AU2015252041B2 - Centraliser - Google Patents

Abstract

Abstract A centraliser for use in a rock drill rig is disclosed. The centraliser is adjustable in height, with spacers located between a base portion and a body portion. 12 \14 Fig. 1 Fig. 2

Description

2015252041 03 Nov 2015 2 “CENTRALISER”

Field of the Invention [0001] The present invention relates to a centraliser clamp used within a rock drill rig, such as a face-drilling rock drill used in underground mining.

Background to the Invention [0002] An underground rock drill rig generally has at least one boom on which is mounted a feed rail. The feed rail supports a drill and its associated drill rod.

[0003] The drill is mounted to the rail, so as to be able to move along the length of the rail. When the drill is in an initial position at the rear of the rail, the drill rod is supported at the front of the rail by a bush, which is held in place by a centralising clamp.

[0004] Centralising clamps are generally formed from two pieces, each of which has a semi-circular recess which can locate about one side of the bush. The two pieces can be clamped together using a nut and bolt in order to hold the bush in place in between the two pieces.

[0005] There are some inherent weaknesses in this arrangement. The entire clamping force acts through the bolt, providing significant stress concentrations about the bolt. Away from the line of the bolt, the clamping forces are significantly dissipated, meaning that there can be a propensity for the bush to move or vibrate. Additionally, vibration during use can cause loosening of the nut, exacerbating the problem. Movement of the bush causes a significant increase in the wear rate of the centralising clamp, as well as a loss of accuracy in drilling.

[0006] As the two pieces must be able to move relative to each other, it is only possible to weld one of the pieces in position. This limits stability of the arrangement, and can lead to cracking and fatigue failure. 2015252041 03 Nov 2015 3 [0007] A further limitation of the known arrangement is that the bush is located at a designated height about the rail, being the same height as the drill. Should the rail bend, the location of the bush cannot be adjusted. When this happens, it is necessary to cut away the centraliser clamp and reposition at a new location. This can cause significant down-time for the drill rig.

[0008] The present invention seeks to provide an alternative method of clamping a centralising bush in position.

Summary of the Invention [0009] According to one aspect of the present invention there is provided a centraliser for a locating bush in a drilling rig, the centraliser comprising a centraliser clamp and an associated supporting structure, the centraliser clamp including a body portion having an aperture for receiving a bush, and a base portion which is substantially perpendicular to the bush-receiving aperture, the base portion arranged to be fixed to the supporting structure, whereby the height of the base portion relative to the supporting structure can be adjusted.

[0010] Preferably, the supporting structure includes a top plate onto which the base portion of the clamp can be connected, and at least one spacer located between the top plate and the base portion in order to determine the height of the bush relative to the supporting structure.

[0011] According to a second aspect of the present invention there is provided a centraliser clamp for a locating bush in a drilling rig, the clamp including an aperture for receiving a bush, and a clamping member having a bearing surface, the clamping member being movable relative to the bush-receiving aperture such that the bearing surface can be moved within the bushreceiving aperture in order to secure the bush within the aperture.

[0012] Preferably, the clamping member is movable in a direction substantially perpendicular to a central axis of the bush. 2015252041 03 Nov 2015 4 [0013] It is preferred that the clamping member be moveable by mechanical means. The clamping member may include an internally threaded cylindrical aperture arranged to engage with an externally threaded adjustment bolt, such that rotation of the adjustment bolt causes movement of the clamping member along the bolt.

[0014] In a preferred embodiment, the clamp has a body portion having a substantially cylindrical aperture in which the bush is received, the body portion having a first side opposite a second side, and a clamping member receiving aperture extending internally of the first side of the body portion and an adjustment bolt receiving aperture extending internally of the second side of the body portion.

[0015] Preferably, the clamping member is substantially prismatic. The bearing surface of the clamping member may be bevelled. The arrangement is such that in use the bearing surface is substantially tangential to the bush.

[0016] In a preferred embodiment, the bush has a substantially planar bearing flat arranged to engage with the bearing surface of the clamping member.

Brief Description of the Drawings

It will be convenient to further describe the invention with reference to preferred embodiments of the centraliser clamp of the present invention. Other embodiments are possible, and consequently the particularity of the following discussion is not to be understood as superseding the generality of the preceding description of the invention. In the drawings: [0017] Figure 1 is a schematic view of a face-drilling rock drill rig within which a centraliser clamp in accordance with the present invention may be used; [0018] Figure 2 is a perspective of a centraliser in accordance with the present invention; [0019] Figure 3 is an enlarged perspective of a centraliser clamp within the centraliser of Figure 2; 2015252041 03 Nov 2015 5 [0020] Figure 4 is a cross section through the centraliser clamp of Figure 3; [0021] Figure 5 is a side view of the centraliser clamp of Figure 3, shown from the reverse side; [0022] Figure 6 is a perspective of the centraliser clamp of Figure 3, shown from the reverse side with a bush and pin removed; [0023] Figure 7 is a perspective of a clamping member from within the centraliser of Figure 2; [0024] Figure 8 is a perspective of a bush for use in conjunction with the centraliser of Figure 2; [0025] Figure 9 is a perspective of a second embodiment of a centraliser clamp for use in the centraliser of Figure 2; and [0026] Figure 10 is a perspective of a third embodiment of a centraliser clamp for use in the centraliser of Figure 2.

Detailed Description of Preferred Embodiments [0027] Referring to the Figures, Figure 1 shows a face-drilling rock drill rig 10 as used in underground mining operations. The drill rig 10 includes a boom 12, on which is mounted a rail 14. A drill 16 is mounted to the rail 14, and is arranged to move along the rail 14 under the control of an operator. A drill rod 18 extends away from the drill 16, parallel to the rail 14. A centraliser 20 is located at an outer end of the rail 14, in order to support the outer end of the drill rod 18.

[0028] Figure 2 shows a centraliser 20 having a supporting structure 22 and a centraliser clamp 24. The supporting structure 22 includes a substantially rectangular top plate 26 having a bolt-receiving aperture near each of its corners. The top plate 26 has a substantially flat upper surface which is substantially horizontal when the centraliser 20 and drill rig 10 are in the position shown in Figure 1. 2015252041 03 Nov 2015 6 [0029] The centraliser clamp 24 has a substantially rectangular base portion or base plate 30, having a substantially flat lower surface of similar dimension to the upper surface of the top plate 26. The base plate 30 has bolt-receiving apertures 28 which are aligned with the bolt-receiving apertures of the top plate 26 when the base plate 30 is placed over the top plate 26. Bolts (not shown) can be located within the aligned bolt-receiving apertures in order to fix the centraliser clamp 24 to the supporting structure 22.

[0030] The centraliser 20 includes a spacer 32 located between the top plate 26 of the supporting structure 22 and the base plate 30 of the centraliser clamp 24. The spacer 32 is prismatic, with ends similar in size and shape to the flat surfaces of the top plate 26 and base plate 30. It has apertures aligned with the bolt-receiving apertures 28 of the top plate 26 and base plate 30.

[0031] The effect of the spacer 32 is to alter the height of the centraliser clamp 24 relative to the supporting structure 22. It is envisaged that a number of spacers 32 of differing widths may be provided, with the choice of an appropriate spacer or spacers 32 providing a user with the ability to choose a desired height for the centraliser clamp 24.

[0032] The centraliser clamp 24 can be seen more clearly in Figures 3 to 6.

[0033] The centraliser clamp 24 has a front end 34, a rear end 36, a first side 38 and a second side 40. These can be seen as corresponding to the four sides of the rectangular base plate 30.

[0034] The centraliser clamp 24 includes a body portion 42 which extends upwardly from the base plate 30 abutting the rear end 36. The body portion 42 is prismatic, with its ends being arch-shaped, and has a thickness about one half that of the breadth of the base plate 30.

[0035] The body portion 42 includes a cylindrical bush-receiving aperture 44, arranged to receive a bush 46 such as that of Figure 8. The bush-receiving 2015252041 03 Nov 2015 7 aperture 44 passes from the rear end 36 of the body portion 42 to a front face 48 oriented towards the front end 34 of the centraliser clamp 24.

[0036] Clamping of the bush 46 within the bush-receiving aperture 44 is achieved through use of a clamping member 50. The clamping member 50, which can be seen in Figure 7, is formed from a substantially prismatic member having octagonal ends 52. Each of the ends 52 has two vertical edges 54 representing about 60% of the height of the ends; two horizontal edges 56 having a length about one third of the vertical edges 54; and four diagonal edges 58 disposed at 45% to the vertical edges 54 and horizontal edges 56, each having a length about one half of the vertical edges 54. The clamping member 50 has a first end 62, a second end 64, a top wall 66 extending between the respective top horizontal edges 56 of the ends 52; a bottom wall extending between the respective bottom horizontal edges 56 of the ends 52; two side walls 68 extending between respective vertical edges 54 of the ends 52; two upper diagonal walls 70 extending between respective diagonal edges 58 adjacent the top horizontal edges 56 of the ends 52; and two lower diagonal walls extending between respective diagonal edges 58 adjacent the lower horizontal edges 56 of the ends 52. An internally threaded longitudinal aperture 72 extends through the clamping member 50 from the first end 62 to the second end 64, through the centre of the clamping member 50.

[0037] The clamping member 50 has a bevelled bearing surface 74 located along its top wall 66, extending from the second end 64. The bearing surface 74 extends along about 40% of the top wall 66, and is angled at about 15° relative to the top wall 66. The bearing surface 74 causes a taper of the upper diagonal walls 70 towards the second end 64.

[0038] The body portion 42 of the centraliser clamp 24 includes a clamping member receiving aperture 76, which extends internally of the body portion 42 from the first side 38. The clamping member receiving aperture 76 is sized and shaped so as to receive the clamping member 50 in a loose sliding fit, and positioned such that when the first end 62 of the clamping member 50 is 2015252041 03 Nov 2015 8 generally flush with the first side 38 of the body portion 42, the bearing surface 74 locates substantially tangentially to the bush-receiving aperture 44. The clamping member receiving aperture 76 has an opening 78 within the bushreceiving aperture 44, as can be seen in Figure 6.

[0039] The body portion 42 of the centraliser clamp 24 also includes an adjustment bolt receiving aperture 80 extending from the second side 40 of the body portion 42 beneath the bush-receiving aperture 44 to the clamping member receiving aperture 76. The adjustment bolt receiving aperture 80 is sized and aligned such that when the clamping member 50 is in position within the clamping member receiving aperture 76, the adjustment bolt receiving aperture 80 is aligned with the internally threaded longitudinal aperture 72 of the clamping member 50.

[0040] An externally threaded adjustment bolt 82 can thus be entered through the second side 40 of the body portion 42 and engage the internally threaded longitudinal aperture 72 of the clamping member 50.

[0041] The bush 46 is generally cylindrical. It has an internal bore 84 arranged to receive and support a drill rod 18. The internal bore 84 is tapered at either end of the bush 46, forming introducing regions for ease of assembly.

[0042] The bush 46 has a stepped outer radius, with a smaller radius portion 86 sized to fit loosely within the bush-receiving aperture 44 and a larger radius portion 88 arranged to locate outside the bush-receiving aperture 44, against the rear end 36 of the body portion 42.

[0043] The bush 46 has a bearing flat 90 located on the smaller radius portion 86. The bearing flat 90 comprises a portion of an outer surface of the bush 46 which is substantially planar, and parallel to a central axis of the bush 46.

[0044] In use, the supporting structure 22 of the centraliser 20 is welded to the boom 12. A drill 16 is located on the rail 14. A centraliser clamp 24 is then 2015252041 03 Nov 2015 9 bolted to the supporting structure 22, with appropriate spacers 32 being used to ensure that the bush 46 is axially aligned with the drill 16.

[0045] When the bush 46 is located within the bush-receiving aperture 44, it can be rotated until the bearing flat 90 is positioned adjacent the opening 78. The clamping member 50 can be inserted into the receiving aperture 76 from the first side 38 of the centraliser clamp 24, and the adjustment bolt 82 inserted into the adjustment bolt receiving aperture 80 from the second side 40. Once the adjustment bolt 82 engages the internally threaded longitudinal aperture 72 of the clamping member 50, rotation of the adjustment bolt 82 translates to lateral movement of the clamping member 50.

[0046] The adjustment bolt 82 is rotated to cause movement of the clamping member 50 into the body portion 42, and of the bearing surface 74 into the bush-receiving aperture 44. The bearing surface 74 acts against the bearing flat 90 of the bush 46, clamping the bush 46 into position within the bushreceiving aperture 44. The action is similar to a wedging action, allowing for tight clamping of the bush 46 into position despite variances in surface machining and the like. Should slight loosening occur, the clamping member 50 can be readily re-tightened.

[0047] An access hole 92 is provided in the body portion 42, passing from the front end 34 to the rear end 36 through the base of the clamping member receiving aperture 76. The access hole is provided so that if grit or fines particles become trapped within the receiving aperture 76, they can be readily cleaned out.

[0048] It will be appreciated that the shape of the centraliser clamp 24 can be adjusted to suit particular drill rigs 10 without departing from the scope of the present invention. Figures 9 and 10 show two such centraliser clamps 24, with like numerals referring to like features.

[0049] Modifications and variations as would be apparent to a skilled addressee are deemed to be within the scope of the present invention.

Claims (10)

1. Claims

   1. A centraliser for a locating bush in a drilling rig, the centraliser comprising a centraliser clamp and an associated supporting structure, the centraliser clamp including a body portion having an aperture for receiving a bush, and a base portion oriented substantially perpendicular to the bushreceiving aperture, the base portion arranged to be fixed to the supporting structure, whereby the height of the base portion relative to the supporting structure can be adjusted.
2. 2. A centraliser as claimed in claim 1, wherein the supporting structure includes a top plate to which the base portion of the clamp can be connected, and at least one spacer located between the top plate and the base portion in order to determine the height of the bush relative to the supporting structure.
3. 3. A centraliser as claimed in any preceding claim, the centraliser having a centraliser clamp including an aperture for receiving a bush, and a clamping member having a bearing surface, the clamping member being movable relative to the bush-receiving aperture such that the bearing surface can be moved within the bush-receiving aperture in order to secure the bush within the aperture.
4. 4. A centraliser as claimed in claim 3, wherein the clamping member is movable in a direction substantially perpendicular to a central axis of the bush.
5. 5. A centraliser as claimed in claim 3, wherein the clamping member includes an internally threaded cylindrical aperture arranged to engage with an externally threaded adjustment bolt, such that rotation of the adjustment bolt causes movement of the clamping member along the bolt.
6. 6. A centraliser as claimed in claim 5, wherein the centraliser clamp has a body portion having a substantially cylindrical aperture in which the bush is received, the body portion having a first side opposite a second side, and a clamping member receiving aperture internally of the first side of the body portion and an adjustment bolt receiving aperture internally of the second side of the body portion.
7. 7. A centraliser as claimed in one of claims 3 to 6, wherein the clamping member is substantially prismatic.
8. 8. A centraliser as claimed in claim 7, wherein the bearing surface is bevelled.
9. 9. A centraliser as claimed in any pone of claims 3 to 8, wherein the bush has a substantially planar bearing flat arranged to engage with the bearing surface of the clamping member.
10. 10. A centraliser as claimed in any one of claims 3 to 9, wherein the bearing surface of the clamping member is substantially tangential to the bush.