WO2002090707A2

WO2002090707A2 - Drilling device comprising a drive body with nozzles

Info

Publication number: WO2002090707A2
Application number: PCT/EP2002/004882
Authority: WO
Inventors: Hans-Joachim Bayer
Original assignee: Tracto-Technick Gmbh
Priority date: 2001-05-03
Filing date: 2002-05-03
Publication date: 2002-11-14
Also published as: DE10121564A1; WO2002090707A3

Abstract

The invention relates to a device for producing or expanding drill holes in a wet drilling method, wherein said device is provided with a drive body with nozzles, which is connected to a pull and/or thrust drive, said nozzles being movably arranged, thereby having a larger working area in comparison with stationary nozzles and a more intensive drilling force.

Description

"Drilling device with a jacking body with nozzles"

The invention relates to a device for producing or expanding earth bores in the wet drilling method with the aid of a propulsion body equipped with nozzles and takes the priority of German patent application 101 21 564.9, to which reference is made in terms of content.

Methods for wet drilling or rinsing drilling usually use a driving body equipped with nozzles for producing an earth hole or for expanding a pilot hole. Self-propelled ram boring machines or also drill heads driven via a linkage as well as drawn and / or expansion heads provided with a thrust drive are used as jacking bodies. In order to not only mechanically but also hydraulically dig the soil and at the same time to request it against the direction of advance, it is known to provide such propulsion bodies with nozzles. These nozzles are normally screwed into a corresponding thread in the propulsion body and, depending on their configuration, deliver different jets, for example in the form of a hollow or full cone or a sharp full jet, but in any case a constant jet pattern. This also applies to rotating jacking bodies that are provided with a steering surface, a so-called inclined surface head. If the nozzle axis coincides with the axis of rotation, then the jet pattern does not change, while in the case of eccentrically arranged nozzles the jet sweeps an annular surface during the rotation. In the case of a curve boring However, it is necessary to interrupt the rotation of the jacking body. The nozzles then act like stationary nozzles until cornering is complete and the propulsion body is rotated again.

In order to take different soil conditions into account when mechanically and hydraulically excavating soil, the only option left is to replace the nozzles in accordance with the changing soil conditions. This is time consuming and costly.

The invention seeks to remedy this and in particular also to increase the intensity of the hydromechanical excavation of soil.

In order to achieve this, the invention proposes a drilling device of the type mentioned at the beginning, the driving body of which is provided with movably mounted nozzles. The nozzles can perform a wobble movement or can be rotatably mounted about their longitudinal axis or oscillating transversely to their longitudinal axis. The flushing liquid can serve as the nozzle drive, for example in such a way that it is supplied obliquely with respect to the nozzle axis and its horizontal component thus sets the nozzle in rotation.

If it is a full jet nozzle, a jet cone forms when the nozzle moves, which cyclically sweeps over the soil and, above all, removes soil components with lower rock hardness and strength. The bond and load-bearing effect are lost, and the harder components that are subsequently released have a strong abrasive effect on less hard rock components. The fact that the nozzle jet acts cyclically on the soil as a result of its rotation also has a mining effect and accordingly there is a rapid change in loading and unloading phases, which is associated with attrition of the rock or soil. Due to the rapid alternation between loading and unloading phases, rock extraction is significantly stronger than with rigid nozzle systems. This attrition effect can still be seen increase if the nozzles are filled with a hot fluid and therefore there is a rapid temperature change in the rock.

The nozzles according to the invention can also be arranged on a rotating drive body, for example a drill head driven via a linkage. In this case, the movements of the nozzles and the rotation of the drill head overlap, which is associated with an intensification of the earth mining.

The nozzles can all rotate in the same sense or in opposite directions in order to influence the degradation conditions and to take into account the most varied of soil parameters.

The nozzle axes preferably run at an angle, for example at an acute angle to the longitudinal axis of the driving body or the drilling direction; they can also be oriented individually or in part against the direction of advance in order to improve the removal of the loosened soil. The number and the alignment of the nozzles expediently depend on the desired borehole cross-section in order to avoid the development of undesired lateral outcouplings.

Depending on their arrangement and exposure to hydraulic fluid, the nozzles according to the invention can also serve to influence the drilling direction.

The flushing liquid is preferably used as the drive means for the nozzle rotation. To make this possible, Venturi or high pressure nozzles are particularly suitable.

The invention is explained below with reference to exemplary embodiments shown in the drawing. The drawing shows: Fiq. 1 a plan view of a drill head provided with a steering surface,

2 the drill head according to FIG. 1 in a side view,

3 shows a steering head with three nozzles,

Fig. 4 is a side view of the steering head of Fig. 3 and

Fig. 5 shows an axial longitudinal section through a nozzle body.

The steering head 1 according to FIG. 1 is a drilling head, which is usually arranged at the end of a linkage and is driven into the ground by means of a rotary-push drive. The steering head 1 has a steering surface 3 inclined with respect to the steering head axis 2, the effect of which is canceled as long as the linkage rotates with the steering head 1. As soon as the drill rotation is interrupted, the steering surface 3 comes into effect in such a way that the drill head is deflected.

A nozzle 4 opens into the steering surface 3 and is supplied with pressure fluid via a line 5 leading to the drill pipe. The nozzle is rotatably mounted in a housing 6 and has a turbine drive, not shown, which allows the nozzle to be rotated with the aid of the flushing or cutting fluid supplied via line 5.

The steering head 7 shown in FIGS. 3 and 4 differs from the steering head according to FIGS. 1 and 2 only in that it is equipped with three rotating nozzles 8, 9, 10. These nozzles can rotate in different directions and with different or the same direction of rotation as the steering head 7. Since the nozzles have their own feed lines 11, 12, they can also be operated with different fluids and / or different fluid pressure. So there is the possibility of a bentonite / water suspension via one of the nozzles and one via the other two nozzles Bring rinsing liquid to use or to generate a cutting jet with one of the nozzles.

A nozzle body 13, only shown schematically, with an outlet opening 14, in which a tumbling nozzle 15 is arranged, can also be arranged in the nozzle housing 6. The nozzle 15 is seated in the receptacle 16 of a nozzle holder 17, which is supported on a concave bearing plate 20 via a ball 18 in an open receptacle 19 of the nozzle holder 17. The bearing plate 20 normally — unlike shown — touches the bearing ball 18 of the nozzle holder 17, which is at a short distance from the outlet opening 14 in the idle state. The bearing plate is axially movable in a chamber 21 of the nozzle body 13; it has two bores 22 which run approximately in the axial direction, only indicated in FIG. 5, and moves so far forward under the influence of a liquid flowing into a chamber 24 via a nozzle 23, i. H. in the direction of the outlet opening 14 until it comes to rest there. The bores 22 are arranged or directed in such a way that the jets leaving them set the nozzle holder 17 in a wobbling movement and accordingly a conical jet results in front of the outlet opening 14, the maximum opening angle of which is shown in FIGS Arrow is marked.

Claims

claims:

1. Device for producing or expanding earth bores in the wet drilling method with a propulsion body (1; 7) provided with nozzles (4; 8, 9, 10), characterized in that the nozzles are arranged to be movable.

2. Device according to claim 1, characterized in that the nozzles (4; 8, 9, 10) are rotatably mounted about their longitudinal axis.

3. Apparatus according to claim 1, characterized in that the nozzles (4; 8, 9, 10) are mounted so as to oscillate about an axis transverse to their longitudinal axis.

4. Device according to one of claims 1 to 3, characterized in that the nozzles (4; 8, 9, 10) are arranged at an angle to the longitudinal axis (2) of the propulsion body (1; 7).

5. Device according to one of claims 1 to 4, characterized in that nozzle openings point against the direction of advance.

6. Device according to one of claims 1 to 5, characterized in that the nozzles (4; 8, 9, 10) are arranged in a steering surface (3).

7. A method for producing or expanding earth bores in the wet drilling method, characterized in that arranged in a jacking body (1; 7) nozzles (4; 8, 9, 10) are fed with a hot fluid.