AU759396B2 - Rock bolt and method of installing mine services - Google Patents

Rock bolt and method of installing mine services Download PDF

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Publication number
AU759396B2
AU759396B2 AU10149/02A AU1014902A AU759396B2 AU 759396 B2 AU759396 B2 AU 759396B2 AU 10149/02 A AU10149/02 A AU 10149/02A AU 1014902 A AU1014902 A AU 1014902A AU 759396 B2 AU759396 B2 AU 759396B2
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Australia
Prior art keywords
bolt
rock
services
tube
mine
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AU10149/02A
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AU1014902A (en
Inventor
Jeffrey Robert Fergusson
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Minova Australia Pty Ltd
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Minova Australia Pty Ltd
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Publication date
Priority claimed from AU22425/99A external-priority patent/AU739333B2/en
Application filed by Minova Australia Pty Ltd filed Critical Minova Australia Pty Ltd
Priority to AU10149/02A priority Critical patent/AU759396B2/en
Publication of AU1014902A publication Critical patent/AU1014902A/en
Application granted granted Critical
Publication of AU759396B2 publication Critical patent/AU759396B2/en
Assigned to INDUSTRIAL ROLLFORMERS PTY LIMITED reassignment INDUSTRIAL ROLLFORMERS PTY LIMITED Alteration of Name(s) in Register under S187 Assignors: FERGUSSON, JEFFREY ROBERT
Assigned to MINOVA AUSTRALIA PTY LIMITED reassignment MINOVA AUSTRALIA PTY LIMITED Alteration of Name(s) in Register under S187 Assignors: INDUSTRIAL ROLLFORMERS PTY LIMITED
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Description

2945CC
AUSTRALIA
Patents Act 1990 COMPLETE SPECIFICATION FOR A STANDARD PATENT
ORIGINAL
a Name of Applicant: Actual Inventor: Address for Service: Invention Title: Details of Associated Parent Application: Jeffrey Robert FERGUSSON Jeffrey Robert FERGUSSON HODGKINSON OLD McINNES Patent Trade Mark Attorneys Levels 3 and 4, 20 Alfred Street MILSONS POINT NSW 2061 Rock Bolt and Method of Installing Mine Services 739333 (formerly 22425/99) a a a a The following statement is a full description of this invention, including the best method of performing it known to me: !1 'r 2945CC ROCK BOLT AND METHOD OF INSTALLING MINE SERVICES The present invention relates to rock bolts and methods of installation of mine services.
A form of rock bolt is known in the mining industry which is used for increasing the strength of a wall or roof of a mine. The bolt is formed of a solid steel rod having a diameter in the order of 22 millimetres and a nut threadably fitted to one end thereof. In use, the bolt is secured in a 27 millimetre diameter hole formed in the rock strata by means of a chemical anchor in the form of a resin. When so secured the nut is screwed along the bolt to draw the o° l 10 strata together and thereby increase the tensile strength of a portion of the wall or roof in which the bolt is secured.
•The aim of the present invention is to provide an alternative rock bolt.
In accordance with a first aspect of the present invention there is disclosed a rock bolt comprising a hollow tube closed at its leading end and open at its trailing end, and having a S0.. hollow drive means mounted at said trailing end, at least a portion of the interior of said tube being threaded to threadably engage the threaded shank of a support member via said drive means.
In accordance with a second aspect of the present invention there is disclosed a method of •supporting services within a mine, said method comprising the steps of:i) inserting a plurality of the above defined rock bolts each into a corresponding hole drilled in the roof or wall of a mine, ii) threadably engaging the threaded shank of a corresponding support member with each of said plurality of rock bolts, and iii) engaging each of said services to be supported with said support members.
2945CC The nature of a chemical anchor, which is preferably a resin anchor, requires that the diameter of the bolt should be only slightly smaller than that of the hole in which it is inserted, say in the order of four millimetres. This provides a two millimetre angular gap therebetween. In the case of hard rock mining the holes are in the order of 50% larger in diameter than the holes used in coal mining. This increased size is a function of the drilling machinery used in hard rock mines itself being larger than that used in coal mines. Chemical anchors are, therefore, clearly not suitable for use with relatively small diameter bolts as the spacing between the bolt and the walls of the hole would be too great for a chemical anchor to be effective.
Due to the increased diameter of "hard rock" holes, a different method of installing rock bolts S.is generally practised in hard rock mining. This involves attachment of an expandable "shell" to an end of a bolt forming a mechanical anchor and, inserting the bolt into a hole. Once the •bolt is fully inserted the shell is expanded to grip the walls of the hole to thereby locate the bolt, then cementacious grout is injected into the annular region between the bolt and the walls of the hole.
o* It would, of course, be possible to utilise a chemical anchor in hard rock mining if a bolt of sufficiently large diameter were employed. The cost of producing a solid bolt of such diameter would, however, tend to be prohibitive, such as for example, a 41 millimetre diameter solid bolt for use in a 45 millimetre diameter hole. A hollow bolt would incur less S: •i material cost but would not have significant cost advantage unless the wall thickness of the i hollow bolt was relatively thin, to minimise the amount of material used in the bolt. A bolt of this type would, however, have reduced loading bearing characteristics and some additional structure would be required to provide sufficient strength to the bolt. Accordingly, the bolt used in a preferred embodiment also preferably has some form of deformations along its length. For example in the form of a thread. This both increases the stiffness of the bolt and increases the bonding effectiveness of the chemical anchor. However, formation of the thread by a conventional cutting, rolling or milling technique would further reduce the wall thickness of the bolt in the troughs of the thread and thereby lead to a decrease in the tensile strength of the bolt.
2945CC Accordingly there is disclosed a method of forming a thread on a tubular bolt comprising exerting an inwardly directed force relative to the bolt whereby to plastically inwardly deform a portion of a wall of the bolt whilst substantially maintaining the wall thickness along the length of the thread, the force being exerted at an angle to the normal of the bolt such that one of the flanks of the threads is inclined toward the normal to a substantially greater extent than the other flank. Such a method of forming the thread has the advantage of retaining the wall thickness of the tube therefore retaining tensile strength. Actual tests have shown an increase in tensile strength. In addition, a thread has the advantage that a corresponding thread is 10 formed on the interior of the bolt whereby various fittings such as mine services and expandable shells, or drill bits may be mounted to the end of the bolt by being screwed on to the internal threading. Another advantage is that the flank that is angled toward the normal provides a surface which can be loaded with compressive force of the rock strata, thereby increasing the in-situ loading characteristics of the bolt. The overall strength of the bolt is also not adversely affected since the wall thickness of the bolt is maintained. However, a o o* transverse cutting force exerted by, for example, a long wall miner will be able to cut through the bolt in a transverse direction relatively easily, as opposed to a solid bolt of the same dimensions.
So there is also disclosed a bolt having a thread formed in accordance with the abovedescribed method. Preferably, the bolt has a drill bit fitted to an end thereof.
Also, in hard rock mining, tensioning of the bolt is generally not required and all that has been done hitherto after a bolt has been anchored in a rock face, is to secure a roof plate or the like to the rock face by means of securing a nut along a thread formed on the end of the bolt. Such a two step process of fixing the bolt and then securing the roof plate can, however, be achieved in a single step by having the nut fixedly secured to the bolt and driving the bolt into the rock to its maximum extent.
2945CC It will be appreciated that a number of different inventive concepts have been described above in relation to rock bolts but that a number of such concepts may be embodied in a single bolt formed in accordance with the present invention or parts of the invention embodied in a single bolt depending on the requirements of the application for the rock bolt's use.
Preferred embodiments of the invention will hereinafter be described with reference to the accompanying drawings in which: Fig. 1 is a schematic cross-sectional side view of a hollow rock bolt; o 10 Fig. 2 is a partially cut-away view of the rock bolt shown in Fig. 1; S• Fig. 3 is a cross-sectional view of the cartridge portion of the rock bolt shown in Figs. 1 and 2; Fig. 4 is a side elevation of the cartridge sleeve of a cartridge for use with the form of rock bolt shown in Figs. 6A to 6D; Fig. 5 is an end elevation of the cartridge sleeve shown in Fig. 4; S 15 Figs. 6A to 6D show a form of rock bolt according to the present invention and a method of installation thereof.
Fig. 7A shows a side elevation with superimposed end elevations of drive members suitable for use in the installation of rock bolts according to the present invention; Fig. 7B shows the driver tool of Fig. 7A in the coupled position with a rock bolt; 20 Fig. 7C shows a plan and sectional side elevation of the rock bolt shown in Fig. 9; Fig. 8A shows a rock bolt according to a form of the present invention and Figs. 8B to 8D show various applications of that rock bolt; Fig. 9 is a schematic view of an end portion of a form of rock bolt according to the present invention; Fig. 10 is a schematic sectional side elevation of a form of rock bolt according to the invention, and 2945CC Fig. 11 is a schematic side elevation showing mine services supported by the rock bolt of a further embodiment.
The rock bolt 1, as shown in Fig. 1, comprises a hollow shaft 2 with thread 3 formed on an exterior surface thereof and a cartridge 4 provided therewithin. The bolt may have an open front end 5 but is shown by way of example as having a drill bit 6 secured thereto. In operation, the front end 5 is inserted in a hole formed in a rock face and the cartridge 4 injected through the hollow shaft 2 with a syringe action from pressure on the plunger into the hole 9. Prior to exiting the bolt 1 the resin may be mixed by cross-wires 7, or alternatively, mixing of the resin may occur after exiting the bolt 1. As shown in Fig. 3, the cartridge contains a resin 60 and a catalyst 61 separated by a membrane 62. The bolt is then rotated whereby to mix the chemical (resin) components of the ruptured cartridge and to simultaneously work the components along the length of the bolt 1, toward the opening of the hole. Alternatively, a sufficiently large amount of chemical compounds may be forced into the hole 9 from the bolt such that additional spinning of the bolt is not required.
o° After the chemical anchor has set, a nut 8 may be screwed along the free end 10 of the bolt to osecure a load bearing plate 11 against the rock face 12.
The chemical cartridge 4 is preferably forced along the bolt 1 by means of a plunger 15 which preferably has circumferentially arranged axially extended openings 16 formed therein to allow passage of water through the bolt 1 for lubrication of drill bit 6 during a drilling operation. The holes 16 may, however, be sealed such that the plunger is forced by way of hydraulic pressure along the inside of the cartridge 4, thereby forcing the resin from the bolt 1.
The cartridge is also preferably formed with lengthwise extending splines 17 which serve to hold the cartridge 4 in a generally central position with respect to the shaft 2 whilst also allowing liquid from opening 16 to pass therearound.
As an alternative to the above-described bolt, the cartridge 4 may instead be removably attached to the front end of the bolt by means of a sleeve 20, as shown in Figs. 6A to 6D.
2945CC Details of the sleeve are shown in Figs. 4 and 5. The sleeve 20 is formed of a resilient material which allows one end 21 thereof to be fitted on an end of the bolt and has an open end 22 for receiving and holding the cartridge 4. The sleeve is concertinaed with the ribs 24 running parallel with the axis of the tubular bolt thereby allowing the sleeve to expand to the diameter of the bolt when expanded and hold the smaller diameter cartridge when contracted.
The sleeve 20 also preferably has a flange 23 which is adapted to engage the rock face 12 when the bolt is inserted in hole 9 such that further insertion of the bolt causes the bolt to pass through the sleeve 20 whereby the cartridge is carried forward by the front end of the bolt.
The sleeve 20 and flange 23 are preferably formed of plastic whereby to protect the portion of 10 the bolt adjacent the opening of the hole from water damage and corrosion. Preferably, the flange 23 is in the form of a conventional plate against which nut 8 may be engaged.
*.oo Either of the above described bolts may have the nut 8 formed integrally with the bolt 1, such as by welding or the like. This is particularly advantageous in hard rock mining wherein tensioning is generally not required and the only function to be served by the nut is that of securing the plate 11 to the rock face 12. In this regard, a driving member 30 type of which are shown in Figs. 7A-7C and 9 may be employed. Such a member 30 comprises a ring 31 welded to the end of bolt 1 and provided with bosses 32 which engage in corresponding recesses of a driving mechanism (not shown) which is used for inserting and spinning the bolt 1 in hole 9. The form of the member 30 is particularly advantageous in that the material used .,can be significantly less than a conventional nut.
When using a hollow bolt in hard rock mining, the wall thickness of the bolt must be such as to maintain the strength of the bolt whilst also keeping material costs to a minimum. In order to achieve an optimal minimal wall thickness, the present invention provides a thread as illustrated in Fig. 10. Such a thread 40 is formed by plastically deforming the walls 41 of bolt 1 in a manner whereby the actual wall thickness of the bolt itself is maintained. This is achieved by applying a force in the direction indicated by the arrow marked that is angled away from the normal such that two generally perpendicular flank surfaces 42 and 43 are produced. This is done as the pitch of the thread is decreased while leading into the rolls and 2945CC having the helix angle of the rolls at a ratio of pitch change to move the material inwards and in the direction of F without stretching and skimming the wall which results in the same diameter as the feed stock. The rolls, unlike conventional designs, are individually profiled to achieve a constant flow of material reducing stress. Surface 42 is substantially normal to the axis of bolt 1 and is thereby exposed to carry a greater force F than is possible with a conventional V-shaped thread. Also, maintaining the wall thickness means that the overall tensile strength of the bolt 1 is increased in comparison with a bolt having the same initial dimensions but formed with a conventional thread which reduces the wall thickness.
10 Figs. 8A to 8D show various rock bolts 1 with a thread as described above being used in various applications. Fig. 8A shows the standard rock bolt 1 with threaded section 3 and nut 8. Fig. 8B shows the rock bolt 1 having a mechanical anchor 30 attached to the end thereof.
i Fig. 8C shows the rock bolt similar to the arrangement shown in Fig. 1. Fig. 8D is a further variation.
As will be appreciated from the above, the diameter of the bolt hole used in hard rock mining is too great to justify material costs of chemically anchoring solid bolts with an optional resin annulus of 2 mm, the larger the annulus the poorer the mixing of the resin and the weaker the holding capacity of the bolt. The thread as described above, however, overcomes these problems to some extent at least by allowing for the bolt to have a reduced wall thickness of, for example, 4 mm (with say an 8 mm pitch) in a bolt of about 34 mm diameter, whilst maintaining a suitable tensile strength. A standard solid bolt of 21.7 mm diameter 2000 mm long, grade 250 Mpa, resin anchored in a 27 mm diameter hole uses 0.4 litres of resin and has a UTS of 18 tonnes. A standard solid bolt of 21.7 diameter 2000 mm long, grade 250 Mpa, resin anchored in a 45 mm diameter hole uses 2.4 litres of resin and has a resin failure of 12 tonnes. A hollow bolt of 41 mm diameter, 4 mm wall, 2000 mm long, grade 250 Mpa, resin anchored in a 45 mm diameter hole uses 0.54 litres of resin and has a UTS of 22 tonnes. The process of chemically anchoring rock bolts is, therefore, more economically viable for hard rock mining techniques using the present invention than has previously been the case. Also, 2945CC the thread formed as described above provides a bolt with an internal thread that is suitable for mounting a number of different devices, such as mine services, drill bits etc.
Turning now to Fig. 11, a multiplicity of the rock bolts 1 are illustrated each secured with resin 114 at spaced apart intervals to the mine roof 115. Each is provided with a corresponding length of chain 122 which supports an elongated service 125 which can be a water supply pipe, an air ventilation supply conduit, a vacuum supply conduit, electric cabling, and the like or some or all of the above. It will be appreciated by those skilled in the art that by suspending such services 125 from the roof 115, the floor of the mine is kept clear for 10 vehicles and other equipment.
oooo o* Also, the injection of chemical through the bolt, or attaching the chemical to an end of the bolt S.as described above, increases the ease by which a bolt may be secured using a chemical S anchor and increases the overall speed at which installation can be achieved compared with previous grouting techniques.
Many modifications and variations may be made to the above described bolts and method of installing the bolts without departing from the spirit and scope of the invention. For example, the installation of one of the above described bolts can also be further simplified by having the 3 20 drive member, described with reference to Fig. 7A, formed integrally with the bolt.
sees The term "comprising" (and grammatical variations thereof) as used herein are used in the inclusive sense of "including" or "having" and not in the exclusive sense of "consisting only of".

Claims (9)

1. A rock bolt comprising a hollow tube closed at its leading end and open at its trailing end, and having a hollow drive means mounted at said trailing end, at least a portion of the interior of said tube being threaded to threadably engage the threaded shank of a support member via said drive means.
2. The bolt as claimed in claim 1 wherein said tube is closed at its leading end to form a resin mixing device.
3. The bolt claimed in claim 1 or 2 wherein said threaded portion is fabricated without decreasing the wall thickness of said tube.
4. The bolt as claimed in any one of claims 1-3 wherein the exterior of said tube is ooaprovided with a plurality of keying deformations. i5. The bolt as claimed in claim 4 wherein the said keying deformations comprise the exterior of said threaded portion.
S.
6. A method of supporting services within a mine, said method comprising the steps of:- i) inserting a plurality of the rock bolts defined in claim 1 each into a corresponding hole drilled in the roof or wall of a mine, ii) threadably engaging the threaded shank of a corresponding support member with each of said plurality of rock bolts via the corresponding drive means, and aiii) engaging each of said services to be supported with said support members. S
7. The method as claimed in claim 6 wherein said services are elongated and are supported by all said support members.
8. The method as claimed in claim 7 wherein said elongated services are selected from the group consisting of a water supply pipe, an air ventilation supply conduit, a vacuum supply conduit, and electric cabling. 2945CC
9. A method of supporting services within a mine, said method being substantially as herein described with reference to the drawings. Dated this 11th day of January 2002. JEFFREY ROBERT FERGUSSON o o oo *o o BY: HODGKINSON OLD McINNES Patent Attorneys for the Applicant r r
AU10149/02A 1994-08-30 2002-01-11 Rock bolt and method of installing mine services Ceased AU759396B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AU10149/02A AU759396B2 (en) 1994-08-30 2002-01-11 Rock bolt and method of installing mine services

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
AUPM7763 1994-08-30
AU22425/99A AU739333B2 (en) 1994-08-30 1999-03-26 A rock bolt and method of installing a rock bolt
AU10149/02A AU759396B2 (en) 1994-08-30 2002-01-11 Rock bolt and method of installing mine services

Related Parent Applications (1)

Application Number Title Priority Date Filing Date
AU22425/99A Division AU739333B2 (en) 1994-08-30 1999-03-26 A rock bolt and method of installing a rock bolt

Publications (2)

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AU1014902A AU1014902A (en) 2002-03-07
AU759396B2 true AU759396B2 (en) 2003-04-17

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AU10149/02A Ceased AU759396B2 (en) 1994-08-30 2002-01-11 Rock bolt and method of installing mine services
AU10150/02A Ceased AU755716B2 (en) 1994-08-30 2002-01-11 Rock bolt with keying deformations
AU10148/02A Ceased AU763585B2 (en) 1994-08-30 2002-01-11 Rock bolt and installing method
AU10147/02A Ceased AU762015B2 (en) 1994-08-30 2002-01-11 Rock bolt and installing method

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AU10150/02A Ceased AU755716B2 (en) 1994-08-30 2002-01-11 Rock bolt with keying deformations
AU10148/02A Ceased AU763585B2 (en) 1994-08-30 2002-01-11 Rock bolt and installing method
AU10147/02A Ceased AU762015B2 (en) 1994-08-30 2002-01-11 Rock bolt and installing method

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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE3342917A1 (en) * 1983-11-17 1985-05-30 Müller & Borggräfe KG, 5820 Gevelsberg Rock anchor with a connection plate provided for the connection of at least one load chain
US5374140A (en) * 1990-07-03 1994-12-20 Standish; Peter N. Drillable ground support bolt
US5636945A (en) * 1992-09-09 1997-06-10 Nes; Oddbjoern Rockbolt

Family Cites Families (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE2538821A1 (en) * 1975-09-01 1977-03-03 Hilti Ag ADHESIVE ANCHORS
US4432682A (en) * 1978-12-04 1984-02-21 Microdot Inc. Threaded fastener assembly
US4601614A (en) * 1984-02-22 1986-07-22 Lane William L Rockbolt
JPS61127910A (en) * 1984-11-26 1986-06-16 株式会社 丸エム製作所 Anchor bolt
GB8507340D0 (en) * 1985-03-21 1985-05-01 Boart Uk Ltd Rock bolting
GB2211260B (en) * 1987-10-20 1991-03-06 Explosifs Prod Chim Improvements in and relating to the installation of tensioned rockbolts
GB2211259B (en) * 1987-10-20 1991-05-29 Explosifs Prod Chim Improvements in and relating to the installation of tensioned rockbolts

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE3342917A1 (en) * 1983-11-17 1985-05-30 Müller & Borggräfe KG, 5820 Gevelsberg Rock anchor with a connection plate provided for the connection of at least one load chain
US5374140A (en) * 1990-07-03 1994-12-20 Standish; Peter N. Drillable ground support bolt
US5636945A (en) * 1992-09-09 1997-06-10 Nes; Oddbjoern Rockbolt

Also Published As

Publication number Publication date
AU755716B2 (en) 2002-12-19
AU1015002A (en) 2002-03-07
AU1014902A (en) 2002-03-07
AU1014702A (en) 2002-03-07
AU762015B2 (en) 2003-06-19
AU763585B2 (en) 2003-07-24
AU1014802A (en) 2002-03-07

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