DE946041C - Core drilling tool for deep drilling with an extendable core tube - Google Patents

Description

Core drilling tool for deep drilling with an extendable core tube The invention relates to a core drilling tool for deep drilling with an extractable core tube. Such Facilities are commonly referred to as wire core drills and wire core tubes known that the core tube from the drill pipe using a. Wire rope pulled out and retracted with a corresponding gripping tool at its lower end will.

Core drills of this general type have heretofore suffered from several disadvantages on. One disadvantage was the use of intricate locking devices, to secure the removable core tube device in the working position zit, the Locking engagement or the solution takes place automatically when the core tube device lowered into the working position or from it by means of. of the wire is lifted. These intricate locking devices were the cause of mechanical errors, breakage, erosion, Wear and sticking as a result of the drilling mud and the like. In certain Cases-so far there has been a difficulty in finding the removable and pull-out Easily engage the core barrel and continue to release it for removal of the core tube with the samples from the core drill and to catch up through the length of the drill pipe.

When the core sample moves up into the interior of the core tube, has she. the endeavor to hold the entire core tube device firmly against the core tube holder to clamp below the guide, so that the locking claws only with difficulty can be opened.

There are also known core drills in which the extractable core tube in his working position on the shoulders of the drill pipe, leaving the drill bit free so that damage to the latter, especially when retracting, etc., is avoided. Included. is also the lower part of the core tube, the real one Core sleeve, freely rotatable 'arranged so that the core sleeve when receiving the stationary Core does not follow the rotation of the drill pipe, thereby impairing the Kernes is turned off. The core tube is thereby through the pressure of the flowing through Drilling fluid held on its seat, with an additional shear pin is provided as a backup, which comes to shear when the elevator. This backup however, it is only imperfect as it is beyond the lifting force. outgoing influences not withstand, as they occur in particular when being lifted by the entering core. Another difficulty so far has been the effort that the core tube after Gripping by the gripping tool pinched or clamped when the core barrel gripping device was pulled from the drill pipe to the surface. This resulted from the fact that pivoting on the claws of the gripping tool according to the previous versions was possible. Under certain circumstances, the entire core tube broke in previous facilities off and fell back to the bottom of the borehole, with both the core pipe as well as the core sample were damaged.

The invention now relates to a core drill bit of this type with a simplified and reinforced locking device that-a simple and safe operation, while avoiding the disadvantages mentioned above, enables.

For this purpose, the head part of the core tube is in two parts as one Retraction housing with the catch head for the gripper and a locking part that can be displaced for this purpose formed with rotatable suspension of the core sleeve in such a way that on the locking part pivotable under spring pressure and rotatable under projections of the drill pipe Connection engaging locking hooks are arranged when sitting, and that. the Retraction housing cooperates under tension over inclined surfaces with the locking hook for retraction.

Furthermore, there are on the cap device for grasping and pulling out the core tube means provided through which sharp, hammer-like blows the -filled core tube the removal of the locking claws from their hold below the Allow sleeve to sd their disengagement and thus the retraction of the core tube enable.

When using the previous Kernrohreinrichtüngen it is possible in various cases, for one reason or another, that the entire core tube and the gripping tool device in the lower part of the drill string were jammed - but the drill master on the surface was only aware of this when the rope ripped off or broke. It was then necessary to pull out the entire Böhrzeüg to the core barrel at grasping device and the rope to get back. According to the invention, the union device is further provided with a shear bolt coupling so that in the event of a jamming of the core tube and the gripping tool device, the bolt is sheared off before the wire rope breaks.

On the basis of the drawing, the subject matter of the invention, as yet further details are explained.

Figs. I and 2 together represent a longitudinal section through a core drill, a core tube device and a union device according to the invention, wherein FIG. 1 shows the upper part and FIG. 2 shows the lower part; Fig. 3 is an enlarged Cross-section of the suspension and support device and the liquid diversion channels the core tube device along the line 3-3 of FIG. 2 in the direction of the arrows; Fig. Q. Fig. 3 is an enlarged cross-sectional view partly in view of the gripping parts of the core barrel assembly after line 4-q. and in the direction of the arrows according to FIG. Fig. 5 represents one Longitudinal section through the locking device along line 5-5 and in the direction of the arrows of Fig. i.

In 'the drawings, in particular in Figs. I and 2, is an embodiment the invention explains which generally a hollow rod io, which consists of individual Pipes with threads at the ends are made by screwing together and that has a core tube receiving device at the lower end. In technical engineering drill pipes, of which the lowermost end io is shown in FIG in some cases as a drilling tool, drill string, hollow rods or just briefly as a drill pipe designated. The latter term is intended to be essential in the present specification to be used.

The lowermost section of the drill pipe has a drill bit i i in Form of the so-called diamond crown. The cutting surfaces are made by the ring surface 12 and the: peripheral surfaces 1q. of the reinforced bottom part of the crown, which made of hard metal or embedded diamonds. Even if the invention is explained with reference to a diamond crown, it is self-evident not limited to this and can also be used on all types of core drill bits, how they are used for taking core samples. The drill bit i i is screwed onto the clearing bush 2i by means of a thread at 15, which is also Has diamonds or other hard parts on its outer surface. The drill bit i i has a widened cutting surface i2 with a maximum diameter 14 and a inner or minimum diameter i6. A shoulder 17 is formed inside. the Cutting surface i2 has a central opening 18 through which the core sample, depending after it is cut, into the core tube, which is generally designated by 2o will occur. The clearing bush 21 is used when it has cutting points on its outer circumference, like diamonds embedded in a hard metal surface, in addition, the bore to clear to their true diameter. The clearing bushing is in turn screwed screwed to the outer tube 22 of the core tube assembly at the bottom of the drill string. The core tube, generally designated 2o, is loose in the outer core tube device 22, which extends up to the drill bit, inserted and on the locking body provided with shoulders 24, which run down and onto the inner ring shoulder 25 of the suspension coupling part 26, which is screwed into the outer tube 22 at the top, rests. The lower end of the core tube receiving the core becomes free out of contact held by the inner shoulder 17 of the drill bit.

The core tube 2o consists of a central tube part 27 of a replaceable core tube extension 28, which is connected to it at its lower end, a core lifter 29 and a core lifter housing 30 which is screwed into the extension tube 28 at the bottom. The housing 30 carries the core lifter 29, which consists of a resilient slotted spring steel ring with a plurality of longitudinal slots or ribs around its inner circumference. This serves to grasp and hold the core sample as well as to break off the core and to hold it against falling out of the core tube when the core tube is pulled to the surface. The lifting ring 29 is retracted on its outer surface and mates with the corresponding conical inner surface of the core lifter housing 30. When the assembly jo (tubes 27, 28 and 3o) is raised, the ring 29 is pulled together on the core until the core is pulled and The lifting movement for this purpose will be described below.

A threaded coupling part 3z connects the inner pipe 27 to the inner pipe head 32. This coupling 3 1 is provided with openings 34 to allow the drilling fluid to exit when the core fills the interior of the core pipe from below. A reinforcing spindle 35, threaded at both ends, is positioned in a central bore 36 through the inner tube head 32. The suspension washers 38 are held on the lower threaded end 37 of the spindle 35 by the screwed-on castle nut 39, which is secured by a split pin 40 through an opening 41 at the end of the spindle and a slot in the nut. The upper end of the spindle is screwed into the body of the locking device 44.

A pair of sliding rings 45 and 46 are held on the spindle by plug pins 42 of the body 44 of the locking device and furthermore the inner pipe head 32 is held accordingly. which allow free rotation of the entire core tube device relative to the body 44 of the locking device. When the locking device rotates with the drill string, the core barrel assembly can be rotated freely with respect to the locking device 44 or remain in position so that the core sample inside the pipe is protected from damage due to rotation of the pipe.

The locking body 44 comprises a thickened lower part with downwardly directed shoulder surfaces 24 as a seat on the inner upwardly standing shoulder surfaces 25 of the suspension coupling part 26. This seat of the locking body 44 (shoulder 24) on the shoulder surface 25 of the coupling part 26 of the drill pipe gives an exact base on which sits the wire rope core tube in the drilling position. In this position, the lower end part 3o of the core tube device is free opposite the shoulder 17. If the inner core tube is now filled with a core and the drill master wishes to pull the core, he must, out of the context of the earth formation through which the drill is proceeding, to get broken. For this purpose, the drill master lifts or lifts the drill pipe, the tensile force from the drill pipe via the coupling 26, the bearing surfaces 24 and 25 on the locking body 44 and then the spindle 35, the nut 39, the washers 38 on the pipe head 32 and then is again transmitted via the coupling 31 and the tubes 27 and 28 to the end part 30 , which acts on the lifting ring 29, actuates it to grip, lift and break off the core, as already mentioned above.

A plurality of arcuate slots or channels 50 in the locking body 44 following the shoulders 24 and 25 gives the passage for the drilling fluid around the bearing surfaces when the core tube is seated in the hanging coupling part 26. As As can best be seen from FIGS. 4 and 5, the upper part 5 i of the locking body of smaller diameter than the lower part and is still with an elongated one Cross slot 52 and with a bore 54 across and perpendicular to this slot on the lower end of the same provided. Within the slot 52 of the locking body a pair of normally outwardly extending locking lugs or pawls 55 side by side arranged in opaque relationship. The claws are with openings on their lower ones Ends on a pin 57, which sits in the hole perpendicular to the slot, pivoted. Any of these Claw 5.5 has an outside hardened tooth 58 (Fig. z) ,. which extends through an opening 59 in the locking part retraction housing 66 for engaging an inner annular locking and retaining shoulder 6o, which is formed by the lower threaded end of the termination coupling 61, extends. the Final coupling 61 is screwed into the guide coupling part 62, and both form part of the drill pipe. The shoulder 6o, which on the claws. 55 and so acts on the locking body 44, prevents the inner core receiving tube 27 is raised when drilling. Each of the claws 55 is still with one on the inside edge riveted spring part 64 for engagement on the inner wall of the locking part retraction housing 66 provided to the locking pawls normally outward for engagement on the shoulder to press the drill pipe. It is readily apparent that the springs instead of that they are riveted, as shown, also be fastened in other ways can; for example by spot welding, screws, bolts or the like.

Above and around the upper part of the locking body and to rest on the shoulder 67, which is formed by the reinforcement of the lower part of the locking body, the cylinder-like locking part retraction housing 66 is arranged, which is accordingly open at its lower end and has an inner diameter; that it slides over the part 51 of the locking body 44. The housing 66 has a threaded opening 68 at its upper reinforced end 69 for receiving a locking part retraction housing 66 is provided with slots 59 (Fig. 5) through which the locking claws 55 normally engage with the teeth 58, except when the core tube is withdrawn . The lower ends 7o of the slots 59 are tapered inwards for engagement with the outer beveled edges of the locking claws 55, so that when the locking part retraction housing 66 moves upward, the locking claw 55 is moved inward, whereby the number part 58 disengages from the annular locking shoulder 6o the final coupling part 6i comes. The circumference of the locking part retraction housing 66 is also provided with two further slots 7, which are perpendicular to the plane of the axis of the first-mentioned seat braid 59; the slots 71 are arranged deeper in the locking part retraction housing 66 in order to receive the ends of the pin 57 on which the locking claws 55 are pivotably mounted in the locking part. The bolt 57 and the slot 71 limit sliding movement of the ratchet retraction housing 66 relative to the ratchet qq. A spear head 72 is screwed with a thread into the locking part retraction housing 66 and is secured against loosening by the adjusting screw 7 in the screw hole 75 on the side of the retraction housing 66.

The guide coupling part 62, which the locking mechanism. encloses, is screwed with its lower end into the. Aufhangkupplüngteile 26 and has on its outer surface a plurality of strips or bands 76 of stellite or similar hard metal surface material on; around the reinforced lower end of the drill pipe to guide and prevent it from wobbling.

The locking coupling part 61 is in the guide coupling part 62 screwed in, which in turn has a thread for screwing into the threaded part at the lower end of the section 77 of a conventional drill pipe part from which the Bohrrohr zo is composed, is provided. The lower end of the locking coupling part 61 is cut out over a little more than half of its diameter between 78 and 79, as shown in Fig. q. and 5 can be seen, for engaging the sides of the locking pawls, to transmit the rotary movement of the drill pipe to the locking part. This is used to Delaying the relative movement of the drill pipe and the parts of the core pipe equipment, which are in contact with the interior of the drill pipe; in this way wear and tear on these parts, especially the shoulders and also the locking claws for the core pipe are prevented while inside the drill pipe at the same time a free relative rotation of the core receiving tube is possible. It should be mentioned that the surface 6o on which the tooth 58 of the locking claw 55 rests, represents part of this section between 78 and 79.

The gripping tool or the transfer device is generally 8o in its position in the drill pipe and in the correct position for receiving the -Kernrohareinrichtung including the core tube 2o. The union device 8o comprises a pair of pulling bow 81 with the claws 82, which `in the gripping position for the spearhead 72 of the. Core tube assembly are shown. The pulling claws 81 are in the opposite position in an elongated transverse slot 85 of the cap body 84 pivotable on a bolt 86, which extends through 'the cap body and the partially deposed and. overlapping hub parts 87 of the pulling claws, extends, arranged. A coil compression spring 88, which on at the upper ends of the pulling claws welded pins 89, normally pushes these ends apart and so that the claws 82 together in the gripping position, whereby by pressing apart the claws against this spring tension reaching over to the point, the spear head 72 takes place when lowering the throwing device in the drill pipe. -The lower end of the cap body below the slot which contains the pulling claws a collar 9o which extends over a corresponding cylindrical projection pushes down on the upper part of the locking part retraction housing and thus the entire Core tube device and the union device gives stability when they be withdrawn from the borehole. Usually the known one is in the facilities Kind without this collar the core tube is free for swinging movements around the claws of the Gripping tool, so that there is always the risk that the core tube from the. Gripping tool is released and back on the .Bbohrkrone on the bottom of the borehole falls. Above the platform of the borehole makes sense. on the other hand in this way the workers and equipment at risk.

The upper end of the cap body has an internal thread for connection connected to a lower impact body 94. The same has a central opening in which one end of the bolt 96 is attached and by means of the pin 96, the through the body and the bolt going is held. On the top of the bolt 96 an externally threaded upper striker 98 is attached. The top end of the bolt 96 has a nut 99 on its thread, which by a split pin is secured at the end of the bolt. The upper striker 98 is in the lower end screwed in a pipe part ioo, in which the wire coupling ioi sits at the top. It has a central opening for attaching the wire rope or cable io4, which after passing through the part ioi gagged or fastened in some other way can be.

The upper joint parts ioi-ioo-98 allow a hammer-like effect against the lower impact body 94 and thus on the coupling part 84, if such Action is required to the claws 82 of the tie rods 81 over the locking head 72 of the core tube to drive. The hammer effect can be achieved simply by lifting the Wire rope can be achieved with the upper impact body the length of the bolt 96 slides upward, and then by dropping it, the lower surface of the upper Impact body 98 strikes the surface of the lower jaw body 94. Through this A sharp blow on the locking part 44 of the core tube is also used to release it of the claws 55 exercised. An upward thrust then becomes the ratchet retraction housing 66 move and serves to free the teeth 58 of the locking pawls 55 from the shoulder 6o, in case they are stuck, as is often the case. The impact by operating the wire rope gives the drill master a new relief and possibility of operation.

When operating the core removal device according to the invention the drill bit i i and the drill rod io remain in their normal manner Working position on the bottom of the borehole. The pipe parts attached to one another, which form the drill pipe extend to the surface of the earth. Parts of the borehole Above the drill bit can be provided with a lining. The upper part of the The drill pipe is rotated and fed in a corresponding manner on the surface taken in a conventional drilling device. It is common to use a drilling fluid or introduce a drilling mud into the interior of the drill pipe and continuously through it to circulate the hole, using the fluid for lubrication and support the drill bit when cutting and when removing the drilled particles from the Earth formation along the outer surface of the drill pipe to the surface where one serves allow the drill particles to settle and reintroduce the liquid. The core pipe device can be lowered through the drill pipe by means of a wire rope, or you can let it fall to the bottom of the borehole because of its weight. The presence of drilling fluid in the drill pipe serves to reduce it the speed of the free falling core pipe through the drill pipe; preferably is therefore simply the core tube device by the implementation of the invention Drill pipe dropped down. It falls through the water or another Drilling fluid at a rate which is not excessive and comes to rest when the shoulders 24 and 25 are touched. Press the walls of the drill pipe the normally outwardly striving locking claws 45 inwardly against the springs 64, so that the locking claws by no means in the downward course of the core tube through the Disrupt drill string. As soon as the core pipe reaches the bottom of the borehole, hits the beveled shoulder 24 on the outer periphery of the locking portion of the core tube onto the upwardly pointing annular shoulder 25 in the inner circumference of the suspension coupling part 26 and sits on it. Usually this section would be shoulder to shoulder serve as a valve and cut off the flow and flow of drilling fluid, however, through the arcuate channels 5o, which in the locking body of the core tube are incised, a flow of drilling fluid around the shoulder bearing parts enables. The shoulder 24 of the locking part of the core tube rests on the shoulder 25 of the drill pipe, so that the core lifting housing 3o at the end of the inner core receiving tube 27 out of contact with the inner shoulder 17 of the drill bit i i remains and thus the end of the core tube and furthermore the core sample in front of a resulting one Damage preserved.

As soon as the shoulder of the core pipe on the shoulder of the drill pipe comes to rest, the locking pawls snap outward into their normal open position and engage on the locking coupling part 61, the lower edges of the claws sit under the locking coupling part so that the core tube moves upward is prevented in the drill pipe when cutting out the core. The sides of the locking claws 55 engage in the cutout 78 to 79 of the locking coupling part and connect the locking part rotatably with the drill pipe. The pawl springs 64 hold the Locking pawls in closed position while drilling a core sample.

The core tube is now ready to receive core samples. The rotation of the drill pipe can now begin and with it the cutting out of the core. As a result the circular shape of the cutting surfaces 12-14 and the central opening 18 the drill bit results in an increasingly deeper circular opening with a rigid rod-like shaft or core of the drilled soil that passes through the central opening 18 of the drill bit, through the core lifter housing 30 and the core lifter ring 29 is pressed into the core tube 20. As a result of the closed position the Locking pawls 55 rotate the upper parts of the core tubing assembly with the drill pipe io, while on the other hand due to the low-friction bearing structure 47 and 48 between the Locking body 44 and the inner tube head 32, the inner core receiving tube completely is freely rotatable with respect to the drill pipe io. It can therefore stand still while the rest of the drill rotates. That way, the core sample itself doesn't become just any Impairment as a result of a possible internal rotation of the core tube exposed. As the core sample extends upward into the core receiving tube, there will be more Drilling mud or other invert fluid pressed out of the interior of the core tube, namely through the openings 34 at the tip of the inner tube.

After a core of the desired length is cut out, the well stopped and the water coupling from the end of the drill pipe to the surface removed. Then the drill pipe is pulled up a short distance to the core cancel, whereupon the throwing device 8o into the opening at the end of the wire rope 104 is lowered. When the device 8o arrives at the upper end of the core tube device engage the teeth 82 of the pulling claws 81 over the spear head 72 at the top of the Core tube, while at the same time the stabilization collar 9o extends over the upper Pushes down the end 69 of the core tube assembly. If there is any resistance the wire rope is tightened and released to a sharp hammer-like blow exercise on the core barrel assembly by pulling the upper bump 98 of the union assembly, which is connected to the wire rope, is raised and up to the length of the bolt 96 slides up and then falls back down. A sharp blow from the impact of the impact body 98 against the lower impact body 94 is usually sufficient to to achieve the clutch. If this does not happen, the process is repeated. If the claws 55 are not released by simply pulling the wire rope 1o4, the hammer effect is continued until it is released.

Then the wire rope 104 is pulled by a conventional winch or exercised corresponding pulling device for pulling out the core tube device. Since the pulling claws 81 of the throwing device up onto the spear head 72 at the Acting locking part retraction housing 66; move the beveled slots 7o des Retraction housing in which the locking claws are arranged, upward in relation to to the locking body 44 and the locking pawls 5 $ and urge the latter inwardly out of engagement with the locking coupling part 61, the. Core tube device then free to pull out has become out of the borehole. If for any reason the core tube 2o is on If the bottom of the drill pipe is stuck and cannot be removed, the pin 97 shears in the union device and thus eliminates the risk of a wire break or Breakage when attempting to pull the core tube forcibly. In such a case the wire rope is withdrawn and the drill pipe removed according to normal practice of the core extended.

Claims (5)

PATENT CLAIMS_ i. Core drilling tool for deep drilling with a means a gripping device on a wire rope extendable and retractable core tube, consisting of a head part with a freely rotatable core sleeve, the head part in Working position at the foot on the shoulders of the drill pipe, leaving the drill bit free with releasable locking under lift, characterized in that the head part of the core tube in two parts as a retraction housing with the catch head for the gripper and a locking part displaceable for this purpose with rotatable suspension of the core sleeve is that swing out on the locking part under spring pressure and under projections of the Drill tube with a rotationally locked connection when sitting on engaging locking hooks are arranged and that the retraction housing under train over inclined surfaces with the Locking hook cooperates for collection. . 2. Core drilling tool according to claim i, characterized in that between the fastening part of the wire rope and the gripper a pusher consisting of two on one axial bolt slidable impact bodies, is arranged so that when lifting the wire rope and easing of the same by the collapse of the impact body - a hammer-like one Hit the .die gripper to snap over or the entire connection system is exercised to loosen the locking parts. 3. Core drilling tool according to claim i and 2, characterized in that a collar-like approach on the holder of the gripping claws is attached so that the same when reaching over the pliers on a corresponding Approach of the upper part of the locking device for the purpose of stabilizing the connection postpones. 4. core drilling tool according to claim i to 3, characterized in that the connecting bolt of the joint parts as a shear bolt when the wire rope is overloaded is trained: 5. core drilling tool according to claim i to _4, characterized in that; that in that. Head part of the core tube passage channels for the drilling fluid at Sitting on the crown tube are arranged on its bearing surfaces. Into consideration Drawn pamphlets: U.S. Patent Nos. 2,019,176, 2,189,057, 2,347,725.