Title of Invention	"ATTACHMENT DEVICE FOR DRILLING"
Abstract	The invention is an attachment means for a ground drilling or cutting tool (10) that enables cutting elements (11) to be removably secured to the tool (10). The attachment means include a first surface (13) on the cutting element (11), a second surface (14) on the tool (10) upon which the first surface (11) locates, dowel holes (15) in each of the first and second surfaces, dowels (16) that locate in aligned dowel holes between said surfaces, engagement surfaces (17, 18) on the cutting element and tool that extends substantially parallel to the longitudinal axis of the tool and engage to resist side loads applied to the cutting elements (11) and fastening means (19) that secures the cutting elements (11) to the tool (10). The invention provides a means of easily removing the cutting elements (11) from the tool (10) for either replacement or maintenance work.

Title of Invention

"ATTACHMENT DEVICE FOR DRILLING"

Abstract

The invention is an attachment means for a ground drilling or cutting tool (10) that enables cutting elements (11) to be removably secured to the tool (10). The attachment means include a first surface (13) on the cutting element (11), a second surface (14) on the tool (10) upon which the first surface (11) locates, dowel holes (15) in each of the first and second surfaces, dowels (16) that locate in aligned dowel holes between said surfaces, engagement surfaces (17, 18) on the cutting element and tool that extends substantially parallel to the longitudinal axis of the tool and engage to resist side loads applied to the cutting elements (11) and fastening means (19) that secures the cutting elements (11) to the tool (10). The invention provides a means of easily removing the cutting elements (11) from the tool (10) for either replacement or maintenance work.

Full Text	ATTACHMENT MEANS FOR DRILLING EQUIPMENT This invention relates to an attachment means for drilling equipment and in particular to means of attaching cutting elements to the ground drilling or cutting tool. BACKGROUND OF THE INVENTION Some ground drilling or cutting tools comprise one or more cutting elements and it is desirable for those cutting elements to be replaceable. This enables damaged cutting elements to be replaced or worn cutting elements to be removed for re-work. The working conditions for drilling equipment are exceedingly arduous and it is very difficult to construct drilling equipment so that the cutting elements are removable. The most reliable and easiest way of attaching cutting elements to a cutting tool is to fix them in place by welding. For example, a cutting element may comprise a roller cone which is rotatably secured to an arm and the arm is in turn welded to the body of the drilling or cutting tool. A number of such cutting elements may be spaced around the periphery of the drilling or cutting tool. Welding of the cutting elements to the cutting or drilling tool presents some difficulty in maintaining the cutting element. Massive rotary drilling tools can each have a large number of cutting elements that will each require, on a periodic basis, to be re-worked or replaced. Obviously, in the case of a welded cutting element, the reworking must occur with the cutting element in situ. Given that some drilling and cutting tools may be quite large, such an operation becomes quite a task. In addition, when the cutting elements finally become unserviceable, then it is more likely for the drilling or cutting tool to be discarded in its entirety rather than attempting to rework the tool by removing cutting elements. Accordingly, it is an object of this invention to overcome the abovementioned difficulties and to provide a means of attachment for cutting elements which enable convenient removal of the cutting element as and when required. SUMMARY OF THE INVENTION In one aspect, the invention is an attachment means for a ground drilling or cutting tool that enables cutting elements to be removably secured to said tool, said attachment means comprising: a first surface on said cutting element, a second surface on said tool upon which said first surface locates, dowel holes in each of said first and second surfaces that align when said first and second surfaces locate together, a dowel that locates in said aligned dowel holes, engagement surfaces on said cutting element and said tool that, extend substantially parallel to the longitudinal axis of said tool and engage to resist side loads applied to said cutting elements, a plurality of threaded fasteners for securing said cutting element to said tool, threaded aperture is said second surface that are engaged by said threaded fasteners, and a plurality of apertures through said arm through which said threaded fasteners locate to threadably engage with said tool characterised in that said apertures have a larger diameter than said threaded fasteners such that there is clearance between the apertures and the threaded fasteners so that shear load applied to said threaded fasteners is minimised. Preferably, the cutting element is on an arm of the cutting element and it is parallel with the longitudinal or rotational axis of the drilling or cutting tool. Preferably, engagement surfaces comprise a recess or channel which is located on the drilling or cutting tool and a projection to engage the recess or channel on the cutting element. The engagement surfaces may also comprise a slot on the drilling or cutting tool and an elongate ridge on the first surface which locates within the slot. The cutting element may also be secured to a mounting box where the first surface is on the mounting box. The arm of a roller cutter may be welded into the box. The dowels locate within each of the dowel holes and resist movement in a direction that is parallel to the longitudinal axis of the drilling or cutting tool. Preferably, the fastening means comprises a plurality of bolts which locate through corresponding holes in the first surface and engage in threaded holes within second surface. Preferably, clearance is provided between the holes in the first surface and the bolts so that minimal shear loading is applied to the bolts. Instead, shear forces along the longitudinal axis of the drilling or cutting tool are restrained by the dowel. This prevents damage to the bolts which may in turn create difficulty with disassembly. In order to fully understand the invention, preferred embodiments will be described. However, it should be realised that the invention is not to confine to the precise combination of elements described in the embodiments and that other variations will be readily apparent to a skilled addressee while remaining within the scope of the invention disclosed in this specification. BRIEF DESCRIPTION OF THE DRAWINGS These embodiments are illustrated in the accompanying representations in which: Figure 1 shows a perspective view of a cutting tool, Figure 2 shows a perspective view of a cutting system with the attachment means shown in exploded view, and Figure 3 shows a cross-section view of an attachment means. DETAILED DESCRIPTION The embodiments described and shown in the representations are generally used in relation to a drilling or cutting tool similar to that described in an earlier application PCT/AU01/01260. The drilling or cutting tool described in that application is known as a hole opener or hole reamer. The cutting tool acts to open a small diameter hole to a larger diameter and uses multiple conical roller cutters to achieve cutting of the rock or earth. This embodiment relates to the attachment of those roller cutters to the main body of the hole opener. Figure 1 shows a drilling tool 10 incorporating the number of cutting elements 11 around the periphery of the tool 10. In this embodiment, the cutting elements 11 comprise conical roller cutters. As seen in Figure 2, an attachment means is used to fix the cutting elements 11 to the drilling tool 10. In this embodiment, the cutting elements 11 comprise an arm 21 extending from a roller cutter 22, and the arm 21 is secured to a mounting box 12. The arm 21 is welded to the mounting box 12. The first surface on the cutting element 11 comprises the generally planar face 13 on the mounting box 12 that abuts against the second surface on the drilling tool 10 which comprises the abutment surface 14. Dowel holes 15 are formed in both the planar face 13 and the abutment surface 14 on both the mounting box 12 and the drilling tool 10. Dowels 16 locate within the dowel holes 15 and both the planar face 13 and abutment surface 14, and are a light interference fit with the dowel holes 15. The abutment surface 14 has a channel 17 and the dowel holes 15 are located centrally within the channel 17. The planar face 13 of the mounting box 12 has an elongate projection 18 that fits tightly within the channel 17. Clearly, this arrangement could be reversed with the abutment surface 14 incorporating a respective elongate projection which mates with a corresponding channel located on the planar face 13 of mounting box 12. The fastening means in this embodiment comprises a plurality of bolts 19 and washers 24 that locate through the mounting box 12. Washers may be of the standard slit lock or serrated variety. In this embodiment NORD-LOCK™ self locking washers are used. Bolts 19 threadably engage within apertures 23 in the abutment surface 14. The apertures 20 within the mounting box 12 are counter-sunk and are drilled to a diameter to provide clearance between the shaft of the bolt 19 and the aperture 20. In use, this assists in preventing or minimising shear loads being applied to the bots 19. Instead, the dowels 16 resist the majority of any shear load which results from drilling forces applied to the cutting elements 11 along the longitudinal axis of the drilling tool 10. In order to assemble the attachment means to the drilling tool 10, dowels 16 are located within the dowel holes on the abutment surface 14. The mounting box 12 is then positioned so that the dowels locate within dowel holes 15 in the planar surface 13 and so that the elongate projection 18 locates within the channel 17. The bolts 19 are then engaged in the apertures 20 and tightened. Any drilling forces longitudinal to the drilling tool 10 are transmitted as shear forces primarily to the dowels 16. The clearance between the bolts 19 and the apertures 20 minimise any shear loading applied to the bolts 19. As the drilling tool rotates, any side forces applied normal to the logitudinal axis of the drilling tool are resisted by the engagement of the elongate projection 18 within the channels 17. The cutting elements 11 can be easily removed from the drilling tool 10 by reversal of the above-described assembly process. To further facilitate removal of cutting element 11, jacking bolts 25 are screwed into the middle pair of apertures after removal of bolts 19. This pair of apertures is modified to include a screw thread which threadably engages with the shafts of jacking bolts 25. As jacking bolts 25 are screwed in they function to force mounting box 12 from abutment surface 14. This thereby simplifies the removal process for maintenance purposes particularly when compared with mounting of the cutting elements 11 to a drilling tool 10 by welding. In a second embodiment (not illustrated), the arm of the cutting element 11, instead of being welded to a mounting box 12, may be arranged to secure directly to the drilling tool 10. In this case, the planar face 13 and associated elongate projection 18 would be on the arm 21 of the cutting element 11 and therefore would mount directly to the abutment surface 14. Further, as an alternate to the use of a channel 17 and elongate projection 18, both the mounting box 12 in accordance with the first embodiment or the arm of the cutting element 11 in accordance with the second embodiment may locate within a channel having side walls that abut against either the mounting box 12 or the arm of the cutting element 11 so as to resist sideways loads. With both of the embodiments, it is possible to easily remove the cutting elements for either replacement or maintenance work. As minimal loads are directly applied to the bolts holding the cutting element to the tool, there is less possibility of damage being caused to the bolts resulting in them being easier to remove. We claim: 1. An attachment device for a ground drilling or cutting tool that enables cutting elements to be removably secured to said tool, said attachment device comprising: a first surface on said cutting element, a second surface on said tool upon which said first surface locates, dowel holes in each of said first and second surfaces that align when said first and second surfaces locate together, a dowel that locates in said aligned dowel holes, engagement surfaces on said cutting element and said tool that, extend substantially parallel to the longitudinal axis of said tool and engage to resist side loads applied to said cutting elements, a plurality of threaded fasteners for securing said cutting element to said tool, threaded aperture is said second surface that are engaged by said threaded fasteners, and a plurality of apertures through said arm through which said threaded fasteners locate to threadably engage with said tool characterised in that said apertures have a larger diameter than said threaded fasteners such that there is clearance between the apertures and the threaded fasteners so that shear load applied to said threaded fasteners is minimized. 2. An attachment device as claimed in claim 1 wherein said cutting element comprises a conical roller cutter that is attached to said arm. 3. An attachment device as claimed in either claim 1 or claim 2 wherein said dowel is normal to both said first and second surfaces. 4. An attachment device as claimed in claim 3 wherein there are at least two dowels. 5. An attachment device as claimed in claim 1 wherein said engagement surfaces comprise a recess on one of said surfaces and a projection on the other of said surfaces that engages said recess. 6. An attachment device as claimed in claim 5 wherein said recess comprises a longitudinal channel. 7. An attachment means as claimed in claim 6 wherein said channel has a base that is parallel to said first or second surface and side walls that are substantially normal to said base. 8. An attachment means as claimed in claim 7 wherein said projection matches the internal shape of said channel. 9. An attachment means as claimed in any one of claims 6 to 8 wherein said channel is on said second surface. 10. An attachment means substantially as herein described with reference to the accompanying drawings.

Full Text

ATTACHMENT MEANS FOR DRILLING EQUIPMENT
This invention relates to an attachment means for drilling equipment and in
particular to means of attaching cutting elements to the ground drilling or cutting
tool.
BACKGROUND OF THE INVENTION
Some ground drilling or cutting tools comprise one or more cutting elements and it is
desirable for those cutting elements to be replaceable. This enables damaged cutting
elements to be replaced or worn cutting elements to be removed for re-work.
The working conditions for drilling equipment are exceedingly arduous and it is
very difficult to construct drilling equipment so that the cutting elements are
removable. The most reliable and easiest way of attaching cutting elements to a
cutting tool is to fix them in place by welding.
For example, a cutting element may comprise a roller cone which is rotatably secured
to an arm and the arm is in turn welded to the body of the drilling or cutting tool. A
number of such cutting elements may be spaced around the periphery of the drilling
or cutting tool.
Welding of the cutting elements to the cutting or drilling tool presents some
difficulty in maintaining the cutting element. Massive rotary drilling tools can each
have a large number of cutting elements that will each require, on a periodic basis, to
be re-worked or replaced. Obviously, in the case of a welded cutting element, the reworking
must occur with the cutting element in situ. Given that some drilling and
cutting tools may be quite large, such an operation becomes quite a task.
In addition, when the cutting elements finally become unserviceable, then it is more likely for the drilling or cutting tool to be discarded in its entirety rather than attempting to rework the tool by removing cutting elements.
Accordingly, it is an object of this invention to overcome the abovementioned difficulties and to provide a means of attachment for cutting elements which enable convenient removal of the cutting element as and when required.
SUMMARY OF THE INVENTION
In one aspect, the invention is an attachment means for a ground drilling or cutting tool that enables cutting elements to be removably secured to said tool, said attachment means comprising: a first surface on said cutting element, a second surface on said tool upon which said first surface locates, dowel holes in each of said first and second surfaces that align when said first and second surfaces locate together, a dowel that locates in said aligned dowel holes, engagement surfaces on said cutting element and said tool that, extend substantially parallel to the longitudinal axis of said tool and engage to resist side loads applied to said cutting elements,
a plurality of threaded fasteners for securing said cutting element to said tool, threaded aperture is said second surface that are engaged by said threaded fasteners, and
a plurality of apertures through said arm through which said threaded fasteners locate to threadably engage with said tool characterised in that said apertures have a larger diameter than said threaded fasteners such that there is clearance between the apertures and the threaded fasteners so that shear load applied to said threaded fasteners is minimised.
Preferably, the cutting element is on an arm of the cutting element and it is parallel with the longitudinal or rotational axis of the drilling or cutting tool.
Preferably, engagement surfaces comprise a recess or channel which is located on the drilling or cutting tool and a projection to engage the recess or channel on the cutting element.

The engagement surfaces may also comprise a slot on the drilling or cutting tool and
an elongate ridge on the first surface which locates within the slot.
The cutting element may also be secured to a mounting box where the first surface is
on the mounting box. The arm of a roller cutter may be welded into the box.
The dowels locate within each of the dowel holes and resist movement in a direction
that is parallel to the longitudinal axis of the drilling or cutting tool. Preferably, the
fastening means comprises a plurality of bolts which locate through corresponding
holes in the first surface and engage in threaded holes within second surface.
Preferably, clearance is provided between the holes in the first surface and the bolts
so that minimal shear loading is applied to the bolts. Instead, shear forces along the
longitudinal axis of the drilling or cutting tool are restrained by the dowel. This
prevents damage to the bolts which may in turn create difficulty with disassembly.
In order to fully understand the invention, preferred embodiments will be described.
However, it should be realised that the invention is not to confine to the precise
combination of elements described in the embodiments and that other variations will
be readily apparent to a skilled addressee while remaining within the scope of the
invention disclosed in this specification.
BRIEF DESCRIPTION OF THE DRAWINGS
These embodiments are illustrated in the accompanying representations in which:
Figure 1 shows a perspective view of a cutting tool,
Figure 2 shows a perspective view of a cutting system with the attachment
means shown in exploded view, and
Figure 3 shows a cross-section view of an attachment means.
DETAILED DESCRIPTION
The embodiments described and shown in the representations are generally used in
relation to a drilling or cutting tool similar to that described in an earlier application
PCT/AU01/01260. The drilling or cutting tool described in that application is
known as a hole opener or hole reamer. The cutting tool acts to open a small
diameter hole to a larger diameter and uses multiple conical roller cutters to achieve
cutting of the rock or earth. This embodiment relates to the attachment of those
roller cutters to the main body of the hole opener.
Figure 1 shows a drilling tool 10 incorporating the number of cutting elements 11
around the periphery of the tool 10. In this embodiment, the cutting elements 11
comprise conical roller cutters.
As seen in Figure 2, an attachment means is used to fix the cutting elements 11 to the
drilling tool 10. In this embodiment, the cutting elements 11 comprise an arm 21
extending from a roller cutter 22, and the arm 21 is secured to a mounting box 12.
The arm 21 is welded to the mounting box 12.
The first surface on the cutting element 11 comprises the generally planar face 13 on
the mounting box 12 that abuts against the second surface on the drilling tool 10
which comprises the abutment surface 14. Dowel holes 15 are formed in both the
planar face 13 and the abutment surface 14 on both the mounting box 12 and the
drilling tool 10. Dowels 16 locate within the dowel holes 15 and both the planar face
13 and abutment surface 14, and are a light interference fit with the dowel holes 15.
The abutment surface 14 has a channel 17 and the dowel holes 15 are located
centrally within the channel 17. The planar face 13 of the mounting box 12 has an
elongate projection 18 that fits tightly within the channel 17. Clearly, this
arrangement could be reversed with the abutment surface 14 incorporating a
respective elongate projection which mates with a corresponding channel located on
the planar face 13 of mounting box 12.
The fastening means in this embodiment comprises a plurality of bolts 19 and
washers 24 that locate through the mounting box 12. Washers may be of the
standard slit lock or serrated variety. In this embodiment NORD-LOCK™ self
locking washers are used. Bolts 19 threadably engage within apertures 23 in the
abutment surface 14. The apertures 20 within the mounting box 12 are counter-sunk
and are drilled to a diameter to provide clearance between the shaft of the bolt 19
and the aperture 20. In use, this assists in preventing or minimising shear loads
being applied to the bots 19. Instead, the dowels 16 resist the majority of any shear
load which results from drilling forces applied to the cutting elements 11 along the
longitudinal axis of the drilling tool 10.
In order to assemble the attachment means to the drilling tool 10, dowels 16 are
located within the dowel holes on the abutment surface 14. The mounting box 12 is
then positioned so that the dowels locate within dowel holes 15 in the planar surface
13 and so that the elongate projection 18 locates within the channel 17. The bolts 19
are then engaged in the apertures 20 and tightened.
Any drilling forces longitudinal to the drilling tool 10 are transmitted as shear forces
primarily to the dowels 16. The clearance between the bolts 19 and the apertures 20
minimise any shear loading applied to the bolts 19. As the drilling tool rotates, any
side forces applied normal to the logitudinal axis of the drilling tool are resisted by
the engagement of the elongate projection 18 within the channels 17.
The cutting elements 11 can be easily removed from the drilling tool 10 by reversal of
the above-described assembly process. To further facilitate removal of cutting
element 11, jacking bolts 25 are screwed into the middle pair of apertures after
removal of bolts 19. This pair of apertures is modified to include a screw thread
which threadably engages with the shafts of jacking bolts 25. As jacking bolts 25 are
screwed in they function to force mounting box 12 from abutment surface 14. This
thereby simplifies the removal process for maintenance purposes particularly when
compared with mounting of the cutting elements 11 to a drilling tool 10 by welding.
In a second embodiment (not illustrated), the arm of the cutting element 11, instead
of being welded to a mounting box 12, may be arranged to secure directly to the
drilling tool 10. In this case, the planar face 13 and associated elongate projection 18
would be on the arm 21 of the cutting element 11 and therefore would mount
directly to the abutment surface 14.
Further, as an alternate to the use of a channel 17 and elongate projection 18, both the
mounting box 12 in accordance with the first embodiment or the arm of the cutting
element 11 in accordance with the second embodiment may locate within a channel
having side walls that abut against either the mounting box 12 or the arm of the
cutting element 11 so as to resist sideways loads.
With both of the embodiments, it is possible to easily remove the cutting elements for
either replacement or maintenance work. As minimal loads are directly applied to
the bolts holding the cutting element to the tool, there is less possibility of damage
being caused to the bolts resulting in them being easier to remove.

We claim:
1. An attachment device for a ground drilling or cutting tool that enables cutting
elements to be removably secured to said tool, said attachment device
comprising:
a first surface on said cutting element,
a second surface on said tool upon which said first surface locates,
dowel holes in each of said first and second surfaces that align when said first
and second surfaces locate together,
a dowel that locates in said aligned dowel holes,
engagement surfaces on said cutting element and said tool that, extend substantially parallel to the longitudinal axis of said tool and engage to resist side loads applied to said cutting elements,
a plurality of threaded fasteners for securing said cutting element to said tool, threaded aperture is said second surface that are engaged by said threaded fasteners, and
a plurality of apertures through said arm through which said threaded fasteners locate to threadably engage with said tool characterised in that said apertures have a larger diameter than said threaded fasteners such that there is clearance between the apertures and the threaded fasteners so that shear load applied to said threaded fasteners is minimized.
2. An attachment device as claimed in claim 1 wherein said cutting element comprises a conical roller cutter that is attached to said arm.
3. An attachment device as claimed in either claim 1 or claim 2 wherein said dowel is normal to both said first and second surfaces.
4. An attachment device as claimed in claim 3 wherein there are at least two dowels.
5. An attachment device as claimed in claim 1 wherein said engagement
surfaces comprise a recess on one of said surfaces and a projection on the other
of said surfaces that engages said recess.

6. An attachment device as claimed in claim 5 wherein said recess comprises a longitudinal channel.
7. An attachment means as claimed in claim 6 wherein said channel has a base that is parallel to said first or second surface and side walls that are substantially normal to said base.
8. An attachment means as claimed in claim 7 wherein said projection matches the internal shape of said channel.
9. An attachment means as claimed in any one of claims 6 to 8 wherein said channel is on said second surface.
10. An attachment means substantially as herein described with reference to the
accompanying drawings.

Documents:

2200-DELNP-2004-Abstract (31-12-2007).pdf

3682-DELNP-2005-Abstract-(18-08-2008).pdf

3682-delnp-2005-abstract.pdf

3682-DELNP-2005-Assignment-(21-08-2008).pdf

3682-DELNP-2005-Claims(26-12-2007).pdf

3682-DELNP-2005-Claims-(18-08-2008).pdf

3682-delnp-2005-claims.pdf

3682-DELNP-2005-Correspondence-Others(26-12-2007).pdf

3682-DELNP-2005-Correspondence-Others-(18-08-2008).pdf

3682-DELNP-2005-Correspondence-Others-(21-08-2008).pdf

3682-DELNP-2005-Correspondence-Others-(22-08-2008).pdf

3682-delnp-2005-correspondence-others.pdf

3682-delnp-2005-description (complete)-18-08-2008.pdf

3682-delnp-2005-description (complete).pdf

3682-DELNP-2005-Drawings(26-12-2007).pdf

3682-DELNP-2005-Drawings-(18-08-2008).pdf

3682-delnp-2005-drawings.pdf

3682-DELNP-2005-Form-1-(18-08-2008).pdf

3682-delnp-2005-form-1.pdf

3682-delnp-2005-form-18.pdf

3682-DELNP-2005-Form-2(26-12-2007).pdf

3682-DELNP-2005-Form-2-(18-08-2008).pdf

3682-delnp-2005-form-2.pdf

3682-delnp-2005-form-3.pdf

3682-DELNP-2005-Form-5(26-12-2007).pdf

3682-delnp-2005-form-5.pdf

3682-DELNP-2005-GPA-(18-08-2008).pdf

3682-delnp-2005-pct-210.pdf

3682-delnp-2005-pct-408.pdf

3682-delnp-2005-pct-409.pdf

3682-DELNP-2005-Petition-137-(22-08-2008).pdf

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Patent Number

227885

Indian Patent Application Number

3682/DELNP/2005

PG Journal Number

07/2009

Publication Date

13-Feb-2009

Grant Date

23-Jan-2009

Date of Filing

19-Aug-2005

Name of Patentee

TRANSCO MANUFECTURING AUSTRALIA PTY LTD.

Applicant Address

3 HULL COURT, LONSDALE, S.A. 5160, AUSTRALIA.

Inventors:

#	Inventor's Name	Inventor's Address
1	FYFE, GEORGE	3 HULL COURT, LONSDALE, S.A.5160, AUSTRALIA.

PCT International Classification Number

E21B 10/62

PCT International Application Number

PCT/AU2004/000069

PCT International Filing date

2004-01-20

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	2003900227	2003-01-20	Australia