US3481412A - Coring apparatus with hydraulically retrievable inner core barrel - Google Patents

Coring apparatus with hydraulically retrievable inner core barrel Download PDF

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US3481412A
US3481412A US662929A US3481412DA US3481412A US 3481412 A US3481412 A US 3481412A US 662929 A US662929 A US 662929A US 3481412D A US3481412D A US 3481412DA US 3481412 A US3481412 A US 3481412A
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piston
core barrel
mandrel
drill pipe
string
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David S Rowley
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Norton Christensen Inc
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Christensen Diamond Products Co
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    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21BEARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
    • E21B25/00Apparatus for obtaining or removing undisturbed cores, e.g. core barrels or core extractors
    • E21B25/02Apparatus for obtaining or removing undisturbed cores, e.g. core barrels or core extractors the core receiver being insertable into, or removable from, the borehole without withdrawing the drilling pipe

Definitions

  • wire line core barrels have been used for lowering an inner core barrel through a string of drill pipe into appropriate coring position within an outer barrel. After the inner barrel is full, it is elevated on a wire line through the string of drill pipe to the surface of the well bore.
  • speed at which the inner barrel can be moved by a wire line through the string of drill pipe If high winding drum speeds are utilized, there is always danger of the apparatus hanging up and the wire line parting.
  • the present invention contemplates the pumping of a full inner core barrel to the surface of the well bore by reversely circulating iiuid down around the string of drill pipe and then upwardly therethrough.
  • the use of a wire line is dispensed with entirely.
  • the inner core barrel can be reversed out through the drill pipe to the surface at a speed substantially exceeding the rate at which the inner core barrel could be safely elevated through the string of drill pipe by means of a wire line.
  • a piston-like mechanism is cOnnected to the upper portion of the inner core barrel device, and assurance is had that a portion of the piston-like mechanism is always present within a tool joint of the string of drill pipe to insure an appropriate iit with the wall of the tool joint so that full advantage of the hydraulic lifting force can be taken without any substantial leakage past the piston mechanism.
  • the drill pipe between its tool joints has a discontinuous cylindrical wall, a smooth, continuous lifting force is still always available to insure the appropriate and rapid hydraulic elevation of the inner core ⁇ barrel mechanism through the string of drill pipe.
  • the hydraulic pump-out or lifting force on the inner core barrel mechanism is obtained by leap-frogging such hydraulic force from one tool joint to the next.
  • a piston portion of the mechanism is always available to make a sufliciently close t with the wall of the tool joint to insure a smooth, continuous lifting force under the reverse circulation action of the uid down around the outside of the drill string and then upwardly through the interior of the latter.
  • the mechanism can be used appropriately for rapidly and safely pumping the inner barrel mecha- ICC nism down through the string of drill pipe to its coring position within the outer core barrel.
  • the inner core barrel mechanism can, if desired, be both lowered and raised within the string of drill pipe on a wire line.
  • FIGURES la, 1b and 1c together constitute a longitudinal section, with parts being shown in side elevation, of a core barrel mechanism embodying the invention, disclosing the inner core barrel in appropriate coring position within the outer barrel, FIGS. lb and 1c being lower continuations of FIGS. la and 1b, respectively;
  • FIG. 2 is an enlarged cross-section through the lower portion of the piston or swab device at its location of attachment to the inner ybarrel mechanism, this combination being disposed within the outer barrel;
  • FIG. 3 is a somewhat diagrammatic view illustrating the piston portion of the mechanism, with its lower part ydisposed within a lower tool joint of the string of drill pipe;
  • FIG. 4 is a view similar to FIG. 3 illustrating the upper part of the piston portion of the mechanism disposed within an upper tool joint of the drill pipe string.
  • the coring apparatus A illustrated in the drawings is particularly ⁇ designed for use with a string of drill pipe B. It embodies an inner core barrel structure 10 movable Iboth downwardly and upwardly through the string of drill pipe, which is connected to an outer core barrel or housing 11, the purpose of which is to rotate a core head or bit 12 attached to the latter. After a desired length of core has been formed and moved into the inner barrel structure 10, it is retrieved by reversely circulating uid downwardly around the exterior of the drill pipe B and the outer barrel 11, such fluid passing upwardly into the outer barrel and acting on an upper piston mechanism 13 attached to the inner barrel device for continued pumping of the entire inner mechanism through the string of drill pipe to the top of the well bore C.
  • the inner and outer barrel mechanism illustrated is generally of a known type, and any suitable core barrel mechanism can be used in practicing certain aspects of the present invention.
  • the outer core barrel or housing 11 includes a plurality of outer core barrel sections 14 threadedly secured to one another to provide the appropriate core barrel length, which will vary depending upon the length of the inner core barrel and of its piston mechanism 13.
  • the lower outer core barrel section 14 is threadedly attached to the core head or bit 12, which may be of any suitable type and which is disclosed as having tungsten carbide or diamond cutting elements 15 secured thereto for cutting the Well bore C to the desired diameter and for producing the inner core for relative upward movement through the central core bit opening 16.
  • This outer barrel includes a hanger sub 17 interconnecting outer barrel sections 14 in spaced apart relation and an upper su-b 18 having a safety joint box 19 threadedly receiving a safety joint pin 20.
  • the upper portion of the pin member 20 is a threaded box 21 threadedly secured to the lower pin 22 of a drill collar section 23 forming part of the drill pipe string B, that will, as iS Well known, extend to the top lof the well bore for appropriate rotation by an operating mechanism (not shown).
  • the inner core barrel mechanism can be pumped down through the string of drill pipe B, coming to rest within the outer core barrel 11 in suspended relation with respect thereto.
  • the lower section 28 of a tubular non-rotating inner core barrel 24 has a tapered guide or nose inclined in a downward and inward direction, this lower guide portion having a suitable core catcher 26 therein adapted to coact with an internal tapered surface 27 of the lower section 28 for the purpose of embracing the core (not shown) after it is formed and preventing it from dropping out of the inner core barrel.
  • the inner core barrel extends upwardly within the outer core barrel 11 and is of a suitable length, which may, for example, be 20 feet, 30 feet, 60 feet.
  • the upper end of the inner core barrel is threadedly secured to a pressure relief valve member or sub 29 having a port 30 therethrough communicating with a lateral sub port 31 with the exterior of the sub.
  • a valve element 32 can seat downwardly on the sub 29 to prevent downward flow of fluid into the inner barrel 24, lifting in the sub to permit the core rising in the inner barrel to bleed fluid through the ports 30, 31 to the exterior of the sub 29.
  • the sub 29 is threaded to a tubular shaft 33 forming the inner portion of a swivel 34.
  • the shaft has an external ange 35 supported between upper and lower ball bearing devices 36 carried by an outer bearing housing 37 threadedly secured to a litt valve guide 38, which is, in turn, threadedly secured to the lower end of a tubular lift valve member 39 having a downwardly facing valve seat 4t) engageable by the head 41 of a lift valve 42, the Stem 43 of which is slidable in a guide bore or passage 44 of the lift valve guide 38.
  • the upper portion of the lift valve member 39 is threadedly attached to an elongate tubular or swab mandrel 45 that has a spear head 46 threadedly secured to its upper end, the spear head being adapted to be grasped by a suitable overshot portion (not shown) attached to a wire line (not shown), although a wire line need not beused in operating the mechanism illustrated.
  • the lift valve member 39 has a downwardly facing shoulder 47 adapted to rest upon an inwardly directed stop shoulder 48 formed upon a supporting sleeve 49 secured to the outer barrel 11.
  • the sleeve includes an upper circumferentially continuous portion 50 received within a recess 51 in the outer barrel between an upwardly facing shoulder 52 on the upper portion of an outer barrel section 14 and the lower end S3 of the hanger sub 17.
  • the sleeve 49 is provided with a plurality of longitudinal and circumferentially spaced slots 54 opening through the lower end of the sleeve and forming spring-like latch legs 55 having lower inwardly directed feet 56, the latch legs and feet normally tending to occupy an inward position with the feet 56 disposed under the downwardly facing shoulder 47 of the suspension head or valve member 39.
  • the feet and latch legs are adapted to be cammed outwardly so as to have an effective internal diameter which is slightly greater than the maximum external diameter of the inner core barrel 24 and its lower portion. However, when occupying the normal inward position, such as disclosed in FIG. 1b, the etfective internal diameter across the latch feet 56 is substantially less than the outside diameter of the inner core barrel.
  • the lower inner portions 57 of the latch feet are inclined in a downward and outward direction so as to be cammed outwardly when parts of the inner core barrel mechanism move upwardly thereagainst.
  • the lower shoulder 47 of the suspension head 39 is inclined in a downward and outward direction, engaging the upper ends of the feet 56 which are inclined in the same direction.
  • the swab or piston-like mechanism 13 is secured to the litt valve member or suspension head 39, the lower end of the mandrel being threadedly attached thereto, as described above, there being a jam nut 58 threaded on this mandrel and engaging the upper end of the suspension head to prevent inadvertent unscrewing of the mandrel from the suspension head.
  • the mandrel 45 itself is rather long, being longer than the length of a drill pipe or drill collar section, which typically may be 30 feet in length.
  • the mandrel has a multiplicity of swab elements S9 mounted thereon, these swab elements comprising thin, exible, metallic shirns, which may be made of brass, surrounding the mandrel and longitudinally spaced from one another by short distances.
  • Rubber or rubber-like O-ring seals 60 engage the upper and lower surfaces of each shim ornswab element, and also bear against the periphery of the mandrel, there being spacer rings 61 between adjacent upper and lower O-ring seal members.
  • each lift swab or piston segment or assembly consists of a brass, or similar, shim S9 disposed around the mandrel 45, with an upper O-ring 60 bearing against the upper surface of the shim and an adjacent spacer ring 61, and with a lower O-ring 60 bearing against the lower surface of the shim and a spacer ring therebelow, the O-ring seal members 60 also sealingly engaging the periphery of the mandrel.
  • a tool joint 70 or 71 includes a threaded box portion 72, as at the upper end of a drill pipe section 73, which threadedly receives a pin 74, as at the lower end of an adjacent drill pipe section.
  • the threaded pin member and the threaded box member are accurately machined so as to have a predetermined inside diameter; whereas, there may be a drift from the desired internal diameter of the extended portion of a section of drill pipe or drill collar between its upper box 72 and its lower pin portion 74.
  • each shim 59 is such that the shim makes a close t with the inside diameter of the tool joint 70, 71.
  • the outside diameter of each shim or each piston element may have a diameter which is less by 0.050 inch than the inside diameter of the tool joints. This leaves adequate clearance and provides ilexibility to prevent any of the pistons or shim elements from hanging up on a pin shoulder while the apparatus is being pumped upwardly through the string of drill pipe B.
  • the shim is sulciently close to the inside diameter of the tool joint as to secure appropriate hydraulic lift on a piston or shim, to raise the entire internal mechanism through the drill'pipe to the surface.
  • the distance between the uppermost and lowermost shims or piston elements 59 can be selected at about 32 feet, which will insure the presence of a plurality of shims or pistons 59 within one of the tool joints 70, 71 in the entire drilling string at all times.
  • the inside diameter of the outer barrel sections 14 above the hangervsub 17 is greater than the outside diameter of the shirns 59, but that the hanger member 39 fits closely within a sleeve 17a secured to the sub by welding material 17b.
  • Fluid pumped downwardly through the string of drill pipe B will then flow through by-pass passages or grooves 80 in the sub 18 surrounding the spear head 46, and then downwardly around the exterior of the shims 59, the drilling fluid passing inwardly through ports 81 in the lift valve member or suspension head to the interior passage 82 of the latter, shifting the valve head 41 downwardly from its seat 40 against the force of a return spring 83, the fluid proceeding outwardly through ylower ports 84 in the valve member and then around the exterior of the swivel 34 and the inner tube 24, discharging through passages (not shown) in the bit 12 and across the face of the latter and its cutting elements 15, to convey the cuttings upwardly around the exterior of the outer barrel 11 and the drill pipe B back to the surface of the well bore C.
  • the drill string B and bit 12 are being rotated and appropriate drilling weight applied to the bit to cut the annular portion of the formation and produce the core, which passes relatively upwardly through the central opening 16v in the bit and through the core catcher or lifter 26 into the inner barrel 24.
  • the upwardly moving iluid closes the lift valve 42 and shifts the piston-like head 39 upwardly within the sleeve 17a, carrying the entire inner barrel mechanism upwardly as a unit and shifting the uppermost shims 59 into the safety joint pin 20, with which they make a close t.
  • the hanger 39 can be out of the sleeve 17a, the fluid then acting on the swab or piston elements 59 to lift the entire inner core barrel assembly upwardly and bringing the uppermost shirns through the pin of the safety joint into the drill pipe string B.
  • elevation of the inner assembly causes the several 'elements to engage the lower inclined surfaces 57 of the feet 56 of the latch sleeve 49 to deflect them out of the way, until the lower end 25 of the barrel 24 passes upwardly through the latch assembly.
  • a string of drill pipe comprising pipe sections secured to one another by tool joints; an outer core barrel operatively associated with said string of drill pipe; an inner core barrel structure adapted for longitudinal movement through the string of drill pipe between a position within the outer core barrel and a position at the top of the bore hole; and elongate piston means connected to said inner core barrel structure and having a length greater than the distance between succeeding tool joints, whereby a portion of said piston means always ts closely within a tool joint during travel of said piston means in said drill pipe to be acted upon by fluid moving through the drill string to hydraulically convey said piston means and inner core barrel structure through the string of drill pipe.
  • said piston means comprises a mandrel and a multiplicity of spaced piston elements mounted on said mandrel, the distance between the uppermost and lowermost piston elements exceeding the length of each pipe section, said piston elements being of a diameter to fit closely within said tool joints.
  • said piston means comprises a mandrel and a multiplicity of spaced exible piston elements mounted on said mandrel, the distance between the uppermost and lowermost piston elements exceeding the length of each pipe section, said piston elements being of a diameter to t closely within said tool joints.
  • said piston means comprises a mandrel and a multiplicity of spaced metallic piston shims mounted on said mandrel, vthe distance between the uppermost and lowermost piston shims exceeding the length of each pipe section, said piston shims being of a diameter to iit closely within said tool joints.
  • said piston means comprises a mandrel, a multiplicity of piston elements mounted on said mandrel, the distance between the uppermost and lowermost piston elements exceeding the length of each pipe section, said piston elements being of a diameter to iit closely within said tool joints, and spacer means on said mandrel between said elements to hold said elements longitudinally spaced from each other.
  • said piston means comprises a mandrel and a multiplicity of metallic piston shims mounted on said mandrel, the distance between the uppermost and lowermost piston shims exceeding the length of each pipe section, said piston shims being of a diameter to fit closely within said tool joints, and spacer means on said mandrel between said shims to hold said shims longitudinally spaced from each other.
  • a string of drill pipe comprising pipe sections secured to one another by tool joints; an outer core barrel operatively associated with said string of drill pipe; an inner core barrel structure adapted for longitudinal movement through the string of drill pipe between a position within the outer core barrel and a position at the top of the bore hole; elongate piston means connected to said inner core barrel structure and having a length greater than the distance between succeeding tool joints, whereby a portion of said piston means always lits closely -within a tool joint during travel of said piston means in said drill pipe to be acted upon by fluid moving through the drill string to hydraulically convey said piston means and inner core barrel structure through the string of drill pipe; said inner core barrel structure including an inner core barrel and an upper portion carrying said inner core barrel and connectible to said outer core barrel to suspend said inner core barrel therefrom, said upper portion having a uid passage therethrough, and valve means adapted to close said passage against upward flow of lluid therethrough but opening to permit downward liow of
  • said piston means comprises a mandrel and a multiplicity of spaced piston elements mounted on said mandrel, the distance between the uppermost and lowermost piston elements exceeding the length of each pipe section, said piston elements being of a diameter to lit closely within said tool joints.
  • said piston means comprises a mandrel and a multiplicity of spaced liexible piston elements mounted on said mandrel, the distance between the uppermost and lowermost piston elements exceeding the length of each pipe section, said piston elements being of a diameter to lit closely within said tool joints.
  • said piston means comprises a mandrel and a multiplicity of spaced metallic piston shims mounted on said mandrel, the distance between the uppermost and lowermost piston shims exceeding the length of each pipe section, said piston shims being of a diameter to iit closely within said tool joints.
  • said piston means comprises a mandrel and a multiplicity of metallic piston shims mounted on said mandrel, the distance between the uppermost and lowermost piston shims exceeding the length of each pipe section, said piston shims being of a diameter to iit closely within said tool joints, and spacer means on said mandrel between said shims to hold said shims longitudinally spaced from each other.
  • said inner core barrel is disposed below said elongate piston means; said outer core barrel including an elongate prtion receiving said elongate piston means when said inner core barrel is suspended from said outer core barrel, said elongate portion having an inside diameter greater than the outside diameter of said piston means to permit fluid to flow around the exterior of said piston means and into said fluid passage; said upper portion of said inner core barrel fitting closely within a portion of said outer barrel when said inner core barrel is suspended from said outer core barrel to enable fluid forced upwardly in said outer barrel to act on said upper portion and elevate said inner core barrel structure and piston means in said outer core barrel to a position in which said piston means is disposed in said drill pipe with a portion of said piston means iitting within a tool joint.
  • a string of drill pipe comprising pipe sections secured to one another by tool joints; and outer member operatively associated with said string of drill pipe; an inner structure adapted for longitudinal movement through the string of drill pipe between a position within the outer member and a position at the top of the bore hole; and elongate piston means connected to said inner structure and having a length greater than the distance between succeeding tool joints, whereby a portion of said piston means always ts closely within a tool joint during travel of said piston means in said drill pipe to be acted upon by a fluid moving through the drill string to hydraulically convey said piston means and inner structure through the string of drill pipe.
  • said piston means comprises a mandrel and a multiplicity of spaced piston elements mounted -on said mandrel, the distance between the uppermost and lowermost piston elements exceeding the length of each pipe section, said piston elements being of a diameter to it closely within said tool joints.
  • said piston means comprises a mandrel and a multiplicity of spaced metallic piston shims mounted on said mandrel, the distance between the uppermost and lowermost piston shims exceeding the length of each pipe section, said piston shims being of a diameter to iit closely within said tool joints.
  • said piston means comprises a mandrel and a multiplicity of metallic piston shims mounted -on said mandrel, the distance between the uppermost and lowermost piston shims exceeding the length of each pipe section, said piston shims being of a diameter to tit closely within said tool joints, and spacer means on said mandrel between said shims to hold said shims longitudinally spaced from each other.
  • An inner core barrel structure adapted for longitudinal movement through a string of drill pipe disposed in a bore hole between a position within an outer core barrel operatively associated with the drill pipe string and a position at the top of the bore hole, the drill pipe string including pipe sections secured to one another by tool joints, comprising an inner core barrel, and elongate piston means connected to said inner core barrel and having a length greater than the distance between succeeding tool joints, whereby a portion of said piston means always tits ⁇ within a tool joint during travel of said piston means in said drill pipe to be acted upon by a iiuid moving through the drill string to hydraulically convey said piston means and inner core barrel structure through the string of drill pipe.
  • said piston means comprises a mandrel and a multiplicity of spaced piston elements mounted on said mandrel, the distance between the uppermost and lowermost piston elements exceeding the length of each pipe section, said piston elements being of a diameter to lit closely within the tool joints.
  • said piston means comprises a mandrel and a multiplicity of spaced metallic piston shims mounted on said mandrel, the distance between the uppermost and lowermost piston shims exceeding the length of each pipe section, said piston shims being of a diameter to it closely Within the tool joints.
  • said piston means comprises a mandrel and a multiplicity of metallic piston shims mounted on said mandrel, the distance between the uppermost and lowermost piston shims exceeding the length of each pipe section, said piston shims being of a diameter to fit closely within the tool joints, and spacer means on said mandrel between said shims to hold said shims longitudinally spaced from each other.
  • said piston means comprises a mandrel and a multiplicity of spaced flexible piston elements mounted on said mandrel, the distance between the uppermost and lowermost piston elements exceeding the length of each pipe section, said piston elements being of a diameter to lit closely within the tool joints.
  • An inner core barrel structure adapted for longitudinal movement through a string of drill pipe disposed in a bore hole between a position within an outer core barrel operatively associated with the drill pipe string and a position at the top of the bore hole, the drill pipe string including pipe sections secured to one another by tool joints, comprising an inner core barrel, and elongate piston means connected to said inner core barrel and having a length greater than the distance between succeeding tool joints, whereby a portion of said piston means always fits within a tool joint during travel of said piston means in said drill pipe to be acted upon by a fluid moving through the drill string to hydraulically convey said piston means and inner core barrel structure through the string of drill pipe; said inner core barrel structure further including an inner core barrel and an upper portion adapted to carry said inner core barrel and adapted for connection to the outer core barrel to suspend the inner core barrel therefrom, said upper portion having a uid passage therethrough, and valve means adapted to close said passage against upward ow of uid therethrough but opening to permit downward flow of fluid therethrough.
  • said piston means comprises a mandrel and a multiplicity of spaced piston elements mounted on said mandrel, the distance between the uppermost and lowermost piston elements exceeding the length of each pipe section, said piston elements being of a diameter to tit closely within the tool joints.
  • said piston means comprises a mandrel and a multiplicity of spaced metallic piston shims mounted on said mandrel, the distance between the uppermost and lowermost piston shims exceeding the length of each pipe section, said piston shims being of a diameter to fit closely within the tool joints,
  • said piston -means comprises a mandrel and a multiplicity of metallic piston shims mounted on said mandrel, the distance between the uppermost and lowermost piston shims exceeding the length of each pipe section, said piston shims being of a diameter to iit closely within the tool joints, and spacer means on said mandrel between said shims to hold said shims longitudinally spaced from each other.

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Description

Dec. 2, 1969 D. s. RowLEY 3,481,412
CORING APPARATUS WITH HYDRAULICALLY RETRIEVABLE INNER CORE BARREL Filed Aug. 24, 1967 2 SheeltS--Slleel l Lra. 16. lilqra jc.
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Dec. 2, 1969 D. s. RowLEY 3,481,412
CORING APPARATUS WITH4 HYDRAULICALLY RETRIEVABLE INNER CORE BARREL Filed Aug. 24, 1967 2 Sheets-Sheet 2 74 ma# 15@ 72 ,it
,0m/Ao 3. Bow/ EV 107 TOE/VE i.
United States Patent O 3,481,412 CORING APPARATUS WITH HYDRAULICALLY RETRIEVABLE INNER CORE BARREL David S. Rowley, Salt Lake City, Utah, assigner to Christensen Diamond Products Company, Salt Lake City, Utah, a corporation of Utah Filed Aug. 24, 1967, Ser. No. 662,929 Int. Cl. E21b 9/20, 25/00 U.S. Cl. 175-247 25 Claims ABSTRACT OF THE DISCLOSURE The present invention relates to core barrels, and more particularly to core barrels having inner barrels capable of being lowered through strings of drill pipe to coring position within associated outer barrels and of being removed from the coring position through the drill pipe to the surface.
Heretofore, wire line core barrels have been used for lowering an inner core barrel through a string of drill pipe into appropriate coring position within an outer barrel. After the inner barrel is full, it is elevated on a wire line through the string of drill pipe to the surface of the well bore. However, there are limitations on the speed at which the inner barrel can be moved by a wire line through the string of drill pipe. If high winding drum speeds are utilized, there is always danger of the apparatus hanging up and the wire line parting.
The present invention contemplates the pumping of a full inner core barrel to the surface of the well bore by reversely circulating iiuid down around the string of drill pipe and then upwardly therethrough. In other words, the use of a wire line is dispensed with entirely. The inner core barrel can be reversed out through the drill pipe to the surface at a speed substantially exceeding the rate at which the inner core barrel could be safely elevated through the string of drill pipe by means of a wire line. A piston-like mechanism is cOnnected to the upper portion of the inner core barrel device, and assurance is had that a portion of the piston-like mechanism is always present within a tool joint of the string of drill pipe to insure an appropriate iit with the wall of the tool joint so that full advantage of the hydraulic lifting force can be taken without any substantial leakage past the piston mechanism. In the event that the drill pipe between its tool joints has a discontinuous cylindrical wall, a smooth, continuous lifting force is still always available to insure the appropriate and rapid hydraulic elevation of the inner core `barrel mechanism through the string of drill pipe. Stated in another manner, the hydraulic pump-out or lifting force on the inner core barrel mechanism is obtained by leap-frogging such hydraulic force from one tool joint to the next. A piston portion of the mechanism is always available to make a sufliciently close t with the wall of the tool joint to insure a smooth, continuous lifting force under the reverse circulation action of the uid down around the outside of the drill string and then upwardly through the interior of the latter.
If desired, the mechanism can be used appropriately for rapidly and safely pumping the inner barrel mecha- ICC nism down through the string of drill pipe to its coring position within the outer core barrel. However, the inner core barrel mechanism can, if desired, be both lowered and raised within the string of drill pipe on a wire line.
This invention possesses many other advantages, and has other purposes which may be made more clearly apparent from a consideration of a form in which it may be embodied. This form is shown in the drawings accompanying and forming part of the present specification. It will now be `described in detail, for the purpose of illustrating the general principles of the invention; but it is to be understood that such detailed description is not to be taken in a limiting sense, since the scope of the invention is best defined 'by the appended claims.
Referring to the drawings:
FIGURES la, 1b and 1c together constitute a longitudinal section, with parts being shown in side elevation, of a core barrel mechanism embodying the invention, disclosing the inner core barrel in appropriate coring position within the outer barrel, FIGS. lb and 1c being lower continuations of FIGS. la and 1b, respectively;
FIG. 2 is an enlarged cross-section through the lower portion of the piston or swab device at its location of attachment to the inner ybarrel mechanism, this combination being disposed within the outer barrel;
FIG. 3 is a somewhat diagrammatic view illustrating the piston portion of the mechanism, with its lower part ydisposed within a lower tool joint of the string of drill pipe; and
FIG. 4 is a view similar to FIG. 3 illustrating the upper part of the piston portion of the mechanism disposed within an upper tool joint of the drill pipe string.
The coring apparatus A illustrated in the drawings is particularly `designed for use with a string of drill pipe B. It embodies an inner core barrel structure 10 movable Iboth downwardly and upwardly through the string of drill pipe, which is connected to an outer core barrel or housing 11, the purpose of which is to rotate a core head or bit 12 attached to the latter. After a desired length of core has been formed and moved into the inner barrel structure 10, it is retrieved by reversely circulating uid downwardly around the exterior of the drill pipe B and the outer barrel 11, such fluid passing upwardly into the outer barrel and acting on an upper piston mechanism 13 attached to the inner barrel device for continued pumping of the entire inner mechanism through the string of drill pipe to the top of the well bore C.
The inner and outer barrel mechanism illustrated is generally of a known type, and any suitable core barrel mechanism can be used in practicing certain aspects of the present invention. As specifically shown, the outer core barrel or housing 11 includes a plurality of outer core barrel sections 14 threadedly secured to one another to provide the appropriate core barrel length, which will vary depending upon the length of the inner core barrel and of its piston mechanism 13. The lower outer core barrel section 14 is threadedly attached to the core head or bit 12, which may be of any suitable type and which is disclosed as having tungsten carbide or diamond cutting elements 15 secured thereto for cutting the Well bore C to the desired diameter and for producing the inner core for relative upward movement through the central core bit opening 16. This outer barrel includes a hanger sub 17 interconnecting outer barrel sections 14 in spaced apart relation and an upper su-b 18 having a safety joint box 19 threadedly receiving a safety joint pin 20. The upper portion of the pin member 20 is a threaded box 21 threadedly secured to the lower pin 22 of a drill collar section 23 forming part of the drill pipe string B, that will, as iS Well known, extend to the top lof the well bore for appropriate rotation by an operating mechanism (not shown).
The inner core barrel mechanism can be pumped down through the string of drill pipe B, coming to rest within the outer core barrel 11 in suspended relation with respect thereto. As specifically shown, the lower section 28 of a tubular non-rotating inner core barrel 24 has a tapered guide or nose inclined in a downward and inward direction, this lower guide portion having a suitable core catcher 26 therein adapted to coact with an internal tapered surface 27 of the lower section 28 for the purpose of embracing the core (not shown) after it is formed and preventing it from dropping out of the inner core barrel.
The inner core barrel extends upwardly within the outer core barrel 11 and is of a suitable length, which may, for example, be 20 feet, 30 feet, 60 feet. The upper end of the inner core barrel is threadedly secured to a pressure relief valve member or sub 29 having a port 30 therethrough communicating with a lateral sub port 31 with the exterior of the sub. A valve element 32 can seat downwardly on the sub 29 to prevent downward flow of fluid into the inner barrel 24, lifting in the sub to permit the core rising in the inner barrel to bleed fluid through the ports 30, 31 to the exterior of the sub 29. The sub 29 is threaded to a tubular shaft 33 forming the inner portion of a swivel 34. The shaft has an external ange 35 supported between upper and lower ball bearing devices 36 carried by an outer bearing housing 37 threadedly secured to a litt valve guide 38, which is, in turn, threadedly secured to the lower end of a tubular lift valve member 39 having a downwardly facing valve seat 4t) engageable by the head 41 of a lift valve 42, the Stem 43 of which is slidable in a guide bore or passage 44 of the lift valve guide 38. The upper portion of the lift valve member 39 is threadedly attached to an elongate tubular or swab mandrel 45 that has a spear head 46 threadedly secured to its upper end, the spear head being adapted to be grasped by a suitable overshot portion (not shown) attached to a wire line (not shown), although a wire line need not beused in operating the mechanism illustrated.
The lift valve member 39 has a downwardly facing shoulder 47 adapted to rest upon an inwardly directed stop shoulder 48 formed upon a supporting sleeve 49 secured to the outer barrel 11. As shown, the sleeve includes an upper circumferentially continuous portion 50 received within a recess 51 in the outer barrel between an upwardly facing shoulder 52 on the upper portion of an outer barrel section 14 and the lower end S3 of the hanger sub 17. The sleeve 49 is provided with a plurality of longitudinal and circumferentially spaced slots 54 opening through the lower end of the sleeve and forming spring-like latch legs 55 having lower inwardly directed feet 56, the latch legs and feet normally tending to occupy an inward position with the feet 56 disposed under the downwardly facing shoulder 47 of the suspension head or valve member 39. The feet and latch legs are adapted to be cammed outwardly so as to have an effective internal diameter which is slightly greater than the maximum external diameter of the inner core barrel 24 and its lower portion. However, when occupying the normal inward position, such as disclosed in FIG. 1b, the etfective internal diameter across the latch feet 56 is substantially less than the outside diameter of the inner core barrel.
The lower inner portions 57 of the latch feet are inclined in a downward and outward direction so as to be cammed outwardly when parts of the inner core barrel mechanism move upwardly thereagainst. To insure against inadvertent release of the latch feet from the suspension head, the lower shoulder 47 of the suspension head 39 is inclined in a downward and outward direction, engaging the upper ends of the feet 56 which are inclined in the same direction. By virtue of the coaction between these inclined surfaces, the suspension head 39 tends to hold the latch feet inwardly against th@ periphery of the head and under its shoulder 47. i
The swab or piston-like mechanism 13 is secured to the litt valve member or suspension head 39, the lower end of the mandrel being threadedly attached thereto, as described above, there being a jam nut 58 threaded on this mandrel and engaging the upper end of the suspension head to prevent inadvertent unscrewing of the mandrel from the suspension head. The mandrel 45 itself is rather long, being longer than the length of a drill pipe or drill collar section, which typically may be 30 feet in length. The mandrel has a multiplicity of swab elements S9 mounted thereon, these swab elements comprising thin, exible, metallic shirns, which may be made of brass, surrounding the mandrel and longitudinally spaced from one another by short distances. Rubber or rubber-like O-ring seals 60 engage the upper and lower surfaces of each shim ornswab element, and also bear against the periphery of the mandrel, there being spacer rings 61 between adjacent upper and lower O-ring seal members. The upper spear head 46 engages the uppermost spacer ring 61, and by being tightened appropriately on the mandrel it will cause the O-rings 60 to snugly engage the inner portions of the swab or piston shims 59, and the spacer rings 61. Thus, each lift swab or piston segment or assembly consists of a brass, or similar, shim S9 disposed around the mandrel 45, with an upper O-ring 60 bearing against the upper surface of the shim and an adjacent spacer ring 61, and with a lower O-ring 60 bearing against the lower surface of the shim and a spacer ring therebelow, the O-ring seal members 60 also sealingly engaging the periphery of the mandrel.
The overall distance between the uppermost shim 59 and the lowermost shim 59 is substantially greater than the length of a drill pipe or drill collar section, so that assurance is had that, at any time, one or a plurality of shims or piston-like elements 59 are disposed within at least one of the tool joints of the drill pipe string. As is Well known in the art, a tool joint 70 or 71 (FIGS. 3 and 4) includes a threaded box portion 72, as at the upper end of a drill pipe section 73, which threadedly receives a pin 74, as at the lower end of an adjacent drill pipe section. The threaded pin member and the threaded box member are accurately machined so as to have a predetermined inside diameter; whereas, there may be a drift from the desired internal diameter of the extended portion of a section of drill pipe or drill collar between its upper box 72 and its lower pin portion 74.
The external diameter of each shim 59 is such that the shim makes a close t with the inside diameter of the tool joint 70, 71. As an example, the outside diameter of each shim or each piston element may have a diameter which is less by 0.050 inch than the inside diameter of the tool joints. This leaves adequate clearance and provides ilexibility to prevent any of the pistons or shim elements from hanging up on a pin shoulder while the apparatus is being pumped upwardly through the string of drill pipe B. However, the shim is sulciently close to the inside diameter of the tool joint as to secure appropriate hydraulic lift on a piston or shim, to raise the entire internal mechanism through the drill'pipe to the surface. As an example, if a section of drill pipe is 30 feet in length, the distance between the uppermost and lowermost shims or piston elements 59 can be selected at about 32 feet, which will insure the presence of a plurality of shims or pistons 59 within one of the tool joints 70, 71 in the entire drilling string at all times.
Assuming the string of drill pipe B is disposed in the well bore in connection with the outer barrel 11 and the core bit 12, but that the inner barrel 24 and swab assembly 13 are at the top of the well bore, the latter is suitably elevated and inserted into the drill pipe string B and then pumped downwardly therethrough. After the inner barrel reaches and moves within the outer barrel, the lower end 25 of the barrel 24 engages the latch feet 56 and dellects them laterally outwardly, permitting the inner barrel to mov@ downwardly to its nal position. The latch legs 5s and feet 56 then spring inwardly so that the shoulder 47 on the suspension head comes to rest upon the upper ends of the latch feet 56, the parts then occupying the relative positions illustrated in FIGS. la, lb and 1c. It will be noted that the inside diameter of the outer barrel sections 14 above the hangervsub 17 is greater than the outside diameter of the shirns 59, but that the hanger member 39 fits closely within a sleeve 17a secured to the sub by welding material 17b. Fluid pumped downwardly through the string of drill pipe B will then flow through by-pass passages or grooves 80 in the sub 18 surrounding the spear head 46, and then downwardly around the exterior of the shims 59, the drilling fluid passing inwardly through ports 81 in the lift valve member or suspension head to the interior passage 82 of the latter, shifting the valve head 41 downwardly from its seat 40 against the force of a return spring 83, the fluid proceeding outwardly through ylower ports 84 in the valve member and then around the exterior of the swivel 34 and the inner tube 24, discharging through passages (not shown) in the bit 12 and across the face of the latter and its cutting elements 15, to convey the cuttings upwardly around the exterior of the outer barrel 11 and the drill pipe B back to the surface of the well bore C. While the fluid is being circulated, the drill string B and bit 12 are being rotated and appropriate drilling weight applied to the bit to cut the annular portion of the formation and produce the core, which passes relatively upwardly through the central opening 16v in the bit and through the core catcher or lifter 26 into the inner barrel 24.
When the inner barrel is lled with the core produced by the drill bit, rotation of the drill pipe B is discontinued and the entire drill pipe string picked up to break the core at the bit 12, the core lifter 26 moving slightly downwardly and inwardly to snugly embrace the core. The suction side of the mud pumps (not shown) at the top of the well bore may be connected to the interior of the string of drill pipe B and the discharge side connected to the annular space between the string of drill pipe B and the wall of the well bore C, uid being pumped downwardly through the annular space and then upwardly into the space lbetween the inner core barrel 24 and outer barrel 11. The upwardly moving iluid closes the lift valve 42 and shifts the piston-like head 39 upwardly within the sleeve 17a, carrying the entire inner barrel mechanism upwardly as a unit and shifting the uppermost shims 59 into the safety joint pin 20, with which they make a close t. With the shims in the pin 20, the hanger 39 can be out of the sleeve 17a, the fluid then acting on the swab or piston elements 59 to lift the entire inner core barrel assembly upwardly and bringing the uppermost shirns through the pin of the safety joint into the drill pipe string B. Because of the multiplicity of piston elements or shims, which, for example, may be separated from one another by about a half inch, assurance is had that several shim or piston elements 59 will be disposed within a closely confining tool joint 70, 71 at all times, so that the 'iiuid moving upwardly through the pipe B exerts a positive lifting force on the swab or piston assembly to raise the inner core barrel 24 with it through the entire string of drill pipe tothe top of the well bore. As disclosed in FIG. 3, for example, when a series of lowermost shims =59 on thel mandrel are disposed within a lower tool joint 70, upper shims are on the verge of entering the upper rtool joint 71. Before the lowermost shims leave or rise above the lower tool jointk 70, upper shims will be disposed'within an upper tool joint 71 (FIG. 4). Shims 59 will be located within the upper tool joint 71 until, shims on the mandrel 45 have entered the next higher tool joint,
`such progression of shims from tool joint to tool joint i whether the main length of a drill pipe or drill collar joint between its pin and box lis-non-cylindrical overa portion or of oversize internal diameter. The tool joints each have appropriate cylindrical inner walls, and if the portion of a section of drill pipe or drill collar between tool joints tends to substantially by-pass fluid, the hydraulic lift on the swab mechanism is obtained in the bores of the tool joints, in elfect causing the lifting force to pass from one tool joint to the next tool joint, thereby giving a smooth and continuous hydraulic lift with reverse circulation to the apparatus, and permitting it to be conveyed at rather rapid and safe speeds through the string of drill pipe B to the top of the well bore.
Actual ield tests of the mechanism have demonstrated that the travelling assembly can be displaced safely from the bottom of the well bore to the rig floor at speeds of 540 feet per minute. Thus, wire lines are unnecessary to the operation of the apparatus, although, if desired, retrieval can be eifected through use of a wire line (not shown), since the spear head 46 is present to be grasped by an overshot on the lower end of the wire line, the inner core barrel assembly then being removed in a conventional manner.
During removal of the inner assembly 10 from the outer core barrel 11, elevation of the inner assembly causes the several 'elements to engage the lower inclined surfaces 57 of the feet 56 of the latch sleeve 49 to deflect them out of the way, until the lower end 25 of the barrel 24 passes upwardly through the latch assembly.
I claim:
1. In apparatus for performing a coring operation in a borehole: a string of drill pipe comprising pipe sections secured to one another by tool joints; an outer core barrel operatively associated with said string of drill pipe; an inner core barrel structure adapted for longitudinal movement through the string of drill pipe between a position within the outer core barrel and a position at the top of the bore hole; and elongate piston means connected to said inner core barrel structure and having a length greater than the distance between succeeding tool joints, whereby a portion of said piston means always ts closely within a tool joint during travel of said piston means in said drill pipe to be acted upon by fluid moving through the drill string to hydraulically convey said piston means and inner core barrel structure through the string of drill pipe.
2. In apparatus as dened in claim 1; wherein said piston means comprises a mandrel and a multiplicity of spaced piston elements mounted on said mandrel, the distance between the uppermost and lowermost piston elements exceeding the length of each pipe section, said piston elements being of a diameter to fit closely within said tool joints.
3. In apparatus as dened in claim 1: wherein said piston means comprises a mandrel and a multiplicity of spaced exible piston elements mounted on said mandrel, the distance between the uppermost and lowermost piston elements exceeding the length of each pipe section, said piston elements being of a diameter to t closely within said tool joints.
4. In apparatus as defined in claim 1; wherein said piston means comprises a mandrel and a multiplicity of spaced metallic piston shims mounted on said mandrel, vthe distance between the uppermost and lowermost piston shims exceeding the length of each pipe section, said piston shims being of a diameter to iit closely within said tool joints.
5. In apparatus as dened in claim 1; wherein said piston means comprises a mandrel, a multiplicity of piston elements mounted on said mandrel, the distance between the uppermost and lowermost piston elements exceeding the length of each pipe section, said piston elements being of a diameter to iit closely within said tool joints, and spacer means on said mandrel between said elements to hold said elements longitudinally spaced from each other.
6. In apparatus as dened in claim 1; wherein said piston means comprises a mandrel and a multiplicity of metallic piston shims mounted on said mandrel, the distance between the uppermost and lowermost piston shims exceeding the length of each pipe section, said piston shims being of a diameter to fit closely within said tool joints, and spacer means on said mandrel between said shims to hold said shims longitudinally spaced from each other.
7. In apparatus for performing a coring operation in a bore hole: a string of drill pipe comprising pipe sections secured to one another by tool joints; an outer core barrel operatively associated with said string of drill pipe; an inner core barrel structure adapted for longitudinal movement through the string of drill pipe between a position within the outer core barrel and a position at the top of the bore hole; elongate piston means connected to said inner core barrel structure and having a length greater than the distance between succeeding tool joints, whereby a portion of said piston means always lits closely -within a tool joint during travel of said piston means in said drill pipe to be acted upon by fluid moving through the drill string to hydraulically convey said piston means and inner core barrel structure through the string of drill pipe; said inner core barrel structure including an inner core barrel and an upper portion carrying said inner core barrel and connectible to said outer core barrel to suspend said inner core barrel therefrom, said upper portion having a uid passage therethrough, and valve means adapted to close said passage against upward flow of lluid therethrough but opening to permit downward liow of fluid therethrough.
8. In apparatus as defined in claim 7; wherein said piston means comprises a mandrel and a multiplicity of spaced piston elements mounted on said mandrel, the distance between the uppermost and lowermost piston elements exceeding the length of each pipe section, said piston elements being of a diameter to lit closely within said tool joints.
9. In apparatus as delined in claim 7; wherein said piston means comprises a mandrel and a multiplicity of spaced liexible piston elements mounted on said mandrel, the distance between the uppermost and lowermost piston elements exceeding the length of each pipe section, said piston elements being of a diameter to lit closely within said tool joints.
10. In apparatus as deiined in claim 7; wherein said piston means comprises a mandrel and a multiplicity of spaced metallic piston shims mounted on said mandrel, the distance between the uppermost and lowermost piston shims exceeding the length of each pipe section, said piston shims being of a diameter to iit closely within said tool joints.
11. In apparatus as delined in claim 7; wherein said piston means comprises a mandrel and a multiplicity of metallic piston shims mounted on said mandrel, the distance between the uppermost and lowermost piston shims exceeding the length of each pipe section, said piston shims being of a diameter to iit closely within said tool joints, and spacer means on said mandrel between said shims to hold said shims longitudinally spaced from each other.
12. In apparatus as defined in claim 7; wherein said inner core barrel is disposed below said elongate piston means; said outer core barrel including an elongate prtion receiving said elongate piston means when said inner core barrel is suspended from said outer core barrel, said elongate portion having an inside diameter greater than the outside diameter of said piston means to permit fluid to flow around the exterior of said piston means and into said fluid passage; said upper portion of said inner core barrel fitting closely within a portion of said outer barrel when said inner core barrel is suspended from said outer core barrel to enable fluid forced upwardly in said outer barrel to act on said upper portion and elevate said inner core barrel structure and piston means in said outer core barrel to a position in which said piston means is disposed in said drill pipe with a portion of said piston means iitting within a tool joint.
13. In apparatus for performing an operation in a bore hole: a string of drill pipe comprising pipe sections secured to one another by tool joints; and outer member operatively associated with said string of drill pipe; an inner structure adapted for longitudinal movement through the string of drill pipe between a position within the outer member and a position at the top of the bore hole; and elongate piston means connected to said inner structure and having a length greater than the distance between succeeding tool joints, whereby a portion of said piston means always ts closely within a tool joint during travel of said piston means in said drill pipe to be acted upon by a fluid moving through the drill string to hydraulically convey said piston means and inner structure through the string of drill pipe.
14. In apparatus as defined in claim 13; wherein said piston means comprises a mandrel and a multiplicity of spaced piston elements mounted -on said mandrel, the distance between the uppermost and lowermost piston elements exceeding the length of each pipe section, said piston elements being of a diameter to it closely within said tool joints.
15. In apparatus as defined in claim 13; wherein said piston means comprises a mandrel and a multiplicity of spaced metallic piston shims mounted on said mandrel, the distance between the uppermost and lowermost piston shims exceeding the length of each pipe section, said piston shims being of a diameter to iit closely within said tool joints.
16. In apparatus as defined in claim 13; wherein said piston means comprises a mandrel and a multiplicity of metallic piston shims mounted -on said mandrel, the distance between the uppermost and lowermost piston shims exceeding the length of each pipe section, said piston shims being of a diameter to tit closely within said tool joints, and spacer means on said mandrel between said shims to hold said shims longitudinally spaced from each other.
17. An inner core barrel structure adapted for longitudinal movement through a string of drill pipe disposed in a bore hole between a position within an outer core barrel operatively associated with the drill pipe string and a position at the top of the bore hole, the drill pipe string including pipe sections secured to one another by tool joints, comprising an inner core barrel, and elongate piston means connected to said inner core barrel and having a length greater than the distance between succeeding tool joints, whereby a portion of said piston means always tits `within a tool joint during travel of said piston means in said drill pipe to be acted upon by a iiuid moving through the drill string to hydraulically convey said piston means and inner core barrel structure through the string of drill pipe.
18. In apparatus as defined in claim 17; wherein said piston means comprises a mandrel and a multiplicity of spaced piston elements mounted on said mandrel, the distance between the uppermost and lowermost piston elements exceeding the length of each pipe section, said piston elements being of a diameter to lit closely within the tool joints.
19. In apparatus as delined in claim 17; wherein said piston means comprises a mandrel and a multiplicity of spaced metallic piston shims mounted on said mandrel, the distance between the uppermost and lowermost piston shims exceeding the length of each pipe section, said piston shims being of a diameter to it closely Within the tool joints.
20. In apparatus as defined in claim 17; wherein said piston means comprises a mandrel and a multiplicity of metallic piston shims mounted on said mandrel, the distance between the uppermost and lowermost piston shims exceeding the length of each pipe section, said piston shims being of a diameter to fit closely within the tool joints, and spacer means on said mandrel between said shims to hold said shims longitudinally spaced from each other.
21. In apparatus as defined in claim 17; wherein said piston means comprises a mandrel and a multiplicity of spaced flexible piston elements mounted on said mandrel, the distance between the uppermost and lowermost piston elements exceeding the length of each pipe section, said piston elements being of a diameter to lit closely within the tool joints.
22. An inner core barrel structure adapted for longitudinal movement through a string of drill pipe disposed in a bore hole between a position within an outer core barrel operatively associated with the drill pipe string and a position at the top of the bore hole, the drill pipe string including pipe sections secured to one another by tool joints, comprising an inner core barrel, and elongate piston means connected to said inner core barrel and having a length greater than the distance between succeeding tool joints, whereby a portion of said piston means always fits within a tool joint during travel of said piston means in said drill pipe to be acted upon by a fluid moving through the drill string to hydraulically convey said piston means and inner core barrel structure through the string of drill pipe; said inner core barrel structure further including an inner core barrel and an upper portion adapted to carry said inner core barrel and adapted for connection to the outer core barrel to suspend the inner core barrel therefrom, said upper portion having a uid passage therethrough, and valve means adapted to close said passage against upward ow of uid therethrough but opening to permit downward flow of fluid therethrough.
23. In apparatus as delined in claim 22; wherein said piston means comprises a mandrel and a multiplicity of spaced piston elements mounted on said mandrel, the distance between the uppermost and lowermost piston elements exceeding the length of each pipe section, said piston elements being of a diameter to tit closely within the tool joints.
24. In apparatus as delined in claim 22; wherein said piston means comprises a mandrel and a multiplicity of spaced metallic piston shims mounted on said mandrel, the distance between the uppermost and lowermost piston shims exceeding the length of each pipe section, said piston shims being of a diameter to fit closely within the tool joints,
25. In apparatus as dened in claim 22; wherein said piston -means comprises a mandrel and a multiplicity of metallic piston shims mounted on said mandrel, the distance between the uppermost and lowermost piston shims exceeding the length of each pipe section, said piston shims being of a diameter to iit closely within the tool joints, and spacer means on said mandrel between said shims to hold said shims longitudinally spaced from each other.
References Cited UNITED STATES PATENTS 2,023,724 12/1935 Connolly 166-153 X 2,145,170 1/1939 Frenzel 175-247 2,277,989 3/ 1942 Kinnear 175--247 X 2,294,521 9/ 1942 Steadman et al. 175-247 2,740,480 4/1956 Cox 166-153 X 3,120,282 2/ 1964 Pickard 175-247 X 3,312,282 4/1967 Yetman 166-77 X 3,332,493 7/1967 Jones 166-153 3,367,421 2/1968 Raulins 166-153 JAMES A. LEPPINK, Primary Examiner RICHARD E. FAVREAU, Assistant Examiner U.S. Cl. X.R.
US662929A 1967-08-24 1967-08-24 Coring apparatus with hydraulically retrievable inner core barrel Expired - Lifetime US3481412A (en)

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Publication number Priority date Publication date Assignee Title
US4588036A (en) * 1983-09-22 1986-05-13 Hydro-Quebec Continuous, undisturbed sampling by rotational boring in non-plastic granular tills
US5568838A (en) * 1994-09-23 1996-10-29 Baker Hughes Incorporated Bit-stabilized combination coring and drilling system
US9151129B2 (en) 2011-08-01 2015-10-06 Groupe Fordia Inc. Core barrel assembly including a valve
US20180252071A1 (en) * 2017-03-03 2018-09-06 Imdex Global B.V. Check Valve, Associated Downhole Data Collection System and Inner Core Barrel Assembly

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US4588036A (en) * 1983-09-22 1986-05-13 Hydro-Quebec Continuous, undisturbed sampling by rotational boring in non-plastic granular tills
US5568838A (en) * 1994-09-23 1996-10-29 Baker Hughes Incorporated Bit-stabilized combination coring and drilling system
US6006844A (en) * 1994-09-23 1999-12-28 Baker Hughes Incorporated Method and apparatus for simultaneous coring and formation evaluation
US9151129B2 (en) 2011-08-01 2015-10-06 Groupe Fordia Inc. Core barrel assembly including a valve
US20180252071A1 (en) * 2017-03-03 2018-09-06 Imdex Global B.V. Check Valve, Associated Downhole Data Collection System and Inner Core Barrel Assembly
WO2018157193A1 (en) * 2017-03-03 2018-09-07 Imdex Global B.V. A check valve, associated downhole data collection system and inner core barrel assembly
US10648282B2 (en) * 2017-03-03 2020-05-12 Reflex Instruments Asia Pacific Check valve, associated downhole data collection system and inner core barrel assembly
US11255156B2 (en) * 2017-03-03 2022-02-22 Relex Instruments Asia Pacific Check valve, associated downhole data collection system and inner core
AU2018226612B2 (en) * 2017-03-03 2023-11-30 Reflex Instruments Asia Pacific Pty Ltd A check valve, associated downhole data collection system and inner core barrel assembly

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