EP0510416B1 - Percussion mechanism for drill string - Google Patents

Abstract

The invention relates to a percussion mechanism for a drill string, having a percussion piston which is guided in a housing and moved to and fro under the action of a pressurised hydraulic medium. <??>In order to be able to act upon the drill string in different directions with percussion energy, if necessary, the invention proposes to design the housing (3) to be open on both sides in the longitudinal direction of the percussion piston (4) and to provide the latter with a passage bore (4b) into which the drill string (2) projects, at least with a part of its overall cross-section. Said drill string has a meeting face (9a) which can be acted upon by the percussion piston (4) and can be handled in such a way that the percussion direction of the percussion piston is reversible by transferring the percussion mechanism (1). <IMAGE>

Description

The invention relates to a percussion mechanism for a drill pipe, in particular for drilling rock and anchor holes, with a percussion piston guided on a housing, which is moved back and forth under the action of a pressurized hydraulic medium.

The different, possibly unpredictable formation of rock and / or material layers that can be drilled through often leads to difficulties or an increased effort in pure rotary drilling; especially when processing highly abrasive materials, the drill bit of the drill pipe is subject to increased wear, with the result that the drilling progress may drop considerably. In many cases, the stratifications in question can therefore only be drilled economically if the drill pipe is - at least temporarily - additionally subjected to impact energy generated by a striking mechanism.

From DE-C1-35 03 893 a drilling device for so-called double-head drilling is known, the drill string of which consists of a tubular outer rod and an inner rod running in it. While the outer linkage only has a rotary drive, the inner linkage is equipped with a rotary impact drive.

The known drilling device can be operated so that the outer linkage - in contrast to the inner linkage also subjected to impact energy - is only rotated or that the blows of the inner linkage are also transmitted to the outer linkage via an annular collar. It is also possible to work with only rotating outer and inner rods by switching off the striking mechanism.
Depending on the working conditions, there may be considerable casing friction and / or (for example due to material falling in the borehole) resistances, which make it difficult or even impossible to drill and pull the outer rod.
To support the drawing process, the design of a striking mechanism with an additional piston has already been proposed with DE-A1-29 18 631; if necessary, this serves to hold the counter surface of the tool interacting with the percussion piston in the direction of the percussion piston.
With the striking mechanism designed in this way - which is part of a drilling device - the resistances opposing the drawing process cannot be overcome in all cases.

The document US-A-3 833 072 describes a percussion mechanism for a drill pipe, the percussion piston of which is moved to and fro using both a pneumatic and a hydraulic drive means and - due to the use of an internal tube section connected to the housing - against this The drill pipe is shielded. The known device is otherwise designed such that the percussion piston completely accommodated within the housing strikes the housing and drives the drill pipe in the direction of advance via the latter.

The invention has for its object to develop a hydraulically operated hammer mechanism for a drill pipe, the use of which can be adapted to different working conditions with reasonable effort. The hammer mechanism should in particular be such that the problematic drilling work described above can still be carried out economically.

The object is achieved by a striking mechanism with the features of claim 1. The basic idea of the invention is that the housing supporting the percussion piston is open on both sides and the percussion piston itself is designed as a hollow piston, in the through bore of which the drill pipe projects at least with part of its total cross section; in the normal case there will be an arrangement in which the drill pipe is passed through the hollow piston at least with part of its total cross section.
If the drill pipe - seen in cross section - consists only of a single pipe, the mutual assignment can be made such that the drill pipe protrudes into the through hole or is normally passed through it, the percussion piston directly or indirectly (for example via a drill pipe attached to the drill pipe Impact piece) acts in the direction of impact on the drill pipe. When interacting with a double linkage (consisting of an outer linkage and an inner linkage running in it), the mutual assignment can be such that either only the inner linkage or the outer and inner linkage projects at least into the percussion piston driving the outer linkage or is guided through it.
The invention further assumes that the drill pipe (possibly the outer pipe of a double pipe) has a counter surface that can be acted upon by the percussion piston and can be handled in a manner that enables the striking mechanism to be moved with the resultant reversal of the striking direction; the percussion piston only protrudes from the housing on the side facing it. An advantageous, in the normal case already existing configuration of the drill pipe, which allows or simplifies the expansion of the striking mechanism, consists in that the drill pipe is divided into detachable longitudinal sections. By detaching these longitudinal sections from one another in the area of the striking mechanism, the striking mechanism can be pulled off from the drill pipe enclosed by it and implemented transversely to its longitudinal axis by rotating about an (imaginary) axis. This has the consequence, for example, that the impact mechanism, which is initially effective in the direction of the drilling progress, can act directly or indirectly on the drill rod (or outer rod in the double rod) after it has been moved in the opposite direction (i.e. in the pulling direction). The invention thus makes it possible to use the hammer mechanism - depending on its coupling to the drill pipe - to influence the drill pipe in the direction of the drilling progress or in the direction of pull.
The diameter of the through hole must be dimensioned such that it is larger than the outside diameter of the drill pipe with sufficient play, taking into account the largest possible drill pipe deflection. The distance between the percussion piston and the outer diameter mentioned will be at least a few millimeters given the size relationships mentioned here.

The percussion piston can be designed in such a way that its axial length is shorter than that of the housing (claim 2).

The trouble-free operation of the striking mechanism can at least be supported by the counter surface of the striking element in the direction of the striking piston is conically shaped and this has an adapted face (claim 3).

The configuration required for the implementation of the striking mechanism with respect to the drill pipe can be realized in a simple manner in that the counter surface is part of a ring which, detachably, is supported in the direction of impact on a stop surface of the drill pipe (claim 4). The ring can in particular consist of several ring segments which can be screwed together. Another useful design of the ring is characterized in that it has a plurality of ring segments which are connected to one another in an articulated manner and have a closure element, for example in the form of a tensioning screw.

As has already been mentioned, the subject of the invention can not only be used to drive a normal drill pipe (in the form of a single pipe) in the direction of the drilling progress or in the opposite direction of pull.
If the drilling device is equipped with a double rod (cf. DE-C1-35 03 893), the striking mechanism can also be coupled to the associated outer rod (claim 5). Such an embodiment - in which the through bore of the percussion piston receives the inner linkage or the outer and the inner linkage - makes it possible to pull the outer linkage held in place by casing friction and / or falling material or to additionally drive it during the drilling process by applying impact energy.

Fig. 1

stark schematisiert einen Teil-Längsschnitt durch ein Schlagwerk, dessen hohl ausgebildeter Schlagkolben in Richtung des Bohrfortschritts auf ein Bohrgestänge (rechte Hälfte des Bohrgestänges) beziehungsweise auf das Außengestänge eines Doppelgestänges (linke Hälfte des Bohrgestänges) einwirkt,

Fig. 2

einen Teilschnitt durch das Schlagwerk gemäß Fig. 1 im Bereich der Schlagfläche des Schlagkolbens nach dem Umsetzen, d. h. mit der Möglichkeit der Einwirkung des Schlagkolbens auf das Bohrgestänge in Ziehrichtung, und

Fig. 3

stark schematisiert eine Bohrvorrichtung nebst Schlagwerk mit einem Schlagkolben, der unmittelbar auf das Außengestänge eines Doppelgestänges einwirkt und durch den das Innengestänge hindurchgeführt ist.

The invention is explained below with reference to the drawing.
Show it:

Fig. 1

highly schematic, a partial longitudinal section through a hammer mechanism, the hollow piston of which acts in the direction of drilling progress on a drill pipe (right half of the drill pipe) or on the outer pipe of a double pipe (left half of the drill pipe),

Fig. 2

a partial section through the striking mechanism according to FIG. 1 in the area of the striking surface of the percussion piston after the transfer, ie with the possibility of the impact of the percussion piston on the drill pipe in the pulling direction, and

Fig. 3

highly schematized a drilling device together with percussion mechanism with a percussion piston, which acts directly on the outer linkage of a double linkage and through which the inner linkage is guided.

The percussion mechanism 1, which can be used to act on a drill pipe - generally designated 2 - has as main components a housing 3 and a percussion piston 4 movably guided therein. This is dimensioned shorter in the direction of its longitudinal axis 4a than the axial length of the housing 1 and provided with a through bore 4b with the bore diameter B.
Spaces between the percussion piston 4 and the housing 3, which are not further designated, are represented by a control 5 with a feed line 6 hydraulic pressure medium and a return line 7 in connection. The control generates the periodic movement of the percussion piston 4 in the sense of the double arrow 8 in that it establishes a connection to a pressure medium source (not shown) or to the unpressurized return line 7 via the feed line 6. The controller 5 and its interaction with the percussion piston 4 are not the subject of the invention and are known per se (cf. DE-C2-24 28 236): The only thing that is important in the context mentioned here is that the percussion piston 4 alternates a working movement in the direction of impact (ie downwards in FIG. 1) and in the return stroke direction (ie upwards in FIG. 1) with respect to the housing 3.

The design and mutual assignment of the components 3 and 4 is further selected so that the percussion piston 4 only protrudes from the housing 3 in the direction of impact (i.e. downwards in FIG. 1). Like the percussion piston, this is open on both sides - seen in its longitudinal direction. H. it has on its front side pointing in the direction of impact an outlet bore 3a adapted to the percussion piston and on its rear side a through bore 3b adapted to the drill pipe 2; the outer diameter of the drill pipe is designated G.

The drill rod 2 to be driven by the percussion piston 4, which is guided through it and through the housing 3, carries a detachably attached percussion piece in the form of a multi-part ring 9 outside the housing 4, which is supported in the direction of impact of the percussion piston 4 on a stop surface 2a of the drill pipe ; the possibility of the ring 9 - for example by moving perpendicular to the plane of the drawing - from the Pulling off drill pipe 2 or attaching it to it is schematically indicated by a double arrow 10.
On the side facing the percussion piston 4, the ring 9 has a conically shaped counter surface 9a projecting towards it, which can be acted upon by the appropriately shaped percussion piston striking surface 4c during operation of the striking mechanism. The formation of the surfaces 9a and 4c should contribute to the centering of the drill pipe 2 within the through hole 4b. The distance denoted by s between the drill pipe 2 and the percussion piston 4 is several millimeters.

1 has the result that the percussion piston 4 acts on the drill rod 2 via its striking surface 4c and the ring 9 and drives it in the direction of the drilling progress - indicated by an arrow 11 pointing downwards . The drill pipe can be designed as a single pipe - indicated in FIG. 1 below by the reference number 12 - or as a double pipe, the tubular outer pipe (bottom left in FIG. 1) being designated 13; the inner rod running inside the outer rod is not shown for reasons of clarity.

In order to be able to pull off and implement the striking mechanism 1 after loosening the ring 9 from the drill pipe, the drill pipe consists of a plurality of longitudinal sections 12a, b and 13a, b; these are detachably fastened to one another via a coupling part 14 or 15 receiving the ring 9.

After completion of the conversion process - in which the striking mechanism 1 about an imaginary axis perpendicular to Longitudinal axis 4a has been rotated by 180 ° - finally the arrangement according to FIG. 2 results; for reasons of clarity, only the drill pipe 12 with the longitudinal sections 12a and 12b together with the coupling part 14 is shown.
The percussion mechanism 1 now assumes a position in which the percussion piston 4 over the surfaces 4c, 9a and the ring 9 in a direction opposite to the direction of the drilling progress (arrow 11), that is to say in the direction of drawing indicated by an arrow 16, onto the drill pipe 12 can act. The commissioning of the hammer mechanism accordingly has the consequence that the drill pipe is pulled out of the borehole (not shown).
The same would apply with regard to the outer linkage 13 of a double linkage shown in FIG. 1, provided that the percussion piston 4 acts upon the outer linkage with impact energy via the ring 9.

A different application of the striking mechanism 1 is shown by way of example in FIG. 3. This is arranged with respect to a double linkage - consisting of a tubular outer linkage 13 and an inner linkage 15 running therein - in such a way that on the one hand the hollow percussion piston 4 can act on the rear side 13c of the outer linkage (in the illustration above) on the rear side 13c of the outer linkage and on the other hand the inner linkage 15 records. The rotary drives 16 and 17 for the outer linkage 13 and inner linkage 15 are arranged behind or in front of the striking mechanism 1, as seen in the direction of the drilling progress (arrow 11).
The embodiment in question has the advantage that the striking mechanism 1 - due to the normally existing anyway Multi-part design of the outer and inner rods 13 or 15 in the longitudinal direction - can be installed and used later if necessary.

The described design of the percussion mechanism allows, after all, to drive the drill pipe (possibly also the outer pipe of a double pipe) with a suitable design in both directions of its longitudinal extension.

Claims (5)

1. Percussion mechanism (1) for a drill string (2; 12 or 13), in particular for rock and roof-bolt drilling, with a percussion piston (4), which is moved back and forth by the action of a hydraulic medium under pressure, is mounted on a housing (3) open on both sides in the longitudinal direction of the percussion piston (4) and is equipped with a through-hole (4b), wherein the drill string (2; 12 or 13) - having an opposing surface (9a) which may be acted on by the percussion piston (4) and forms a component part of a percussion part (9) - projects into the through-hole (4b), and wherein the percussion piston (4) only projects in longitudinal direction from the housing (3) on the side facing the percussion part (9), and the percussion mechanism (1) is arranged to rotate about an imaginary axis perpendicular to the longitudinal axis of the drill string (2; 12 or 13), so that the percussion piston (4) acts on the drill string (2; 12 or 13) in a contrary direction.
2. Percussion mechanism according to Claim 1, characterised in that the axial length of the percussion piston (4) is shorter in dimension than that of the housing (3).
3. Percussion mechanism according to at least one of the preceding claims, characterised in that the opposing surface (9a) is conically shaped towards the percussion piston, and this has an impact surface (4c) adapted thereto.
4. Percussion mechanism according to at least one of the preceding claims, characterised in that the opposing surface is a component part of a ring (9), which is detachably constructed and is supported on a stop surface (2a) of the drill string (2) in the direction of impact.
5. Percussion mechanism according to at least one of the preceding claims for a drilling device with a double drill string comprising a tubular outer string and an independently movable inner string extending therein, characterised in that the drill string to be driven is formed by the outer string (13).

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