|Publication number||US2325556 A|
|Publication date||Jul 27, 1943|
|Filing date||Mar 22, 1941|
|Priority date||Mar 22, 1941|
|Publication number||US 2325556 A, US 2325556A, US-A-2325556, US2325556 A, US2325556A|
|Inventors||Hooser Donald B, Taylor Jr Raymond G|
|Original Assignee||Guiberson Corp|
|Export Citation||BiBTeX, EndNote, RefMan|
|Referenced by (78), Classifications (9)|
|External Links: USPTO, USPTO Assignment, Espacenet|
July 27, 1943. R. G, TAYLOR, JR., Erm. 2,325,556 l WELL swA.-4
Filed llar'ch 22, -1941 @VIV/.
l Patented July 27,l 1943 WELL SWAB Raymond G. Taylor, Jr., andDonald Bi Ho'sr,
Dallas, Tex., assignors to The Guiberson Corporation, Dallas, Tex., a corporation of Delaware Application March zz, 1941, serial No. 584,672'
. lieve that we are the rst to embed in the swab cup a continuous expansible spring so as to adequately support the cup when subjected to high pressures and to prevent it owing downwardly between the support and the casing. The spring might be a continuous helix or it might be a continuous spring, each of the convolutions thereof, ,when viewed in a plane extending vertically through the same, would appear to be very much the shape of a paper clip,` and it would not only support the bottomA portion of the cup but would support a major portion. of its height. Another object of the invention is to provide, in addition to the spring, one or more layers of a brous material. Various such materials might be used, one of which might be canvas. Instead of providing layers of the fibrous material, a core of fibrous material might be inserted in the f spring and in that case we would suggest that the core be formed and the spring then wrapped around it forming a helix and the en ds Vof the spring united together so as to make it continuous, the spring with its core then being molded in the exible material which might be rubber or preferably one of the rubber substitutes, such as neoprene, duprene or other material which would not be readily attacked by oil or other well fluid.
Other objects and advantages of the invention will appear in the detailed specification and claims which follow.
The invention may be better understood by referring to the attached drawing in which Fig. 1 is a cross-sectional View of our swab cup assembly, the cup being shown in its unexpanded condition or when it is subjected to very light pressures,
Fig. 2 v:is a cross-sectional view showing the cup in its expanded or loaded condition,
' Fig. 3 is a cross-sectional elevational view showing the position of the cup when it is being lowered in the well and the well uid is passing around the cup, y
Fig. 4 is a vertical cross-sectional view of a. modification,
Fig. 5 is a perspective view of the spring shown in Fig. 4,
Fig. 6 is a vertical cross-sectional view of a (ci. aos-4) Various reinforcing means for the swab portion of a swab cup assembly showing a second modication, and
Fig. 7 is a vertical fragmentary view showing still another modification.
Referring to Figs. 1, 2 and 3, the tubing l is provided with a shoulder 2 and a support' is secured to the tubing, the support being provided with a horizontal shoulder 4 communicating with an outwardly flaring surface 5 communicatingwith a horizontal surface or shoulder 6. The flexible cup 1, which constitutes the swab cup per se, rests on the shoulder 4 and surfaces 5 and 6 and it has a bushing 8 inthe lower portion thereof embracing the tubing. The bushing has external annular ribs 9 and the swab cup l is molded to the bushing, the ribs serving as an additional bondingsurfacebetween the cup and the bushing. A portion of the swab cup-also extends between the upper portion of the bushing and the shoulder 2. The swab cup, above its lower portion, flares outwardly forming a cup portion I9 for well fluid.
Molded in the swab cup is a helical spring I0, it being embedded in the lower portion of the cup immediately above the surface 6. 'I'his helical spring may be made by bending a spring around a ring so that it is circular in cross section and `the ends ofthe spring should be united so the helical spring is continuous. Preferably the swab cup is made of rubber or a rubber-like substance, such as neoprene or duprene. It may be made of various substances but the essential point is that the swab cup must be flexible.
When the swab cup is subjected to little; if
any, pressure of the well fiuid, the parts would be substantially in the position shown in Fig. 1. If now the operator raised the tubing, the swab cup would lift all ofthe well fluid above the swab cup. 'I'he well iluid would radially expand the cup into the `position shown in Fig. 2 and it will be noticed that the spring i0 rests on the shoulder 6 and bridges the space between the upper end of the support 3 and the well casing Il, thereby preventing the swab cup from flowing downwardly through the space between the outer portion of the support and the casing Il. When the tubing is being lowered in the well so that well iiuid'would pass between the cup and the casing the swab cup would be moved into the position shownY in Fig. 3 thereby providing a free channel for the fluid. It will, therefore, be noticed that the swab cup not only allows the well fluid to pass by the cup as the swab cup assembly is being lowered through the iiuid but when the tubing is raised the swab cup makes an eiectiveseal between the tubing and the well casing and the spring prevents the ow of the swab cup downwardly between the support and the casing.
As shown in Fig. 4, a bushing I2 is provided which is of a diilerent configuration than the bushing e. 1t is further provided withan out-V wardly extended flaring flange I3 and the cup I4 is molded to the bushing I2 and flange I3. In this modication instead of using a spiral spring I we suggest the use of a spring I5 which is shown in vertical cross-section in Fig. 4 and a perspective view of which isshown in Fig. 5. In the vertical view shown in Fig. 4 it will be noted that the shape of this spring is very much like that of a paper clip but it will be noted from Fig. 5 it is a continuous spring formed of successive convolutions. The parts would be in the position shown in Fig. 4 when little, if any, pressure irom well fluid was imposed upon the cup. When the cup is subjected to well pressures and is under the condition shown in Fig. 2, the outer end of the spring I5 would lie substantially flush with the inner walls of the casing, being separated therefrom by only a thin portion of' flexible material of the swab cup and the lower portion Vof the spring would effectively support the lower portion of the swab cup so that the ysame could not flow downwardly between the support I6 and the well casing Il.
In the modification shown in Fig. 6 the parts are substantially identical with the construction shown in Figs. 1, 2 and 3 except that we have embedded fibrous layers I1 between the spring I0 and the inner surface of the cup. 'Ihe function of these fibrous layers is to afford an additional support for the cup. In Fig. 6 we have shown two such layers but obviously one or more might be employed. These layers should be made of strong material such as stout canvas, although we do not limit ourselves to the particular material of which the layers are composed. In some cases stout layers of linen or leather might be employed.
The modication shown in Fig. 7 is the same as the construction shown in Fig. 1 with the exception that We have embedded a band of fibrous material I8 within the ring l0. This fibrous material forming the band should likewise be made oi any stout material such as canvas or linen and it serves the function to strengthen the wires so as to prevent material distortion of the wire support or at least to tend to prevent this distortion when the cup is subjected to very heavy pressures. In oil well practice it has been found extremely difcult to prevent the flexible swab cup from flowing downwardly between its support and the well casing and in all the forms of the invention shown in this application means are provided to prevent the swab cup from thus flowing.
We realize that many changes may be made in the specific form shown by way of illustration herein and we desire to claim the same broadly as we may limit ourselves in the appended claims.
Having now described our invention, we claim:
l. A well swab for use on a pipe in a casing including a support on said pipe, a swab cup of resilient material supported by said support, the support being smaller than the inner cross sectional Yarea. of the casing and a circumferentially extending spring embedded in said cup and adapted to bridge the space between the support and pipe to prevent the cup from owing downwardly between the support and casing.
2. A well swab for use on a pipe in a casing including a support on said pipe, a swab cup of resilient material supported by said support, there being a passageway for well fluid between said support and casing and adapted to be closed by the swab cup expanding radially when the pipe is lifted and a continuous circumferentially extending spring embedded in said cup and adapted to bridge the space between the support and pipe to prevent the cup from owing downwardly bex tween thesupport and the casing.
3. A swab cup of resilient material and a continuous circumferentially expansible spring embedded in the outer lower part of said cup.
4. A well swab for use on a pipe in a casing including a support on said pipe, there'being a passageway between the support and casing so that well iiuid can ow by said support when the pipe is being lowered in the well, a swab cup of exible material resting on said support and adapted to be expanded into engagement with the casing by well fluid when the pipe is lifted and a circumferentially expansible spring embedded in the lower portion of the' cup and resting on the support and adapted to prevent the cup from flowing downwardly between-the support and the casing.
5. A swab cup of resilient material and a continuous helical spring embedded in said cup.
6. A swab cup of resilient material, a continuous spring embedded in said cup and a fibrous material embedded in the cup between the spring andthe surface of the cup.
'7. A swab cup of resilient material, a continuous spring embedded in the cup and a layer of brous material embedded in the cup between the spring and the inner surface of the cup.
8. A swab cup of resilient; material having a continuous spring and a fabric embedded in the cup.
9. A swab cup of resilient material, a continuous helical spring embedded in the cup and layers of canvas embedded in the cup between the spring and the inner'surface of the cup.
10. A swab cup of resilient material having a continuous helical spring and a fabric embedded in said cup.
. RAYMOND G. TAYLOR, JR.
DONALD B. HOOSER.
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US2431653 *||Oct 18, 1945||Nov 25, 1947||Volpin Alexander S||Slush pump piston|
|US2544150 *||Sep 19, 1947||Mar 6, 1951||Franklin Paul E||Deformable firearm bore wiper|
|US2573225 *||Dec 16, 1946||Oct 30, 1951||Cecil Seamark Lewis Mervyn||Sealing packing|
|US2609258 *||Feb 6, 1947||Sep 2, 1952||Guiberson Corp||Well fluid holding device|
|US2639773 *||Mar 16, 1949||May 26, 1953||Atlantic Reflning Company||Packing means for wells|
|US2652779 *||Jan 16, 1950||Sep 22, 1953||Dresser Equipment Co||Fluid-operated free pump with packing device|
|US2653334 *||Sep 30, 1947||Sep 29, 1953||Bay Thomas J||Expandable condenser tube cleaner|
|US2664952 *||Mar 15, 1948||Jan 5, 1954||Guiberson Corp||Casing packer cup|
|US2672199 *||Mar 12, 1948||Mar 16, 1954||Mckenna Patrick A||Cement retainer and bridge plug|
|US2711939 *||Mar 14, 1949||Jun 28, 1955||Guiberson Corp||Adjustable well swab|
|US2723721 *||Jul 14, 1952||Nov 15, 1955||Seanay Inc||Packer construction|
|US2743905 *||Dec 18, 1952||May 1, 1956||Exxon Research Engineering Co||Improved sealing valve assembly|
|US2826253 *||Jun 4, 1954||Mar 11, 1958||Swofford Marvin K||Bore wall cleaner|
|US2832617 *||May 13, 1954||Apr 29, 1958||Shaffer Tool Works||Stationary, well head preventer|
|US2957717 *||Mar 11, 1958||Oct 25, 1960||Cie De Pont A Mousson||Sealing members and reinforcements therefor|
|US2992870 *||Aug 13, 1959||Jul 18, 1961||Minnesota Rubber Co||Brake cup with embedded metal insert|
|US3008739 *||Feb 8, 1957||Nov 14, 1961||Railroad Res Corp||Journal box seal|
|US3019537 *||Jan 6, 1959||Feb 6, 1962||American Brake Shoe Co||Keeper for an excavator tooth|
|US3029083 *||Feb 4, 1958||Apr 10, 1962||Shaffer Tool Works||Seal for drilling heads and the like|
|US3094904 *||Jul 11, 1961||Jun 25, 1963||Healy James W||Mud pump pistons|
|US3183010 *||Feb 19, 1962||May 11, 1965||Ct De Rech S De Pont A Mousson||Reinforcement for sealing element and sealing element incorporating said reinforcement|
|US3252707 *||Aug 7, 1963||May 24, 1966||Oteco Equipment Company||Fluid-retaining cup|
|US3278192 *||Oct 8, 1962||Oct 11, 1966||Otis Eng Co||Sealing devices|
|US3279742 *||Aug 13, 1964||Oct 18, 1966||Sloan Valve Co||Flush valves|
|US3330567 *||Apr 21, 1966||Jul 11, 1967||Morgan Construction Co||Internally reinforced neck seal|
|US3445120 *||Aug 20, 1964||May 20, 1969||Barr Vernon L||Wedge sealing gasket and joint|
|US3687018 *||May 22, 1970||Aug 29, 1972||Sullivan Edward F||High compression piston ring and piston assembly|
|US4281590 *||Jan 2, 1979||Aug 4, 1981||Weaver Joe T||Piston construction for reciprocating pumps|
|US4930577 *||May 5, 1989||Jun 5, 1990||Charles Grantom||Well sealing apparatus and method|
|US5033551 *||May 25, 1990||Jul 23, 1991||Grantom Charles A||Well packer and method|
|US5160122 *||Mar 20, 1990||Nov 3, 1992||Peter J. Balsells||Coil spring with an elastomer having a hollow coil cross section|
|US5647444 *||Aug 23, 1996||Jul 15, 1997||Williams; John R.||Rotating blowout preventor|
|US5662181 *||Oct 22, 1996||Sep 2, 1997||Williams; John R.||Rotating blowout preventer|
|US6138774 *||Mar 2, 1998||Oct 31, 2000||Weatherford Holding U.S., Inc.||Method and apparatus for drilling a borehole into a subsea abnormal pore pressure environment|
|US6263982||Mar 2, 1999||Jul 24, 2001||Weatherford Holding U.S., Inc.||Method and system for return of drilling fluid from a sealed marine riser to a floating drilling rig while drilling|
|US6431292||Feb 15, 2001||Aug 13, 2002||Techno Entwicklungs - Und Vertriebs Gmbh||Device for drilling and draining holes in soil or rock|
|US6470975||Mar 1, 2000||Oct 29, 2002||Weatherford/Lamb, Inc.||Internal riser rotating control head|
|US6913092||Jul 23, 2001||Jul 5, 2005||Weatherford/Lamb, Inc.||Method and system for return of drilling fluid from a sealed marine riser to a floating drilling rig while drilling|
|US7159669||Oct 28, 2002||Jan 9, 2007||Weatherford/Lamb, Inc.||Internal riser rotating control head|
|US7237623||Sep 19, 2003||Jul 3, 2007||Weatherford/Lamb, Inc.||Method for pressurized mud cap and reverse circulation drilling from a floating drilling rig using a sealed marine riser|
|US7258171||Nov 21, 2005||Aug 21, 2007||Weatherford/Lamb, Inc.||Internal riser rotating control head|
|US7380592||Oct 8, 2004||Jun 3, 2008||Nicholas Atkins||Pressure control tool for modluating pressure in a portion of a wellbore|
|US7428928||Apr 5, 2004||Sep 30, 2008||Schlumberger Technology Corporation||Sealing spring mechanism for a subterranean well|
|US7448454||Mar 23, 2004||Nov 11, 2008||Weatherford/Lamb, Inc.||Method and system for return of drilling fluid from a sealed marine riser to a floating drilling rig while drilling|
|US7487837||Nov 23, 2004||Feb 10, 2009||Weatherford/Lamb, Inc.||Riser rotating control device|
|US7703512 *||Mar 29, 2006||Apr 27, 2010||Schlumberger Technology Corporation||Packer cup systems for use inside a wellbore|
|US7735568 *||Feb 28, 2007||Jun 15, 2010||Schlumberger Technology Corporation||Packer cup systems for use inside a wellbore|
|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|
|US8636087||Jan 7, 2013||Jan 28, 2014||Weatherford/Lamb, Inc.||Rotating control system and method for providing a differential pressure|
|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|
|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|
|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|
|US20050098313 *||Oct 8, 2004||May 12, 2005||Rubberatkins Limited||Downhole tool|
|US20050217850 *||Apr 5, 2004||Oct 6, 2005||Schlumberger Technology Corporation||Sealing Mechanism for a Subterranean Well|
|US20070227725 *||Mar 29, 2006||Oct 4, 2007||Xu Zheng R||Packer cup systems for use inside a wellbore|
|US20070227746 *||Feb 28, 2007||Oct 4, 2007||Zheng Rong Xu||Packer cup systems for use inside a wellbore|
|US20110168392 *||Mar 15, 2011||Jul 14, 2011||Weatherford/Lamb, Inc.||Remote Operation of an Oilfield Device|
|WO2000011302A1 *||Aug 20, 1999||Mar 2, 2000||Techmo Entwicklungs- Und Vertriebs Gmbh||Device for drilling or draining holes in soil or rock|
|U.S. Classification||92/241, 267/167, 277/335, 166/202, 277/336|
|International Classification||E21B37/10, E21B37/00|