AU2006236010B2 - A drilling tool, a self drilling rock bolt, a drill bit and an anchoring device - Google Patents
A drilling tool, a self drilling rock bolt, a drill bit and an anchoring device Download PDFInfo
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- AU2006236010B2 AU2006236010B2 AU2006236010A AU2006236010A AU2006236010B2 AU 2006236010 B2 AU2006236010 B2 AU 2006236010B2 AU 2006236010 A AU2006236010 A AU 2006236010A AU 2006236010 A AU2006236010 A AU 2006236010A AU 2006236010 B2 AU2006236010 B2 AU 2006236010B2
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- shaft
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- mandrel
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Description
AUSTRALIA
Patents Act 1990 COMPLETE SPECIFICATION STANDARD PATENT Applicant(s): Sandvik Intellectual Property AB Invention Title: A DRILLING TOOL, A SELF DRILLING ROCK BOLT, A DRILL BIT AND AN ANCHORING DEVICE The following statement is a full description of this invention, including the best method of performing it known to me/us: -2-
INO
O A Drilling Tool, a Self Drilling Rock Bolt, a Drill Bit and an Anchoring Device o Technical Field The present invention relates to drilling tools and rock bolts suitable for use in the mining and tunnelling industry to provide roof and wall support. The invention is suitable for use in hard rock applications as well as in softer strata, such as that often Sfound in coal mines, and it is to be appreciated that the term "rock" as used in the r specification is to be given a broad meaning to cover both these applications. The
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invention further relates to a drill bit and an anchoring device per se.
Background Roof and wall support is vital in mining and tunnelling operations. Mine and tunnel walls and roofs consist of rock strata, which must be reinforced to prevent the possibility of collapse. Rock bolts are widely used for consolidating the rock strata.
In conventional strata support systems, a hole is drilled into the rock by a drill rod, which is then removed and a rock bolt is then installed in the drilled hole and secured in place typically using a resin or cement based grout.
To improve this process, self drilling rock bolts have been proposed whereby the bolt is also used as the drill rod. As such, with a self drilling rock bolt, the hole can be drilled and the bolt installed in a single pass.
Whilst self drilling rock bolts provide the opportunity to substantially improve installation times of rock bolts, they have not been widely used.
Summary of the Invention In accordance with a first aspect of the present invention, a drilling tool is provided that comprises first and second ends, a shaft extending between the ends, the first end having a drill bit to penetrate rock, the drill bit and the shaft having 62789 3 00 complementary threads, and a stop that limits rotation of the drill bit on the shaft to maintain the drill bit in loose threaded connection with the shaft during drilling in a first Sdirection, wherein the stop limits the drill bit from rotating on the shaft so as to maintain a space between an end surface at the shaft and an end surface of the drill bit during drilling.
In a particular form, the stop comprises co-operating abutment surfaces,
NO
Cc one surface disposed on the drill bit and the other surface disposed on the shaft. In one IND form, one of the drill bit and the shaft is provided with a projection and the other with a recess, the projection and the recess having respective ones of the abutment surfaces that provide the stop.
In accordance with another aspect of the invention, there is provided a self drilling rock bolt comprising first and second ends, a shaft extending between the ends, and an anchoring device extending along a first part of the shaft adjacent the first end, the anchoring device having an internal thread that cooperates with an external thread on the shaft, the first end having a drill bit to penetrate rock during drilling in a first direction and a stop to limit the rotation of the anchoring device on the shaft to maintain the anchoring device in loose threaded connection on the shaft during drilling.
In a particular form, the stop limits the anchoring device from rotating on the shaft so as to maintain a space between an end surface of the anchoring device and an end surface of the drill bit during drilling. In a particular form the stop comprises cooperating abutment surfaces, one surface disposed on the drill bit and the other surface 25 disposed on the anchoring device.
In one form, the second end is adapted to be connected to a drilling apparatus to allow rotation of, and thrust to, the bolt, and the anchoring device comprising a mandrel, the mandrel being mounted to and cooperating with the external thread on the shaft and at least one expansion element overlaying the mandrel, wherein the at least N:\SydneyCases\Patent\62000-62999kP62789.AASpeas\P62789AU Specificaion 200.&85.doc 22109108 -4 0 one expansion element is operative to be displaced radially outwardly on rotation of the mandrel on the shaft in a direction that causes movement of the mandrel relative to the o expansion element towards the second end, the rotation of the mandrel being arranged Z to occur on rotation of the shaft in a second direction opposite to said first direction.
An advantage of the stop according to this aspect of the invention when used in conjunction with an anchoring device of the above form is that the stop will inhibit jamming of the anchoring device with the drill bit which could otherwise occur during drilling when the shaft is rotating in the first direction. If the anchoring device did jam then activation of the anchoring assembly may not occur when the shaft is rotated in the I opposite direction as the mandrel is required to rotate freely on the external thread of the shaft during this activation.
In one form, one of the cooperating abutment surfaces of the stop is provided directly on mandrel.
In an alternative arrangement, the at least one expansion element is joined to a connector forming an anchor assembly that is arranged to be captured between the end surface of the drill bit and the end surface of the shaft. In this arrangement, one of the cooperating abutment surfaces of the stop is provided on the connector. In this form the stop is arranged to adopt a disengaged condition when the connector is disposed on the shaft end so that the stop does not prevent rotation of the anchoring device on the shaft and an engaged condition where the connector is spaced from the shaft end. In this engaged condition the stop is active to prevent the anchor assembly from rotating about the shaft thereby preventing the mandrel from moving axially towards the drill bit during drilling.
In one form, the stop is caused to move from the disengaged condition to the engaged condition on movement of the mandrel into a predetermined position. In this position, the mandrel typically projects above the shaft end and is moved into position under rotation of the mandrel about the shaft in the direction that induces axial movement of the mandrel towards the drill bit.
62789 To ensure that the stop does not prevent activation of the anchoring device, the C stop is caused to move from its engaged condition to the disengaged condition on o movement of the mandrel from the predetermined position under the opposite rotation Z of the mandrel.
In one form one of the drill bit and the anchoring device is provided with a projection and the other with a recessed surface, the projection and the recessed surface O having respective ones of the abutment surfaces that provide the stop. In one form, the recessed surface is inclined at an acute angle relative to a shoulder surface of the drill bit or anchoring device in which that surface is formed. In one form the recessed surface houses the projection at least during drilling. In a particular form, the recessed surface connects to at least one upstanding wall that forms one of the cooperating abutment surfaces and wherein the projection comprises a leading edge that forms the other abutment surface of the stop bit.
In one form, the recessed surface is inclined at an acute angle relative to the shoulder surface.
In one form, the magnitude of the angle is at least 20% greater than a pitch angle of an external thread formed on the shaft.
In a particular form, the projection has a maximum height that is less than the largest depth of the recessed surface.
In accordance with another aspect of the present invention, there is provided a drill bit for a drilling tool comprising a bit body which includes means for cutting rock at one end and a drill bit shank which incorporates a thread, wherein the drill bit is provided with a shoulder surface in connection with the drill bit shank, wherein the shoulder surface forms part of a stop.
In one form, the stop comprises a recessed surface on the shoulder surface of the drill bit. In a particular form of this arrangement, the recessed surface connects to at least one upstanding wall.
62789 6-
NO
In a particular form, the recessed surface is inclined at an acute angle relative o to the shoulder surface.
z In one embodiment, the magnitude of the angle is greater than a pitch angle of an external thread formed on the drill shank.
C In accordance with still another aspect of the present invention, there is C provided an anchoring device for a self drilling rock bolt for retaining the bolt when located in a drilled hole comprising a mandrel, and at least one expansion element located in a drilled hole comprising a mandrel, and at least one expansion element N, overlaying the mandrel, wherein the at least one expansion element is displaced radially outwardly on a predetermined relative movement between the mandrel and the at least one expansion element, wherein the at least one expansion element is joined to a connector to form an anchor assembly, the anchor assembly being keyed to the mandrel, and the anchor assembly comprising part of a stop.
In a particular form, the stop is provided to stop the anchor assembly from rotating about an axis and prevent the mandrel from moving axially in one direction along a bolt shaft during drilling in a first direction.
In one form, the stop comprises a projection provided on the connector. In a particular form, the projection comprises a leading edge.
In one alternative form, the connector includes a body section and at least one connecting leg, each said leg carrying a tag. In one form, the tag that is provided adjacent to an end of the leg and is integrated with the connector, the tag being adapted to be passive during drilling and active during anchoring of the anchoring device.
Brief Description of the Drawings It is convenient to hereinafter describe embodiments of the present invention with reference to the accompanying drawings. The particularity of the drawings and the related description is to be understood as not superseding in generality of the preceding 62789 IN 7 O broad description of the invention.
0 In the drawings: z Fig. 1 is a schematic perspective view of a drilling tool; Fig. 2A is an exploded view of a first end of the drilling tool of Fig. 1; Fig. 2B is another exploded view of the first end of the drilling tool of Fig. 1; Fig. 3 is a side view of the first end of the drilling tool of Fig. 1; NFig. 3 is a sectional view of the first end of the drilling tool of Fig. 1; when ,D Fig. 4 is a sectional view of the first end of the drilling tool of Fig. 1 when Slocated in rock strata;
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Fig. 5A is a top view of a connector of the drilling tool of Fig. 1 partly in a collapsed condition and partly in an expanded condition; Fig. 5B is a side view of a connector of the drilling tool of Fig. 1 partly in a collapsed condition and partly in an expanded condition; Fig. 6A is a bottom view of a drill bit of the drilling tool of Fig. 1; Fig. 6B is a side view of a drill bit of the drilling tool of Fig. 1; Fig. 7A is a side view of the drilling tool of Fig. 1 with the drill bit disengaged with the connector of Figs. 5A and Fig. 7B is the drilling tool of Fig. 7A with the drill bit engaged with the connector; Fig. 8A is a side view of an alternative drilling tool.
Fig. 8B is a cross-sectional view of the drilling tool in Fig. 8A; and Fig. 9 is a schematic perspective view of a further alternative drilling tool Detailed Description of the Drawings Fig. 1 illustrates a self drilling rock bolt 10 which incorporates a first (drilling) end 11 and a second (nut) end 12 and a shaft 13 which extends between the opposite ends 11, 12. The shaft 13, which is typically made from steel, is solid along a major (second) part of its length and incorporates an inner passage 14 (see Fig. 4) along a distal (first) part of bolt adjacent the drilling end. The inner passage communicate with the exterior of the shaft at two places; though a lateral port 60, and through an end port 61.
62789 8 O In use, the self drilling rock bolt 10 is connected to a drilling and bolting apparatus (not shown) and acts as a drill rod to drill a hole 100 (see Fig. 4) into rock 0 strata 500. Thereafter, the rock bolt 10 is secured in place as will be explained in more detail below to provide support for the rock strata 500.
The drilling end 11 incorporates a drill bit 15 incorporating a drill tip 16 at an end thereof and an anchoring device 23 which in use is arranged to retain the bolt in a NO drilled hole. The anchoring device 23 extends along the first part of the bolt and is used i to retain the bolt 10 in the drilled hole so as to temporarily secure the rock bolt in place
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prior to the introduction of grout into the hole 100 to permanently fix the bolt in place and/or to tension the bolt so as to place the rock strata 500 in compression.
The details of the drilling end 11 are best seen in Figs. 2Ato 6B.
During a drilling operation, the drilling apparatus typically induces right hand rotation to the drill shaft. To ensure that the drill bit 15 does not separate from the shaft during the drilling operation, the threaded coupling between the drill bit 15 and the shaft 13 is a right handed thread so as to tend to cause the threaded coupling between the drill bit and shaft to tighten during a drilling operation.
The drill bit 15 includes a bit body 17 which includes the drill tip 16 at its outer end and a drill bit shank 18 which incorporates a fastening means such as an external thread 22 on its outer surface. A passage 19 extends from the distal tip of the shank 18 through to the distal end of the bit body 17. This passage 19 is arranged to be in fluid communication with end port 61 of the inner passage 14 of the shaft when the drill bit is secured to the shaft end 20 (as best seen in Fig. The shaft end 20 includes an inner thread 21 (see Fig. 4) which is complementary to the external thread 22 on the drill bit shank 18. As such, the drill bit 15 can be simply screwed on to shaft end 20 of the shaft 13.
The drill bit 15 is provided with a lower end surface 80 in connection with the drill bit shank 18. The end surface 80 extends substantially perpendicularly to the drill bit shank. The shoulder surface faces towards the shaft 13 when the drill bit has been 62789 9 O mounted. The shoulder surface comprises at least one recessed surface 81 that Sincorporates an upstanding wall 82. The recessed surface 81 is in the illustrated form 0 generally parallel to the lower surface 80 but in another form may be inclined at an acute angle a (shown in Fig.6B) relative to the lower end surface. The magnitude of the angle a needs to be greater than a pitch angle of the external thread formed on the drill shank. The magnitude of the angle a is at least 20% greater than the pitch angle of an external thread 38 formed on the bolt shaft 13. Stated in another way, the recessed Nsurface may incline similar to a left handed thread as opposed to the right handed thread N 22 in Fig. 6B. The upstanding wall 82 is to form part of a stop discussed more in detail below.
The anchoring device 23 is disposed below the drill bit 15 and includes a pair of expansion elements 24 which are designed to be caused to move outwardly from a retracted position as illustrated in the drawings to an expanded condition (not shown) wherein the expansion elements 24 engage the wall 101 of the drilled hole 100.
The expansion elements 24 are interconnected by a connector or a bail strap This connector is typically made from steel and includes a substantially circular body section 26 and connecting legs 27. The connecting legs 27 are riveted (or otherwise fixed) to a proximal end 28 of the expansion elements 24. The expansion elements are joined to the connector to form an anchor assembly. By making the connector 25 from steel, it can flex thereby providing a live hinge that allows pivoting of the expansion elements so as to enable them to easily move between their retracted and their extended position.
The body section 26 is preferably substantially circular and comprises a central hole 84 to receive the drill bit shank 18. The body section 26 is provided with at least one projection or upstanding tongue 83 at the surface facing towards the drill bit The tongue 83 is preferably punched out of the body section at a mid-area location, i.e.
at a location in between the hole 84 and a periphery of the body section. The tongue 83 has a general V-shape as best seen in Fig. 5B but may have any suitable shape such as a U-shape or semicircular. The tongue has a maximum height that is less than the largest depth of the recessed surface 81. The tongue comprises a leading edge 85, i.e. leading if 62789 D- 10
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the connector is rotated in the left hand direction. The leading edge 85 is substantially perpendicular to a plane of the body section 26. The tongue is to be received by the 0 recessed surface 81 and can abut against the upstanding wall 82 during drilling. Thus, the tongue is to form part of the first relative rotation stop means discussed more in detail below.
If the anchoring device is prone to get stuck at the shaft end 20, each leg 27 NO may carry a second stop or leading tag 42A, 42B, i.e. 'leading' if the connector 25 is C rotated in the left hand direction. The tag 42A, 42B is provided adjacent to an end of the leg distal from the body section 26 and is integrated with the connector. In Figs. 5A and 5B the tag 42A is shown in a retracted position while the tag 42B is shown in an expanded position, for illustrative reasons. Thus, the tag is adapted to be passive during drilling (right hand rotation) but active during anchoring (left hand rotation). The geometries of the tags are optional.
The anchoring device 23 further includes a mandrel 29 which includes opposite inclined surfaces 30 and 31. In the illustrated form, the mandrel 29 includes a head portion 32 and two depending legs 33 and 34 with opposite faces of the head portion 32 and opposite edge surfaces of the legs 33 and 34 forming respective ones of the inclined surfaces 30 and 31. The head portion 32 may have two opposed grooves to house parts of the legs of the connector.
The mandrel is arranged so that the inclined surfaces 30 and 31 are generally flat and designed to abut with inner surfaces 35 of the expansion elements 24 in a manner such that relative movement of the mandrel towards the nut end 12 of the shaft causes the expansion elements to move from their retracted position to their extended position.
To enable this relative movement, the mandrel is coupled to the bolt shaft which in the illustrated arrangement is through a threaded coupling with an internal thread 36 formed in an inner bore 37 in the head portion 32 of the mandrel 29 and an external thread 38 formed on the bolt shaft 13.
62789 -11 O The threaded coupling between the mandrel 29 and the bolt shaft 13 is a left handed thread so that when the rock bolt is undergoing a drilling operation (under right 0 hand rotation of the shaft), any relative motion between the mandrel and the shaft would z cause the mandrel to move towards the drill end thereby ensuring that the expansion elements are not moved to their expanded condition. However if there is too much movement, the mandrel would force the connector hard against drill bit so that the mandrel could not rotate under left hand rotation thereby preventing activation of the
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NO anchor as the mandrel could not wind down the shaft.
To prevent this occurring, the stop is provided by the cooperating abutment surfaces of the upstanding wall 81 and the tongue 83. This stop is active when these two surfaces move into engagement and limits the anchoring device from rotating on the shaft so as to maintain a space between an end surface of the anchoring device and an end surface of the drill bit during drilling.
The operation of the stop is best illustrated in Figs 7A and 7B. As best shown in Fig 7A, a gap is provided between the lower surface 80 of the drill bit 15 and the end of the shaft 13. This gap is large enough so that when the connector is resting on the shaft end the upstanding wall 81 and tongue 83 are disengaged. Therefore the stop is not active and does not prevent any rotation of the mandrel 29 on the shaft. However if the mandrel is caused to wind along the shaft in the direction of the drilling end 11, it will eventually lift the connector off the end of the shaft 13 thereby moving the tongue 83 into engagement with the upstanding wall 81 as shown in Fig 7B. This causes the stop to become active and prevents further rotation of the mandrel in that direction.
Also in that position the connector 25 is still spaced from the lower surface of the drill bit so that the mandrel remains loosely threaded on the shaft.
When the bolt 10 undergoes left hand rotation there is no impediment to the mandrel winding down the shaft as the two abutting surfaces of the stop do not prevent movement of the mandrel in that direction.
The anchoring device 23 may further comprise an annular band, not shown, which can be disposed around a distal end of the expansion elements 24. The annular 62789 IND 12 band is typically made from a polymeric or rubber material and is provided to hold the expansion elements 24 together only during transport and start of drilling.
Z The tags 42A, 42B of the connector are arranged to adopt two conditions. In the first condition as illustrated in Fig. 3, the tags 42A, 42B are folded towards the mandrel 29. This condition occurs when the tags undergo right hand rotation as would be the case during the drilling operation. In the second condition as best illustrated to C the right in Fig. 5A, the tags project outwardly from the periphery of the connector N1 This occurs during the opposite rotation of the bolt and is induced by tags passing over the wall surface 10 1 of the drilled hole under this rotation. When in this second (or expanded) condition, there is a greater tendency for the tags to engage the wall surface of the drilled hole. Once they do grip, the anchoring device begins to slip relative to the shaft thereby inducing some relative movement. This movement, in turn causes the mandrel to start winding down the shaft thereby causing the expansion elements to be displaced outwardly.
Thus, the connector 25 performs several functions. The first function is to hold the expansion elements a set distance axially from the end of the shaft. The second function is to rotationally join the mandrel and the expansion elements together. The third function is to provide a hole so that the drill bit can be threaded into the shaft. The fourth function is to form part of a rotation stop that stops the mandrel from being screwed tightly against the drill bit. The fifth function is to provide tags that grip the bore wall during anchoring, thus allowing the anchoring device to rotate relative to the shaft.
A variation of the rock bolt 10 is illustrated in Fig.9. The rock bolt 50 includes many of the features of the bolt 10 and like features have been given like reference numerals.
In the bolt 50, an expansion assembly 51 is provided that includes the expansion elements 24 and a collar 52 disposed about the shaft 13 of the bolt 50. The collar 52 functions in the same way as the connector 25 of the earlier embodiment and interconnects the proximal ends 28 of the expansion elements 24.
62789 D- 13
\O
In contrast to the earlier embodiment, the expansion assembly 51 is orientated 0 so that the distal ends 40 of the expansion elements face towards the drill end 11, rather Z than the nut end 12 as in the earlier embodiment. To prevent movement of the expansion assembly 51 towards the nut end 12, the assembly 51 is seated on a retaining device 53 that comprises a thrust ring 54 that is axially fixed to the bolt shaft 13 and a slip ring 55 disposed between the thrust ring 54 and the collar 52.
NO
N, In an arrangement consistent with the earlier embodiment, the assembly 51 incorporates the mandrel 29 arranged so that its inclined surfaces 30 and 31 are designed to abut with inner surfaces 35 of the expansion elements 24. In this way relative rotation between the mandrel 29 and the expansion elements 24 about the shaft axis is inhibited. Further, relative movement of the mandrel 29 towards the nut end 12 of the shaft causes the expansion elements to move from their retracted position to their extended position. Furthermore, the mandrel is coupled to the bolt shaft by a threaded coupling (not shown). The threaded coupling between the mandrel 29 and the bolt shaft 13 is a left handed thread so that when the rock bolt is undergoing a drilling operation (under right hand rotation of the shaft), any relative motion between the mandrel and the shaft would cause the mandrel to move towards the drill end thereby ensuring that the expansion elements are not moved to their expanded condition. Under left hand rotation of the bolt 50 rotation of the expansion element is arranged to occur and whilst not shown, the anchor device 23 may also incorporate the band to promote this rotation.
Because the mandrel portion 29 and the expansion assembly 51 rotate together, this rotation is translated to the mandrel 29, to activate the device 23 and cause movement of the mandrel towards the nut end 12.
In a similar manner to the earlier embodiment a stop is provided to prevent excessive movement of the mandrel towards the drill bit. However, in this embodiment the tongue 83 which forms one of the cooperating surfaces of the stop is formed directly on the mandrel 29.
As illustrated in Fig. 1, the rock bolt 10 includes a sleeve 62 along a major part of the shaft 13. The sleeve 62 extends from adjacent the anchoring device 23 through to 62789 -14- O and adjacent the nut end 12. The purpose of the sleeve is to provide at least part of a circulation path to allow fluid to be passed from the nut end 12 to the drilling end 11.
0 This circulation path is provided by a passage formed between the bolt shaft 13 and the Z sleeve 62 as well as the inner passage 14. The inner passage 14 communicates with a passage formed between the shaft 13 and the sleeve 62 through the lateral port The circulation path also includes an outer passage 64 formed between the O sleeve 62 and the wall 101 of the drilled hole 100. This outer passage is formed by N, having the drill tip 16 extend radially a distance greater than the radius of the sleeve 62.
INO
,I The sleeve 62 is sealed at its distal end 65 by a collar 66. This collar 66 can incorporate an internal thread to be threaded onto the external thread 38 machined on the upper part of the shaft 13.
The proximal end 67 of the sleeve 62 is also sealed by inter engaging with a drive coupler 43 as described in detail in applicant's Australian patent application No.2006202778, which is hereby incorporated into the present specification.
A bearer plate and ball washer 72 may be disposed on the shaft 13 and captured by the drive nut 43. The bearer plate is arranged to bear against the outer face of the rock strata 500.
Before operation, the anchoring device 23 is threaded onto the shaft 13 suitably until the shaft end 20 abuts against the lower side of the body section 26 of the connector 25. Then the drill bit 15 is threaded into the inner thread 21 of the shaft end until a drill bit shank end 86 engages a bottom 87 of the inner thread 21.
In operation, the bolt 10 is secured to a drilling apparatus, via the drive nut 43, which rotates the rock bolt in the first direction. Drilling fluid is pumped around the circulation passage formed by passage between the shaft and the sleeve 62, inner passage 60, and outer passage 64 to flush the rock cutting surface of the rock bolt. The fluid is either introduced or withdrawn from a port in the irrigated drive nut 43.
62789 IND On completion of the drilling phase, the drilling apparatus then rotates the bolt in the opposite direction. The drive nut 43 rotates with the shaft 13 as relative 0 movement is prevented by a torque pin. This causes the tags 42 (if present) to flare Z outwards causing the connector to grip the wall surface 10 1 causing the expansion elements 24 and mandrel 29 to start to slip relative to the bolt shaft. This relative movement induced between the anchoring device and the shaft causes the mandrel to wind down the thread of the shaft thereby causing the expansion elements to displace NO radially outwardly to engage the rock surface of the drilled hole.
When the expansion elements are engaged with the wall surface, the bolt is CI placed in tension by continuing to apply torque in the second direction to the drive nut 43. At a particular point, the expansion elements 24 are forced so hard against the rock wall surface that the mandrel cannot move down the shaft any fuirther. This then effectively binds the bolt and inhibits it from rotating any further. This builds up the torque at the drive nut 43 until it reaches a point where it will shear a torque pin thereby letting the drive nut to move relative to the shaft. This relative movement then causes the nut to wind up the shaft.
Once the drive nut is able to move along the bolt shaft, it will then move into engagement the outer face of the rock strata 500 (either directly or through the bearer plate) which will then enable the bolt to be placed in tension as the effective length of the bolt between the drive nut and the anchoring device is shortened. Once the bolt is under sufficient tension, the drilling apparatus can then be removed and possibly for further support a final stage of setting the bolt in place by the introduction of the grout through a port in the drive nut 43 can take place.
In an alternative embodiment, as illustrated in Figs. 8A and 8B, according to the present invention the drilling tool comprises first and second ends (the latter not shown), a shaft 13' extending between the ends. The first end having a drill bit 15, to penetrate rock. The drill bit 15' and the shaft 13' have complementary threads 22' and 21', respectively. A shoulder surface 80' of the drill bit and an end of the shaft comprise a relative rotation stop that ensures that the drill bit remains loose during drilling in a first direction. Here the term "loose" means that the uncoupling torque is not more than 62789 16 00 of the coupling torque, i.e. there is no need for a wrench or hammer to disassemble the drilling tool, only the use of hand power.
One of the drill bit and the shaft is provided with a projection 83' and the other with a recess 81 The projection and an upstanding wall 82' of the recess 81' abut to stop relative rotation of the drill bit and the shaft. The threads 21' and 22' are matched such that the projection 83' will enter into the recess 81' to provide a minimum gap
NO
Cc between the shoulder surface 80' of the drill bit and the end of the shaft 13'. The INO projection and the recess have been described more closely above in connection with the previous embodiment.
In the claims which follow and in the preceding description of relative rotation stop means where the context requires otherwise due to express language or necessary implication, the word "comprise" or variations such as "comprises" or "comprising" is used in an inclusive sense, i.e. to specify the presence of the stated features but not to preclude the presence or addition of further features in various embodiments of the invention.
It is to be understood that, if any prior art publication is referred to herein, such reference does not constitute an admission that the publication forms a part of the common general knowledge in the art, in Australia or any other country.
Variations and/or modifications may be made to the parts previously described without departing from the spirit or ambit of the invention.
N:Xsydney Cases\Paen%20D-6299s\P62789 ASpecification 2008-8-S.doc 22109/08
Claims (24)
1. A drilling tool comprising first and second ends, a shaft extending between the ends, the first end having a drill bit to penetrate rock, the drill bit and the shaft having complementary threads, and a stop that limits rotation of the drill bit on the shaft to maintain the drill bit in loose threaded connection with the shaft during drilling in a first direction, wherein the stop limits the drill bit from rotating on the shaft so as to NO maintain a space between an end surface of the shaft and an end surface of the drill bit \ID during drilling.
2. A drilling tool according to claim 1, wherein the stop comprises co-operating abutment surfaces, one said surface disposed on the drill bit and the other surface disposed on the shaft.
3. A drilling tool according to claim 2, wherein one of the drill bit and the shaft is provided with a projection and the other with a recess, said projection and said recess having respective ones of said abutment surfaces that provide said stop.
4. A self drilling rock bolt comprising first and second ends, a shaft extending between the ends, and an anchoring device extending along a first part of the shaft adjacent the first end, the anchoring device having an internal thread that cooperates with an external thread on the shaft, the first end having a drill bit to penetrate rock during drilling in a first direction and a stop to limit the rotation of the anchoring device on the shaft to maintain the anchoring device in loose threaded connection on the shaft during drilling. A self drilling rock bolt according to claim 4, wherein the stop limits the anchoring device from rotating on the shaft so as to maintain a space between an end surface of the anchoring device and an end surface of the drill bit during drilling. N:,SydneyCasesPatent620 6299962 2789.AUSpeosP62789.AU Specification 2008-8-5.doc 22/09108 18 00
6. A self drilling rock bolt according to claim 4 or 5, wherein the stop comprises co-operating abutment surfaces, one said surface disposed on the drill bit and the other Ssurface disposed on the anchoring device.
7. A self drilling rock bolt according to claim 6, wherein the second end is adapted to be connected to a drilling apparatus to allow rotation of, and thrust to, the bolt, and the anchoring device comprising a mandrel, the mandrel being mounted to and NO Cc cooperating with the external thread on the shaft and at least one expansion element IND overlaying the mandrel, wherein the at least one expansion element is operative to be displaced radially outwardly on rotation of the mandrel on the shaft in a direction that causes movement of the mandrel relative to the expansion element towards the second end, said rotation of the mandrel being arranged to occur on rotation of the shaft in a second direction opposite to said first direction.
8. A self drilling rock bolt according to claim 7, wherein one of said cooperating abutment surfaces of said stop is provided on said mandrel.
9. A self drilling rock bolt according to claim 7, wherein the at least one expansion element is joined to a connector forming an anchor assembly that is arranged to be captured between the end surface of the drill bit and the end surface of the shaft. A self drilling rock bolt according to claim 9, wherein one of said cooperating abutment surfaces of said stop is provided on said connector, the stop being arranged to adopt a disengaged condition when the connector is disposed on said shaft end so that said stop does not prevent rotation of the anchoring device on the shaft and an engaged condition where the connector is spaced from the shaft end and where the stop prevents the anchor assembly from rotating about the shaft thereby preventing the mandrel from moving axially towards the drill bit during drilling in said first direction.
11. A self drilling rock bolt according to claim 10, wherein the stop is caused to move from the disengaged condition to the engaged condition on movement of the N:\Sydney\Cases\Patent\62062OO 999W62789ALf\Speas\P62789AU Specificaflon 2008--5.doc 22109/08 t) 19 00 mandrel into a predetermined position under rotation of the mandrel about the shaft in a direction that induces axial movement of the mandrel towards said drill bit. e(
12. A self drilling rock bolt according to claim 10 or 11, wherein the stop is caused to move from the engaged condition to the disengaged condition on movement of the mandrel from the predetermined position under rotation of the mandrel about the shaft in a direction that induces axial movement of the mandrel towards said second end. NO I13. A self drilling rock bolt according to any one of claims 6 to 12, wherein one of the drill bit and the anchoring device is provided with a projection and the other with a recessed surface, said projection and said recessed surface having respective ones of said abutment surfaces that provide said stop.
14. A self drilling rock bolt according to claim 13, wherein the recessed surface is inclined at an acute angle relative to a shoulder surface of the drill bit or anchoring device in which that surface is formed. A self drilling rock bolt according to claim 14, wherein the magnitude of the acute angle is at least 20% greater than a pitch angle of said external thread formed on said shaft.
16. A self drilling rock bolt according to any one of claims 13 to 15, wherein the projection has a maximum height that is less than the largest depth of the recessed surface. I
17. A drill bit for a drilling tool comprising a bit body which includes means for cutting rock at one end and a drill bit shank, wherein said drill bit is provided with a shoulder surface in connection with the drill bit shank, wherein said shoulder surface forms part of a stop.
18. A drill bit according to claim 17, wherein the shank incorporates a thread. N:Sydney\Cases\Paten\62000-62999\P62789AU\SpeasP62789AU Specficalon 2008-8-5.doc 22109/08 q 0 V 20 00
19. A drill bit according to claim 17 or 18, further comprising a recessed surface on N ~the shoulder surface of the drill bit, said recessed surface formning part of the stop. A drill bit according to claim 19, wherein said recessed surface connects to at least one upstanding wall that forms an abutment surface of said stop.
21. A drill bit according to claim 19 or 20, wherein the recessed surface is inclined at an acute angle relative to the shoulder surface. IND
22. A drill bit according to claims 18 or 19, wherein the recessed surface is perpendicular to a drill bit axis.
23. A drill bit according to claim 21, wherein the magnitude of the angle is greater than the pitch angle of an external thread formed on the drill shank.
24. An anchoring device for a self drilling rock bolt for retaining the bolt when located in a drilled hole comprising a mandrel, and at least one expansion element overlaying the mandrel, wherein the at least one expansion element is displaced radially outwardly on a predetermined relative movement between the mandrel and the at least one expansion element, wherein the at least one expansion element is joined to a connector to form an anchor assembly, said anchor assembly being keyed to the mandrel, and said anchor assembly comprising part of a stop. An anchoring device according to claim 24, wherein said first stop is provided to stop the anchor assembly from rotating about an axis of the rock bolt shaft and prevent the mandrel from moving axially in one direction along the bolt shaft during drilling in a first direction.
26. An anchoring device according to either claim 24 or 25, further comprises a projection provided on the connector, said projection forming part of said stop. N:\Sdne Caes\aten\62DO-299kP6789AP~pds\6279AUSpecification 2008-8-5.doc 22/09/08 S 1, 21 00 O S27. An anchoring device according to claim 26, wherein the projection comprises an abutment surface. Vj)
028. An anchoring device according to any one of claims 24 to 27, wherein the connector includes a body section and at least one connecting leg, said leg carrying a tag. O S29. An anchoring device according to claim 28, wherein the tag that is provided c adjacent to an end of the leg and is integrated with the connector, said tag being adapted IND be passive during drilling and active during anchoring of the anchoring device to inhibit rotation of the anchoring device in a bore hole on rotation of the rock bolt. A drilling tool substantially as herein described with reference to the accompanying drawings.
31. A self drilling rock bolt substantially as herein described with reference to the accompanying drawings.
32. A drill bit for a drilling tool substantially as herein described with reference to the accompanying drawings.
33. An anchoring device substantially as herein described with reference to the accompanying drawings. to: N:SydneCaseskPatentk6 2000-62999 \P627Speification 2008-85.doc 22109/08
Priority Applications (16)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AU2006236010A AU2006236010B2 (en) | 2006-11-15 | 2006-11-15 | A drilling tool, a self drilling rock bolt, a drill bit and an anchoring device |
GB0907509A GB2456946B (en) | 2006-11-15 | 2007-10-23 | A rock bolt and an anchoring device |
CA002665474A CA2665474A1 (en) | 2006-11-15 | 2007-10-23 | A rock bolt and an anchoring device |
DE112007002517T DE112007002517T5 (en) | 2006-11-15 | 2007-10-23 | Rock anchor and anchoring device |
PCT/SE2007/000928 WO2008060211A1 (en) | 2006-11-15 | 2007-10-23 | A rock bolt and an anchoring device |
CN2007800425476A CN101535598B (en) | 2006-11-15 | 2007-10-23 | A rock bolt and an anchoring device |
US12/312,336 US8061935B2 (en) | 2006-11-15 | 2007-10-23 | Rock bolt and an anchoring device |
RU2009122484/03A RU2444630C2 (en) | 2006-11-15 | 2007-10-23 | Anchor bolt and anchor device |
PCT/SE2007/000938 WO2008060212A1 (en) | 2006-11-15 | 2007-10-26 | A drilling tool, a self -drilling rock bolt, a drill bit, an ancoring device for a self -drilling rock bolt, a shaft for a drilling tool and an end coupling for a drilling tool |
DE112007002516T DE112007002516T5 (en) | 2006-11-15 | 2007-10-26 | Drilling tool, self-drilling rock bolt, drill bit, anchoring device for a self-drilling rock bolt, shank for a boring machine and end coupling for a drilling tool |
RU2009122489/03A RU2454543C2 (en) | 2006-11-15 | 2007-10-26 | Self-drilling anchor bolt and anchor device for it |
US12/445,377 US8403600B2 (en) | 2006-11-15 | 2007-10-26 | Drilling tool, a self-drilling rock bolt, a drill bit, an anchoring device for a self-drilling rock bolt, a shaft for a drilling tool and an end coupling for a drilling tool |
CA002665345A CA2665345A1 (en) | 2006-11-15 | 2007-10-26 | A drilling tool, a self-drilling rock bolt, a drill bit, an anchoring device for a self-drilling rock bolt, a shaft for a drilling tool and an end coupling for a drilling tool |
AU2007231751A AU2007231751B2 (en) | 2006-11-15 | 2007-10-30 | A driling tool, a self drilling rock bolt, a drill bit and an anchoring device |
ZA2009/02600A ZA200902600B (en) | 2006-11-15 | 2009-04-15 | A rock bolt and an anchoring device |
NO20091633A NO20091633L (en) | 2006-11-15 | 2009-04-24 | A rock bolt and an anchoring device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AU2006236010A AU2006236010B2 (en) | 2006-11-15 | 2006-11-15 | A drilling tool, a self drilling rock bolt, a drill bit and an anchoring device |
Related Child Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
AU2007231751A Division AU2007231751B2 (en) | 2006-11-15 | 2007-10-30 | A driling tool, a self drilling rock bolt, a drill bit and an anchoring device |
Publications (2)
Publication Number | Publication Date |
---|---|
AU2006236010A1 AU2006236010A1 (en) | 2008-05-29 |
AU2006236010B2 true AU2006236010B2 (en) | 2008-10-23 |
Family
ID=39491395
Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
AU2006236010A Ceased AU2006236010B2 (en) | 2006-11-15 | 2006-11-15 | A drilling tool, a self drilling rock bolt, a drill bit and an anchoring device |
AU2007231751A Ceased AU2007231751B2 (en) | 2006-11-15 | 2007-10-30 | A driling tool, a self drilling rock bolt, a drill bit and an anchoring device |
Family Applications After (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
AU2007231751A Ceased AU2007231751B2 (en) | 2006-11-15 | 2007-10-30 | A driling tool, a self drilling rock bolt, a drill bit and an anchoring device |
Country Status (1)
Country | Link |
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AU (2) | AU2006236010B2 (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
RU2444630C2 (en) | 2006-11-15 | 2012-03-10 | Сандвик Интеллекчуал Проперти Аб | Anchor bolt and anchor device |
AU2008230002B2 (en) * | 2008-06-25 | 2012-05-03 | Sandvik Intellectual Property Ab | A cuttable drilling tool, and a cuttable self drilling rock bolt |
Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1952996A (en) * | 1931-11-19 | 1934-03-27 | Flannery Bolt Co | Drill |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3258283A (en) * | 1963-10-07 | 1966-06-28 | Robbins & Assoc James S | Drilling shaft coupling having pin securing means |
US5885031A (en) * | 1997-12-08 | 1999-03-23 | White; Claude | Mine roof bolt anchor |
-
2006
- 2006-11-15 AU AU2006236010A patent/AU2006236010B2/en not_active Ceased
-
2007
- 2007-10-30 AU AU2007231751A patent/AU2007231751B2/en not_active Ceased
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1952996A (en) * | 1931-11-19 | 1934-03-27 | Flannery Bolt Co | Drill |
Also Published As
Publication number | Publication date |
---|---|
AU2007231751A1 (en) | 2008-06-05 |
AU2006236010A1 (en) | 2008-05-29 |
AU2007231751B2 (en) | 2010-12-16 |
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