EP2597249A1 - Drilling device and method for creating a vertical borehole - Google Patents

Abstract

The drilling equipment has a base main portion whose rear side is arranged with a lifting mechanism (18) for suspending the equipment in the hole, and an eccentric cam axle (22) rotatably mounted in an application unit mounted on an end face of the base main portion eccentric to the central axis (11) of base main portion and circumferentially about the central axis. A drive unit rotationally drives the application unit about cam axle. The application unit is disc-shaped such that the cam axle is angled at an acute angle to the axis of hole and/or the central axis. An independent claim is included for a method of forming vertical drill hole.

Description

The invention relates to a drilling device for creating a vertical bore with a base body, arranged on a rear side of the body suspension for suspending the drill in the bore, a rotatably mounted about an eccentric removal unit, which on one side of the body eccentrically to a central axis of the body arranged and circumferentially mounted about the center axis, and a drive unit for rotationally driving the Abtragseinheit about the eccentric axis according to the preamble of claim 1. Furthermore, the invention relates to a method for creating a vertical bore.

Such a drill is for example from the DE 10 2008 028 997 A1 out. This known drill has an approximately cylindrical housing which is sunk vertically into the ground. Eccentric to the center axis of the drill a conical drilling tool is provided, which is driven by a motor rotating. The individual drilling tool rotates planetary the center axis of the drill, wherein the distance between the eccentric axis of the drilling tool and the center axis of the drill is variable, so as to be able to cover the entire borehole bottom.

Such drilling tools with an eccentrically arranged removal tool are particularly advantageous for working in hard soil or rock. In contrast to conventional drilling tools with continuous cutting edges currently only a small area of the borehole bottom is always processed in the generic drills. This considerably reduces the load and thus the wear of the removal tool and of the entire drilling tool.

Due to the eccentric arrangement of the drilling tool results in the operation of an asymmetric load on the drill. Such asymmetric force effects can lead to a deflection of the drill from the desired vertical drilling direction. In the cited prior art, it is proposed to guide the drill in a trackable casing lining the wellbore. The provision and tracking a piping of the wellbore is expensive.

The invention has for its object to provide a drill and a method for creating a vertical bore, with which holes can be created very efficiently, even in hard soil material.

The object is achieved according to the invention by a drill with the features of claim 1. Preferred embodiments of the invention are indicated in the dependent claims.

The drill according to the invention is characterized in that the Abtragseinheit is disc-shaped and that the eccentric axis of the disc-shaped Abtragseinheit angled at an acute angle to the borehole axis and / or to the center axis of the body is arranged.

The inventive arrangement a particularly favorable force distribution and thus a favorable wear behavior is achieved with high removal rate. First, the Abtragseinheit is arranged disc-shaped, so not provided with a defined, lying on the eccentric axis drill bit. Due to the eccentric and angewinkeite arrangement of the Abtragseinheit results in a kind of tumbling movement about the center axis, which usually corresponds to the drilling axis of the drill and thus a borehole axis. In this tumbling movement, only a constantly changing portion of the Abtragseinheit with the soil to be removed is in contact. In this way, overheating of the removal unit and thus excessive wear can be avoided, since during the rotational movement individual peripheral areas of the disc-shaped removal unit are not or only slightly loaded depending on their rotational position.

In addition, a conical borehole bottom is produced by an acute angle of the eccentric axis with downward increasing distance to the center axis. Such a Conical borehole bottom facilitates centering of the drill in the borehole. As a result, the leadership of the drill in the borehole is improved. The acute angle is between 2 ° and 30 °, preferably 5 °.

A further improvement of the guide results according to a preferred embodiment of the invention in that at least one support element is arranged on the front side of the main body next to the removal unit, which is designed to rest on a bottom of the bore. In a preferred asymmetrical arrangement of the drill with a single Abtragseinheit the support element is arranged with respect to the center axis opposite to the front side of the base body. The support element is preferably rod-shaped. It is spring-mounted or telescopic. This can counteract unwanted tilting of the drill in the borehole and the orientation can be controlled.

It is particularly preferred according to the invention that a measuring device is provided on the support element for determining a bearing force of the drill. For this purpose, corresponding force sensors may be present, by means of which the pressure force on the support element can be determined. The compressive force on the support element allows conclusions about the bearing force of the opposing Abtragseinheit. In this way, the pressing force and the speed can be matched to each other in a favorable manner, so that sets a high progress with low wear.

In principle, in a simple embodiment, the removal unit can be a disk with ablation teeth arranged on the circumference. A particularly preferred embodiment of the invention consists in that the removal unit has a carrier disk on which a plurality of removal tools are respectively mounted rotatably about a tool axis. The removal tools can be designed as a roller chisel. Other removal tools are possible, such as multihammers (MHD). The tool axes can be spaced and arranged transversely to the eccentric axis of the carrier disc of the removal unit. In this way, the rotating Abtragswerkzeuge can roll on the bottom of the hole. This further improves the removal and wear behavior. The removal tools can also be driven in rotation by a gear in the carrier disk.

This arrangement is preferably further developed in that the removal tools each have a plurality of Abtragszähne arranged. The erosion teeth are arranged radially protruding to the outer periphery. The removal tools preferably have a removal tip, so that there is substantially a punctiform, chisel-like contact with the ground. In contrast to linear cutting edges, this further improves the wear behavior.

In order to ensure a high removal rate, it is preferred that the rotatable removal tools are driven circumferentially to the eccentric axis. The circulating movement of the removal tools thus does not result as a rolling movement due to the rotation of the drilling apparatus as a whole, but is specifically effected by a drive, which is preferably arranged in the carrier disc of the removal unit. The Abtragswerkzeuge may also be milling discs, which are planetary driven around the eccentric axis circumferentially.

Furthermore, according to the invention, it is preferred that a suction opening is provided on the end face of the main body, via which abraded soil material can be suctioned off via a suction line from a bottom hole. The drill can thus operate in a well filled with suspension or liquid bore. This not only serves to support the borehole wall. But the liquid also cools the Abtragswerkzeuge, which is advantageous in the processing of hard rock. About the suction opening, the removed soil material can be sucked together with surrounding liquid via a suction line. This extends through the body through to the back of the body. There is usually a connection for a hose, so that the soil material can be pumped from the bottom of the well to over days. In this case, a pump can be arranged in the main body itself and / or a pumping device can be arranged over days.

A good guidance and a high rate of drilling progress is achieved according to the invention in a preferred manner, that on the base body a torque arm is arranged, with which the base body relative to a surrounding wall of the bore can be supported.

It is particularly preferred that the torque arm has a plurality of radially extendable support elements. The radial extension can by means of hydraulic Cylinder or by a corresponding lever mechanism done. As a result, at least part of the basic body is supported relative to the borehole wall so that reaction forces can be introduced directly into the borehole wall. Thus, it is no longer absolutely necessary to supply a torque via a rigid drill pipe exclusively from above to the drill. This is particularly advantageous if larger drilling depths of 30 to 100 m and below are sunk.

It is particularly useful according to the invention that the base body has a rear upper part and a front-side lower part, which are axially displaceable to each other, that on the upper part of the torque arm and the lower part of the Abtragseinheit are arranged, and that a displacement device for axial displacement of the Lower part is provided relative to the upper part. The rear upper part of the main body can thus be fixed via the torque arm in the radial and / or axial direction relative to the surrounding soil. In this way, an axial pressure force can be applied from the upper part to the underlying lower part via a displacement device, which comprises in particular hydraulic actuating cylinder. With the displacement device can be very precisely adjusted and controlled the pressure force on the Abtragseinheit.

Basically, it is also possible according to the invention that the torque is supplied via a rigid drill pipe from above ground. In the simplest case, the drive unit may be a gear which receives a torque from a central drill pipe and converts this into corresponding output torques for the removal unit, in particular for the removal tools. It can be achieved as a fixed ratio of the torques and speeds between the individual rotatably driven elements of the Abtragseinheit.

It is particularly advantageous according to the invention that the drive unit comprises a motor which is supplied with hydraulic and / or electrical energy. The engine may be provided alternatively from the outside or in addition to the supply of torque. The energy is supplied from over days via an electrical line or hydraulic lines. A motor converts this energy into a mechanical rotary motion. It can according to the invention also a plurality of motors may be provided so that overall an individual adjustment of the speeds and torques of the individual driven elements is made possible.

Finally, the object stated at the outset is procedurally solved by a method for creating a vertical bore, wherein a drill is used according to the invention described above. With the drill, drilling in hard soil and rock can thus be made in a particularly efficient manner.

Fig. 1

eine schematische Seitenansicht eines erfindungsgemäßen Bohrgerätes mit eingefahrenem Unterteil;

Fig. 2

eine schematische Seitenansicht des Bohrgerätes von Fig. 1 mit ausgefahrenem Unterteil;

Fig. 3

eine Teilquerschnittsansicht des erfindungsgemäßen Bohrgerätes gemäß Fig. 2; und

Fig. 4

eine Detailquerschnittsansicht der Abtragseinheit gemäß dem Schnitt A-A.

The invention will be further described by means of preferred embodiments, which are shown schematically in the accompanying drawings. In the drawings show:

Fig. 1

a schematic side view of a drilling device according to the invention with retracted lower part;

Fig. 2

a schematic side view of the drill of Fig. 1 with extended lower part;

Fig. 3

a partial cross-sectional view of the drill according to the invention according to Fig. 2 ; and

Fig. 4

a detail cross-sectional view of the Abtragseinheit according to the section AA.

According to the Figures 1 and 2 an inventive drill 10 is shown, which has an approximately cylindrical base body 12 with a central axis 11. The center axis 11 corresponds to a rotary drive of the drilling apparatus 10 via a square suspension device 18 for a Kelly bar a drilling axis of the forming wellbore.

The main body 12 comprises a cylindrical upper part 14 and a cylindrical lower part 16, which are mounted to each other axially displaceable. On an upper side of the box-shaped upper part 14, the suspension device 18 is attached for connection to a drill pipe. From a lower side of the upper part 14, a central shaft 15 extends coaxially to the center axis 11. The tubular central shaft 15 protrudes into a sleeve-shaped receptacle 17. The sleeve-shaped receptacle 17 and the Mittenschaft 15 are axially displaceable relative to each other, but rotatably connected to each other. To limit an axial travel, an annular stop 13 is arranged on the central shaft 15. Below the annular stop 13 on a lower shaft portion 19 of the central shaft 15, axial webs, not shown, are provided for forming the axially movable rotary joint. About three offset by 120 ° to each other lifting cylinder 72 of a displacement device 70, the lower part 16 by a stroke h relative to the upper part 14 extendable, so that an axial length of the drill 10 increases, as in Fig. 2 shown. The lifting cylinders 72 are secured with their cylinder housing on an upper side of the lower part 16, while the pistons 74 are attached via a retaining ring, not shown, on the upper part 14.

On a lower side of the lower part 16, a disk-shaped removal unit 20 is arranged eccentrically to the center axis 11. The removal unit 20 is rotatably supported and driven about an axis of rotation 11 spaced apart from the center axis 11 eccentric. On a carrier disk 24 of the removal unit 20, roller-shaped removal tools 26 are mounted rotatably about tool axes 28 on the underside facing the bottom. On the outer sides of the roller-shaped Abtragswerkzeuge 26 not shown Abtragszähne 30 for removing rocks or hard soil material are arranged.

Radially to the center axis 11 opposite a support element 50 is disposed on the circular disk-shaped underside of the lower part 14. The support element 50 includes an axially downwardly projecting shaft 54, on which a circulation roller 52 is arranged, which is rotatably mounted about a transverse to the center axis 11 directed roller axis. The support element 50 serves to support and balance the asymmetrically arranged individual removal unit 20 in order to counteract tilting of the drilling device 10 during operation.

On the support element 50, a measuring device may be provided, with which a pressure force of the drill 10 can be determined on the bottom of the hole. In this way, a suitable pressure force can be adjusted via the displacement device 70 to the removal unit 20.

For this purpose, it is further provided that on the upper part 14, a torque arm 60 is arranged, with which the upper part 14 relative to the surrounding borehole wall can be supported and fixed in the circumferential direction and in the axial direction. For this purpose, the torque arm 60 three distributed by 120 ° around the central axis 11 arranged plate-shaped support members 62, which are each articulated via two adjusting lever 64 radially ausstellbar on the central shaft 15. For exhibiting or retracting an adjusting cylinder 66 is arranged on each support member 62. The actuating cylinder 66 and also the pistons 74 are connected to the central shaft 15 via suitable retaining rings (not shown).

Structure and operation of the drilling device 10 according to the invention and in particular of its drive unit 40 will be further in connection with the cross-sectional view of Fig. 3 explained. About the suspension device 18, a torque is transmitted to a central sun gear 41 via a drill string, not shown. The sun gear 41 drives a first pinion 42 which is non-rotatably connected to a drive shaft 43 leading to the lower part 16. The drive shaft 43 comprises a shaft upper part 44, which projects axially displaceably into a sleeve-shaped receptacle of a shaft lower part 45, in order to ensure an axial displaceability of the lower part 16 relative to the upper part 14 in accordance with the stroke h. Via a spur gear 46, the shaft base 45 drives a drive shaft 47 of the removal unit 20. For this purpose, the drive shaft 47 has a drive pinion 21 with a curved toothing.

How closer in Fig. 4 is shown, the axis of rotation of the drive shaft 47 is coaxial with the eccentric axis 22 of the Abtragseinheit 20, wherein the eccentric axis 22 is disposed at an acute angle to the center axis 11 of the drill 10. In the present embodiment, the angle is 5 °. As a result of this oblique position of the removal unit 20, which is driven in rotation about the eccentric axis 22, an improved soil removal and a lesser wear of the removal tools 26 are achieved.

The removed soil material is sucked up via a suction opening 38 on the underside of the lower part 16 via an extending through the entire drill 10 suction line 39 under the support of a suction effect causing turbine wheel 49 upwards. The turbine wheel 49 is driven by the sun gear 41 via a second pinion 48. The suction line 39 may be performed for the suspension device 18 in the interior of the drill string upwards, or on a Top of the upper part 14 may be connected via a line connection with a hose.

Claims (14)

Drill for creating a vertical hole with a base body (12), a suspension device (18) arranged on a rear side of the main body (12) for suspending the drilling device (10) in the bore, - One around an eccentric axis (22) rotatably mounted Abtragseinheit (20), which is arranged on an end side of the base body (12) eccentrically to a central axis (11) of the base body (12) and circumferentially around the center axis (11) is mounted, and a drive unit (40) for rotationally driving the removal unit (20) about the eccentric axis (22),
characterized, - That the Abtragseinheit (20) is disc-shaped and - That the eccentric axis (22) of the disc-shaped Abtragseinheit (20) angled at an acute angle to the borehole axis and / or to the center axis (11) of the base body (12) is arranged. Drilling device according to claim 1,
characterized,
in that at least one support element (50) is arranged on the end face of the base body (12) next to the removal unit (20), which is designed to rest on a base of the bore. Drilling device according to claim 2,
characterized,
that a measuring device on the support member (50) for determining a bearing force of the drilling device (10) is provided. Drilling device according to one of claims 1 to 3,
characterized,
in that the removal unit (20) has a carrier disk (24) on which a plurality of removal tools (26) are each mounted rotatably about a tool axis (28). Drilling device according to one of claims 1 to 4,
characterized,
that the removal tools (26) each have a plurality of arranged Abtragszähne (30). Drilling device according to claim 4 or 5,
characterized,
that the tool axis (28) of Abtragswerkzeuge (26) are added and / or transversely to the eccentric shaft (22) are arranged. Drilling device according to one of claims 1 to 6,
characterized,
in that the rotatable removal tools (26) are driven in a planetary manner around the eccentric axis (22). Drilling device according to one of claims 1 to 7,
characterized,
that a suction opening (38) is provided on the end face of the base body (12) via which material ablated floor via a suction line (39) of a bottom hole is sucked. Drilling device according to one of claims 1 to 8,
characterized,
in that a torque support (60), with which the base body (12) can be supported relative to a surrounding wall of the bore, is arranged on the base body (12). Drilling device according to claim 9,
characterized,
that the torque support (60) comprises a plurality of radially projecting support elements (62). Drilling device according to one of claims 1 to 10,
characterized,
in that the base body (12) has a rear upper part (14) and a front lower part (16) which are axially displaceable relative to one another, that the torque support (60) on the upper part (14) and the removal unit (20) on the lower part (16) ) are arranged, and
that a displacement device (70) for the axial displacement of the lower part (16) relative to the upper part (14) is provided. Drilling device according to claim 11,
characterized,
in that the drive unit (40) is provided on the upper part (14) of the main body (12). Drilling device according to one of claims 1 to 12,
characterized,
that the drive unit (40) comprises a motor, which is supplied with hydraulic and / or electrical energy. Method for creating a vertical hole,
characterized,
in that a drilling device (10) according to one of claims 1 to 13 is used.

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