US3445126 *||May 19, 1966||May 20, 1969||Regan Forge & Eng Co||Marine conductor coupling|
|US3452815 *||Jul 31, 1967||Jul 1, 1969||Regan Forge & Eng Co||Latching mechanism|
|US3485051 *||May 22, 1967||Dec 23, 1969||Regan Forge & Eng Co||Double tapered guidance method|
|US3510153 *||Oct 14, 1968||May 5, 1970||Shaffer Tool Works||Universal connecting joint|
|US3592489 *||Mar 17, 1969||Jul 13, 1971||Vetco Offshore Ind Inc||Housings with contractable well casing hanger seats|
|US3695633 *||Mar 19, 1970||Oct 3, 1972||Vetco Offshore Ind Inc||Remotely controlled hydraulically operated connectible and disconnectible flexible joint|
|US3847413 *||Oct 23, 1973||Nov 12, 1974||Dow Chemical Co||Quick release coupling|
|US3874706 *||Sep 28, 1972||Apr 1, 1975||Hydrotech Int Inc||Fluid actuated pipe connection|
|US3945213 *||May 8, 1974||Mar 23, 1976||Subsea Equipment Associates Ltd.||Subsea wellhead shielding and shock mitigating system|
|US4040649 *||Oct 31, 1975||Aug 9, 1977||Dresser Industries, Inc.||Oil well tool with packing means|
|US4185856 *||Jul 24, 1978||Jan 29, 1980||Mcevoy Oilfield Equipment Company||Pipe joint with remotely operable latch|
|US4226447 *||Jan 9, 1976||Oct 7, 1980||Brown Oil Tools, Inc.||Swivel apparatus|
|US4438822 *||Sep 28, 1981||Mar 27, 1984||Russell Larry R||Clamp-on drill collar stabilizers|
|US4451056 *||Jul 18, 1980||May 29, 1984||Armco Inc.||Remotely operated underwater tension connector|
|US4593937 *||Sep 14, 1984||Jun 10, 1986||Societe Nationale Elf Aquitaine||Device for connecting and disconnecting a tubular pipe movable inside a fixed tubular pipe|
|US4627492 *||Sep 25, 1985||Dec 9, 1986||Halliburton Company||Well tool having latching mechanism and method of utilizing the same|
|US4647254 *||Apr 18, 1985||Mar 3, 1987||Mobil Oil Corporation||Marine riser structural core connector|
|US4735439 *||Oct 15, 1986||Apr 5, 1988||Skarpenord Control Systems A.S.||Device for coupling and simultaneously locking of two components both radially and axially|
|US4869300 *||Sep 14, 1987||Sep 26, 1989||Rapidfil, Inc.||Multifunction fluid charging device|
|US5205356 *||Oct 7, 1991||Apr 27, 1993||Abb Vetco Gray Inc.||Well starter head|
|US5433274 *||Jul 30, 1993||Jul 18, 1995||Sonsub, Inc.||Hydraulic connector|
|US5535827 *||Jul 17, 1995||Jul 16, 1996||Sonsub, Inc.||Hydraulic connector|
|US6471254||Feb 19, 2001||Oct 29, 2002||Larry R. Russell||Method and apparatus for gripping objects|
|US6609572 *||Feb 1, 2002||Aug 26, 2003||Smedvig Offshore As||Riser connector|
|US6921111 *||Jun 10, 2003||Jul 26, 2005||Silvatech Global Systems Inc.||Remotely actuated quick-release coupling|
|US7487837 *||Nov 23, 2004||Feb 10, 2009||Weatherford/Lamb, Inc.||Riser rotating control device|
|US7591484 *||Jan 27, 2006||Sep 22, 2009||Cincinnati Test Systems, Inc.||Quick-connect fitting|
|US7836946||Mar 2, 2006||Nov 23, 2010||Weatherford/Lamb, Inc.||Rotating control head radial seal protection and leak detection systems|
|US7926593||Mar 31, 2008||Apr 19, 2011||Weatherford/Lamb, Inc.||Rotating control device docking station|
|US7934545||Oct 22, 2010||May 3, 2011||Weatherford/Lamb, Inc.||Rotating control head leak detection systems|
|US7997345||Oct 19, 2007||Aug 16, 2011||Weatherford/Lamb, Inc.||Universal marine diverter converter|
|US8113291||Mar 25, 2011||Feb 14, 2012||Weatherford/Lamb, Inc.||Leak detection method for a rotating control head bearing assembly and its latch assembly using a comparator|
|US8286734||Oct 23, 2007||Oct 16, 2012||Weatherford/Lamb, Inc.||Low profile rotating control device|
|US8322432||Dec 21, 2009||Dec 4, 2012||Weatherford/Lamb, Inc.||Subsea internal riser rotating control device system and method|
|US8347982||Apr 16, 2010||Jan 8, 2013||Weatherford/Lamb, Inc.||System and method for managing heave pressure from a floating rig|
|US8347983||Jul 31, 2009||Jan 8, 2013||Weatherford/Lamb, Inc.||Drilling with a high pressure rotating control device|
|US8353337||Feb 8, 2012||Jan 15, 2013||Weatherford/Lamb, Inc.||Method for cooling a rotating control head|
|US8408297||Mar 15, 2011||Apr 2, 2013||Weatherford/Lamb, Inc.||Remote operation of an oilfield device|
|US8490706||Aug 24, 2010||Jul 23, 2013||Stream-Flo Industries Ltd.||Casing head connector|
|US8499838||Dec 21, 2010||Aug 6, 2013||Bp Corporation North America Inc.||Subsea locking connector|
|US8511387 *||Dec 21, 2010||Aug 20, 2013||Bp Corporation North America Inc.||Made-up flange locking cap|
|US8636087||Jan 7, 2013||Jan 28, 2014||Weatherford/Lamb, Inc.||Rotating control system and method for providing a differential pressure|
|US8641113 *||Sep 21, 2009||Feb 4, 2014||Larry Rayner Russell||Gripping device for tubular objects|
|US8701796||Mar 15, 2013||Apr 22, 2014||Weatherford/Lamb, Inc.||System for drilling a borehole|
|US8714240||Jan 14, 2013||May 6, 2014||Weatherford/Lamb, Inc.||Method for cooling a rotating control device|
|US8770297||Aug 29, 2012||Jul 8, 2014||Weatherford/Lamb, Inc.||Subsea internal riser rotating control head seal assembly|
|US8826988||Feb 6, 2009||Sep 9, 2014||Weatherford/Lamb, Inc.||Latch position indicator system and method|
|US8844652||Sep 29, 2010||Sep 30, 2014||Weatherford/Lamb, Inc.||Interlocking low profile rotating control device|
|US8863858||Jan 7, 2013||Oct 21, 2014||Weatherford/Lamb, Inc.||System and method for managing heave pressure from a floating rig|
|US8870234 *||Jan 13, 2010||Oct 28, 2014||Single Buoy Moorings Inc.||Retractable hydrocarbon connector|
|US8939235||Feb 24, 2014||Jan 27, 2015||Weatherford/Lamb, Inc.||Rotating control device docking station|
|US9004181||Sep 15, 2012||Apr 14, 2015||Weatherford/Lamb, Inc.||Low profile rotating control device|
|US9175542||Jun 28, 2010||Nov 3, 2015||Weatherford/Lamb, Inc.||Lubricating seal for use with a tubular|
|US9222324||Nov 15, 2013||Dec 29, 2015||Larry Rayner Russell||Stretchable elastomeric tubular gripping device|
|US9260927||Oct 17, 2014||Feb 16, 2016||Weatherford Technology Holdings, Llc||System and method for managing heave pressure from a floating rig|
|US9334711||Jan 24, 2014||May 10, 2016||Weatherford Technology Holdings, Llc||System and method for cooling a rotating control device|
|US9359853||Sep 15, 2011||Jun 7, 2016||Weatherford Technology Holdings, Llc||Acoustically controlled subsea latching and sealing system and method for an oilfield device|
|US9404346||Sep 4, 2014||Aug 2, 2016||Weatherford Technology Holdings, Llc||Latch position indicator system and method|
|US20040251684 *||Jun 10, 2003||Dec 16, 2004||Gerald Dyck||Remotely actuated quick-release coupling|
|US20070176414 *||Jan 27, 2006||Aug 2, 2007||Cincinnati Test Systems, Inc.||Quick-connect fitting|
|US20110042065 *||Aug 24, 2010||Feb 24, 2011||Stream-Flo Industries Ltd.||Casing head connector|
|US20110168392 *||Mar 15, 2011||Jul 14, 2011||Weatherford/Lamb, Inc.||Remote Operation of an Oilfield Device|
|US20110266793 *||Jan 13, 2010||Nov 3, 2011||Single Buoy Moorings Inc.||Retractable hydrocarbon connector|
|US20120006557 *||Dec 21, 2010||Jan 12, 2012||Fraser Thomas A||Made-up flange locking cap|
|USRE34715 *||Feb 21, 1990||Sep 6, 1994||Lucas Hartridge, Inc.||Multifunction fluid charging device|
|DE1248583B *||Feb 4, 1966||Aug 31, 1967||Fritz Huntsinger||Selbsttaetig sich einfuehrende und zentrierende Rohrverbindung fuer Tiefbohrzwecke|
|DE1299584B *||Mar 22, 1967||Jul 24, 1969||Gray Tool Co||Verriegelungseinrichtung fuer Haengevorrichtungen in Bohrlochkoepfen|
|DE1458623B1 *||Jan 30, 1965||Dec 11, 1969||Gray Tool Co||Hängevorrichtung für die Komplettierung von Küstenvorlandsbohrungen|
|DE1533593B1 *||Feb 17, 1967||Mar 12, 1970||Gray Tool Co||Haengevorrichtung,insbesondere fuer Unterwasserbohrloecher|
|WO2011022814A1 *||Aug 24, 2010||Mar 3, 2011||Stream-Flo Industries Ltd.||Casing head connector|
|U.S. Classification||285/27, 285/315, 285/920, 285/102, 166/338, 285/83, 166/368, 285/906, 166/341, 285/18, 285/96|
|Cooperative Classification||Y10S285/92, Y10S285/906, E21B33/038|