WO2010070190A1

WO2010070190A1 - Method and apparatus for down-the-hole drilling

Info

Publication number: WO2010070190A1
Application number: PCT/FI2009/050820
Authority: WO
Inventors: Jukka Ahonen
Original assignee: Oy Atlas Copco Rotex Ab
Priority date: 2008-12-17
Filing date: 2009-10-13
Publication date: 2010-06-24
Also published as: EP2370660A4; EP2370660A1; FI20086206A0; EP2370660B1

Abstract

The invention relates to a method for down-the-hole drilling, the drilling being carried out by an apparatus, having a drilling device (1) that comprises a casing part (2) and at least during a drilling situation an essentially inside thereof existing drilling unit (3), at the drilling head of which there are at least first drilling means (4) for drilling a center hole, second drilling means (5) for reaming the center hole for the casing part (2) and a pneumatic flushing flow arrangement (6) for leading of drilling waste by influence of pressurized air at least partly upward, whereby the first drilling means (4) are coupled with the second drilling means (5) first of all power-transmittedly in order to carry out cooperation thereof at least during a drilling situation with the second drilling means (5) for a rotational motion (w4), a feeding motion (z4) and/or a hammering motion (t4), and on the other hand removably in order to enable removal thereof from the hole. Furthermore the casing part (2) is arranged to be drawn into a hole to be drilled by the drilling unit (3). Particularly direct aiming of a flushing air flow (HV) at the soil is being prevented by directing the flushing air at an end of the drilling unit (3) into a counterpart surface arrangement (X) on the drilling surface (Pl and/or P2) existing of the first and/or second drilling means in order to decrease kinetic energy of the flushing air flow (HV) by changing its flow direction on the drilling surface prior to drifting thereof into the ground. The invention relates also to an apparatus applying the method.

Description

Method and apparatus for down-the-hole drilling

The invention relates to a method and apparatus for down-the-hole drilling according to the preambles of the independent claims.

For example in patent publication FI 75650 there has been presented a boring tool, which is meant for boring and/or hammer drilling, to be used in connection with a drill rod unit placed inside a mantle pipe. The boring tool to be attached at the front end of the drill rod unit has a center drill, being provided with a cutting unit, and an eccentric reaming drill, being placed after the center drill, the reaming drill having also a cutting unit. The reaming drill moves with respect to the center drill between a drilling position, in which it is positioned sidewards in front of the mantle pipe, and a return position, in which it is withdrawn in radial direction inside the mantle pipe. Deviating from earlier solutions, in which the center drill is in most cases provided with four cutting parts directed radially and being made of hard metal, the reamer for its part comprising either one or two radially directed cutting parts made of hard metal, in the solution according to the publication in question, the cutting parts are replaced by bit parts being arranged in a certain manner. With the solution presented in this publication such constructions of the center drill and the reaming drill have been aimed that the operating time of the boring tool will be as long as possible.

A way to carry out overburden drilling in a more developed manner compared to prior art, is formerly known e.g. from Finnish Patent No. 95618. The drilling head of the drilling unit of the drilling apparatus existing inside a casing part or in other words a so called casing pipe according to this patent, is formed of a first frame part and an annular second frame part, in the drilling surfaces of which there has been arranged drilling organs, such as drill bits or like, of the first and second drilling means or in other words of the pilot and the reamer. In this solution the first drilling means that is the first frame part forming the pilot, is being released from the second frame part forming the reamer in order to pull the same alone off from a drilled hole after the drilling situation. In the solution in question the second organs of the flushing means for removal of drilling waste being generated are arranged to lead drilling waste by means of an assembly belonging to the counterpart surface arrangement, which connects the said drilling means together for a drilling situation unrotatively in respect with each other and in both directions longitudinally, which, in other words, is being carried out as an advantageous embodiment by loosening grooves, belonging to a bayonet coupling, placed longitudinally in the outer periphery of the first frame part.

Particularly a so called pile drilling has rapidly become common in making of both so called micro piles and large-diameter foundation piles. An advantage of pile drilling is among other things the fact that drilled piles can be mounted quickly and accurately in a desired position, direction and depth. Straightness of the piles, verification of the bottom and accurate positioning are factors, thanks to which the pile drilling has often taken the place of pile driving particularly in demanding construction sites. A drilled pile displaces a corresponding amount of soil to its volume by bringing up the drilled soil entirely. This is why not any horizontal strains will be caused that might brake surrounding structures, which may take place when piles are rammed. Pile drilling is also relatively silent and quite shakeless (the operating frequency of the hammer is higher than the natural frequencies of soil and structures) when compared to piles being rammed. On the other hand the possibility offered by a drilled pile to get a casing pipe mounted reliably and without efforts even into a sloping rock surface, are superiority factors when comparing the method to piling by digging.

Thus a significant number of superiority factors are related to pile drilling, which in practice very often make the same as the most recommendable alternative. Thanks to the pile drilling being the most efficient piling method also by its production capacity and due to the fact that it enables piling with relatively small, easily transportable, and space-saving machines that can be put quickly into working order, also foundation constructors almost without exception take up a positive attitude towards the same.

Pile drilling uses pressurized air for operating the down-the-hole hammer and as the means for bringing up the loosened material. Careless use of air in flushing has brought about, however, some problems, solving of which is necessary for the standpoint of development regarding pile drilling.

Problems caused by flushing air can be devided in two main categories:

- use of flushing air may overdrill an excessive amount of material on surface of the earth, in which case both the foundation to be built and surrounding structures are in danger. This is a typical situation particularly with frictional soil (sand, silt etc.),

- the second problem is due to "pushing" of air into the soil particularly in case of cohesive soil (such as clay) , whereby air may get drifted around load supporting piles (e.g. rammed wood piles) existing in the neighbourhood, in which case weight carrying capacity of the pile (or piles) may decrease very quickly.

Careless use of flushing air has already led to denial of pile drilling by a down-the-hole hammer among other things in some sites, which have been grounded on support of old wood piles driven in cohesive soil, in which case air that has been "escaped" into the soil has caused sudden sinkings and cracks in buildings. On the other hand in some sites, a significantly greater amount of soil has been over drilled by flushing air than the piles have actually replaced, due to which surrounding buildings have been caused to tilt.

Because down-the-hole hammer drilling is, however, a very efficient way to operate, applicable for all soil circumstances and because the piles erected by the same are straight and reliable, the disadvantages related to its use need to be eliminated in order to enable down- the-hole hammer drilling also in the future.

As stated above, the problems caused by the use of flushing air in down-the-hole hammer drilling are usually due to poor professional skill or carelessness of the operating personnel, but in practice also drill bit structures and drilling techniques may effect essentially to arising of the problems. In this context e.g. drill bits are originally designed usually for rock drilling, whereby the flushing air must first of all be directed as efficiently as possible to the drilled point for removing of the particles quickly in order to avoid multiple crushing, and on the other hand with such a volume (and speed) , that the material gets brought up through the casing. This is why the flushing openings of the drill bits are thus aimed directly at the rock surface. During drilling the flushing air may not get back upwards in rock hole, but along a hole with unbroken walls. The situation is, however, different in overburden drilling, whereby the ground may penetrate air even very easily. In this case turning of the flushing air back to the casing pipe or in connection therewith is very problematic or even impossible, if carried out by traditional drill bits. On the other hand, a large amount of air is needed for lifting of the soil, which leads also to a high velocity inside the casing pipe and to very effective blowing of flushing air directly to the soil.

A very controlled air circulation is thus required of bits operating under such circumstances or in other words when the flushing air is returned back to the casing pipe or in connection therewith though the soil was relatively easily air permeable. The drilling action must be performed on the other hand in a space protected as well as possible so that the pressure of the ground does not block input openings of the flushing air or in other words so that the pressure of the flushing air to be fed exceeds the pressure of the ground and on the other hand so that the easiest way for air from the drilled point takes place in a desired manner back to the casing part or in connection therewith.

It is an aim of the method and apparatus according to the present invention to achieve a decisive improvement in the problems described above and thus to raise essentially the level of prior art. In order to carry out this aim, the method and apparatus according to the invention are mainly characterized by what has been presented in the characterizing parts of the independent claims related thereto.

As the most important advantages of the method and apparatus according to the invention may be mentioned simplicity and efficiency of the constructions and operating principles enabled by the same first of all thanks to the fact that it is possible to exploit therewith drill bit constructions that have been found technically very well functionable . On the other hand the invention enables further use of pressurized air as flushing medium thanks to the drilling head of the drilling unit being provided with a counterpart surface arrangement according to the invention operating idealistically so that a direct flow of flushing air may not get directed to the soil, which is why among other things overdrilling and foundations of surrounding structures getting damaged can be avoided, which is nowadays being tried to prevent when drilling by present technique e.g. by protective pilings limiting the drilling site, which become naturally disproportionately expensive. With the method and apparatus according to the invention thanks to improvement of safety, it is thus possible to achieve also clear savings in performing of the drilling itself.

Advantageous embodiments of the method and apparatus according to the invention have been presented in the dependent claims related thereto.

In the following description the invention is depicted in detail with reference to the appended drawings, in which

in figure 1 is shown an advantageous embodiment of the method and apparatus according to the invention when exploiting a so called symmetrical drilling unit, which is based on removal of drilling waste internally in the casing part, in figure 2 is shown an advantageous embodiment of the method and apparatus when exploiting a drilling unit operating on eccentric principle, in which drilling waste is removed internally in the casing part,

in figure 3 is shown a partial cross-sectional view from an end of a symmetric drilling unit according to the invention, in which drilling waste is removed externally in respect of the casing part, and

in figure 4 is shown a partial cross-sectional view from an implementation according to the invention in connection with a drilling unit based on eccentric principle, in which drilling waste goes away externally in respect of the casing part .

The invention relates to a method for down-the-hole drilling, the drilling being carried out by an apparatus, having a drilling device 1 that comprises a casing part 2 and at least during a drilling situation an essentially inside thereof existing drilling unit 3, at the drilling head of which there are at least first drilling means 4 for drilling a center hole, second drilling means 5 for reaming the center hole for the casing part 2 and a pneumatic flushing flow arrangement 6 for leading of drilling waste by influence of pressurized air at least partly upward. The first drilling means 4 are coupled with the second drilling means 5 first of all power-transmittedly in order to carry out cooperation thereof at least during a drilling situation with the second drilling means 5 for a rotational motion w4, a feeding motion z4 and/or a hammering motion t4 produced by a hammer device 7 and on the other hand removably in order to enable removal thereof from the hole. The casing part 2 is furthermore arranged to be drawn into a hole to be drilled by the drilling unit 3. Flushing air is led while being led onto the drilling surface Pl, P2 of the first and/or second drilling means into a counterpart surface arrangement X existing essentially at an end of a drilling unit 3, particularly in order to decrease kinetic energy thereof by changing its flow direction prior to drifting thereof into the ground.

As an advantageous embodiment of the method it is being exploited when operating with a drilling apparatus, in which the drilling head of the drilling device 1 is formed of a first frame part 4a and a second frame part 5a, the drilling surfaces Pl, P2 of which being provided with drilling organs of the first and the second drilling means 4, 5, such as an integrated drilling part, separate drilling pieces, bits or like, and whereby a reamer is being used as the second drilling means 5 that has an essentially continuing drilling surface radially when viewed in a cross- section perpendicular to a longitudinal direction s of the drilling unit 3. The flushing air is in this case being led as an advantageous embodiment particularly with reference to the implementations shown in figures 1 and 3 from a main channel 6; βa in the first frame part 4a by one or several distribution channels 6; βb directed outward from center toward a counterpart surface X' existing in the first 4a and/or the second 5a frame part.

With reference to the advantageous embodiments shown in figures 2 and 4, respectively, the method is exploited when operating with a drilling apparatus, in which the drilling head of the drilling device 1 is formed of a first frame part 4a and a second frame part 5a, the drilling surfaces Pl, P2 of which being provided with drilling organs of the first and the second drilling means 4, 5, such as an integrated drilling parts, separate drilling pieces, bits or like, and whereby a reamer is being used as the second drilling means 5 that operates on eccentric principle, being non- cymmetrical and that opens radially outward for drilling. The flushing air is in this case being led from a main channel 6; βa in the first frame part 4a by one or several distribution channels 6; βb, being directed outward from center, toward a counterpart surface X' existing in the first 4a frame part.

Furthermore as an advantageous embodiment with reference to the appended drawings, speed and/or direction of the flushing air flow HV is altered by a flow space X", being in connection with the counterpart surface X/ X' and the cross-section of which being increased in respect to the same of the distribution channel 6; βb and/or directed to a differing direction.

The invention relates also to an apparatus for down- the-hole drilling as explained above, in which an end of the drilling unit 3 is provided with a counterpart surface arrangement X, which is meant particularly for decreasing kinetic energy of a flushing air flow HV to be brought into the drilling surface Pl, P2 of the first and/or second drilling means, by changing its flow direction prior to drifting thereof into the ground.

A drilling head of the drilling device 1 of the apparatus according to the invention is formed furthermore advantageously of a first frame part 4a and a second frame part 5a, the drilling surfaces Pl, P2 of which being provided with drilling organs of the first and the second drilling means 4, 5, such as an integrated drilling part, separate drilling pieces, bits or like. Particularly with reference to the embodiments shown in figures 1 and 3, the second drilling means 5 comprise a reamer that has an essentially continuing drilling surface radially when viewed in a cross-section perpendicular to a longitudinal direction s of the drilling unit 3. In this case, the flushing flow arrangement comprises a counterpart surface X; X' in the first and/or the second frame part 4a, 5a. Furthermore one or several distribution channels 6; βb existing in the first frame part 4a and being directed outward from center, is/are led toward the above counterpart surface.

Furthermore as an advantageous embodiment of the apparatus according to the invention particularly with reference to the exemplary implementations shown in figures 2 and 4, a reamer is being used as the second drilling means 5 that operates on eccentric principle, being non-cymmetrical and that opens radially outward for drilling. In this case the flushing flow arrangement comprises first of all a counterpart surface X; X' in the first frame part 4a. On the other hand one or several distribution channels 6; βb existing in the first frame part 4a and being directed outward from the center, is/are led toward the above counterpart surface.

The counterpart surface arrangement comprises furthermore advantageously a flow space X", the cross- section of which is increased in respect to the distribution channel 6; 6b and/or being directed to a differing direction therefrom as shown in figure 3 particularly in order to alter speed and/or direction of the flushing air flow HV.

In the embodiments shown in figures 1, 2 and 4, the flow space X; X" is arranged by a recess in the first frame part 4a, at an end of the distribution channel 6; 6b on the drilling surface Pl. Correspondingly with respect to figure 3, in the exemplary implementation presented therein, the counterpart surface X; X' is arranged essentially perpendicularly to the flushing air flow HV.

It is clear that the invention is not limited to the embodiments presented or described above, but instead it can be modified within the basic idea of the invention according to the needs at any given time. It is thus clear that the constructions of the drilling heads being illustrated in the appended drawings may vary in practice very much merely when being carried out with differing diameters. Instead of the type of embodiments shown in figures 2 or 4, it is naturally possible to use as the drilling device also other drilling devices that are applicable for the same purpose, in which a casing part is being exploited in connection with the drilling so that is most advantageously not rotated when being drawn into the ground. It is not that significant for the method and the apparatus according to the invention, either, how the first and second drilling means are coupled to work, so that most heterogeneous solutions can be exploited as the power transmission assemblies between the same starting from a screw joint locking. Also the casing shoe can be placed in an integrated manner at the end of the casing part etc. It is furthermore possible to complement the flushing flow arrangement e.g. by a flow pipe connected to the space between the casing part and the drilling unit e.g. in order to keep the space surrounding the drilling unit empty, and/or by a flushing assembly that greases the joint between the drilling means and the casing shoe etc.

Claims

Claims :

1. Method for down-the-hole drilling, the drilling being carried out by an apparatus, having a drilling device (1) that comprises a casing part (2) and at least during a drilling situation an essentially inside thereof existing drilling unit (3), at the drilling head of which there are at least first drilling means (4) for drilling a center hole, second drilling means (5) for reaming the center hole for the casing part (2) and a pneumatic flushing flow arrangement (6) for leading of drilling waste by influence of pressurized air at least partly upward, whereby the first drilling means (4) are coupled with the second drilling means (5) first of all power- transmittedly in order to carry out cooperation thereof at least during a drilling situation with the second drilling means (5) for a rotational motion (w4), a feeding motion (z4) and/or a hammering motion (t4), and on the other hand removably in order to enable removal thereof from the hole, and whereby the casing part (2) is arranged to be drawn into a hole to be drilled by the drilling unit (3), characterized in that particularly direct aiming of a flushing air flow (HV) at the soil is being prevented by directing the flushing air at an end of the drilling unit (3) into a counterpart surface arrangement (X) existing on a drilling surface (Pl and/or P2) of the first and/or second drilling means in order to decrease kinetic energy of the flushing air flow (HV) by changing its flow direction on the drilling surface prior to drifting thereof into the ground.

2. Method according to claim 1 when operating with a drilling apparatus, in which the drilling head of the drilling device (1) is formed of a first frame part (4a) and a second frame part (5a) , the drilling surfaces (Pl, P2) of which being provided with drilling organs of the first and the second drilling means (4, 5) , such as an integrated drilling part, separate drilling pieces, bits or like, and whereby a reamer is being used as the second drilling means (5) that has an essentially continuing drilling surface radially, when viewed in a cross-section perpendicular to a longitudinal direction (s) of the drilling unit (3), characterized in that the flushing air is being led from a main channel (6; 6a) in the first frame part (4a) by one or several distribution channels (6; 6b), being directed outward from center, toward a counterpart surface (X' ) existing on the drilling surface/surfaces (Pl and/or P2) of the first (4a) and/or the second (5a) frame part.

3. Method according to claim 1 when operating with a drilling apparatus, in which the drilling head of the drilling device (1) is formed of a first frame part (4a) and a second frame part (5a), the drilling surfaces (Pl, P2) of which being provided with drilling organs of the first and the second drilling means (4, 5) , such as an integrated drilling parts, separate drilling pieces, bits or like, and whereby a reamer is being used as the second drilling means (5) that operates on eccentric principle, being non-cymmetrical and that opens radially outward for drilling, characterized in that the flushing air is being led from a main channel (6; 6a) in the first frame part (4a) by one or several distribution channels (6; 6b), being directed outward from center, toward a counterpart surface (X' ) existing on the drilling surface (Pl) of the first frame part (4a) .

4. Method according to any of the preceding claims 1-3, characterized in that speed and/or direction of the flushing air flow (HV) is altered by a flow space (X") , being in connection with the counterpart surface (X; X' ) and the cross-section thereof being increased in respect to the same of the distribution channel (6; βb) and/or directed to a differing direction.

5. Apparatus for down-the-hole drilling, having a drilling device (1) that comprises a casing part (2) and at least during a drilling situation an essentially inside thereof existing drilling unit (3), at the drilling head of which there are at least first drilling means (4) for drilling a center hole, second drilling means (5) for reaming the center hole for the casing part (2) and a pneumatic flushing flow arrangement (6) for leading of drilling waste by influence of pressurized air at least partly upward, whereby the first drilling means (4) are coupled with the second drilling means (5) first of all power- transmittedly in order to carry out cooperation thereof at least during a drilling situation with the second drilling means (5) for a rotational motion (w4), a feeding motion (z4) and/or a hammering motion (t4), and on the other hand removably in order to enable removal thereof from the hole, and whereby the casing part (2) is arranged to be drawn into a hole to be drilled by the drilling unit (3) , characterized in that particularly in order to prevent direct aiming of a flushing air flow (HV) at the soil, at an end of the drilling unit (3) on the drilling surface (P2, P2) of the first and/or the second drilling means there has been arranged a counterpart surface arrangement X in order to decrease kinetic energy of the flushing air flow (HV) by changing its flow direction on the drilling surface prior to drifting thereof into the ground.

6. Apparatus according to claim 5, in which the drilling head of the drilling device (1) is formed of a first frame part (4a) and a second frame part (5a), the drilling surfaces (Pl, P2 ) of which being provided with drilling organs of the first and the second drilling means (4, 5), such as an integrated drilling parts, separate drilling pieces, bits or like, and whereby the second drilling means (5) comprise a reamer that has an essentially continuing drilling surface radially, when viewed in a cross-section perpendicular to a longitudinal direction (s) of the drilling unit

(3) , characterized in that the flushing flow arrangement (6) comprises a counterpart surface (X; X') on the drilling surface/surfaces (Pl and/or P2) on the first (4a) and/or the second (5a) frame part and that one or several flushing air distribution channels (6; βa) existing in the first frame part (4a) and being directed outward from the main channel (6; βa) , is/are led toward the same.

7. Apparatus according to claim 5, in which the drilling head of the drilling device (1) is formed of a first frame part (4a) and a second frame part (5a), the drilling surfaces (Pl, P2) of which being provided with drilling organs of the first and the second drilling means (4, 5), such as an integrated drilling part, separate drilling pieces, bits or like, and whereby the second drilling means (5) comprise a reamer that operates on eccentric principle being non- cymmetrical and that opens radially outward for drilling, characterized in that the flushing flow arrangement (6) comprises a counterpart surface (X; X') on the drilling surface (Pl) of the first frame part (4a) and that one or several flushing air distribution channels (6; 6a) existing in the first frame part (4a) and being directed outward from the main channel (6; βa) , is/are led toward the same.

8. Apparatus according to any of the preceding claims 5-7, characterized in that the counterpart surface arrangement comprises a flow space (X; X") , the cross-section of which being increased in respect to the same of the distribution channel (6; βb) and/or directed to a differing direction in respect thereof particularly in order to alter speed and/or direction of the flushing air flow (HV) .

9. Apparatus according to any of the preceding claims 5-8, characterized in that the flow space (X; X") is arranged by a recess in the first frame part

(4a) , at the end of the distribution channel (6; βb) on the drilling surface (Pl) .

10. Apparatus according to any of the preceding claims 5-9, characterized in that the counterpart surface (X; X' ) is arranged essentially perpendicular to the flushing air flow (HV) .