EP0168379A1 - Drilling tool, especially a drill bit - Google Patents

Abstract

A drilling bit, such as a crenellated drilling bit for fluid-jet supported rotary drilling in rock comprises a nozzle for directing a jet of high-pressure fluid against rock material being bored. In addition to transporting away rock chips, the jet penetrates fissures in the rock and supports the breaking down of the rock structure by the drilling bit. Since such nozzles tend to wear more rapidly than the cutting edges of the drilling bit, a readily exchangeable nozzle insert is provided. The nozzle insert is seated in a retaining body incorporated in the drilling bit and is held in the retaining body by a threaded annular cap. The annular cap has a hexagonal recess for accommodating a tool such as an Allan-key.

Description

The invention relates to a drilling tool, in particular a drill bit for liquid-jet-assisted drilling in rock.

Drilling tools, whether for hammering or rotating drilling in rock, have to perform various tasks. The rock can be subjected to relatively high compressive loads, whereas the tensile strength of rock is generally low. The drill bit now serves as a force-transmitting element between the drill drive and the rock. The rock is initially elastically deformed due to the force exerted by the drill bit, in particular the cutting edges, whereby pressure cracks and shear cracks occur in the rock at the same time. At the same time, rock particles have to be removed from the dressing and removed from the immediate area of effectiveness of the cutting edges. Such removal must therefore be carried out so that the energy applied by the drilling unit is not used to further shred the cuttings, as a result of which a cushion is built up between the rock to be removed and the cutting edges. To discharge the cuttings, it is known to use fluids, in particular gases or liquids. The liquids can also have suspended matter so that even heavier substances can be discharged from the borehole. However, the rock mining is not supported by such flushing liquids.

In the case of water jet-assisted cutting, the water jet enters cracks, cracks and the like which already exist or which have arisen due to the force of the drill bit, and loosens the rock structure, so that the Liquid jet, especially water jet, an additional ablative effect is attributable. This effect usually occurs at a pressure between 500 and 4000 bar.

It is essential for the action of the high-pressure medium jets that the jet can cooperate with the cutting edges of the drill bit, that is to say that the jets are directed to those places of the rock where the cracks occur. If one takes into account that there is a close interaction between crack growth and arrangement of the cutting edges on the drill bit, the high importance of the exact alignment of the liquid jet or jets becomes particularly clear.

The liquid jets exit the drilling tool through nozzles, the nozzles being made of corundum, for example, and having a passage opening that is only a fraction of a millimeter. Since the nozzles generally have a shorter service life than the drill bits as such, these nozzles should be releasably connected to the drill bit.

In the case of a drill bit for liquid-jet assisted drilling, it has already become known to fasten the disk-shaped nozzle to the drill bit by means of a union nut which has a slot for actuation with a screwdriver. This means that an exchange of the fine-particle nozzle can also be carried out with a coarser tool, but an exact positioning of the nozzle and also an optimal seal, which avoids a corresponding pressure loss, is usually no longer guaranteed after replacement of the nozzles.

The present invention has for its object to provide a drilling tool for liquid jet-assisted, in particular rotating drilling in rock, in which the nozzles for the liquid jet, in particular water jet, are precisely positioned, with an exchange of these nozzles an identical water jet direction as before the exchange should be guaranteed.

The drilling tool according to the invention for liquid-jet-assisted, in particular rotating, drilling in rock, with a drilling tool body, which in particular has cutting edges constructed with hard metal; slots or the like, with at least one feed for a fluid pressure medium with a pressure between 500 and 4000 bar , which opens into at least one nozzle detachably inserted in the drilling tool body, consists essentially in that the nozzle is constructed with a nozzle block and a holding body which extends longitudinally in the beam direction, the holding body being detachably held via a ring body in a recess, in particular a bore of the drilling tool body . Characterized in that the nozzle block is contained in a holding body extending longitudinally in the jet direction, it can be held completely exactly over the ring body in the recess of the drilling tool body, so that an exact and reproducible fixing of the nozzle block and thus the high-pressure jet is achieved, with an exchange of the Nozzle can be carried out by easy-to-use tools, if necessary on site.

If the holding body has at least one rotationally symmetrical guide surface which rests on a correspondingly designed guide surface of the ring body, particularly precise and exact positioning can be achieved. If the holding body has a cylindrical projection, in particular a shaft, which bears against a cylindrical recess in the ring body, one is particularly suitable easy to manufacture embodiment, which can be manufactured particularly precisely.

If the shaft has a longitudinally extending recess for the passage of the already bundled liquid jet, then the actually effective part of the nozzle, namely the nozzle stone, is particularly well protected against mechanical damage, while at the same time any cross-section of the liquid line that can be chosen in front of the Nozzle block is guaranteed so that an unnecessary loss of pressure can be avoided.

The nozzle can be exchanged particularly easily if the ring body has an external thread and the recess in the drilling tool body has a corresponding internal thread.

Safe, frequent use of the ring body is ensured if it has a polygon, in particular an polygon.

If the recess in the drilling tool body has a conical seat for the holding body of the nozzle block, self-adjustment is ensured in a particularly advantageous manner.

If a sealing ring is provided in an annular recess between the seat in the recess of the drilling tool body and the holding part for the nozzle, then a particularly permanent sealing can take place with little effort and thus little deformation of the seat.

A particularly simple variant of the nozzle body is obtained if the annular recess for the Sealing ring is provided in the seat of the recess in the drilling tool body.

The invention is explained in more detail below with reference to the drawings.

1 shows a drill bit in a side view, FIG. 2 shows a drill bit in a top view, and FIG. 3 shows a section through a nozzle in the drill bit.

As can be seen from FIG. 1, the drill bit consists of a drilling tool body 1 which is provided with cutting edges 2 made of hard metal. Instead of the cutting edges, diamonds or other cutting inserts embedded in the core bit material can also be provided. The drilling tool body also has a feed 3 for the fluid pressure medium, namely water. This feed branches into several feeds 4, only two of which are shown, which open into the schematically illustrated nozzles 5.

As can be seen from FIG. 2, which shows a top view of the drill bit according to FIG. 1, the nozzles 5 are arranged in a specific manner depending on the cutting edges 2.

In Fig. 3, a recess 6 is shown in the drilling tool body 1, which has an internal thread 7. This recess has an annular extension 8 on its base, which merges into a conical seat 9. The water jet emerges in the direction of arrow a. In the recess 6, the holding body 10 is provided with a nozzle block 11, the nozzle block being arranged in a cylindrical recess in the holder body, for example fixed by a plastic compound 12. The holding body 10 has a cylindrical shaft 13, the cylindrical guide surface 14 cooperates with the cylindrical guide surface 15 of the ring body 16. The holding body 10 has a longitudinally extending recess 17 through which the water jet exits in the direction of arrow a. As can be seen, the passage opening of the nozzle block is substantially smaller than the free cross section of this recess 17. The ring body 16 has an external thread 18 which cooperates with the internal thread 7. Furthermore, the ring body has a hexagon 19 on the end of the drill bit facing the free surface, which hexagon 19 is used to attack a corresponding Allen key or the like. In the conical seat 9, an annular groove 20 is provided, in which a sealing ring 21 is arranged. Other drilling tools that can be used are, for example, those with drilling rollers, pins, corundum or diamond studded or the like.

Claims (9)

1.Bore tool, in particular drill bit for liquid jet-assisted, in particular rotating, drilling in the rock with a drill tool body (1) which, in particular with carbide, has cutting edges (2), pins or the like, with at least one feed (3, 4 ) for a fluid pressure medium with a pressure between 500 and 4000 bar, which opens into at least one nozzle (25) detachably inserted in the drilling tool body (1), characterized in that the nozzle with a nozzle block (11) and one in the jet direction (a ) is constructed longitudinally extending holding body (10), the holding body (10) being releasably held in a recess (6), in particular a bore of the drilling tool body (1), via an annular body (16). 2. Drilling tool according to claim 1, characterized in that the holding body (10) has at least one rotationally symmetrical guide surface (14) which bears against a correspondingly designed guide surface (15) of the ring body (16). 3. Drilling tool according to claim 1 or 2, characterized in that the holding body (10) has a cylindrical projection, in particular shaft (13), which abuts a cylindrical recess in the ring body. 4. Drilling tool according to claim 1, 2 or 3, characterized in that the shaft (13) has a longitudinally extending recess (17) for the passage of the bundled liquid jet. 5. Drilling tool according to one of claims 1 to 4, characterized in that the ring body (16) has an external thread which engages in a corresponding internal thread of the recess (6) in the drilling tool body (1). 6. Drilling tool according to one of claims 1 to 4, characterized in that the annular body (16) has a polygon (19), in particular polygonal. 7. Drilling tool according to one of claims 1 to 6, characterized in that the recess (6) in the drill body has a conical seat (9) for the holding body (10) of the nozzle block. 8. Drilling tool according to one of claims 1 to 7, characterized in that between the seat (9) in the recess of the drilling tool body and the holding body (10) of the nozzle block (11) a sealing ring is provided in an annular groove (20). 9. Drilling tool according to claim 8, characterized in that the groove for the sealing ring in the seat (9) of the drilling tool body (1) is provided.

Images