EP2496786A2

EP2496786A2 - Method for the drilling, in particular percussion or rotary percussion drilling, of holes in soil or rock material and device therefor

Info

Publication number: EP2496786A2
Application number: EP10787258A
Authority: EP
Inventors: Karl BÖHM; Walter Karpellus
Original assignee: Dywidag Systems International GmbH Austria
Current assignee: Dywidag Systems International GmbH Austria
Priority date: 2009-11-06
Filing date: 2010-11-05
Publication date: 2012-09-12
Anticipated expiration: 2030-11-05
Also published as: AT508991B1; WO2011054020A3; US20120247835A1; AU2010314788A1; WO2011054020A2; ES2440071T3; PL2496786T3; EP2496786B1; AT508991A1; CA2791524A1

Abstract

In a method for the drilling, in particular percussion or rotary percussion drilling, of holes in soil or rock material, wherein a borehole is formed by a drill bit (2) mounted on a drill string (4) by means of a percussive and/or rotational movement, a casing (5) adjoining the drill bit (2) is introduced into the borehole by being pulled and/or struck and material that is removed is introduced into the annular space formed between the outer circumference of the drill string (4) and the inner circumference of the casing (5) via at least one through-opening (11), formed between the drill bit (2) and the casing (5), and is discharged from the borehole; the impact energy of the drill string (4) is applied to the drill bit (2) via an adapter (3) interacting with the drill bit (2) and the drill string (4) and the impact energy is applied to the drill bit (2) at least partially via an impact shoulder (13) of the adapter (3) and at least partially via a threaded connection (9) between the adapter (3) and the drill bit (2). A device for carrying out this method is also described.

Description

METHOD OF DRILLING, ESPECIALLY IMPROPER DRILLING OF HOLES IN GROUND OR ROCK MATERIAL AND DEVICE THEREFOR

The present invention relates to methods for drilling, in particular impact or rotational impact drilling holes in soil or rock material, wherein a borehole is formed by a drill bit mounted on a drill string by a striking and / or rotating movement, a cladding tube adjoining the drill bit Pulling and / or hitting is introduced into the borehole and mined material is introduced via at least one passage opening formed between the drill bit and the cladding tube into the annular space formed between the outer circumference of the drill string and the inner circumference of the cladding tube and discharged from the borehole. Furthermore, the invention relates to a device for drilling, in particular impact or rotary impact drilling holes in soil or rock material, wherein formed by a drill bit mounted on a drill bit by a beating and / or rotating movement a borehole, a subsequent to the drill bit sheath Pulling and / or beating can be introduced into the borehole and mined material can be introduced via at least one passage opening formed between the drill bit and the jacket tube into the annular space formed between the outer circumference of the drill rod and the inner circumference of the jacket tube and can be brought out of the borehole.

For producing holes in soil or rock material by a percussion or rotary impact drilling is by means of a drill string mounted on a drill bit, wherein moreover a jacket or sheath into the well for an optionally required further lining, or to a breaking material With certainty, the impact energy is either applied directly to the drill bit via the drill string or through complicated devices such as slippers.

Depending on the degraded soil or rock material and depending on whether the hole formed in the soil or rock material to be used below to receive a rock anchor, to form a pipe shield or drainage of the soil or rock material, as well as in Dependence on the soil or rock material, in particular its hardness, stratification, but also on whether this soil or rock material

Replacement Blade (RULE 26) Conclusions, such as mountain water or the like. Has depends on the choice of drill bit to be used, the drill string and either co-contracted or embarked cladding tube, very often reach the same site a variety of elements, such as drill bit, linkage and in particular different cladding tubes used have to.

The present invention now aims to further develop a method and apparatus of the type mentioned in that adaptation to a variety of subsoil conditions is possible quickly and reliably and that any combinations of the elements used when drilling holes in soil or rock directly can be assembled and used on site in accordance with the requirements. Furthermore, it is an object of the invention to minimize the number of different prefabricated holes drilling apparatuses.

To solve these problems, a method of the type mentioned is essentially characterized in that the impact energy of the drill string is applied via a cooperating with the drill bit and the drill string adapter to the drill bit and that the impact energy at least partially over a hitting shoulder of the adapter and at least partially is applied to the drill bit via a threaded connection between adapter and drill bit. By applying the impact energy of the drill pipe to the drill bit via an adapter cooperating with the drill bit and the drill string, it is possible to carry out the method according to the invention in such a simple manner that, depending on the prevailing excavation or ground conditions, the respectively most suitable element can be used. Furthermore, by carrying out the method according to the invention in such a way that the impact energy is applied at least partially to the drill bit via a shoulder of the adapter and at least partially via a threaded connection between the adapter and the drill bit, a secure and reliable transmission of the impact energy to the drill bit succeeds on the one hand on the other hand, it is ensured that the threaded connection provided for the connection of the drill bit with the adapter is not knocked out during the drilling operation and thus, if necessary, after the end of the drilling operation, a release of the connection between drill bit and adapter is rendered impossible.

Replacement Blade (RULE 26) To ensure that, in particular after completion of the drilling process, the adapter can be separated from the drill bit without damaging the components, the method according to the invention is preferably performed so that the adapter is coupled to the drill bit by screwing over a coarse thread connection. In particular, by coupling the adapter to the drill bit by screwing via a coarse screw connection, it is possible to ensure that screwing after completion of the drilling operation, and especially after the threaded connection of the adapter to the drill bit of the large load has been applied by introducing the impact energy, safely and reliably to solve and bring the Bohrgestänge together with the adapter from the borehole. Furthermore, this ensures that the adapter can be used multiple times, which brings not inconsiderable economic benefits.

In addition, it is possible with such training during drilling holes in soil or rock material, if necessary, to replace the drill pipe entirely, for example due to excessive stresses or wear or defects on the linkage or if the subsoil conditions, for example, require the use of more stable linkage. To ensure that during the drilling of holes in soil or rock material does not take place unintentional release of the drill string from the adapter, the inventive method is preferably further developed such that the adapter with the drill string by screwing over a thread, in particular one opposite to the Thread connection between drill bit and adapter thread having less pitch, is coupled. With such an embodiment of the method according to the invention, it can be ensured that, in particular during drilling, the drill pipe together with the adapter can be removed from the drilled hole without unintentionally releasing the connection between the drill pipe and the adapter in order to be able to carry out any necessary adaptation work.

To ensure that when drilling holes formed cuttings is removed and no openings of the drill bit are laid, the inventive method is preferably further developed so that rinsing liquid is discharged through the tubular adapter and cooperating openings in the drill bit during drilling. By the method according to the invention

Replacement Blade (RULE 26) is performed that rinsing liquid is discharged through the tubular adapter and cooperating openings in the drill bit during drilling, it is possible on the one hand with a structurally simple device sufficient amounts of drilling fluid during drilling apply, both to the mining front and possibly immediately to an end region of a drill bit facing away from the bore hole interior or into an annular space between the drill bit and a cladding tube in order to prevent laying of the openings and passages with drill cuttings, and also to ensure that an excessive loss of drilling fluid during drilling can be avoided.

In order to prevent in particular the discharge of an excessive amount of rinsing liquid during the drilling process, the invention is further developed in that rinsing liquid is intermittently applied via an adapter arranged in the intervention rinsing valve during engagement of the drill bit in the soil or rock material. By intermittently engaging an intervention-controlled flushing valve during the engagement of the drill bit in the soil and rock material on the one hand, an excessive liquid discharge or an excessive amount of liquid, which is introduced through the flushing opening of the drill bit in the well, avoided with certainty and on the other hand ensured at the same time sufficient quantities of liquid are provided for the removal of the cuttings inside the borehole.

In order to carry along the formation of a hole in soil and rock material a sheath safely and reliably in the interior of the borehole, in particular entrained, the inventive method is preferably developed to the effect that the impact energy in addition at least partially trained on the drill bit on the shoulder Cladding tube is applied. In addition, during the method for drilling holes in soil and rock material, part of the impact energy is additionally applied to the cladding tube via a striking shoulder formed on the drill bit, ensuring reliable and reliable pulling of the cladding tube into the interior of the borehole.

To solve the aforementioned objects, a device for drilling, in particular impact or rotary impact drilling of soil or rock material of the type mentioned above essentially characterized in that a cooperating with the drill pipe and the drill bit adapter is provided and that the

Replacement Blade (RULE 26) Adapter cooperates via a shoulder of the adapter and a threaded connection between the adapter and drill bit with the drill bit. By providing a universally applicable adapter cooperating with the drill string and drill bit, the drill bit and drill string can be arbitrarily selected to suit the requirements of forming a hole in the soil and rock material and combining the respective suitable elements. By forming the adapter so that the adapter cooperates with the drill bit via a shoulder of the adapter and via a threaded connection between the adapter and the drill bit, it is ensured that, on the one hand, the drilling energy is reliably and reliably transmitted to the drill bit, and on the other hand, that the delicate for a knock or damage threaded connection between adapter and drill bit is claimed as little as possible. By coupling the adapter to the drill bit via a coarse thread connection, as in a preferred development of the device according to the present invention, such a distribution of forces is achieved, that on the one hand damage to the threaded connection is certainly withheld and on the other hand it is ensured upon release of the adapter and the drill pipe from the drill bit, the connection between the drill bit and the adapter is opened easily and reliably, and in particular before the loosening of other, possibly provided threads.

Such a threaded connection can be designed, for example, as a coarse thread connection with two gears, with which both a secure and reliable hold of the adapter in the drill bit can be ensured and, on the other hand, an intentional release of the adapter from the drill bit can be achieved.

By, as corresponds to a preferred embodiment of the present invention, the device is designed so that the adapter with the drill string via another thread, which deviates from the threaded connection between the adapter and drill bit pitch of the thread, in particular a smaller pitch, is coupled, it is possible to withstand accidental release of the adapter from the drill pipe both during the drilling process as well as when unscrewing the adapter from the drill bit with certainty. Furthermore, it is ensured with such a design that at the end of the drilling process

Replacement Blade (RULE 26) at least the drill pipe and the adapter can be recovered undamaged, whereby a not insignificant cost savings can be achieved.

By, as this corresponds to a preferred development of the present invention, the device is designed so that the end face of the adapter facing the well bore is at least partially beveled, it succeeds, the adapter coupled to the drill string, especially if maintenance during training the borehole are required to safely insert together with the drill string in the drill bit and to screw with this, so that even for example in semi-finished holes adaptation work on the linkage can be made.

For a reliable introduction of rinsing liquid into the interior of the borehole, the invention is preferably further developed such that the tubular adapter is formed with a bore hole interior facing passage for rinsing liquid and that the passage opening cooperates with openings for dispensing rinsing liquid in the drill bit. With such a device it can be ensured that rinsing liquid is introduced into the rinsing holes formed in the drill bit through the hollow adapter and is available in the interior of the boring hole for the drilling operation and optionally in the annular space between drill bit and cladding tube, so that on the one hand the removal of the cuttings is performed by trained in the drill bit in a conventional manner openings or recesses and on the other hand laying the openings for both the rinsing liquid and for the removal of cuttings in the drill bit or optionally the annulus or annular gap is prevented ,

According to one embodiment of the invention, the device is designed so that an intervention-controlled flush valve is provided in the adapter. By providing an intervention-controlled flushing valve in the adapter, a controlled discharge of flushing liquid through the adapter and through the flushing openings formed in the drill bit is achieved, whereby on the one hand only those quantities of flushing liquid are discharged which are required for a proper removal of the cuttings and, on the other hand laying of the openings, in particular the flushing opening with cuttings is held back. Hiebei the intervention-controlled flush valve may be formed via a pressure switch formed in the previously described annular space or a pressure valve.

Replacement Blade (RULE 26) In order to be able to use the drilling energy introduced by the adapter in particular also for pulling along a cladding tube or to be able to reliably and reliably apply the impact energy to a cladding tube, the device according to the invention is further developed in that the drill bit has at least one impact shoulder for interaction having the cladding tube, in particular for impact stress of the cladding tube. Such a design ensures that the cladding tube is also subjected to impact stress during the impact stress of the drill bit in its front end region and thus can be introduced into the drilled hole without impacting from outside. The cladding tube is hiebei drawn by the impact stress at its front end portion in the interior of the wellbore.

By, as corresponds to a preferred embodiment of the present invention, the cladding tube is formed so that it is formed thickened at its end facing the bore hole inside and that the thickening is formed at its end remote from the bore hole inside complementary to a whipping shoulder of the drill bit, is ensured by an interaction of the complementarily formed impact shoulder of the drill bit with the thickened portion of the cladding tube reliable impact or introduction of the cladding tube in the wellbore.

With such a design, for example, before starting a drilling operation, any cladding tube which appears suitable for the expected drilling operation, for example an expandable cladding tube, can be arranged on an end region of a drill bit facing away from the bore hole interior and subsequently pressed against the drill bit be set, in particular in such a manner that the cladding tube along the drill bit longitudinally displaceable is permanently connected to the drill bit. Since the thickening of the cladding tube reaches its end face facing away from the bore hole in the event of the drill bit being hit into the drilled hole, in particular during the impact, the reliable securing of the cladding tube in the drilled hole is ensured. In the event that a displacement of the cladding tube is no longer possible during the drilling process, in particular in the area in which the cladding tube is arranged longitudinally displaceable along the drill bit, by broken cuttings,

Replacement Blade (RULE 26) a restoration of the free movement of the cladding tube in the borehole interior, for example, by an impact stress from the outside can be achieved.

By, as this corresponds to a preferred development of the present invention, the device is developed so that the end of the cladding tube facing the well inside is formed with a recess, in particular an asymmetrically formed recess, the drill bit can be dropped from the cladding tube, thereby a separation of the drill bit and cladding tube can be achieved and, for example, in the case of a split drill bit at least a portion of the drill bit after completion of the drilling process is recoverable together with the drill pipe and the adapter from the wellbore.

The invention will be explained in more detail with reference to embodiments shown in the drawing. In these show:

1 shows a section through the device according to the invention for carrying out the method according to the invention for drilling holes,

2 is an external view, partly in perspective of the device of FIG. 1, FIG. 3 is a longitudinal section through a variant of the adapter of FIG. 1,

Fig. 4 is a longitudinal section through a modified variant of the adapter according to the invention, and

5 shows a section through the end region facing the borehole interior of a variant of a cladding tube of the device according to the invention for drilling holes.

In Fig. 1 it can be seen that a generally designated 1 device for drilling or rotary drilling holes in soil or rock material has a schematically indicated with 2 drill bit, which is connected via an adapter 3 with a schematically indicated in Fig. 1 drill string 4 is.

Furthermore, the drill bit 2 is adjoined by a cladding tube 5, the end region 6 of which facing the drilled hole interior facing away from the borehole exterior

Area of the cladding tube 5 has increased thickness. This end region 6 is beveled at its end region 7 facing away from the bore hole inside and formed complementarily in the shape of a striking shoulder 8 of the drill bit 2. During the drilling of holes is applied by this training on the hitting shoulder 8 on the chamfer 7 at least a portion of the impact energy, so that the cladding tube 5 is pulled along during the drilling progress in the wellbore 1.

Replacement Blade (RULE 26) The drill bit 2 is connected to the adapter 3 with a thread schematically indicated by 9, wherein over the borehole facing the end of the adapter 3 and the drill bit 2, an annular space 10 is formed, through which annular space 10 rinsing liquid, which by a hollow inside trained adapter 3 provided rinsing liquid channel 11 and provided in the drill bit 2 holes 12 for the passage of rinsing liquid to the interior of the wellbore is ausbringbar.

The applied via the drill pipe 4 on the adapter 3 drilling energy is applied in the embodiment of FIG. 1 on the one hand via a striking shoulder 13 on the drill bit 2, on the other hand partially on the thread 9. Such a design ensures that the thread 9 is not during the drilling process is unduly stressed and in particular is not knocked out, so that after the end of the drilling process a safe and reliable separation of the adapter 3 is made possible by the drill bit 2.

The drill bit 2 shown in Fig. 1 is hiebei a conventional one-piece drill bit, which has a plurality of drill pins 14 and in addition to the openings, the dispensing of rinsing fluid 12 recesses 15, on which cuttings formed by between the cladding tube 5 and the drill bit 2 Recesses 16 can be introduced into the formed between the adapter 3 and the drill pipe 4 and the cladding tube 5 annulus 17 and can be discharged in the sequence on the outside of the borehole. In order to hold back laying of the annular space 17 with cuttings, the drill bit 2 also has a backward flushing channel 27, through which the annular space 17 can be sufficiently rinsed.

In the illustration according to FIG. 2, the reference numerals of FIG. 1 are retained, wherein in the illustration of FIG. 2 it can be seen that the cladding tube 5 has at its end region 6 facing the borehole interior a reduced diameter compared to the region facing the borehole exterior Diameter reduction can be achieved in a simple manner by pressing the cladding tube 5 on a drill bit 2, so that before starting a drilling operation, any combination of drill bit 2, adapter 3, drill pipe 4 and cladding tube 5 can be compiled depending on the expected requirements, thereby an extremely simple and inexpensive variant of a device for drilling holes

Replacement Blade (RULE 26) can be achieved in soil and rock material. It is needless to say that the cladding tube 5 in this variant can be any cladding tube, as used during drilling holes in soil and rock material used, such as a frictionally introduced cladding tube, expandable cladding tube, drainage pipe or even a example certain mobility of the individual forming the cladding tube segments exhibiting cladding tube, which can follow to a certain extent deviations from the direction of the bore.

The drill bit 2 used in this context can be arbitrarily selected differently from the illustrations of FIG. 1 and FIG. 2, wherein in addition to a one-piece drill bit a multi-part drill bit, from which after completion of the drilling process, for example, only a part in the interior of the borehole remains, an asymmetrically shaped drill bit and a drill bit, which instead of drilling pins cutting, can be used.

In Fig. 2 is also schematically at the top of the bore hole facing the edge 18 of the cladding tube 5 an asymmetrically formed recess 19 recognizable, which recess 19 has a vertical or steep side wall 26 and a second cheek 20 low pitch, with such a depression at - For example, the ejection of the drill bit 2 after completion of the drilling process is possible.

In Fig. 3, a variant of the adapter 3 of Fig. 1 is shown, wherein the adapter, in turn, on the one hand a thread 9 at its end, which is to be coupled with a drill bit 2. The thread 9 of the adapter 3 is hiebei designed as a coarse thread with two courses, on the one hand to ensure a secure and reliable connection of the adapter 3 with the drill bit 2 during the drilling process and on the other hand to be able to solve the adapter 3 of the drill bit 2 so after completion of the drilling process in that the connection between the drill bit 2 and the adapter is that connection of the entire apparatus 1 for drilling holes in soil or rock material which first comes loose under appropriate stress.

In addition to the again schematically indicated through-channel 11 for rinsing liquid, another thread 21 is provided in the interior of the hollow-shaped adapter 3 at its region facing the borehole for connection to a drill pipe 4, wherein the thread 21 in comparison with the thread 9 of a

Replacement Blade (RULE 26) on the other hand has significantly more courses and on the other hand has a significantly low pitch to withstand accidental release of the connection of the adapter 3 with the drill string, especially after completion of the drilling process with certainty.

In the variant of Fig. 3, the hitting shoulder 13 of the adapter 3 is notched in deviation from the illustration of FIG. 1 formed in order to apply the impact energy even better on the drill bit 2, wherein in particular in a tapered design of the hitting shoulder 13 of the wear of Schlagschulter 13 is significantly reduced.

Moreover, in the variant according to FIG. 3, the end region 22 of the adapter 3 facing the borehole interior is provided with bevels 23 in order to facilitate insertion or threading of the adapter 3 into a drill bit 2, which is advantageous in particular during exchange of the drill string during the drilling process is.

Also in the illustration of Fig. 4, which substantially coincides with that of Fig. 3, the adapter 3, the adapter 3 has a coarse thread 9 for the insertion of the adapter 3 in a drill bit 2, as well as another thread 21, which a comparison with the thread 9 significantly reduced slope and a significantly increased number of courses. Furthermore, just as in the illustration of Fig. 3, the striking shoulder 13 is chamfered and a chamfer 23 on the end face 22 of the adapter 3, which faces the borehole interior formed. Notwithstanding the representation according to FIG. 3, a pressure switch 24 is provided in the variant according to FIG. 4 at the end face 22, via which pressure switch 24 an intermittently openable valve 25, which is indicated schematically in the passage 11 for dispensing rinsing liquid, is provided , During the drilling process, the pressure switch 24 is actuated by the pressurization in that beating operation, whereupon the valve 25 is opened and rinsing liquid is discharged either directly through holes provided for rinsing liquid 12 in the drill bit, or via the between the drill bit 2 and the adapter 3 provided annular space 10 and the opening for flushing fluid 12 is discharged to the borehole interior. Such a design ensures that an excessive consumption of rinsing liquid during the drilling process is obstructed and at the same time ensures that the openings, which are normally very small, are formed for rinsing.

Replacement Blade (RULE 26) Do not lay liquid in the drill bit while drilling with cuttings.

In connection with the adapter 3 it is noted that its outer dimensions, such as e.g. his thread 9 and 21 are formed such that are suitable for all common drill bits 2 and drill pipe 4, so that the adapter 3 is a universal element, by the use of any other commonly used auxiliary equipment, such as flip-flops, special connecting sleeves for connecting Drill bit and drill pipe and the like. Not required, resulting in a simplified, economical and universally applicable device for drilling holes in soil or rock material by using the adapter 3 according to the present invention.

In the illustration according to FIG. 5, a section, in particular a longitudinal section, through the end region of a cladding tube 5 facing the borehole interior, is shown, wherein in turn the end region 6 of the cladding tube 5 facing the borehole interior is thickened. At the transition of the thickened end region 6 to the outside of the borehole facing region of the cladding tube 5, in turn, a shoulder 7, for cooperation with a shoulder 8 of a drill bit 2 is formed in order to move the cladding tube 5 into the borehole interior.

In the illustration according to FIG. 5, the depression 19 is shown on the edge region 18 of the cladding tube 5 facing the bore hole inside, wherein the side cheek 20 of the recess 19 is designed such that it extends to the edge 18 with a slight incline. The second side wall 26 of the recess 9 is hiebei normal to the edge

18 formed, with which variant succeeds after the completion of the drilling operation by a slight rotation of the cladding tube 5 drop a drill bit 2 to recover the drill bit 2 either at least partially or to continue the drilling process without a carrying cladding tube 5.

By, as can be seen in the illustration of FIG. 1, the cladding tube 5 is pressed onto the drill bit 2 that it is slidably mounted in the longitudinal direction of the drill bit 2, in addition, if necessary, from the Bohrlochäußeren on the cladding. 5 a striking energy to be applied in addition to the pulling of the sheath tube 5 via the coupling between the hitting shoulder 8, the drill bit 2 and the

Shoulder 7 of the cladding tube 5 also allow a wrapping of the cladding tube 5. One

Replacement Blade (RULE 26) Such wrapping of the cladding tube 5 may be required in certain cases, such as when the passage gap 16 between the drill bit 2 and cladding tube is laid by cuttings or further entrainment of the cladding tube 5 with the drill bit 2 due to broken material, the space between the edge 18th of the cladding tube 5 and a corresponding region of the drill bit 2 projecting beyond the cladding tube 5 or flush with it.

Replacement Blade (RULE 26)

Claims

claims

1. A method for drilling, in particular impact or rotary impact drilling holes in soil or rock material, wherein a borehole is formed by a drill bit mounted on a drill bit by a beating and / or rotating movement, a subsequent to the drill bit sheath by pulling and / or Punching is introduced into the wellbore and mined material is introduced via at least one formed between the drill bit and the cladding passage opening in the formed between the outer periphery of the drill pipe and the inner circumference of the cladding tube annulus and discharged from the well, characterized in that the impact energy of the drill string (4) is applied to the drill bit (2) via an adapter (3) cooperating with the drill bit (2) and the drill rod (4) and that the impact energy is at least partially over a shoulder (13) of the adapter and at least partially via a thread - connection between d em adapter (3) and the drill bit (2) on the drill bit (2) is applied.

2. The method according to claim 1, characterized in that the adapter with the drill bit (2) by a screw connection via a coarse thread connection (9) is coupled.

3. The method according to claim 1 or 2, characterized in that the adapter (3) with the drill string (4) by screwing over a thread (21), in particular one opposite the threaded connection (9) between the drill bit (2) and adapter (3) lower pitch thread is coupled.

4. The method according to any one of claims 1, 2 or 3, characterized in that rinsing liquid through the tubular adapter (3) and cooperating openings (12, 27) in the drill bit (2) is applied during drilling.

5. The method according to claim 4, characterized in that rinsing liquid via a in the adapter (3) arranged engagement-controlled flush valve (25) intermittently during an engagement of the drill bit (2) in the soil or rock material is introduced.

Replacement Blade (RULE 26)

6. The method according to any one of claims 1 to 4, characterized in that the impact energy is additionally applied at least partially via a on the drill bit (2) formed striking shoulder (8) on the cladding tube (5).

7. An apparatus for drilling, in particular impact or rotary impact drilling holes in soil or rock material, wherein formed by a drill bit mounted on a drill bit by a beating and / or rotating movement, a drill hole adjoining the drill bit by pulling and / or hitting is introduced into the wellbore and mined material via at least one formed between the drill bit and the cladding passage opening in a formed between the outer periphery of the drill pipe and the inner circumference of the cladding tube annular space and can be brought out of the well, characterized in that a with the drill string ( 4) and the drill bit (2) cooperating adapter (3) is provided and that the adapter (3) via a striking shoulder (13) of the adapter (3) and via a threaded connection (9) between the adapter (3) and the drill bit ( 2) cooperates with the drill bit.

8. Apparatus according to claim 7, characterized in that the adapter (3) with the drill bit (2) via a coarse thread connection (9) is coupled.

9. Apparatus according to claim 7 or 8, characterized in that the adapter (3) with the drill pipe (4) via a further thread (21), one of the threaded connection (9) between adapter (3) and drill bit (2) deviating pitch of the thread, in particular a smaller pitch, has, is coupled.

10. Device according to one of claims 7, 8 or 9, characterized in that the borehole interior directed end face (21) of the adapter (3) is at least partially bevelled (23) is formed.

11. Device according to one of claims 7 to 10, characterized in that the tubular adapter (3) is formed with a bore hole interior facing Durchtrittsöff- opening (11) for rinsing liquid and that the passage opening (11) with openings (12, 27) for dispensing rinsing fluid in the drill bit (2) cooperates.

Replacement Blade (RULE 26)

12. Device according to one of claims 7 to 11, characterized in that in the adapter (3) an intervention-controlled flush valve (24, 25) is provided.

13. Device according to one of claims 7 to 12, characterized in that the drill bit (2) has at least one impact shoulder (8) for cooperation with the cladding tube (5), in particular for impact stress of the cladding tube (4).

14. Device according to one of claims 7 to 13, characterized in that the cladding tube (5) is formed thickened at its end facing the inside of the bore hole (6) and that the thickening at its end remote from the bore hole inside complementary to a hitting shoulder (8) Drill bit (2) is formed.

15. Device according to one of claims 7 to 14, characterized in that the borehole interior facing the end region (18) of the cladding tube (5) with a recess (19), in particular an asymmetrically formed recess (20, 24) is formed.

Replacement Blade (RULE 26)