|Publication number||US3077358 A|
|Publication date||Feb 12, 1963|
|Filing date||Aug 26, 1959|
|Priority date||Sep 18, 1958|
|Publication number||US 3077358 A, US 3077358A, US-A-3077358, US3077358 A, US3077358A|
|Original Assignee||Modiano Dr Ing|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (13), Referenced by (32), Classifications (19)|
|External Links: USPTO, USPTO Assignment, Espacenet|
Feb. 12, 1963 l. cos'rA WELL-DRILLING PIPE 5 Sheets-Sheet 1 Filed Aug. 26, 1959 INVENTOR.
Italo COSTA swf ai. up
AGENT Feb. 12, 1963 l. cosTA WELL-MILLING PIPE 3 Sheets-Sheet 2 Filed Aug. 26, 1959 N xl .Aufl/ll. t
Italo COSTA INVENT OR.
f-Karl AGENT Feb. 12, 1963 l. cos-rA WELL-DRILLING PIPE 5 Sheets-Sheet 3 Filed Aug. 26, 1959 INVENTOR.
' Italo COSTA AGENT United States Patent Ohce Elti Fatented Feb. l2, 1953 3,077,358 WELL-BRILLlNG PPE Italo Costa, Fidenza, italy Dr. Ing. Mediano, Via Meravigli i6, Milan, itaiy) Filed Aug. 26, 1959, Ser. No. @edili Claims priority, application italy Sept. 18, i953 Claims. (Cl. S5-133) This invention relates to a pipe string for an aeratedmud drilling apparatus composed of generally elongated tubular members which are axially interconnected and constitute means for conducting compressed air neces- Sary to lift detritus during the drilling operation.
The rotary drilling method is well known. In it the boring rods serve not only to transmit rotary movement to the bit but also to provide a passage for the descending liquid (drilling sludge) which is urged, by an appropriate pump, through the tubularl boring rods towards the drilling bit to wash and clean the bit and, during the ascent of the sludge towards the ground level, to entrain therewith the detritus of the drilling operation through the annular clearance between the rods and the driiled well. This is possible by reason of the low ascent rate and the high viscosity, density and specic weight of the pumped liquid, all of which are factors contributing to hold the detritus in suspension. Such detritus should therefore be composed only lof very small fragments, hence considerable fragmentation work must be done by the boring tool which iu turn slows the progress of the drilling operation.
Moreover, since in a rotary drilling system the liquid circulates in a closed path, and owing to the viscosity and density characteristics of the liquid, it is never possible to carry out a completely satisfactory decantation so that the circulating liquid is always dirty with sludge and has a limited lifting capacity which results in considerable wear of the working members of the pump.
To eliminate these drawbacks at least partially, pipe sections with a reverse circulation of the liquid have been proposed in which compressed air is used as an auxiliary means for lifting the detritus, or use is made of suction pumps. Such tubular devices do not allow either a simple and etiicient handling of the drilling apparatus or the rapid establishment of an air-tight connection of the pipe sections to one another' and to the auxiliary means for circulating the compressed air.
An object of the invention is to provide .a drilling rod or string of the kind described in which the handling of the drilling apparatus is as simple and efficient as that of the boring rods of conventional rotary systems, thus eliminating useless time losses during the axial interconnection of the constituent pipe sections and insuring a perfect seal for the compressed air which has to circulate within those sections. Another object of the invention is to provide .a reverse-circulation drilling string having a constant inner cross-sectional area throughout its length in order to improve and facilitate the flow of the detritus therethrough, especially in cases where the detritus consists of particles the size of pebble gravel.
A further object of the invention is to provide such a device in which the pipe sections may be easily coupled not only to one another but also to an emulsitler end member, thus making it possible to bring the compressed air up to a desired depth so as to regulate at will the column height of the emulsifiahle liquid and thereby to control the speed of the liquid within the rods as well as the flow rate thereof.
These and other objects of the invention are attained by a well-drilling pipe according to the invention which comprises a plurality of pipe sections, in the form of abuttingly interconnected inner tubular member, provided with channel-forming conduit means consisting of one or more external tubes for conducting a pressure fluid independently of the central bores of these members. Each inner tubular member of the device terminates at one end in a connector having an external male thread and at the other end in a connector having an internal female thread complementary to said male thread. One of the connectors, more specically the female one, extends beyond its pipe section and has a recessed wall at the level of the joint between abutting pipe ends so as to define clearances bridging these ends and communicating with the aforementioned conduit means for establishing a continuous ow path for the fiuid under pressure, this tlow path being tightly sealed against the atmosphere and also against the central bores of the pipe sections.
The invention will now be more fully described with reference to some illustrative embodiments thereof represented in the accompanying drawing in which:
FG. l is a diagrammatic view of an entire rotary drilling plant with reversed flow, the major part thereof being shown in section;
FlG. 2 shows, partially in axial section, a drill-pipe section according to a iirst embodiment of the invention;
FIG. 3 is a cross-sectional view taken along line III- IH of FIG. 2;
FIG. 4 shows, in a cross-sectional view drawn to an enlarged scaie, two interconnecting pipe sections of the type shown in FIGS. 2 and 3;
FIG. 5 is a View similar to FIG. 2, showing a second embodiment of the invention;
FIG. 6 is a cross-sectional view taken along line VI- Vl of FiG. 5 and FIG. 7 shows an enlarged axial section of the interconnected end portions of two coupled pipe sections of the type illustrated in FIGS. 5 and 6.
As shown in FIG. 1, the novel reverse-dow drilling plant accordinr to this invention comprises an air compressor i which, through a hose 2, drives pressurized air into an axially extending passage 4 in a rotatable head indicated generally at 3. More particularly, the head comprises a tubular body 5 of the usual type which is rotatably supported by means of its collar 6 within bearings and 8, the axial passage L! being located within the tubular body 5 below collar 6. The bearings 7 and d are in turn supported on an external unit composed of two sleeves 9 and ttl which are bolted together at if, and of which the upper sleeve 9 is in turn fixed by means of bolts 12 on the flange 13; the latter constitutes the end portion of a discharge duct i4 and carries a plate l5 having a bore i6 for connecting it with a suspension hook. The duct 14 terminates with its free end 14a in the proximity of decantation tanks i7, 17a into which the drilling mud is discharged; this mud overflows into the well 13 and coats its walls until it reaches the zone of the drilling tool at the bottom of the well. Gaskets i9 and Ztl are inserted at the junctions between the ange 13, the upper part of the sleeve tu and the upper part of the tubular body 5. The inlet hose 2 is connected to the boss 21 which communicates with a passage 4 through an orice 22 provided within the lower sleeve it?. The connection represents a hermetic seal by virtue of stuffing-box packings 23 and 24 held clamped by a ring nut 25 which matingly engages the lower internal screw threads provided on the sleeve lil, while another ring nut 26 clamps a further packing 27 against the tubular body 5 and against the ring nut 25. The air, which thus enters in a hermetical manner the passage 4, reaches an annular recess 4a, provided in a connecting sleeve 28 which will be described hereinafter, and then passes through suitable axial channels within a square rod 29 of a type known per se (eg. from U.S.
envases Patent No. 2,849,213) and commonly referred to as Kelly rod. The square rod 2? is driven by a turntable 3d and by the engagement between a driven pinion 33a and the bevel-rim gear wheel 3611. The rod 29 is connected by means of sleeve joints with the system of tubular pipe sections which are better illustrated in FiGS. 2, 3 and 4.
As shown in these figures, each pipe section comprises a tubular member 3i and a surrounding sleeve 3i@ forming therewith .an axially extending annular channel 35. The top end of the sleeve 3io carries screw threads 34 engaging a male connector 32 which is provided at its upper part with male screw threads 33 of the rapidpitch type, the connector 32 forming an extension 135 of channel 35 terminating in radial apertures 36. The connector 32 is integral with the internal tubular member 31. At its lower end the sleeve 31a terminates in screw threads' 34a engaged by a female connector 32a which is independent of the tubular member 31 and is internally provided with female screw threads 33a of the rapidpitch type complementary to the male screw threads 33. The sleeve 31a is further provided, at its lower end, with apertures 36a which open into the annular clearance 36h between .a recessed wall portion of connector 32a and the lower end 39a of the member 3l, this lower end constituting an annular seat for a packing 3S.
As best seen in FIG. 4, the coupling of two pipe sections of the type illustrated in FIG. 1 is accomplished in that the male screw threads 33 are screwed onto the female screw threads 33a of a preceding element, the packing 38 providing a perfectly tight internal seal for the central bore of the tubular member 3i, at the zone where the end 39a contacts the end 39 of the preceding member 31, while a tight closure towards the outside is obtained by means of a metallic contact between terminal end 37a of the sleeve 32a and shoulder 37 formed by the sleeve 32.
The novel pipe sections not only allow a rapid end-toend coupling of their tubular members with each other, but further provide a hermetic connection without discontinuity between the walls of the central bores of adjoining members 31. Moreover, a similar hermetic connection exists between the annular channels 35 of these members.
Advantageously, a drilling-pipe system of the abovedescribed type is associated with a terminal emulsifrer which may be readily and efficiently coupled to the downstream end, as seen in the direction of compressed air flow, of any of the members 3l. This emulsilier comprises a tubular member 41 having an internal diameter corresponding to that of the tubular member 3l to which it may be selectively coupled, with the aid of a male connector d2 generally similar to the aforedescribed connector 32, for use at any desired depth within the well 18. At its lower end the connector 42 is formed with external screw threads 44 engaged by a sleeve dla which has a shoulder 41!) forming together with the end of the thread 44 an axially extending groove to receive an annular flange 48a of a special packing 48; this packing has an axial section in the form of an inverted V whose inner arm tends to diverge from the outer arm constituting the flange 43a so as permanently to contact a ferrule 41b which is externally slipped on the pipel 41. The packing 48 is disposed, with the vertex of the V facing in the upstream direction, in an annular channel 45 formed by the connector 4Z which spacedly :and concentrically surrounds the member di; channel d terminates at the top in radial apertures in and merges at the bottom with a channel 45a defined by the inner wall of sleeve 41a and by the outer wall of the pipe member 41. The packing 43 thus disrupts the connection between the channel 45 and its extension 45a, but this barrier is elastically yieldable since the compressed air above the packing bends the free inner arm of the V and may thrfor@ 110W past it while the air beneath the packing is prevented from passing in the upward direction, thereby checking the return flow. The packing ring 48 thus constitutes an annular check valve serving to prevent the entrance of the drilling liquid (mud) into the channel 45u- 45, and consequently into the channel 3S, thus maintaining the air passages perfectly clean.
When the air has passed beyond the packing 48 it enters through the emulsitying bores 46a, according to the arrows of FIG. l, into the central bore of tubular member 41, thereby emulsifying the drilling mud to reduce its density to much less than that of the mud within the well.
The pipe sections may of course be modifiedV in various ways within the scope of this invention. Thus it is pos-v sible to provide, instead of continuous annular channels extending between two coaxial and concentric tubular bodies for forming a passage for the pressurized air, external pipes for conducting the air along external passages parallel to the main tubular member of each pipe section of the rotary drilling system. An embodiment of this kind will now be described with referenceI to FIGS. 5, 6 and 7 which show a pipe section comprising an internal pipe 5l provided at its upper endfwith an external connector S2, integral with pipe 51, having male screul threads 53 of the rapid-pitch type and an annular channel 55u whose upper end opens toward the loutside through radial apertures 56 and whose lower end forms a passage 54 communicating with a narrow pipe 5S extending externally of and parallel to the Awider pipe 51. In practice at least several pipes 55 are provided, only two being shown in FIGS. 5, 6 and 7 in diametrically opposite positions.
The pipe Si ends at its bottom in a screw thread 51a onto which a sleeve 52a is screwed to serve as a female connector; this sleeve has at its lower end, projecting beyond the pipe 51, female screw threads 53a of the rapid-pitch type and is formed in the region surrounding the pipe 51 with passages 54a for connecting the external pipes 55 with an annular clearance 5641 surrounding the joint between pipe sections 51, 51.l Within an annular groove Slb of pipe 51 there is disposed a packing 58,.
In this embodiment, the coupling of adjoining pipe sections is realized in the manner illustrated in FIG. 7, i.e. with the threads V53 of male connector 52 screwed into the threads 53a of female connector 52a so that the end 59a of the pipe 51 bearing the packing 58 contacts the opposite end 59 of the next-lower pipe S1', the packing being compressed therebetween and effecting a hermetic seal towards the central bores of the pipe sections for the air which is circulating within the channel 54a, SS while a similar seal towards the outside is obtained by the metal-to-metal contact between the end 57a of connector 52a and the shoulder 57 of connector S2.
As may be seen from the above description, the tubular members of the interconnected pipe sections are of compact construction and have central bores of constant cross-sectional area so that the flow of the detritus will be facilitated within the interior of theseV pipes even if its constituents include particles of a great size.
Consequently, since the pipe sectionsy according to the invention allow big and heavy soil fragments to be brought to the surface level, it is possible to carry out the drilling at high forward speed whereby the tool needs to perform only the drilling work proper and no grinding work.
Furthermore it is possible to execute a more rapid and exact evaluation of the drilled strata as compared with the fragments obtained by known devices. The rapidity of the evaluation is due to the great quantity of the circulating liquid and its exactitude is insured by the lfact that the detritus arrives on the surface level in such a quantity and concentration as to be readily Classifiable even when consisting of small particles, as in the case of sand of very fine granular structure, or when of an argillaceous nature, in vwhich case it will come to the surface in the form of large chunks whose composition has remained unchanged in the process.
Another advantage of the reverse-110W rotary drilling system according to the invention is that it enables the circulation of a liquid whose viscosity, density and specific weght are remarkably lower than those of liquids used in conventional rotary drilling systems, whereb) a more el'iicient and rapid discharge of the detritus is possible. Thus, a clean liquid free from sludge may be introduced into the clearance between the rods and the ldrilled well to help eliminate the binding of the drilling apparatus within the well, normally due to the sedimentation of the detritus within the aforementioned clearance.
The invention is not limited to the embodiments described but various modiiications and variations are possible within the scope of the invention as dened in the appended claims.
What is claimed is:
-l. A well-drilling pipe string :comprising a plurality of substantially equal-diameter pipe sections disposed with communicating central bores in end-to-end abutting relationship, a rst connector secured to one end of each pipe section and projecting radially therefrom, said rst connector being provided in its projecting part with an axially extending throughgoing channel isolated from the central bore of its pipe section, a second connector secured to the opposite end of each pipe section and projecting radially therefrom, said conectors being provided with complementary screw threads matingly engaging each other at abutting ends vof adjoining pipe sections for holding the latter together, said second connector extending axially beyond its pipe section and having a recessed inner wall at the level of said abutting ends whereby a clearance bridging said ends is formed, and conduit means held in position alongside each pipe section by the two connectors thereof, said conduit means extending from said recess to said channel and communicating therewith lfor establishing a continuous flow path independent of said central bores alongside said pipe sections.
2. A well-drilling pipe string comprising a plurality of substantially equal-diameter pipe sections disposed with communicating central bores in end-to-end abutting relationship, a male conector secured to one end of each pipe section and projecting radially therefrom, said male connector being provided in its projecting part with an axially extending throughgoing channel isolated from the central bore of its pipe section, a female connector secured to the opposite end of each pipe section and projecting radially therefrom, said conectors being provided with complementary screw threads matingly engaging each other at abutting ends of adjoining pipe sections for holding the latter together, said female connector extending axially beyond its pipe section and having a recessed inner wall at the level of said abutting ends whereby a clearance `bridging said ends is formed, and conduit means held in position alongside each pipe section by the two connectors thereof, said conduit means extending from said recess to said channel and communicating therewith for establishing a continuous ow path independent of said central bores alongside said pipe sections.
3. A pipe string according to claim 2 wherein said conduit means comprises a sleeve surrounding the respective pipe section with concentric spacing, said sleeve beng threadedly secured to both said conectors.
4. A pipe string according to claim 2 wherein said `conduit means comprises a set of tubes parallel to the respective pipe section and of reduced cross-sectional area relative thereto.
5. A pipe string according to claim 2 wherein said male connector is integral with its pipe section.
References Cited in the tile of this patent UNITED STATES PATENTS 403,751 Hart May 21, 1889 1,071,199 Andrews Aug. 26, 1913 1,547,461 Steele Iuly 28, 1925 1,909,975 Rieker et al May 16, 1933 1,981,863 Harris Nov. 27, 1934 2,054,859 Kitching Sept. 22, 1936 2,057,691 Ranney Oct. 20, 1936 2,234,454 Richter Mar. 11, 1941 2,537,605 Sewell 1an. 9, 1951 2,657,016 Grable Oct. 27, 1953 2,839,272 Colquitt lune 17, 1958 2,849,213 Failing Aug. 26, 1958 FOREIGN PATENTS 1,066 817 Germany July 9, 1959
|Cited Patent||Filing date||Publication date||Applicant||Title|
|US403751 *||Sep 25, 1888||May 21, 1889||Implement for boring wells|
|US1071199 *||Jan 26, 1912||Aug 26, 1913||Benjamin Andrews||Mineral-prospecting apparatus.|
|US1547461 *||Feb 5, 1924||Jul 28, 1925||Steele Hampton A||Method and apparatus for drilling wells|
|US1909075 *||Mar 12, 1929||May 16, 1933||Hughes Tool Co||Coupling for double pipe sections|
|US1981863 *||Jan 24, 1931||Nov 27, 1934||Harris Irving C||Tool joint|
|US2054859 *||Aug 27, 1934||Sep 22, 1936||Kitching Roy E||Drill stem|
|US2057691 *||Dec 20, 1933||Oct 20, 1936||Ranney Leo||Method of and apparatus for excavating|
|US2234454 *||May 20, 1940||Mar 11, 1941||Richter Herman F||Apparatus for drilling wells|
|US2537605 *||Aug 7, 1947||Jan 9, 1951||Standard Oil Dev Co||Drilling bore holes|
|US2657016 *||Jan 20, 1950||Oct 27, 1953||Grable Donovan B||Fluid circulation head for drill strings|
|US2839272 *||Mar 7, 1956||Jun 17, 1958||Winter Weiss Company||Means for well drilling|
|US2849213 *||Nov 12, 1953||Aug 26, 1958||George E Failing Company||Apparatus for circulating drilling fluid in rotary drilling|
|DE1060817B *||Oct 24, 1957||Jul 9, 1959||Wirth Alfred & Co Kg||Lufthebebohrgestaenge fuer indirekte Spuelung|
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US3259403 *||Mar 4, 1965||Jul 5, 1966||Sandvikens Jernverks Ab||Adapter device for percussion drill|
|US3280908 *||May 21, 1962||Oct 25, 1966||Fmc Corp||Apparatus for underwater drilling and well completion|
|US3360061 *||Oct 8, 1964||Dec 26, 1967||Otis Eng Co||Large well bore drilling apparatus|
|US3460858 *||Feb 9, 1967||Aug 12, 1969||Wirth & Co Kg A||Boring device|
|US3596720 *||Nov 3, 1969||Aug 3, 1971||Elenburg Wayland D||Method of forming a borehole using a compressible and noncompressible fluid in a dual pipe string|
|US3601206 *||Sep 15, 1969||Aug 24, 1971||King Oil Tools||Side inlet swivel|
|US3786878 *||Dec 14, 1971||Jan 22, 1974||Sherman H||Dual concentric drillpipe|
|US3807514 *||Aug 10, 1972||Apr 30, 1974||Murrell J||Drilling apparatus|
|US3826317 *||Aug 23, 1973||Jul 30, 1974||Smith International||Drilling apparatus|
|US3830319 *||Feb 23, 1973||Aug 20, 1974||Stork Conrad Bv||Drilling apparatus|
|US3861478 *||Aug 23, 1973||Jan 21, 1975||Alsthom Cgee||Hydraulic crushing device for use with a boring tool|
|US4134463 *||Jun 22, 1977||Jan 16, 1979||Smith International, Inc.||Air lift system for large diameter borehole drilling|
|US4137975 *||May 9, 1977||Feb 6, 1979||The British Petroleum Company Limited||Drilling method|
|US4189243 *||Jan 25, 1978||Feb 19, 1980||Black Wesley F||In-line mud shearing apparatus|
|US4304309 *||Apr 23, 1979||Dec 8, 1981||Dome Petroleum Limited||Surface drilling apparatus|
|US4682661 *||Mar 29, 1984||Jul 28, 1987||Hughes Philip M||Drilling apparatus|
|US4683944 *||May 6, 1985||Aug 4, 1987||Innotech Energy Corporation||Drill pipes and casings utilizing multi-conduit tubulars|
|US4688831 *||May 20, 1985||Aug 25, 1987||Preussag Aktiengesellschaft||Threaded or push-type coupling|
|US4836305 *||Jul 30, 1987||Jun 6, 1989||Pangaea Enterprises, Inc.||Drill pipes and casings utilizing multi-conduit tubulars|
|US4940098 *||May 26, 1989||Jul 10, 1990||Moss Daniel H||Reverse circulation drill rod|
|US4991669 *||Feb 14, 1990||Feb 12, 1991||Atlas Copco Mct Ab||Device for controlling the passage of a flushing medium in impact machines|
|US5020611 *||Jun 9, 1989||Jun 4, 1991||Morgan Alan K||Check valve sub|
|US5125464 *||Jul 24, 1989||Jun 30, 1992||Cogema||Drilling device for the study and exploitation of the subsoil|
|US5524937 *||Dec 6, 1994||Jun 11, 1996||Camco International Inc.||Internal coiled tubing connector|
|US6464261 *||Mar 23, 1999||Oct 15, 2002||Reslink As||Pipe coupling|
|US7516803 *||Feb 10, 2006||Apr 14, 2009||Paul G Anthony||Air injection collar|
|US8127866||Apr 10, 2009||Mar 6, 2012||Anthony Paul G||Air injection collar|
|US20060180351 *||Feb 10, 2006||Aug 17, 2006||Anthony Paul G||Air injection collar|
|DE1458632B1 *||Oct 27, 1965||Mar 11, 1971||Walker Neer Manufact Company I||Schwerstange zum Kernbohren|
|DE3228106A1 *||Jul 28, 1982||Feb 9, 1984||Salzgitter Maschinen Ag||Arrangement for earth boring by means of the air-lift method|
|DE3418892A1 *||May 21, 1984||Nov 21, 1985||Preussag Ag Berlin Hannover||Gewinde- oder steckverbinder|
|WO1996018063A1 *||Dec 6, 1995||Jun 13, 1996||Camco Int||Internal coiled tubing connector|
|U.S. Classification||285/123.3, 285/123.1, 175/324, 175/215, 285/124.1, 175/69, 175/205, 285/333|
|International Classification||E21B21/12, E21B21/16, E21B17/00, E21B17/18, E21B21/00|
|Cooperative Classification||E21B21/12, E21B17/18, E21B21/16|
|European Classification||E21B17/18, E21B21/12, E21B21/16|