EP0541942A1 - Drill tube - Google Patents

Abstract

In order to provide a grouted bored anchor which can be used in particular in cohesive soils and which at the same time has especially reliable corrosion protection in the set state, it is proposed to use as a drill tube and as a grouting tube a basic body provided with a uniform thread at least on the outside over its entire length. The basic body is provided with a continuous longitudinal bore and has a helix (20) on the outside which - as viewed in cross-section - has a triangular configuration, thus tapering radially outwards, and is of hollow design and the helix surfaces of which tangentially adjoin the facing peripheral sides of the basic body. The helix (20) has a pitch of 1 m to 3 m and, during the drilling operation, which is preferably carried out with air as the flushing medium, serves to discharge the air laden with released particles. When the basic body is being grouted in place, the helix serves to accurately guide it concentrically in the borehole and thus obtain an in particular overall covering, extending uniformly over the entire length of the drill tube, with an anchoring mortar or a comparable hardenable medium so that the drill tube is arranged in such a way as to be protected in an especially reliable manner against corrosive effects from the surrounding rock. The helix (20) extends uniformly over the entire length of the drill stem (19). <IMAGE>

Description

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

Drilling pipes, which are used after the hole created as a lost tool simultaneously on the type of rock anchors are known in many forms. You must be suitable not only for creating a hole, but also for proper, especially centric leadership of the drill pipe and for introducing a mortar suspension or a comparable, hardenable medium. The creation of the bore entails the guidance of a suitable flushing agent adapted to the nature of the surrounding rock or soil, which has to be removed during the drilling progress in the direction of the borehole mouth. Due to the centric guidance of the pipe in the grouted condition a possible all-round uniform coverage of the drill pipe to be achieved by the mortar suspension to safely protect the drill pipe from corrosive influences. An introduction of the mortar suspension is usually effected via the drill pipe located in the borehole, wherein the mortar preferably exits in the region of the drill bit and fills the borehole in a rearward direction, ie in the direction of the borehole mouth.

From the non-prepublished patent application P 41 28 154.3 of the applicant are known for the centric leadership of a drill pipe spacers, which are formed by a plurality of externally welded to a coupling of two boring bars connecting sleeve round bar whose length substantially corresponds to that of the sleeve.

It is the object of the invention to design a drill pipe of the type described at the outset that in a simple manner, especially in cohesive soils a centric guidance of the drill pipe is given and the drilling process as such is perfectly manageable. This problem is solved in a generic drill pipe by the features of the characterizing part of claim 1.

An essential feature of the invention is accordingly a base body provided on the outside with a comparatively steep-going helix, which forms the drill pipe, wherein the outer radius of the helix may correspond to the radius of the borehole. This coil fulfills a multiple function. On the one hand, due to its steepness, it ensures a comparatively short flow path for a dishwashing agent laden with soil particles, in cohesive form Soils usually air and also supports this funding process. At the same time, the wall of the wellbore is kept stable or smoothed over the entire length during the drilling progress. After the helix extends over the entire length of the drill pipe, the drill pipe is also subject over its entire length a reliable support on the walls of the borehole and thus a centric guide. The latter ensures in the case of use of the drill pipe in the manner of an injection pipe or injection drill anchor with an introduction of mortar or other hardenable medium in the well uniform even overlapping of the drill pipe and thus reliable corrosion protection. For reasons of this corrosion protection, the radial width of this helix should be at least 10 mm, preferably at least 15 mm.

The drill pipe forming body can be formed integrally with the helix according to the features of claim 2 and consist of a cold-formed steel. The basic body can thus in the simplest case be a drill pipe provided with a steep helix, smoothly formed in the surface area, the helix, in addition to the functions already described above, additionally also having the function of an anchoring means within the mortar.

The features of claims 3 to 5 are directed to different embodiments of the helix. This may - apart from the integral with the body training - also be designed as a separate component, which is suitably connected to the body, for example by welding. It is essential, however, that the helical surfaces - in a cross section of the Seen basic body - are always attached tangentially to the contour of the body, so that the serving for flow guidance surfaces of the body and helix are largely free of discontinuities. This ensures a perfect removal of the loaded with dissolved soil particles flushing medium and serves a reliable embedding in the introduced into the borehole mortar suspension. The helix may in this case be formed as a hollow body, but also as a solid cross-section and in the former case, the front side open. This means that the interior of the coil is also available for transport operations and is also filled when introducing the mortar.

The features of claim 6 are directed to a particular design of the helix. This is hereafter as a radially outward direction cross-sectional tapered profile, thus be formed in the simplest case as a triangular profile, the two helical surfaces - seen in a cross section of the body - are tangentially attached to this.

The features of claims 7 and 8 are directed to a further advantageous embodiment of the base body. This is hereinafter referred to as a tubular, internally and externally provided with a thread-like deformation body, said thread is preferably also usable for Verschraubungszwecken thread. Of this, however, during the mortaring of the body naturally also one whose positive engagement with the mortar improving effect. After the thread extends over the entire length of the body, this can - without affecting the effects of the thread-like profile otherwise, if necessary can also be cut to length in any way.

The features of claim 9 are directed to a particular embodiment of a coupling piece, which serves for screwing two drill pipes or body. It is essential that in the screwed state, the two drill pipes have on the outside always in particular in the connection area always uniform radial dimensions, so that no externally applied structures are provided in the connection region, such. in the case of a socket used to screw in drill pipe ends. The prerequisite for this effect is that said second tube cylinder corresponds in its radial dimensions to the base body. The latter tube cylinder can be secured in case of need also in its central position by selective welding.

Due to the features of claim 10 it is achieved that in the screwed state of two main body using a coupling piece according to the invention emerging from the frontally open helix of a drill pipe flow as directly as possible can enter into the likewise open helix of the adjoining body. This is inventively achieved in that the screwing of the coupling piece is designed with the basic bodies, for example on the Verschraubungslänge to the effect that the two coils in the final Verschraubungszustand in which the body abut the end face of said second tube cylinder, exactly opposite each other.

The features of claim 11 are directed to a variant of the coupling piece insofar as said second tube cylinder in turn is also provided with a helix which corresponds in shape to the helixes of the base body and in the assembled state connects steadily to the latter. This means that the coil according to the invention, starting from the borehole mouth to the borehole bottom - extending over the connecting region in each case two base bodies - is equipped with a continuous spiral.

The drill pipe according to the invention is provided according to the features of claims 12 and 13 with a detachable drill head, which may be bolted to the drill pipe. It is essential that the drill head is provided with a special support cylinder which extends over the length of said coupling body and defines an annular space which communicates via radially extending bores with the central longitudinal bore of the drill head. This means that while flushing the flushing medium on the one hand from the flushing holes of the drill bit exits, but at the same time on the said radial holes of the coupling body and the annulus occurs, flows in the rearward direction and develops a suction at the end of the coupling body, which supports the removal of the as a result of the drilling progress of dissolved material acts. At the same time a stabilizing and shaping effect is exerted on the surrounding borehole walls by the support cylinder. The support cylinder has an outer diameter which corresponds at most to the outer diameter of the drill bit, but is preferably formed slightly smaller.

The support cylinder is connected to the drill bit in preferably non-detachable connection, thus can be welded to this be and is formed according to the features of claim 14 preferably smooth-walled. In addition, its position is stabilized by webs, which are in firm connection with the coupling body.

The coupling body is designed according to the features of claim 15 to the effect that the protruding from this threaded portion for screwing into the body of a drill pipe is determined.

The features of claim 16 are advantageous insofar as in the context of the coupling body only those functional elements are used which are already used in the context of the coupling part and the base body. These are essentially two ineinanderschraubbare tube cylinder of different lengths, of which the inner longer forms the threaded portion, which is intended for screwing into the facing end of a drill pipe. Both nested tube cylinders are welded at one end to the drill bit.

As expressed in the features of claim 17, the drilling and injection tube according to the invention is characterized in that the radial outer dimensions of the helix may be dimensioned slightly larger than those of the drill head, in particular the drill bit. Preferably, however, the dimensions of the helix correspond to those of the support cylinder.

• Fig. 1 die Bohrkrone eines erfindungsgemäßen Injektionsbohrankers;
• Fig. 2 ein Teil der Bohr- bzw. Ankerstange des Injektionsbohrankers;
• Fig. 3 eine Ansicht der Ankerstange entsprechend einer Ebene III-III der Fig. 2;
• Fig. 4 eine Ansicht eines zum Verlängern der Ankerstange gemäß Fig. 2 benutzbaren Kupplungsteils.

The invention will be explained in more detail below with reference to the embodiment shown in the drawings. Show it:

• 1 shows the drill bit of a Injektionsbohrankers invention.
• FIG. 2 shows a part of the drill or anchor rod of the injection drill anchor; FIG.
• Fig. 3 is a view of the anchor rod according to a plane III-III of Fig. 2;
• Fig. 4 is a view of a usable for extending the anchor rod of FIG. 2 coupling part.

1 with a drill head is designated in its entirety in Fig. 1. This is provided with an axially short, plate-like drill bit 2, which shows at least one, bore 4, whose axis intersects the longitudinal axis 3 of the drill head or which is arranged at least off-center. This bore 4 fulfills the function of a flushing hole. The drill bit 2 is otherwise provided in a manner known per se with cutting edges 5 or comparable means extending on the outside or borehole bottom side.

6 with a tube cylinder is called, which corresponds in its radial dimensions as well as in its wall thickness to be described below in the drill rods and in which a further tube cylinder 7 is inserted. Both tube cylinders 6, 7 are made of cold-rolled steel and are provided with an inner and an outer thread, in such a way that the smaller-radius tubular cylinder 7 is screwed into the tube cylinder 6. Incidentally, the tube cylinder 7 projects out of the tube cylinder 6 by a dimension 8 and serves, in a manner yet to be explained, for coupling a boring bar.

It is the system of nested tube cylinders 6, 7 welded in a, coaxial with the longitudinal axis 3 arrangement with the drill bit 2.

With 9 is a, to the longitudinal axis 3 rotationally symmetrical, immediately adjacent to the longitudinal bore 10 of the tube cylinder 7, referred to in the direction of the drill bit 2 towards conically enlarged cavity.

It is the cavity 9 in the rest by a series of radially extending, the walls of the nested tube cylinder 6, 7 penetrating holes 11, whose importance will be discussed in more detail below.

The drill bit 2 projects beyond the system of the tube cylinders 6, 7 in the radial direction and is denoted by 12 a smooth-walled metal cylinder, which is also welded to the drill bit 2 and whose radial dimension 13 substantially corresponds to that of the drill bit 2. The cylinder 12 extends in the rest in the axial direction over a, the outer tube cylinder 6 corresponding length and communicates with this via webs 14 in connection, which are provided on the, the drill bit 2 facing away from the end portion of the tube cylinder 6. Between the outside of the tube cylinder 6 and the inside of the cylinder 12 thus remains an annular space 15 and it open the holes 11 mentioned in this annulus 15 a. The cylinder 12 forms a support cylinder, which will be discussed in more detail below.

A flowing in the direction of arrow 16 detergent or a mortar suspension flows on the one hand on the bore 4 in the direction of arrow 17, but at the same time on the holes 11 and the annular space 15 in Direction of the arrows 18.

The drill rod 19 shown in Figs. 2 and 3 is formed as a tubular outer body provided with a continuous external and internal thread, which in turn consists of cold-rolled steel. It corresponds in its radial dimensions as well as in its wall thickness to the dimensions of the tube cylinder 6. Thus, the internal thread of the boring bar 19, not shown in FIGS. 2 and 3, is intended to be screwed onto the section of the tube cylinder 7 protruding from the tube cylinder 6. so that in the assembled state of the drill rod, the front end of the tube cylinder 6 abuts directly on the facing end face of the drill rod 19.

With a helix 20 is referred to, which is formed by a cross-section approximately triangular hollow profile.

The profile is characterized by two substantially identical legs 21, which extend symmetrically with respect to the axial plane 22 and substantially tangential to the cross-sectional contour of the drill rod and are welded thereto.

The helix has a comparatively large pitch of 1 m to 3 m and is smooth on the outside. The helix 20 extends uniformly over the entire length of the drill rod and the front ends of the helix 20 are open and are available for a flow-through process. Practically, the coil 20 may consist of a folded, material-identical with the drill rod 19 formed sheet metal.

It is essential that the radius 23 of the coil 20 corresponds approximately to the radius of the drill bit 2 and thus the radius of a borehole. Optionally, the diameter of the coil may also be dimensioned larger than that of the drill head, up to a value of at most 1.05 times the diameter of the drill bit. The outer radius of the drill rod 19 may for example be 15 mm to 20 mm.

The purpose of the coil 20 will be discussed in more detail below.

With 24 in Fig. 4 denotes a coupling piece in its entirety, which is designed symmetrically with respect to a radial plane 25. It consists of the coupling piece substantially of a first tube cylinder 26 which corresponds in terms of its radial dimensions including its internal and external thread the tube cylinder 7 of the drill head 1 and a second tube cylinder 27, which corresponds to the tube cylinder 6 in terms of its internal and external thread and the wall thickness , The tube cylinder 27 is screwed onto the tube cylinder 26 and fixed in a central position, for example by selective welding. Thus, the ends of the inner tube cylinder 26 protrude symmetrically on both sides out of the tube cylinder 27.

For mounting an extension drill rod of the type shown in Fig. 2, first the coupling piece 24 is screwed into the end of a drill rod, wherein then the extension drill rod is screwed onto the remaining tube cylinder section 26. In the assembled state, ie after screwing the drill head 1 with a drill rod, a coupling piece 24 and an extension drill rod, the drill rod thus over its entire length radially constant dimensions and there are no externally applying sleeve-like structures are provided in particular in the connecting region of two boring bars. The drill rods are uniformly provided over their entire length with a continuous thread and it is in turn over the entire length a continuous, only in the connection area narrowed by the tube cylinder 26 hole available, which serves to guide a detergent or a mortar suspension.

A coupling piece of the type shown in FIG. 4 can serve not only for connecting an extension drill rod but also for connecting an adapter part for introducing a flushing medium or mortar suspension, and a drill drive.

To set an injection drilling anchor equipped in the above sense, which is preferably designed for cohesive soils, this is firstly used in a manner known per se as a boring bar, wherein air flows through the central longitudinal bore 10 as a flushing agent. The rinsing agent exits during drilling boring on the one hand on the bore 4 axially, in this case takes on, dissolved by the drill bit 2 soil particles to then flow around the drill bit 2 around and on the outside of the cylinder 12.

On the other hand, part of the scavenging air flows out via the bores 11 into the annular space 15 and, after leaving this annular space, develops a suction at the point 26, which assists the further conveyance in the direction of the borehole mouth. At the same time by the cylinder 12, the outside substantially the dimensions of Borehole wall corresponds to the latter exercised a stabilizing effect.

The coil 20 extends almost immediately to the end of the cylinder 12 facing the same and during the progress of the drilling develops a conveying action on the materials flowing between the inside of the borehole wall and the outside of the boring bars 19 in the direction of the borehole mouth. At the same time the borehole walls are smoothed and evened by the helices and a further effect of the helices is a precise centric guidance of the drill rods within the borehole.

The cross section of the coils 20 also participates in the transport of dissolved soil materials. In the area of a coupling piece 24, the length of the tube cylinder 26 protruding from the tube cylinder 26 is ensured by appropriate length measurement that the frontal, open in cross-section ends of the coils 20 of two juxtaposed drill rods are exactly opposite. If necessary, the tube cylinder 27 may be equipped with a corresponding helical element, so that results in a continuous course of the helix 20 over the entire, composed of a plurality of drill rods length of Injektionsbohrankers due to the length measurement of said sections.

After drilling, the longitudinal bore 10 is used in a conventional manner for introducing a mortar suspension, which continuously fills the borehole progressing in the area of the bottom of the borehole and progressing towards the borehole mouth. In the filled state, therefore, the boring bars are due to the central guide by means of the helix provided on the outside with a uniform mortar coverage over the entire length of the borehole, which overlap due to the hollow helical cross-section is also present within the same. This means that over the entire length of the Injektionsbohrankers a uniform and reliable effective corrosion protection. It should be noted that, accordingly, the radius 23 of the coil 20 is dimensioned to the effect that with centric guidance of the injection drill rod all-round minimum coverage with mortar or a similar medium, such as a synthetic resin in a layer thickness of at least 10 mm or 15 mm is given.

The use of an anchor rod according to the invention has been described above in the context of a, from a drill head 1 and various, interconnected via coupling pieces drill rods injection anchor. Applications are not limited thereto. Thus, for example, there is also the possibility to use screwed between each two boring bars Verpreßventile, and that of the type as described in the unpublished patent application P 41 28 154.3 of the Applicant. Their essential feature are tubular cylinders of the type shown in Fig. 4 by the reference numeral 27, which are screwed on a smaller diameter tubular cylinder 26 and between which a valve member which consists of an elastic envelope body, wherein in a similar manner as in the coupling part 24 protrude end portions of the inner tube cylinder 26 on the outer tube cylinder 27 and are determined and designed for screwing in each facing Bohrstangenenden. By using such an injection valve between two boring bar ends their radial dimensions are thus not changed globally.

Claims (18)

Drill tube, comprising at least one tubular base body, through which a continuous longitudinal channel extends, characterized in that on the outside of the base body, a helix (20) is arranged, which extends over the entire length of the body, a pitch of 1 m to 3 m and a radial width, starting from the outside of the body of at least 10 mm. Drill pipe according to claim 1, characterized in that the main body together with helix (20) is formed in one piece and consists of a cold-formed steel. Drill pipe according to claim 1 or 2, characterized in that the helix (20) - seen in a cross section of the base body - is attached tangentially to the contour of the base body. Drill pipe according to one of the preceding claims 1 or 2, characterized in that the helix (20) - seen in a cross section of the base body - forms a hollow profile whose end faces are open. Drill pipe according to one of the preceding claims 1 or 2, characterized in that the helix (20) - seen in a cross section of the base body - forms a solid profile. Drill pipe according to one of the preceding claims 1, 2, 4 or 5, characterized in that - seen in a cross section of the body - all spiral surfaces are tangentially attached to the contour of the body and that the cross section of the helix (20) in radially outward direction rejuvenated. Drill pipe according to one of the preceding claims 1 to 6, characterized in that the base body is provided on the outside with a continuous profiling, which is preferably designed as a thread. Drill pipe according to claim 7, characterized in that the base body is provided at the same time over its entire length with a continuous internal thread. A drill pipe according to claim 8, characterized in that a coupling piece (24) serving to connect two base bodies consists of a first pipe cylinder (26) intended for screwing into two basic bodies to be connected, on which, in a preferably central arrangement, a second pipe cylinder (27) is arranged such that the first tube cylinder (26) protrudes from both sides of the second tube cylinder (27) and that the second tube cylinder (27) in the same way as the main body is provided at least with an external thread. Drill pipe according to Claim 9, characterized in that the sections of the first pipe cylinder (26) projecting from the second pipe cylinder (27) are dimensioned such that in the assembled state of two base bodies the mutually facing ends of the respective spiral (20) run in alignment with one another. Drill pipe according to claim 9 or 10, characterized in that the second pipe cylinder (27) is provided with a helix (20) which is structurally adapted to the helix (20) of the base body and that in the assembled state, the mutually set spirals of a base body, said tubular cylinder (27) and the subsequent body have a substantially continuous course. Drill pipe according to one of the preceding claims 1 to 11, characterized by a drill head (1) which is detachably connected to the main body. A drill pipe according to claim 12, characterized in that the drill head (1) has an axially short, plate-like drill bit (2) provided with at least one continuous flushing bore communicating with the longitudinal channel of the drill pipe, that on the drill bit (2) one to the longitudinal axis (3) concentric coupling body is arranged, which has at its, the drill bit (2) facing away from the end serving for screwing to the base threaded portion that the coupling body with a continuous, the continuation of the longitudinal channel of the body is provided that the drill bit (2) has a larger diameter than the coupling body, that on the drill bit (2) - surrounding the coupling body leaving an annular space (15) - a support cylinder is attached to the, the drill bit ( 2) facing away from the front side is open, that the bore of the coupling body via radial, through holes (11) with the annular space (15) is in communication and that the support cylinder has an outer diameter which corresponds at most to that of the drill bit (2). Drill pipe according to claim 13, characterized in that the support cylinder is formed smooth-walled, consists of metal and preferably in addition via the annular space (15) bridging webs (14) is in communication with the coupling body. Drill pipe according to claim 13 or 14, characterized in that the threaded portion of the coupling body is designed and configured for screwing into the base body. Drill pipe according to Claim 15, characterized in that the coupling body consists of two pipe cylinders (6, 7) screwed into one another, of which the inner (7) protrudes from the outer (6) and forms the threaded section intended for screwing into the main body, that the inner tubular cylinder (7) corresponds in its radial dimensions to the first tube cylinder (26) of the coupling piece (24) and the outer tube cylinder (6) in its radial dimensions to the second tube cylinder (27) of the coupling piece (24), that the outer tube cylinder (6 ) and the second tube cylinder (27) in their radial dimensions Correspond to the base body and that the axial extent of the support cylinder substantially equal to that of the outer tube cylinder (27). Drill pipe according to one of the preceding claims 13 to 16, characterized in that the outer diameter of the helix corresponds to at most 1.05 times the outer diameter of the drill bit. Drill pipe according to one of the preceding claims 13 to 17, characterized in that the radially extending holes (11) opening into the annular space (15) are provided in a region of the coupling body adjacent to the drill bit (2).

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