EP0374788A2 - Telescopic drill string - Google Patents

Abstract

In a telescopic drill string which contains an inner rod (4) and at least one further string part (3) coaxial to the inner rod (4), the string parts being provided with means for transmitting torque and for transmitting a pressure force in the direction of a connecting piece (9) for a tool, a coupling device (11) is provided for the inner rod (4) and the string part (3) adjacent to it. The coupling device (11) has a removable coupling part (16) overlapping a shock absorber (10) of the inner rod (4) in the mounted state and leaving the inner rod (4) with limited axial mobility relative to the adjacent string part (3). <IMAGE>

Description

The invention relates to a telescopic drill pipe according to the preamble of claim 1.

In the case of telescopic drill rods, at least two coaxial rod parts or at least one rod part and a so-called Kelly rod can be axially displaced relative to one another. The innermost part of the rod or the Kelly rod is suspended on a rope. In an expedient embodiment, the linkage receives its rotation via a driver which can be connected to a power turret or a corresponding unit for generating torque and which engages with an inner profile in an outer profile of the associated linkage part. The parts of the linkage are designed in such a way that, in addition to the transmission of torques, a compressive force can also be transmitted from one part to the other in one direction, namely towards the tool, in certain relative positions thereof in order to exert a pressure on the tool. Different versions are possible.

On the upper or outer part of the linkage, the design can in particular be such that an outer profile on it Linkage part in its longitudinal extension is interrupted at one or more points or is designed in such a way that pressure receiving surfaces result, on which areas of the driver can rest in order to exert a pressing force. In this or a similar way, pressure-receiving surfaces can also be provided on further rod parts.

A shock absorber is provided at least on the innermost or last linkage part or a Kelly rod to dampen impacts, such as occur in particular when the linkage parts are pushed into one another. With a simple and robust design, this is a damper equipped with a compression spring. Another shock absorber is conveniently located in the upper area of the telescopic linkage.

If a large drilling depth is to be achieved, the telescopic rod in question is gradually extended to its maximum length. During the last repositioning process, the inner rod remains in position with the drilling tool standing on the bottom of the borehole, while the next, adjacent part of the rod and its other parts move relative to the inner rod by corresponding movement of the feed drive. At the beginning of the subsequent drilling process, the rod parts engage again in such a way that a compressive force can be transmitted over all parts to the inner rod and thus to the tool.

Depending on the circumstances, it may be necessary or desirable to work with a large drilling pressure at certain drilling depths that do not require the full length of the telescopic rod. It is also in such a case with conventional linkages not excluded that the inner rod is released unintentionally. However, the inner rod can only be loaded to a limited extent, so that it can possibly no longer withstand a compressive force that can still be easily absorbed and transmitted by the other rod parts and is damaged or even kinked, which would make an expensive repair of the rod necessary.

The object of the invention is to provide a telescopic linkage of the type described, which, when working with increased pressure, excludes the unintended inclusion of the inner rod in the process and thus the risk of damage or destruction of the latter. The invention also strives for an advantageous design of the device in detail. Further problems connected with all of this, with which the invention is concerned, result from the respective explanation of the indicated solution.

The invention provides a coupling device for the inner rod and the adjacent rod part, which includes a removable coupling element which overlaps the shock absorber of the inner rod in the assembled state and which has a limited axial mobility relative to the adjacent rod part.

Such a coupling device makes it possible in a simple manner to quickly connect the inner rod to the adjacent linkage part if necessary. The function of the shock absorber is not affected. The device is straightforward and easy to use.

The design of the removable coupling part can be easily adapted to the circumstances. In an expedient embodiment, it is cage-like.

The removable coupling part advantageously consists of two halves which can be connected to one another by screws. This can be the case at both division points. The parts or halves can also be hinged to one another on one side.

In a very expedient embodiment, the removable coupling part can be fixed with a head at the free end of the linkage part which can be attached to the inner rod, and there is a support or the like at a distance from the head for at least one radial projection. the inner rod or a part connected to it. The projection can in particular be designed as a split ring.

• Fig. 1 ein vierteiliges Teleskop-Bohrgestänge in einge­schobenem Zustand,
• Fig. 2 den unteren Teil des Gestänges nach Fig. 1 in einem Zustand, bei dem mit Ausnahme der Innen­stange alle Teile ausgeschoben sind (gekuppelte Innenstange),
• Fig. 3 die aus dem ihr benachbarten Gestängeteil ausge­schobene (entkuppelte) Innenstange bei dem Gestänge nach Fig. 1,
• Fig. 4 eine Ausführung der Kupplungsvorrichtung im einzelnen, halb im Schnitt und halb in Ansicht, bei zusammengeschobenem Gestänge,
• Fig. 5 eine der Fig. 4 entsprechende Darstellung der Kupplungsvorrichtung mit Veranschaulichung eines ausgeschobenen Zustandes,
• Fig. 6 eine der Fig. 4 entsprechende Darstellung der Kupplungsvorrichtung in einem Andruckzustand,
• Fig. 7 einen Kupplungsteil in Ansicht bzw. im Schnitt nach der Linie VII-VII in Fig. 8,
• Fig. 8 einen Schnitt nach der Linie VIII-VIII in Fig. 7,
• Fig. 9 bis 11 den Figuren 4 bis 6 entsprechende Darstel­lungen dedes Gestänges in entkuppeltem Zustand der Innenstange.

Further details, features and advantages of the invention result from the following explanation of exemplary embodiments, from the associated drawing and from the claims. Show it:

• 1 is a four-part telescopic drill pipe in the inserted state,
• 2 shows the lower part of the linkage according to FIG. 1 in a state in which all parts with the exception of the inner rod are pushed out (coupled inner rod),
• 3 shows the inner rod pushed out (uncoupled) from the adjacent rod part in the rod according to FIG. 1,
• 4 shows an embodiment of the coupling device in detail, half in section and half in view, with the linkage pushed together,
• 5 shows a representation of the coupling device corresponding to FIG. 4, illustrating an extended state,
• 6 shows a representation of the coupling device corresponding to FIG. 4 in a pressure state,
• 7 is a coupling part in view or in section along the line VII-VII in Fig. 8,
• 8 shows a section along the line VIII-VIII in FIG. 7,
• FIGS. 9 to 11 representations corresponding to FIGS. 4 to 6 of the linkage in the uncoupled state of the inner rod.

If the information "above" and "below" is used in this description, this applies to the drawing. At the same time, this corresponds to most applications of the boom itself.

The illustration of the collapsed four-part telescopic linkage in FIG. 1 reveals the following elements: an outer linkage part 1 designed essentially as a round tube, a driver 5, or the like on a rotary head (not shown). can be connected and can exert both a torque and a compressive force on the linkage, a guide arranged in the region of the upper end of the outer linkage part 1 and shock absorber unit 6, a fork piece 7 with a connection for a cable 8, a coupling device designated overall by the number 11 and the lower end region of an inner rod forming the innermost part of the linkage with a connection piece 9 for a tool.

The elements used to transmit torque and pressure forces from the driver 6 to the linkage parts and from one element to the other linkage part are not shown. They can be of well-known education.

Fig. 2 shows a part of the telescopic linkage in a state in which the inner rod 4 is connected to a directly adjacent and coaxial to it next linkage part 3 by the coupling device 11 and both linkage parts 3, 4 are pushed out of a next connecting linkage part 2 . The rod part 2 is in turn pushed out of the outer rod part 1. From Fig. 2 it can also be seen that the fork piece 7 is attached to the connection for the rope 8 at the upper end of the inner rod 4.

In the state of the telescopic rod shown in FIG. 2, in which the inner rod 4 is not extended, it is possible to work with increased pressure without endangering the inner rod.

In Fig. 3, the coupling between the linkage parts 4 and 3 is released, so that the inner rod 4 could also be pushed out of the adjacent linkage part 3 by releasing the rope 8. The number 10 denotes a shock absorber in the area of the lower end of the inner rod 4. Coupled, like the figures 1 and 2 show, the shock absorber 10 is overlapped by a part of the coupling device 11.

An advantageous embodiment of the coupling device 11 is explained in detail below with reference to FIGS. 4 to 8.

At the lower end of the rod part 3 adjacent to the inner rod 4, a ring 12 is fastened with a circumferential groove 13. A radially inwardly directed collar 14 on the head 15 of a removable coupling part 16 engages in the latter. The latter is cage-like in the advantageous exemplary embodiment shown, as can also be seen in FIG. 7. It consists of two halves 16a, 16b articulated to one another by means of a hinge or in another suitable manner, so that it can be folded around the relevant parts of the linkage in the unfolded state. The two halves are then clamped together by screws 17.

The coupling part 16 has, following the head 15, a wall region 19 provided with openings 18, which ends at the bottom in an annular extension 20 with an inner shoulder surface 20a.

The inner rod 4 is connected by a bolt 21 to a driver piece 22 on which there is the connection 7 for a tool (the connecting shaft of such a tool is only indicated by dash-dotted lines) and at the same time via a ring part 23 a support for a helical spring 24 acting as a compression spring of the shock absorber 10 forms. The other end of the spring 24 bears against an annular body 25 which is displaceable on the inner rod 4.

A split stop ring 27 is inserted into an annular groove 26 of the driver piece 22, the halves of which are connected to one another by a screw 28. At the diametrically opposite point, the two ring halves can be hinged together or connected by a screw. On the stop ring 27 there is a spacer 29 which, when pushing the rod through the driver 6 (upwards in FIG. 1), can come into contact with the latter and thereby limit the displacement path.

In the state shown in FIG. 4, the linkage is pushed together, as is also the case in FIG. 1. The stop ring 27 lies on the inner shoulder surface 20a of the extension 20 of the coupling part 16. The inner rod 4 can therefore no longer push out from the adjacent linkage part 3. The same applies to the state of FIG. 5, where it is indicated that the linkage parts 1, 2 and 3 have shifted relative to each other. The inner rod 4 maintains its position relative to the rod part 3. 6 shows a working state in which drilling can be carried out with high pressure. The spring 24 of the shock absorber 10 is compressed here. As a result, the stop ring 27 is now at a distance from the shoulder surface 20a.

FIGS. 9 to 11 illustrate corresponding states, as shown in FIGS. 4 to 6, but now when the coupling between the inner rod 4 and the adjacent linkage part 3 is released. The coupling part 16 is therefore removed. Fig. 10 in particular recognize that the inner rod 4 is now free and can slide out of the neighboring rod part 3 when the rope 8 on which it hangs. 3 shows the resulting final state.

All of the features mentioned in the above description or shown in the drawing, if the known state of the art of Tecknik permits it, should be regarded as falling within the scope of the invention on their own or in combinations.

Claims (6)

1. Telescopic drill pipe with an inner rod part forming, provided with a shock absorber and having a connection for a tool inner rod and at least one further rod part coaxial to the inner rod, the rod parts with means for torque transmission and for transmitting a compressive force in the direction of the Tool connection end of the inner rod are provided, characterized by a coupling device (11) for the inner rod (4) and the adjacent linkage part (3) with a removable, in the assembled state, the shock absorber (10) of the inner rod (4) overlapping and the inner rod (4) has a limited axial mobility relative to the adjacent linkage part (3) coupling part (16). 2. Telescopic drill pipe according to claim 1, characterized in that the removable coupling part (16) is cage-like. 3. Telescopic drill pipe according to one of claims 1 and 2, characterized in that the removable coupling part (16) consists of parts (16a, 16b) which can be connected to one another by screws (17). 4. Telescopic drill pipe according to one of claims 1 to 3, characterized in that the removable coupling part (16) consists of hinge-like hinged parts (16a, 16b). 5. Telescopic drill pipe according to one of claims 1 to 4, characterized in that the removable coupling part (16) with a head (15) at the free end of the inner rod (4) adjacent rod part (3) can be fixed and at a distance from the head (15) a support (20, 20a) for at least one projection (27) or the like. the inner rod (4). 6. Telescopic drill pipe according to claim 5, characterized in that the projection of the inner rod (4) is designed as a split ring (27).

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