EP1640507A1 - Pile drilling apparatus - Google Patents

Abstract

The pile boring tool (1) has two cutting edges formed upstream of cutting teeth (3) in the boring direction. The cutting edges are spaced apart from one another to form a central free space. An independent claim is also included for boring apparatus.

Description

The invention relates to a pile boring tool for creating a pile borehole according to the preamble of claim 1, with a central axis to the drilling axis, at least one edge directed transversely to the drilling axis, on which a plurality of cutting teeth is arranged, and a conveyor for receiving and / or discharging the Drilled material removed from the cutting teeth.

Pile drilling, for example, is used to create pile foundations, so-called foundation piles, for buildings. This type of foundation is necessary, for example, if the substrate on which the building is to be erected does not have sufficient bearing capacity. Thus, by means of pile bores, large columnar cavities are driven so far into the ground until sufficient load bearing capacity is ensured. Subsequently, these cavities are filled with cement or a similar material. In order to ensure the highest possible stability of the foundation, it is of particular importance that the piles can be made exactly at the calculated location in the soil. In particular, deviations in the drilling direction should be avoided.

As pile tools, for example, so-called drilling buckets are known. Such pile boring tools are operated in a discontinuous drilling process, ie the pile boring tool is first drilled in the ground. When enough soil material is loosened and the bucket is filled, the tool is pulled out of the pile well with the soil material. The bucket is emptied, and then drilling can continue.

From DE 42 09 854 a pile tool with auger is known, which is screwed in the hole in the ground. When auger drilling is solved by cutting teeth soil material, which is conveyed by a screw conveyor upwards. Such pile boring tools can be used for continuous and discontinuous drilling.
For exact alignment and guidance of the pile boring tool during the drilling serves an attached, pointing down centering.

Since such pile bores serve as foundations, they must be designed accordingly large. Therefore, a pile drill must therefore generally be positioned, as disclosed in DE 41 32 314 C1, by a caterpillar tracked vehicle for drilling, for example. During the drilling can be performed by this carrier device, the upper portion of the drilling tool. When creating in particular deeper pile bores, this upper guide is hardly sufficient for directional drilling alone.

The invention has for its object to provide a pile boring tool, which allows a particularly accurate pile production.

The object is achieved by a pile boring tool having the features of claim 1. Preferred embodiments are given in the dependent claims.

The pile boring tool according to the invention is characterized in that at least two cutting edges are arranged in the drilling direction leading to the cutting teeth, which are offset from each other and spaced apart to form a center clearance.

A basic idea of the invention is to be able to guide the pile boring tool better in the desired direction during drilling by means of a double centering function. A first centering function is through the two cutting edges reached, which are located in the center of the bottom of the pile boring tool. These two spaced from the pile boring tool cutting edges form a free space in the middle. In this middle space remains a part of the soil. So it forms in the center of the pile bore a leading cone, which causes a second centering function. These staggered three, four or more cutting edges thus provide inner and outer guide surfaces. This double centering function can significantly reduce the risk of deviations at the drill bit, especially in deeper pile boreholes, which can reach depths of about 20 m to 100 m.

In a particularly preferred embodiment, the conveyor is designed as a drilling bucket. The double centering according to the invention is particularly useful in a drilling bucket, as it is guided only over its relatively short length of 1 m to 3 m at the borehole wall. Otherwise, the guide takes place over the drill pipe wall spaced from the borehole wall.

Particularly simple is the use of a drill bucket, if at least one opening with a closable lid is present on its underside and the edge with the cutting teeth is arranged at the opening. Thus, during drilling, the soil material released by the cutting teeth is conveyed directly into the interior of the drilling bucket. By the possibility of closing this opening, the bucket can be closed when it is filled with soil and removed from the well for emptying. Thus, no soil material can fall back into the hole.

In a particularly preferred pile boring tool, the at least two mutually spaced cutting edges are integrally formed as a drill bit. Since the drill bit is intended for directional guiding the pile boring tool, act on these very large forces. So it is advantageous to form these cutting edges in one piece to the occurring To be able to process forces better. In soils where these forces are not particularly high, however, three or four cutting edges can also be used.

A particularly simple closing of the opening of the drilling bucket can be achieved in that the drill bit is firmly connected to the lid and that the cover is rotatably mounted relative to the drilling bucket. The rotatable connection of the lid with respect to the drilling bucket is designed so that when the pile boring tool is actively rotated in the ground, so in a certain direction of rotation, the lid opens the opening of the drilling bucket by the rotational movement. When the drilling bucket is removed from the pile borehole, the pile boring tool is rotated in the opposite direction, the cover slides over the hole in the drilling bucket and closes it. Thus, a simple construction for closing the opening of the drilling bucket is given, which can be attached to a drilling bucket without additional effort.

Another pile boring tool according to the invention is characterized in that the conveyor has at least one coil which is attached to the center pipe. The use of such a conveyor coil as a conveyor has the advantage that it can also be drilled continuously. The removed soil material is conveyed upwards via the one or more spirals.

In order to support the drilled borehole opposite the adjacent soil, it is particularly preferred to form the center pipe for the introduction of suspension. Thus, during retraction of the drill, a support suspension may be introduced into the wellbore. It is also possible to introduce a settable suspension into the borehole through this center pipe in order to fill the borehole with the aid of this suspension and then to bind the suspension by further means in order to create a solid body in the pile borehole.

It is particularly advantageous if the drill bit is releasably secured in a receptacle at the lower end of the center tube. Thus, the drill bit can be replaced individually in case of damage. Also, there is the possibility of selecting the drill bit according to the substrate to be drilled by the detachable attachment and thus to achieve better propulsion and better management of the pile boring tool.

In principle, the recording of the drill bit can be designed as desired. However, it is particularly advantageous if the receptacle polygon, in particular square, is formed. Hereby, the torque of the rotary movement of the pile boring tool is transferred particularly well to the drill bit.

A particularly advantageous embodiment of the pile boring tool according to the invention has at the top a connecting device for releasably connecting to a drill pipe. Through this drill string, which may have further screw elements, the torque is transmitted to the pile boring tool. The advantage of a detachable connection is the fact that both the drill pipe as well as the pile boring tool can be used separately or together with other facilities.

In order to create a pile borehole with the pile boring tool according to the invention, a boring device with a mast, a rotary drive arranged thereon and a drill pipe, which is driven in rotation by means of the rotary drive, are furthermore provided. These devices are therefore expedient so that when creating a pile borehole great depths can be achieved and also the diameter of these pile bores can be chosen to be relatively large. Also, the drill rig with the mast serves to further stabilize the direction of the pile boring tool.

Fig. 1

eine perspektivische Seitenansicht eines erfindungsgemäßen Pfahlbohrwerkzeuges mit Bohreimer;

Fig. 2

eine perspektivische Seitenansicht eines erfindungsgemäßen Pfahlbohrwerkzeuges mit einer Wendel;

Fig. 3 und 4

Seitenansichten der Bohrspitze eines erfindungsgemäßen Pfahlwerkzeuges; und

Fig. 5

eine perspektivische Seitenansicht eines erfindungsgemäßen Pfahlbohrwerkzeuges mit teilweise zwei Wendeln.

The invention will be further explained by means of preferred embodiments, which are schematically illustrated in the drawings. In the drawings show:

Fig. 1

a side perspective view of a pile boring tool according to the invention with drilling bucket;

Fig. 2

a side perspective view of a pile boring tool according to the invention with a coil;

3 and 4

Side views of the drill bit of a pile tool according to the invention; and

Fig. 5

a perspective side view of a pile boring tool according to the invention with partially two coils.

FIG. 1 shows a perspective side view of a pile boring tool 1 according to the invention in an embodiment with drilling bucket 2. Through a center tube 20 which is arranged coaxially to the drilling axis, a radial torque is transmitted to the pile boring tool 1. At an edge 8 four cutting teeth 3 are arranged to release the soil in series. By an arranged in front of the edge 8 opening 11 of the drilling bucket 2, the dissolved material can enter the drilling bucket 2. If the drilling bucket 2 is filled with sufficient material, it is closed by means of a rotatable cover 4. By the rotatable mounting of the lid 4, which is firmly connected to a drill bit 5, this can be done very easily. By a rotation opposite to the direction used in normal drilling the lid 4 is rotated in front of the opening 11 of the drilling bucket 2. This ensures that the cleared material can no longer fall back from the bucket 2 into the borehole.

After the pile boring tool 1 has been conveyed back to the surface, it is activated by means of a triggering mechanism 6 Cover closure 7 solved. Thus, the laterally hinged lid 4 of the drilling bucket 2 can fold down and easily exit the soil material located in the bucket 2. After the cover 4 of the drilling bucket 2 is closed again, the pile boring tool 1 can be transported again for drilling in the borehole.

The cylindrical drilling bucket 2 has on its upper side an angular center tube 20, which serves for connection to a drill string. In certain embodiments, the center tube 20 may extend through the drilling bucket 2, such as to introduce a suspension into the wellbore. In the present embodiment, it is designed as a short pipe socket.

The drill bit 5 is releasably secured to the lower end of the pile boring tool. It sits in a tubular receptacle 10, which may be part of the center tube 20. This receptacle 10 and the drill bit 5 located therein are releasably connected by a transversely locking bolt 9.

Another embodiment of the pile boring tool according to the invention is shown in FIG. Here, the pile boring tool 1 is provided with a helix 21. This helix 21 is welded to the center tube 20. Together they form a so-called conveyor screw. The broken out by the cutting teeth 3 material is transported in the screw conveyor in the direction of the surface.

Further, from this figure, the formed on the center tube 20 connecting device 22 can be seen, which serves for connecting the pile boring tool 1 with the drill string, not shown. About this drill pipe is a Transfer torque to the pile boring tool 1. If a suspension is to emerge through the center tube 20 into the borehole, then the drill string is provided with a feed line for the suspension. The attachment of the drill bit 5 is performed in the same manner as in the first embodiment. By a bolt 9, the drill bit 5 is fixed in the receptacle 10. This embodiment of the pile boring tool 1 according to the invention is particularly suitable for non-aqueous soils.

Fig. 3 and Fig. 4 show side views of the drill bit 5 of the pile boring tool 1 according to the invention. Here, the one-piece design of the cutting edges 31 can be seen. Also, in these figures, the quadrangular shape of the drill head 5 in the area is introduced into the receptacle 10 is shown. Due to the detachable attachment of the drill head 5 on pile boring tool 1, it is particularly easy to replace this drill head 5. Thus, the pile boring tool 1 can be adapted particularly well to the soil properties with different designs of drill heads 5.

The drill bit 5 has a continuous bore 32 in the region which is provided for insertion into the receptacle 10. For attachment of the drill bit 5 on the receptacle 10, the receptacle also has a bore. These two holes are arranged so that a locking bolt 9 can be pushed through for fastening the drill bit 5 through both holes. A shoulder 34 between the cutting edges 31 and provided for insertion into the receptacle 10 quadrangular body with rounded corners serves a particularly good positioning of the drill bit 5 in the receptacle 10. By this paragraph 34 is supported that the through bore 32 with the Bore in the receptacle 10 match so that the locking bolt 9 can be inserted without problems.

The drill bit 5 has at the cutting teeth 31 at the lower end in each case a long outer edge 35 and a short inner edge 36. The long outer edge 35 is inclined outwardly from the axis of rotation of the drill bit 5. This promotes a particularly good guidance of the drill bit 5 and thus also of the entire pile boring tool 1. The short inner edges 36, which are inclined inwards to the axis of rotation, cut out a bottom mandrel which effects the second centering function. During drilling, the bottom mandrel extends to the edge 33. The bottom mandrel is machined by this edge 33 at a drilling required for drilling rotation of the pile boring tool to allow further penetration of the pile boring tool 1 in the ground.

The illustrated in Fig. 5 embodiment of a pile boring tool 1 has a second coil 41. This second coil 41 is also welded to the central tube 20 as the first coil 21. The pile boring tool 1 now has two edges 8, 44, on which cutting teeth 3 are fixed for removing the soil material. In the embodiment shown here, these cutting teeth are mounted in a curved line on the edge. The use of two edges 8, 44 with cutting teeth mounted there has the advantage that the pile boring tool 1 is subject to a more symmetrical loading during drilling. This symmetrical loading of the pile boring tool 1 as well as the drill bit 5 reduces the deviation of the pile boring tool 1 from the desired drilling direction. In order to achieve particularly good compliance with the desired direction of drilling, an additional leading edge 45 is attached to the end of the spindle.

When welded to this pile boring tool 1 second coil 42 is a three-quarter coil. However, this is sufficient for generating a symmetrical load of pile boring tool 1. At the connecting device 22 of the pile boring tool 1, a holding lug 42 is attached. This holding lug 42 serves to transport the pile boring tool 1, if this is not attached to the drill string. At the connecting device 22 also connecting holes 43 are visible. On the one hand, these connecting holes 43 serve to connect the connecting device 22 to the drill pipe in a force-locking manner. This can be done for example by further locking bolts. However, the connection holes 43 on the angular connection device 22 can also have the task of enabling a connection for a feed of suspension into the center tube 20. This suspension can then emerge, for example, in the region of the drill bit 5 through outlet openings from the center tube 20.

By drilling tool according to the invention a particularly accurate pile production is possible.

Claims (11)

Pile boring tool (1) for creating a pile borehole in the ground, having a center pipe (20) coaxial with the drilling axis, at least one edge (8) directed transversely to the drilling axis, on which a plurality of cutting teeth (3) are arranged, and a conveying device for picking up and / or conveying away the soil material removed by the cutting teeth (3),
characterized,
in that at least two cutting edges (31), which are offset from one another and spaced from one another to form a central clearance, are arranged in the direction of drilling leading to the cutting teeth (3). Pile boring tool according to claim 1,
characterized,
in that the conveying device is designed as a drilling bucket (2). Pile boring tool according to claim 2,
characterized,
that the boring bucket (2) having a lockable cover (4) on its underside at least one opening (11) and that at the opening (11) the edge (8) is arranged with the cutting teeth (3). Pile boring tool according to one of claims 1 to 3,
characterized,
in that the at least two mutually spaced cutting edges (31) are integrally formed as a drill bit (5). Pile boring tool according to claim 4,
characterized,
that the drill bit (5) is fixedly connected to the cover (4) and that the cover (4) rotatable relative to the boring bucket (2) is mounted. Pile boring tool according to one of claims 1 to 5,
characterized,
in that the conveying device has at least one helix (21) which is attached to the center tube (20). Pile boring tool according to one of claims 4 to 6,
characterized,
in that the center tube (20) is designed to introduce suspension. Pile boring tool according to one of claims 4 to 7,
characterized,
in that the drill bit (5) is detachably fastened in a receptacle (10) at the lower end of the center tube (20). Pile boring tool according to claim 8,
characterized,
that the receptacle (10) polygon, is formed in particular quadrangular. Pile boring tool according to one of claims 1 to 9,
characterized,
in that a connection device (22) is formed on the upper side for detachable connection to a drill string. Drilling device with a mast, a rotary drive arranged thereon and a drill rod, which is driven in rotation by means of the rotary drive,
characterized,
in that a pile boring tool (1) according to one of claims 1 to 10 is provided.

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