The invention relates to a drilling device for establishing a drill hole in the ground, having a main body, having a drilling tool which is disposed on one end of the main body, having a drive for the drilling tool that is provided on the main body, having a bracing device which is conceived for bracing the drilling device in a cylindrical hollow body and which has at least one bracing plane having at least two bracing elements which by way of a first end are disposed on the main body and which on the second end of said bracing elements have at least one bracing member, wherein the at least one bracing member of the bracing element by means of at least one drive is able to be moved from a first position to a second position. The invention furthermore relates to a system for establishing a drill hole in the ground, having an above-mentioned drilling device in conjunction with a cylindrical hollow body.
When erecting buildings in which the foundations thereof are supported in or on ground, respectively, which is situated underwater, for example, these foundations are produced in various ways, wherein the use of so-called monopiles, thus single piles, has become the norm in the case of integral foundations. An alternative thereto is the so-called jacket, this being a pyramid-shaped construction, or tripods which have in each case a plurality of foundation points. These buildings are wind power installations or bridge constructions, for example.
According to the prior art, in the case of monopiles so-called jack-up rigs are provided for example on site, the working plane of said jack-up rigs being provided with a swing gear. The pile is clamped in this swing gear, deflected from the horizontal to the vertical, and by opening the clamps released onto the seabed. The pile is subsequently driven into the ground by means of a pile driver.
A drilling device which, proceeding from a working platform, is lowered into an upright foundation pile is known from WO 2010/139380 A1. The drilling device has an arm, a drilling roller by way of which the ground situated in or below the drilling pile, respectively, is excavated being disposed on the end of said arm, the drilling pile subsequently being lowered into the cavity.
Drilling devices which are similar to those described at the outset are likewise known from WO 2013/081455 A1 and from WO 2015/131984 A1. The drilling device has a main body which is composed of two parts which are mutually displaceable by means of a hydraulic cylinder. An arm is disposed on the lower main body, a drill head being situated on the end of said arm. The rock/ground situated in or below the pile, respectively, is released and conveyed away by this arm. The housing is braced in relation to the foundation pile. Provided to this end are pivotable arms on the ends of which clamping elements are provided. In order for the drilling device to be braced in the pile, the arms by way of hydraulic cylinders are pivoted outward until the clamping elements come to engage with the pile. The bracing installations are in each case disposed on the upper and on the lower end of the outer housing part of the drilling device. It has been demonstrated that, for one thing, the bracing installations are worthy of improvement.
It is the object of the invention to improve the connection between a hollow body, such as a foundation pile or a housing/machine tube of a drilling device, and the drilling device.
In terms of the drilling device the object according to the invention and according to a first solution is achieved in that the bracing member by way of at least one element on the internal wall of the hollow body provides a form-fitting connection between the main body and the hollow body.
A releasable yet stable and particularly precise connection can be achieved in a simple manner as a result.
A further teaching of the invention provides that the hollow body is a pile for founding a building, a casing, or a liner.
It is advantageous here that the main body is removable from the hollow body. As a result, it becomes possible for the hollow body to be drilled into the ground in a simple manner while the drilling device is retrievable.
In terms of the drilling device the object according to the invention and according to a second solution is furthermore achieved in that the hollow body is a housing (machine tube) of the drilling device, and that the bracing member by way of at least one element on the internal wall of the housing provides a form-fitting connection between the main body and the housing.
A releasable yet stable and particularly precise connection between the main body and the housing can be achieved in a simple manner as a result.
It is advantageous here that the main body is removable from the housing. As a result, it is possible for the housing to be left behind in the ground separately from the main body of the drilling device, should this be necessary.
A further teaching of the invention provides that at least one clamping element having at least one movable clamping face for providing the form-fit with the at least one element is provided on at least one of the bracing elements, and that the at least one clamping face by at least one drive is able to be moved from a first position to a second position. It has been demonstrated that the form-fit can be provided in a particularly simple manner as a result.
It is advantageous here that the clamping face is provided so as to be substantially vertical or horizontal. If the clamping face is provided so as to be horizontal, it is possible for the form-fitting connection between the main body of the drilling device and the riser/housing to be achieved in a simple and effective manner in and counter to the drilling direction. If the clamping face is provided so as to be vertical, it is possible for the form-fitting connection between the main body of the drilling device and the riser/housing to be achieved in a simple and effective manner in the circumferential direction of the riser/housing.
It is furthermore advantageous that the at least one element is at least one counter bearing face for the form-fit by the at least one clamping element. As a result, the clamping elements can be disposed in a particularly simple manner so as to in each case act in the required direction. It is furthermore advantageous here that the at least one counter bearing face is provided so as to extend perpendicularly from the internal wall. As a result, the required counter bearings for the clamping elements for the form-fit can be provided in a simple manner.
A further teaching of the invention provides that, by way of the at least one clamping face and the at least one drive, a clamping force for providing the form-fit is able to be applied to the at least one element, said force being substantially orthogonal to the drilling direction or counter to the drilling direction.
A further teaching of the invention provides that at least two clamping elements that are provided so as to be substantially vertical and aligned in an opposing manner are in each case provided so as to have at least one clamping face that is disposed so as to be substantially vertical. Particularly accurate positioning can be achieved in a simple and efficient manner as a result. Furthermore, the form-fitting connection is provided in a simple manner.
It is advantageous here that the at least two clamping elements by means of at least one drive are in each case able to be moved horizontally from the first position to the second position.
A further teaching of the invention provides that the at least one drive is at least one hydraulic cylinder.
A further teaching of the invention provides that at least two bracing planes having in each case at least two bracing elements are provided so as to be disposed on top of one another. The form-fitting connection is provided particularly efficiently and reliably in a simple manner as a result.
It is advantageous here that the at least one clamping element by way of the at least one substantially vertical clamping face is disposed on at least one bracing element of the lower bracing plane.
A further teaching of the invention provides that the bracing member is in contact with the internal wall of the hollow body or housing.
A further teaching of the invention provides that the drill head by means of at least one drive is repositionable in relation to the drive in and counter to the drilling direction.
It is advantageous here that the drive is at least one hydraulic cylinder, and that the contact pressure force of the drill head on the ground is able to be determined by way of the hydraulic cylinder. As a result, a load control on the drill head can be provided in a simple manner.
A further teaching of the invention provides that the drill hole is a substantially vertical drill hole.
A further teaching of the invention provides that the drill hole is established in water or by a bore hole filled with a liquid.
The object according to the invention is furthermore achieved by a system for establishing a drill hole in the ground, having a drilling device described above and a hollow body.
The hollow body is preferably a pile for founding a building, a casing, a liner or a housing (machine tube) of the drilling device.
It is furthermore advantageous here that the hollow body on the internal wall thereof has at least one element for establishing a form-fitting connection between the main body and the hollow body.
The at least one element preferably has a counter bearing face.
The counter bearing face is particularly preferably provided so as to extend perpendicularly from the internal wall of the hollow body.
The invention will be explained in more detail hereunder by means of a preferred exemplary embodiment in conjunction with a drawing in which:
Provided on the lower end 13 of the main body 11 is a drill head 12 which is connected to a drive (not illustrated). Furthermore provided on the drill head 12 is a suction opening 14 (see
The main body 11 has a bracing device 30 by way of which the drilling device 10 is braced in the riser/housing 20. The bracing device 30 here has at least one bracing plane 31, 32. A preferred embodiment in which the bracing device 30 has two bracing planes 31, 32, i.e. the lower bracing plane 31 and the upper bracing plane 32, is illustrated in
The bracing elements 33, 34 are fixedly disposed on the main body 11. Pivotable solutions are likewise possible.
Bracing members 35, 36 are provided on the outer end of the bracing elements 33, 34. These bracing members 35, 36, by way of in each case one drive 37, here preferably in each case one hydraulic cylinder, are disposed so as to be movable, i.e. deployable and retractable in the direction of the arrow B. The bracing members 35, 36 in
The bracing members 35, 36 are in each case provided with clamping elements 38, 39. The clamping elements 38, 39 here have clamping faces 40, 41 which by way of at least one drive 42, 43, preferably a hydraulic cylinder, are able to be moved from a first position to a second position.
The lower bracing plane 31 having the bracing members 36 here preferably has in each case four clamping elements 39 per bracing member 36, said clamping elements 39 having in each case one clamping face 40 which, by way of a hydraulic cylinder as the drive 42, are disposed so as to be deployable and retractable in the direction of the arrow C in relation to the bracing member 36 (see
The upper bracing plane 32 having the bracing members 35 here preferably has in each case one clamping element 38 per bracing member 35, said clamping element 38 having a crossbar 44 which by way of a drive 43, here preferably in each case two hydraulic cylinders, is connected to the bracing member 35 on the lower side of the bracing member 35. The crossbeam 44 on the outer ends 47 thereof has in each case one clamping face 41 which is provided on that side 46 of the crossbeam 44 that faces the clamping member 35. The crossbeam by way of the drive 43 is able to be moved in the direction of the arrow D away from the bracing member and toward the latter (see
The internal wall 21 of the riser/housing 20 has a counter bearing region 50 which here preferably has an upper counter bearing plane 51 and a lower counter bearing plane 52. The latter is illustrated in
The upper counter bearing plane 51 has vertical guide plates 54, introduction ramps 53 being provided on the upper end of said vertical guide plates 54. Horizontal counter bearings 55 which are provided so as to be orthogonal to the guide plates 54 are provided on the lower end of the guide plates 54. The counter bearings 55 are provided with reinforcements 56 which are embodied in the manner of cams, for example. The horizontal counter bearings 55 are embodied in a manner corresponding to that of the clamping faces 41. The clamping faces are braced in relation to the counter bearings 55.
The lower counter bearing plane 52 has vertical counter bearings 58, introduction ramps 57 being provided on the upper end of said vertical counter bearings 58. Provided on the lower end of the counter bearings 58 are horizontal contact faces 59 which are provided so as to be orthogonal to the counter bearings 58. The counter bearings 58 and the contact faces 59 are provided with reinforcements 60, 61 which are embodied in the manner of cams, for example.
The bracing members 36 are incorporated into the intermediate space 23 between the counter bearings 58 by deploying the lower drives 37. The bracing members 35 are incorporated into the intermediate space 22 between the guide plates 54 by deploying the upper drives 37. The drives 43 of the crossbeams 44 of the clamping elements 38 here are preferably deployed such that the clamping faces 41 can be disposed below the counter bearings 55. The clamping faces 40 by way of the drives 42 thereof are preferably retracted.
Furthermore, the clamping members 35, 36 can be deployed so far that the latter contact the internal wall 21.
If necessary, it is even possible for the clamping members 35, 36 to be braced in relation to the internal wall. This however is preferably not envisaged.
The lower bracing members 36 are optionally placed onto the contact faces 59.
In order for the form-fitting connection between the riser/housing 20 and the main body 11 to be established, the clamping faces 40 are deployed horizontally against the counter bearings 58 once the clamping members 35, 36 are disposed. The clamping faces 41 are moved against the counter bearings 55. As a result, a form-fit is effected between the main body 11 and the riser/housing 20.
The drilling using the drilling device according to the invention takes place once the main body of the drilling device 10 has been inserted into the riser/into the housing 20 and the riser/the housing 20 has been transferred to the drilling position. The drilling can be carried out from horizontally up to vertically. This is performed either by a feeder unit or by the weight of the drilling device 10 together with the riser/housing 20.
Once the drilling is completed, either the form-fitting connection is released in the reversed order as previously described, and the main body 11 is retrieved from the riser/housing 20 once the deployed drilling tools 17 have been retracted in the direction of the arrow A, or the housing conjointly with the main body 11 is retrieved from the bore hole (not illustrated) and left to stand open.
It is possible for different riser/housing diameters to be used conjointly with a main body 11 and the apparatuses provided thereon, and also for different matching drill head diameters to be used to this end.
Number | Date | Country | Kind |
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10 2020 125 629.9 | Sep 2020 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2021/076712 | 9/28/2021 | WO |