EP0379187A1 - Method of pulling outer tubings - Google Patents

Abstract

In a method of boring out and pulling double tubing (9, 10) having inner and outer tubing, the boring-out and pulling of the tubing being effected by means of at least one power-driven rotary head (25, 26) traversable on a drill carriage (6), an installed ground anchor is loosened by virtue of the fact that the inner tubing (9) is pulled and the anchor installed before the outer tubing (10) is pulled, that the installed anchor is then secured against pulling-out by inner tubing (9) or a supporting element, and that, when the anchor is secured, the outer tubing (10) is pulled over the inner tubing (9) or the supporting element and that both the inner and outer tubing are deposited together. <IMAGE>

Description

The invention relates to a method according to the preamble of claim 1 and an anchor drilling device for introducing ground anchors according to the preamble of claim 2.

It is known to insert ground anchors to secure embankments or pile walls in a borehole piped through outer rods and to pull the outer rods out of the borehole after inserting the ground anchor. Here, however, it happens that the ground anchor is loosened or partially pulled out of the borehole.

It is an object of the invention to provide a method of the generic type, in which loosening of the ground anchor introduced into the borehole is essentially avoided when pulling rods, in particular the outer rod, and to design an anchor drilling device which is simple machine-based Operation of the double rod during drilling and pulling is suitable for fast and economical implementation of the process.

The object is achieved by the method according to claim 1 and by an anchor drilling device according to claim 2.

In the method, the ground anchor is secured by a support element, which is preferably clamped between the anchor and a counter bearing arranged on the drill carriage. When pulling the outer rod, the anchor cannot be released from the drill hole.

The support element can be designed in the form of an inner rod. If the support element is designed as a seal towards the outer linkage, the penetration of water into the outer linkage to be pulled is prevented.

An anchor drilling machine, in particular for performing the method according to claim 1, is designed according to claim 2. It allows a simple connection and pulling of double rod sections, whereby separate pulling of inner rods and simultaneous pulling of inner and outer rods is possible.

Both the inner and the outer linkage or only the inner linkage of a double linkage section is held in a linkage magazine specially designed for the double linkage sections. The loading device also grips the inner rod or both the inner and the outer rod and transfers both into the drill carriage in a fixed position. Since the inner linkage is held by at least one gripper, it is not freely movable in the outer linkage. In the drill carriage, the inner linkage is actuated by a first power turret and the outer linkage by another power turret. In conjunction with different clamping jaws or power rotary heads for the inner and outer rods, the inner rod can first be connected to the drilled inner rod and then the outer rod to the drilled outer rod. The joining and drilling of the double rod sections is therefore largely automated. The double rod sections are pulled in the reverse order in a simplified manner.
The separately operable power heads and clamps for the inner and outer rods also allow the inner rod to be pulled separately, which enables the installation of ground anchors in bores that are piped through the outer rod.

The installation and removal of the double rod sections in and out of the rod magazine could be done, for example, by hydraulically operated holding elements that open when the grippers of the feeder device have gripped a double rod shot. In an advantageous arrangement, however, the spacing of the holding elements from one another is adjustable. If a double rod section is held at its ends by the holding elements, it is released by, for example, moving one holding element away from the other. As a result, the double rod section is only in contact with a holding element. If at least one gripper of the loading device is adjustable in the longitudinal direction of the drill carriage, the double rod section can then be moved in the direction of the adjusted holding element and removed from the holding element still in contact.

In an advantageous development of the invention, an actuatable actuating element for adjusting at least one holding element is formed on the part of the loading device which is connected to the movable gripper. The movable gripper can then at the same time push the holding element resting against the other end of the double rod section away from a holding element and thereby remove the double rod section from the rod magazine. Conveniently, the rod magazine is designed according to claim 7, whereby the access paths for the loading device to all double rod sections located in the rod magazine are the same.

The power turrets for the inner and outer rods can be actuated independently of one another if a power turret is arranged on a carriage that can be moved along the drill carriage.

If the slide with the power turret of the outer linkage can be moved along the drill carriage and the slide of the power turret of the inner linkage can be fixed to the drill carriage, for example, the outer linkage can be drilled first and then the inner linkage. By coupling the carriages to one another, the carriage with the power rotary head of the inner linkage can be pulled together with the slide of the power rotary head of the outer linkage, for example for pulling only the drilled inner rod can be moved.

In an advantageous embodiment of the invention, the distance between the carriages coupled to one another is adjustable. In this way, the inner and outer linkages can be moved against each other.

Drill rods attached to one another can be broken open or released in a simple manner if at least two clamping pliers can be pivoted relative to one another about the drilling axis.

It is possible to e.g. to attach to an excavator arm. This could be used to tilt the drill carriage at adjustable angles to the ground. In an advantageous embodiment, however, the anchor drilling device has an upward-pointing carrier with a receiving carriage that can be moved on it for receiving the drill carriage. The drilling carriage is advantageously rotatably mounted on the receiving carriage, the angle between the drilling carriage and receiving carriage being adjustable at least in a range from -97 ° to + 97 ° using a hydraulic actuating cylinder. In this way, ground anchors can be positioned at different heights and angles, e.g. into an embankment or slope. The height and angle are set independently of each other.

Advantageous developments of the invention are the subject of the dependent claims.

• Fig. 1 eine Seitenansicht des Ankerbohrgeräts;
• Fig. 2 eine Frontansicht II des Ankerbohrgeräts aus Fig. 1 und
• Fig. 3 den Schnitt III-III aus Fig. 1.

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

• Fig. 1 is a side view of the anchor drilling machine;
• Fig. 2 is a front view II of the anchor drilling machine from Fig. 1 and
• 3 shows the section III-III from FIG. 1.

Fig. 1 shows an anchor drilling device designed as a drilling carriage with a crawler track 1a, on which a device upper part 1c is rotatably arranged via a slewing ring 1b. The upper part 1c carries the drive unit (not shown in more detail), a driver's cab and a support 2 mounted on a horizontal pivot axis 1d, which is designed as a one-piece mast for receiving the drilling device. The mast 2 is supported at its lower end on the pivot axis 1d and can be pivoted by a first hydraulic cylinder 2a arranged between the upper part 1c and a section of the mast 2 located further up.

On the mast 2, a receiving carriage 3 for receiving the drill can be moved in the longitudinal direction of the mast 2. The receiving carriage 3 has a swivel joint 4, on which a drill carriage 6 is mounted via a linkage 7. The swivel joint 4 can be pivoted by means of a second hydraulic cylinder 5 in order to be able to incline the drill carriage 6 continuously relative to the ground. The drill carriage 6 is mounted on the articulation 7 in a longitudinally displaceable manner via guides. The linkage 7 also carries a rod magazine 8 for receiving double rod sections. The rod magazine 8 is of part-circular design and is provided with a plurality of drill rod holders, which each hold both the inner rod 9 and the outer rod 10 or only the inner rod 9 of the double rod section. For this purpose, each drill pipe holder has two holding elements 11, 12 engaging at the ends of a double-rod section. The first holding element 11 is designed as a holding mandrel on which the inner pipe 9 can be plugged on at one end. The holding mandrel 11 has a stop ring 14 against which one end of the outer rod 10 rests. The second holding element 12 is designed as a sleeve with an inner bore 13 for receiving the other end of the inner rod 9. The other end of the outer linkage 10 lies on the held inner linkage.

On the rod magazine 8 is a loading device 15 ge approximately in the center of the part-circular rod magazine stores. As a result, the access paths to all double-rod sections contained in the rod magazine 8 are approximately the same.

As shown in FIG. 2, the loading device 15 has hydraulically actuated grippers which are designed as clamping jaws 16, 16a and which can grip both the inner linkage 9 and the outer linkage 10 or only the inner linkage 9. The clamping jaws 16, 16a are connected to a rotatably driven shaft 15c via two swivel arms 15a, 15b aligned parallel to one another. The clamping jaws 16, 16a can be displaced in the longitudinal direction of the drilling mount 6 via a third hydraulic cylinder 17 and the swivel arms 15a, 15b. The sleeve 12 of the drill pipe holder is secured by detents at least in two places and can be displaced along the drill carriage 6 in the direction of the side facing away from the double drill pipe section via an adjusting disk 21. On the clamping jaw 16a closer to the sleeve there is an adjusting element designed as a driving lever 20, which can be actuated by a fourth hydraulic cylinder 19. When a double-rod section is removed from the drill rod holder, the clamping jaws 16, 16a grip both the inner rod 9 and the outer rod 10. The driver lever 20 can be pivoted into an actuating position by the fourth hydraulic cylinder 19. The two clamping jaws 16, 16a are moved in the direction of the sleeve 12 by the third hydraulic cylinder 17. Here, the inner rod 9 pushes the sleeve 12 with the longitudinal displacement of the loading device. The double rod section is thus released from the holding mandrel 11 and can be removed and transferred to the drill carriage 6.

The insertion of a telescoping double rod into the drill rod holder is done in reverse order. The double rod section is first inserted into the sleeve 12 by the jaws 16, 16a of the loading unit 15 during a longitudinal movement caused by the third hydraulic cylinder 17. The driving lever 20 is put back into its actuating position by the fourth hydraulic cylinder 19, whereby this turns on the adjusting disk 21 engages the sleeve 12 and takes it with the longitudinal displacement of the jaws 16, 16a by the third hydraulic cylinder. As a result, the other end of the double linkage can then be plugged onto the holding mandrel 11 and pulled back again towards the holding mandrel 11 by means of a return movement triggered by the third hydraulic cylinder 17. The inner rod 9 is thus mounted between the mandrel 11 and the sleeve 12, while the outer rod 10 rests only on the side of the mandrel 11.

At the longitudinal end of the drill carriage 6 facing the borehole, three clamping pliers 22, 23, 24 are arranged. The inner and outer clamping pliers 24 and 22 can be pivoted about the drilling axis by means of laterally arranged hydraulic cylinders 32 (FIG. 2). Two power heads 25 and 26 can be moved on carriages 27, 28, 29 on the drilling carriage 6. The inner power turret 26 facing the borehole actuates the outer linkage of the double rod section, while the outer power turret 25 actuates the inner linkage of the double rod section.

The carriage arrangement 27, 28, 29 for carrying the power rotary heads 25, 26 is shown in FIG. 3 as section III-III from FIG. 1.

The power turret 26 for drilling and pulling the outer linkage is arranged on the inner slide 27 and can be moved on the slide 6 by a drive mechanism (not shown) (for example an endless chain drive). The power turret 25 for drilling and pulling inner rods is arranged on the outer slide 29. This is connected to a connecting slide 28 via a fifth hydraulic cylinder 34 and can be fixed on the drill carriage 6. The outer slide 29 and the inner slide 27 can be coupled to and uncoupled from one another via the connecting slide 28. For this purpose, a latching pawl 36 is provided on the connecting carriage 28, which can be actuated hydraulically 35 for engaging behind a section of the inner carriage 27. If the inner and outer Schlit th 27 and 29 are coupled to one another via the connecting slide 28, their distance from one another can be adjusted via the fifth hydraulic cylinder 34. As a result, the inner linkage can be moved relative to the outer linkage. In the coupled state, the carriages 27, 28, 29 form a whole carriage 33, which can be moved on the drill carriage 6 via the inner carriage 27.

The mode of operation of the anchor drilling machine when drilling and pulling double rod sections is described below.

The drilled double rod is held during a rod change by the outer two clamping pliers 22 and 23 facing the borehole. The double rod inserted into the drill carriage 6 is first moved in the direction of the borehole until the outer rod is guided in the conical clamping tongs 24. The inner linkage is then connected to the associated power head 25. The clamping jaw 16a for the inner linkage is released separately and the outer linkage is connected to the power turret 26. The loading device 15 now releases the double rod section and is moved into a rest position.

By means of the fifth hydraulic cylinder 34, the two power heads 25 and 26 are adjusted relative to one another such that the inner linkage protrudes from the outer linkage. The protruding inner rod is moved against the conical middle clamp 23, which holds a drilled inner rod and the inner rod located in the drilling mount 6 is screwed to the drilled inner rod by means of the associated power turret 25. After screwing, the middle clamp 23 is opened and the inner power head 26 moves the outer linkage against the outer, also conical clamp 22, which holds a drilled outer linkage. The inner linkage in the drill carriage 6 is now screwed to the drilled outside linkage by the inner power turret 26. Now the double located in the drilling mount 6 linkage section connected to the drilled double rod and the drilling process can begin.

The removal process of a double-rod section that has been drilled is carried out in the reverse order.

With the anchor drilling device 1, it is also possible to remove only one inner rod separately for installing an anchor in a cased bore. The drilled outer rod is held by the outer clamp 22 and the inner rod by the two clamps 23 and 24 located further inside, the connection point of the inner rod being between the clamps 23 and 24. The inner rods are broken or released by pivoting the inner clamping pliers 24 relative to the central clamping pliers 23. After detaching, the inner rod is placed in the rod magazine 8 and the next inner rod can be pulled into the drill carriage with the power turret 25. After installing the anchor, the outer linkage can also be pulled. For this purpose, an inner linkage is always first taken as a support element from the linkage magazine 8 and attached to the associated outer power turret 25 for the inner linkage. In order to pull an outer linkage after the anchor has been installed, the drive head 26 is moved up to the outer linkage. For this purpose, the outer linkage slide 27 must be decoupled from the inner linkage slide 29 via the displacement slide 28. Simultaneously with this decoupling, the unit comprising the displacement slide 28 and the inner slide 29 is fixed on the drill carriage 6. As a result, the inner rod is held in a defined position. The anchor is therefore supported when pulling the outer rod over the inner rod located in the drill carriage 6 against the rotary head 25 located on the fixed inner rod carriage 29 and can therefore not be loosened when pulling the outer rod.

Pulling out the built-in anchor can be supported by the lockable inner rod slide 29. Using an attachment on the power turret 25 for the inner linkage, it is possible to seal the outer linkage against water when installing the anchor.
With the anchor drilling device, simple rods can also be drilled and pulled in a known manner.

Claims (16)

1. A method for drilling and pulling inner rods and double rods having outer rods, the drilling and pulling of the rods being carried out with the aid of at least one power rotary head which can be moved on a drill carriage,
characterized by
that before pulling the outer linkage, the inner linkage
pulled and an anchor is installed,
that the built-in anchor is then secured against being pulled out by an inner linkage or a support element and that when the anchor is secured the outer linkage is pulled over the inner linkage or the support element and that both linkages are put down together. 2. Anchor drilling device, in particular for carrying out the method according to claim 1, with a drill carriage, a carrier mounted thereon for receiving at least one drill carriage, at least one power rotary head which can be moved on the drill carriage to actuate a drill pipe,
at least one clamp on the side of the drill carriage facing the borehole for screwing and loosening drill rods,
at least one rod magazine with several drill rod holders and
at least one loading device for transferring a drill pipe from the pipe magazine into the drill carriage and vice versa,
characterized by
that each drill rod holder of the rod magazine (8) for receiving a double rod section consisting of inner rods (9) and outer rods (10) has at least one holding element (11, 13) for the inner rod (9) and at least has a holding element (12, 14) for the outer linkage (10),
that the loading device (15) has at least two grippers (16, 16a) for the inner linkage (9) and / or for the outer linkage (10),
that at least one power turret (25) for the inner linkage (9) and at least one power turret (26) for the outer linkage (10) are provided, which can be moved on the drill carriage (6) and relative to each other, and
that several, in particular three clamping pliers (22, 23, 24) are provided. 3. anchor drilling machine according to claim 2,
characterized by
that the distance between the holding elements (11, 12 or 13, 14) is adjustable. 4. anchor drilling rig according to claim 2 or 3,
characterized by
that at least one gripper (16, 16a) of the loading device (15) is adjustable in the longitudinal direction of the drill carriage (6). 5. anchor drilling machine according to claim 4,
characterized by
that the grippers (16, 16a) of the loading device (15) can be actuated independently of one another. 6. anchor drilling machine according to claim 3 to 5,
characterized by
that an actuatable (19) adjusting element (20) for adjusting at least one holding element (12, 13) is formed on the part of the loading device (15) connected to the movable gripper (16, 16a). 7. anchor drilling machine according to one of claims 2 to 6,
characterized by
that the rod magazine (8) is designed as a part-circular magazine or as a revolver magazine. 8. anchor drilling machine according to one of claims 2 to 7,
characterized by
that a power turret (25, 26) is arranged on a carriage (27, 29) which can be moved along the drill carriage (6). 9. anchor drilling machine according to claim 8,
characterized by
that the carriage (27) with the power head (26) of the outer rod along the drill carriage (6) can be moved and the carriage (29) of the power head (25) of the inner rod on the drill carriage (6) can be fixed or moved. 10. anchor drilling machine according to claim 8 or 9,
characterized by
that the carriages (27, 29) can be coupled to and uncoupled from one another. 11. anchor drilling machine according to claim 10,
characterized by
that the distance between the coupled carriages (27, 29) is adjustable. 12. Anchor drilling machine according to one of claims 8 to 11,
characterized by
that the slide (27 and 29) can be coupled to a complete slide (33) via a connecting slide (28), the slide (29) with the rotary head (25) of the inner rod assembly being connected to the connecting slide (28) by a hydraulic cylinder (34) is connected at an adjustable distance and wherein the connecting slide (28) has a mechanism (35, 36) for coupling to the slide (27) of the power rotary head (26) of the outer linkage. 13. Anchor drilling machine according to one of claims 2 to 12,
characterized by
that at least one clamp (22, 24) is pivotable relative to another clamp (23) about the drilling axis. 14. Anchor drilling machine according to one of claims 2 to 13,
characterized by
that on the essentially vertically upward-pointing support (2) there is provided a receptacle slide (3) which can be moved thereon for receiving the drill carriage (6). 15. Anchor drilling rig according to claim 14,
characterized by
that the drilling carriage (6) is rotatably mounted on the receiving carriage (3), the angle between the drilling carriage (6) and the receiving carriage (3) being adjustable via a hydraulic actuating cylinder (5). 16. Anchor drilling machine according to claim 15,
characterized by
that the adjustable angular range is ± 97 °.

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