DE3814939C1 - Drilling device for directionally accurate drilling - Google Patents

Abstract

For directionally accurate drilling, the drill bit (38) is mounted in a pendulous manner at the front end of the inner pipe string (23) so that it can tilt upon striking against an obstacle (46). The blows of a tubular hammer (33) are transmitted via an anvil (36) to the shank (37) of the drill bit (38). When the drill bit (38) tilts, the blow-transmission surfaces (36a, 37a) form an angle so that the blows act in such a way as to align the drill-bit axis (47) with the drilling axis (A). <IMAGE>

Description

The invention relates to a drilling device in Preamble of claim 1 specified type.

Often holes have to be drilled in the ground to Pipes or lines for gas, water, electricity or post to relocate services. Such holes must be targeted from an exit shaft to a target point be placed without a surface obstruction or damage to the between the starting point and the destination lying area occurs. Such holes must often over a long length of e.g. 100 m in front to be driven. One difficulty is that the soil is not homogeneous, but stones, gravel, Can contain gravel and other inclusions there is a risk of the hole being deflected.  

It is known to produce pin holes to pre-press a pipe string in the ground and inside Direction measurements of the pipe string with a laser beam to perform. The pipe string is on the front End asymmetrical and it will depend on the detected directional deviations rotated so that he each occupies a position that the determined Directional deviation counteracts. Required here the measuring process is a very complex apparatus direction. In addition, directional deviations are always only compensated if they have already occurred are.

So-called horizontal bores are also used "Soil launchers" that are in the hole support and drive on from the support site. With such equipment is not accurate drilling possible. Furthermore, the soil through the Bohr device so compressed that the drilling feed be is impaired.

In the production of relatively large holes Diameter is often referred to as overlay drilling turned, in which two coaxial tubing strings, one of which the inner pipe string carries a drill bit will. At the rear ends are the tubing strings attached to a drill carriage, which the rotary and Feed drives carries. Such drilling devices he require significant space outside of the borehole and they are not capable of feeding the drill from one Shaft from (DE 29 24 393 C2).

The invention has for its object a Bohr device in the preamble of claim 1 specified type to create that without the use of  additional measuring devices a straightforward and enables precise drilling in homogeneous soils.

This object is achieved with the invention the ge in the characterizing part of claim 1 mentioned features.

In the drilling device according to the invention The shaft of the drill bit is oscillating in the inner pipe string leads so that it is at an angle around the longitudinal axis of the Inner pipe string can freely adjust around. If the The core bit hits an obstacle off-center distracted them to the side of the obstacle. The blow device is preferably an in the inner tubing lying pipe hammer, the strokes of a across the Inner tubing surface on the back of the Drill bit shank are transferred. The drill stands Crown shaft inclined because the drill bit is on an ent speaking obstacle, then the Hit only that area of the back of the Drill bit shaft transferred to the obstacle is agile. In this way the blows will Obstacle smashed and the drill bit turns with their longitudinal axis automatically on the longitudinal axis of the inner pipe string. Because in the event of a fault Align the drill bit the back of the drill bit shaft is at an angle to the face that The blows transferred to the drill bit shaft is the Alignment of the drill bit shank self-adjusting, i.e. the drill bit is always striving, the back surface of their shaft perpendicular to the direction of this Adjust the rear impact. Hereby As a result of the blows, the drill bit, although it is pivoted in the axial direction of the inside  pipe string stabilized. That way they can Deviations even if stones or rocks in the Way of the borehole exist to a value of be reduced by less than 1 °.

A particular advantage is that he inventive drilling device a directional Propulsion allows without measurements and after regulations are required. The clout is on concentrates that side of the drill bit after which the head of the drill bit deviates. The invention makes use the thought that the head of the drill bit always deviates to the side of the obstacle and up this side will concentrate the blows of the pipe hammer trated. Furthermore, the striking surface acts on the back side of the drill bit shaft that it strives to the drill bit shaft always in the axial alignment to join the inner pipe string.

The oscillating guidance of the drill bit shaft is there achieved by that the diameter of this shaft ge is ringer than the inner diameter of the surrounding Sleeve. There is also a ring collar in front of the shaft seen that in a corresponding guide of the inside tubular rod is movable. That is preferably Pendulum center in the area of the spline of the Shaft, the spline simultaneously the Ring collar forms and in a corresponding counter interlocking of the inner pipe string. By wedge gearing and counter-gearing is the rotary drive the core bit with the inner tubing string is reached and in the same plane in which the rotation is transmitted, there is also the pendulum center.  

The areas in front of and behind the pendulum center the drill bit (including the shank) can ent different depending on the respective requirements Have lengths. It is preferably behind the pendulum center length of the drill bit larger than that length lying in front of the pendulum center, so that the back actual lever arm is longer than the front lever arm and the directivity of the blows is strengthened.

The invention further relates to a method for operation the drilling device. With this procedure the directional drilling through the drill bit and by advancing the inner tubing string against the Outer pipe string causes. The outer tubing is after pressed. The outer pipe string is re-pressed in steps only when the feed force the drill bit is finished. This ending will come by found that the pressure of the inner tube line feeding hydraulic drive under one Limit has dropped. It has proven to be very important found that the pre-pressing of the outer tubing only takes place when the feed force of the inner tube strand ended. Would the inner tubing still be under pressure, so the outside tubing during pre-pressing from the intended one Direction.

The following are with reference to the Drawings embodiments of the invention closer explained.

Show it:

Fig. 1 is a side view of the drilling device, partly in section,

Fig. 2 is a plan view of the drilling device,

Fig. 3 shows a longitudinal section through the front end of the drilling device and

Fig. 4 shows a longitudinal section through a modified guide form from the front end of the drilling device.

The drilling device has a drilling frame 10 which can be inserted into a vertical shaft 11 of the ground. The length of the drilling rig in the drilling direction is approximately 1.50 m. The drilling frame 10 rests on supports 12 and it is supported on the rear wall of the shaft 11 with vertical planks 13 . At the front end of the boring frame 10 there is a vertically oriented guide plate 14 , through the opening of which a guide sleeve 15 is inserted. At the rear end of the guide sleeve 15 , an adjusting device 16 is attached in the form of screws that press against the guide plate 14 . The axial alignment of the guide sleeve 15 can be changed by adjusting the adjusting device 16 . The guide sleeve 15 is directed exactly to the direction to be drilled and pressed into the wall of the shaft 11 , so that it specifies the direction to be drilled.

On the drilling frame 10 , a carriage 17 is guided in the longitudinal direction (ie parallel to the drilling direction). This carriage 17 is driven by hydraulic cylinder units 18 , which are fastened by joints 19 at the front end of the boring frame 10 , while their rear ends are connected to the carriage 17 via joints 20 . On the slide 17 , a clamping device 21 consisting of two hinged half-shells is fastened, which clamps the rear end of the outer tubular strand 22 . The half-shells of the clamping device 21 have an inwardly directed annular projection 21 a , which engages in a corresponding annular groove at the rear end of the inner tubing string 22 . Just as the clamping device consists of two half shells, the guide plate 25 consists of two hinged half shells.

The inner tube strand 23 protrudes from the rear end of the outer tube strand 22 . The rear end of the inner pipe string 23 is connected to the output shaft of the rotary drive 25 via a clamping device 24 consisting of two half-shells. This rotary drive has a motor 25 a and a gear 25 b . The rotary drive 25 is fastened to a lower slide 26 which is movable on the slide 17 along longitudinal guide rails 27 . Be the movement of the lower carriage 26 is carried out by cylinder units 28 which are connected at one end 29 to the carriage 17 and at the other end 30 to the lower carriage 26 . By moving the carriage 17 , the outer tubing string 22 and inner tubing string 23 are moved equally without performing relative movements, and when the lower carriage 26 moves relative to the carriage 17 , the inner tubing string 23 is moved in the outer tubing string 22 .

The guide sleeve 15 surrounds the outer tubing string 22 closely, while between the outer tubing string 22 and the inner tubing string 23 there is an annular space 31 for backwashing the drilling material before. This backwashing is indicated by the arrows 32 .

Through the inner tubing string 23 air or liquid or a mixture of gas and liquid a pipe hammer 33 is supplied, which is arranged at the front end of the inner tubing string inside the outer tubing string. A guide star 34 serves for the coaxial guidance of the pipe hammer 30 in the outer pipe string. The with a pressure medium (pneumatic or hydraulic) driven pipe hammer 33 strikes with his hammer piston 35 periodically on an anvil 36 , which is guided in the outer pipe string so that its flat front side 36 a extends exactly transverse to the drilling axis ( A ). The front 36 a abuts against the also flat rear side 37 a of the shaft 37 of the drill bit 38 . The head 39 of the drill bit is located outside the inner pipe string and the outer pipe string and its diameter is substantially equal to the outer diameter of the outer pipe string 22 , so that the head 39 fits through the guide sleeve 15 and the hole drilled by the head 39 is no larger than the width of the outer pipe string. This increases the guiding accuracy.

In the front end of the inner pipe string 33 , a closure part 40 is screwed, which serves as a guide part for the shaft 37 of the drill bit 38 and is formed on its circumference as a guide star 40 a . The inside diameter of the closure part 40 is larger than the outside diameter of the shaft 37 , so that the shaft has play in the closure part and can oscillate within the angular range 41 of a maximum of 5 ° around the longitudinal axis ( A ).

The pendulum center 42 of the drill bit 38 is located in the area of a wedge toothing 43 provided on the shaft 37 , which is in engagement with a corresponding counter toothing 44 on the inside of the inner pipe string 33 . The axial length of the spline 43 and counter toothing 44 is so small that the pendulum movement of the drill bit 38 is made possible. On the other hand, the interlocking toothings 43 , 44 ensure that the drill bit is rotated with the inner tubing 33 . On the shaft 37 sits a ring consisting of two half shells 45 , which is clamped between the closure part 40 and an annular shoulder of the inner pipe string 33 and which does not let the spline 43 pass and thus secures the drill bit 38 against being pulled out of the inner pipe string.

In Fig. 3 the state is shown that the drill bit 38 asymmetrically bumps into an obstacle 46 , such as a stone. The head 39 of the drill bit is deflected towards the obstacle 46 so that the axis 47 of the drill bit 38 deviates from the drilling axis ( A ) in the direction of the obstacle 46 . As a result, the surfaces 36 a and 37 a are at an angle 48 to one another. When the hammer piston 35 strikes, the impact transmission surfaces 36 a and 37 a touch only at one point or edge that is on the same side as the obstacle 46 . As a result, the impact is preferably transmitted to the obstacle 46 and, on the other hand, the front 36 a of the anvil 36 strives to align the shaft 37 of the oscillating drill bit 38 with the drilling direction ( A ). There is therefore a self-adjustment of the drilling feed to the drilling direction predetermined by the course of the inner pipe string 23 and the outer pipe string 22 .

Drilled material loosened by the head 39 of the drill bit 38 is flushed back into the shaft 11 in the annular space 31 . The drive medium of the tubular hammer 33 is used for backwashing.

The inner tubing string 23 and the outer tubing string 22 each consist of individual tubes which are connected by plug connections. In this case, two pipes lying one inside the other are lowered into the shaft 11 and coupled to the rear end of the pipes already in the pipe. In this way, very long bores of approximately 100 or 150 m can be drilled, whereby a directional accuracy of approximately 1 ° can be maintained even in difficult soils. The inner pipe string is rotated by the rotary drive 25 , the pipe hammer arranged in the course of the inner pipe string 33 exerting blows on the drill bit 38 . The longitudinal guidance is carried out by the outer tubing 22 , which is pressed forward by the movement of the slide 17 . An additional rotation of the outer tubing string is not required, but can be seen before.

When drilling, the inner tubing string 23 is first advanced by pressurizing the cylinder units 28 in the outer tubing string 22 , with the drill bit 38 being increasingly moved beyond the front end of the outer tubing string. The repressing of the outer pipe strand 22 takes place only when the pressure in the cylinder units 28 has dropped to a lower limit, ie when the feed of the drill bit ends and the drill bit is no longer under pressure. This prevents the outer tubing string from following a current inclination of the drill bit 38 and can deviate from the intended direction.

Fig. 4 shows a further embodiment in which the pendulum center 42 is moved forward compared to the first embodiment and is located in the region of the guide sleeve 40 . The embodiment according to FIG. 4 has the advantage that almost the entire length of the shaft 37 forms the rear lever arm of the drill bit 38 , based on the pendulum center 42 . The drill bit 38 is secured against sliding out of the inner tube by a ring 45 formed from two half-shells, against which a 37 b seen on the shaft 37 bumps. Between the bore of the closure member 40 and the shaft 37 there is an annular space which allows lateral play and thus enables pendulum movements of the shaft 37 .

In the above-described exemplary embodiments, the impact force of the hammer piston 35 is transmitted to the shaft 37 via the anvil 36 . There is also the possibility that the striking surface of the hammer piston 35 strikes directly on the rear 37 a of the shaft 37 . In this case, however, the face of the hammer piston should not be spherical, but should be flat. The hammer piston 36 has the advantage that the force acting on the shaft 37 face greater ge makes may be used as the striking surface of the hammer piston 35 and that the striking face of the hammer piston can be carried out 35 convex, while the impact transmission between the anvil 36 and shaft 37 by flat surfaces.

Claims (9)

1. Drilling device for directional drilling, with
an inner pipe string ( 23 ) which carries a drill bit ( 38 ) at the front end,
an impact device provided on the inner tubing string ( 23 ), which strikes the drill bit ( 38 ),
an outer pipe string ( 22 ) which is pushed forward in a pressing or pressing-rotating manner,
and with a boring frame ( 10 ) with means for advancing the inner tube strand and the outer tube strand,
characterized in that the shaft ( 37 ) of the drill bit ( 38 ) in the inner tubing string ( 23 ) is guided so that it can freely adjust to the axis ( A ) of the inner tubing string ( 23 ), and in the vicinity of the front A centering device ( 34 ) is provided at the end of the inner pipe string ( 23 ) and is supported in the outer pipe string ( 22 ) forming the counter bearing. 2. Drilling device according to claim 1, characterized in that the maximum inclination of the drill bit ( 38 ) is limited to approximately 1 ° to 5 °. 3. Drilling device according to claim 1 or 2, characterized in that the pendulum center ( 42 ) of the drill bit ( 38 ) in the region of a spline ( 43 ) of the shaft ( 37 ) of the drill bit ( 38 ), which in a counter-toothing ( 44 ) of Inner tube strands ( 23 ) engages. 4. Drilling device according to claim 3, characterized in that the counter-toothing ( 44 ) on one of the front end piece of the inner tube strand ( 23 ) forming the closure part ( 40 ) is provided. 5. Drilling device according to one of claims 1 to 4, characterized in that an anvil ( 36 ) is provided between the tubular hammer ( 33 ) and the shank ( 37 ) of the drill bit ( 38 ), which has a front ( 36 a ) extending at right angles to the longitudinal direction. strikes against the rear side ( 37 a ) of the shaft ( 37 ), which is also perpendicular to the longitudinal direction. 6. Drilling device according to one of claims 1 to 5, characterized in that on the boring frame ( 10 ) an orientable guide sleeve ( 15 ) is brought, which can be pressed into the ground and leads the outer tubing string ( 22 ) over part of its length. 7. Drilling device according to one of claims 1 to 6, characterized in that on the boring frame ( 10 ), a slide ( 17 ) and on this a sub slide ( 26 ) is guided, that on the slide ( 17 ) the rear end of the outer tubing string ( 22nd ) and on the lower carriage ( 26 ) the rear end of the inner pipe string ( 23 ) is in each case easily detachably fastened and that a first hydraulic drive ( 18 ) for the carriage ( 17 ) and a second hydraulic drive ( 28 ) for the lower carriage ( 26 ) is provided. 8. Drilling device according to one of claims 1 to 7, characterized in that the impact device is a tubular hammer ( 33 ) lying in the inner pipe string, which has the centering device ( 34 ). 9. A method of operating a drilling device according to one of claims 1 to 8, characterized in that the drilling is carried out exclusively by before pushing the inner pipe string ( 23 ) and that after drilling the outer pipe string ( 22 ) is only pre-pressed when the hydraulic pressure of the hydraulic drive ( 28 ) feeding the inner pipe string ( 23 ) has dropped below a limit value.